Doc. no. N4385
Date: 2015-04-10
Project: Programming Language C++
Reply to: Marshall Clow <lwgchair@gmail.com>

C++ Standard Library Closed Issues List (Revision R92)

Revised 2015-04-10 at 03:04:29 UTC

Reference ISO/IEC IS 14882:2014(E)

Also see:

This document contains only library issues which have been closed by the Library Working Group as duplicates or not defects. That is, issues which have a status of Dup or NAD. See the Library Active Issues List active issues and more information. See the Library Defect Reports List for issues considered defects. The introductory material in that document also applies to this document.

Revision History

Closed Issues


2. Auto_ptr conversions effects incorrect

Section: X [auto.ptr.conv] Status: NAD Submitter: Nathan Myers Opened: 1997-12-04 Last modified: 2015-04-08

View all issues with NAD status.

Discussion:

Paragraph 1 in "Effects", says "Calls p->release()" where it clearly must be "Calls p.release()". (As it is, it seems to require using auto_ptr<>::operator-> to refer to X::release, assuming that exists.)

Proposed resolution:

Change 20.10.4.3 [meta.unary.prop] paragraph 1 Effects from "Calls p->release()" to "Calls p.release()".

Rationale:

Not a defect: the proposed change is already found in the standard. [Originally classified as a defect, later reclassified.]


4. Basic_string size_type and difference_type should be implementation defined

Section: 21.4 [basic.string] Status: NAD Submitter: Beman Dawes Opened: 1997-11-16 Last modified: 2015-04-08

View other active issues in [basic.string].

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Discussion:

In Morristown we changed the size_type and difference_type typedefs for all the other containers to implementation defined with a reference to 23.2 [container.requirements]. This should probably also have been done for strings.

Rationale:

Not a defect. [Originally classified as a defect, later reclassified.] basic_string, unlike the other standard library template containers, is severely constrained by its use of char_traits. Those types are dictated by the traits class, and are far from implementation defined.


6. File position not an offset unimplementable

Section: 27.5.4 [fpos] Status: NAD Submitter: Matt Austern Opened: 1997-12-15 Last modified: 2015-04-08

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Discussion:

Table 88, in I/O, is too strict; it's unimplementable on systems where a file position isn't just an offset. It also never says just what fpos<> is really supposed to be. [Here's my summary, which Jerry agrees is more or less accurate. "I think I now know what the class really is, at this point: it's a magic cookie that encapsulates an mbstate_t and a file position (possibly represented as an fpos_t), it has syntactic support for pointer-like arithmetic, and implementors are required to have real, not just syntactic, support for arithmetic." This isn't standardese, of course.]

Rationale:

Not a defect. The LWG believes that the Standard is already clear, and that the above summary is what the Standard in effect says.


10. Codecvt<>::do unclear

Section: 22.4.1.5 [locale.codecvt.byname] Status: Dup Submitter: Matt Austern Opened: 1998-01-14 Last modified: 2015-04-08

View all other issues in [locale.codecvt.byname].

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Duplicate of: 19

Discussion:

Section 22.2.1.5.2 says that codecvt<>::do_in and do_out should return the value noconv if "no conversion was needed". However, I don't see anything anywhere that defines what it means for a conversion to be needed or not needed. I can think of several circumstances where one might plausibly think that a conversion is not "needed", but I don't know which one is intended here.

Rationale:


12. Way objects hold allocators unclear

Section: 17.6.3.5 [allocator.requirements] Status: NAD Submitter: Angelika Langer Opened: 1998-02-23 Last modified: 2015-04-08

View other active issues in [allocator.requirements].

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Discussion:

I couldn't find a statement in the standard saying whether the allocator object held by a container is held as a copy of the constructor argument or whether a pointer of reference is maintained internal. There is an according statement for compare objects and how they are maintained by the associative containers, but I couldn't find anything regarding allocators.

Did I overlook it? Is it an open issue or known defect? Or is it deliberately left unspecified?

Rationale:

Not a defect. The LWG believes that the Standard is already clear.  See 23.2 [container.requirements], paragraph 8.


43. Locale table correction

Section: 22.4.1.5 [locale.codecvt.byname] Status: Dup Submitter: Brendan Kehoe Opened: 1998-06-01 Last modified: 2015-04-08

View all other issues in [locale.codecvt.byname].

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Duplicate of: 33

Discussion:

Rationale:


45. Stringstreams read/write pointers initial position unclear

Section: 27.8.4 [ostringstream] Status: NAD Submitter: Matthias Mueller Opened: 1998-05-27 Last modified: 2015-04-08

View all other issues in [ostringstream].

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Discussion:

In a comp.lang.c++.moderated Matthias Mueller wrote:

"We are not sure how to interpret the CD2 (see 27.3 [iostream.forward], 27.8.4.1 [ostringstream.cons], 27.8.2.1 [stringbuf.cons]) with respect to the question as to what the correct initial positions of the write and  read pointers of a stringstream should be."

"Is it the same to output two strings or to initialize the stringstream with the first and to output the second?"

[PJ Plauger, Bjarne Stroustrup, Randy Smithey, Sean Corfield, and Jerry Schwarz have all offered opinions; see reflector messages lib-6518, 6519, 6520, 6521, 6523, 6524.]

Rationale:

The LWG believes the Standard is correct as written. The behavior of stringstreams is consistent with fstreams, and there is a constructor which can be used to obtain the desired effect. This behavior is known to be different from strstreams.


58. Extracting a char from a wide-oriented stream

Section: 27.7.2.2.3 [istream::extractors] Status: NAD Submitter: Matt Austern Opened: 1998-07-01 Last modified: 2015-04-08

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Discussion:

27.6.1.2.3 has member functions for extraction of signed char and unsigned char, both singly and as strings. However, it doesn't say what it means to extract a char from a basic_streambuf<charT, Traits>.

basic_streambuf, after all, has no members to extract a char, so basic_istream must somehow convert from charT to signed char or unsigned char. The standard doesn't say how it is to perform that conversion.

Rationale:

The Standard is correct as written. There is no such extractor and this is the intent of the LWG.


65. Underspecification of strstreambuf::seekoff

Section: D.7.1.3 [depr.strstreambuf.virtuals] Status: NAD Submitter: Matt Austern Opened: 1998-08-18 Last modified: 2015-04-08

View all other issues in [depr.strstreambuf.virtuals].

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Discussion:

The standard says how this member function affects the current stream position. (gptr or pptr) However, it does not say how this member function affects the beginning and end of the get/put area.

This is an issue when seekoff is used to position the get pointer beyond the end of the current read area. (Which is legal. This is implicit in the definition of seekhigh in D.7.1, paragraph 4.)

Rationale:

The LWG agrees that seekoff() is underspecified, but does not wish to invest effort in this deprecated feature.


67. Setw useless for strings

Section: 21.4.8.9 [string.io] Status: Dup Submitter: Steve Clamage Opened: 1998-07-09 Last modified: 2015-04-08

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Duplicate of: 25

Discussion:

In a comp.std.c++ posting Michel Michaud wrote: What should be output by:

   string text("Hello");
   cout << '[' << setw(10) << right << text << ']';

Shouldn't it be:

   [     Hello]

Another person replied: Actually, according to the FDIS, the width of the field should be the minimum of width and the length of the string, so the output shouldn't have any padding. I think that this is a typo, however, and that what is wanted is the maximum of the two. (As written, setw is useless for strings. If that had been the intent, one wouldn't expect them to have mentioned using its value.)

It's worth pointing out that this is a recent correction anyway; IIRC, earlier versions of the draft forgot to mention formatting parameters whatsoever.

Rationale:


72. Do_convert phantom member function

Section: 22.4.1.4 [locale.codecvt] Status: Dup Submitter: Nathan Myers Opened: 1998-08-24 Last modified: 2015-04-08

View all other issues in [locale.codecvt].

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Duplicate of: 24

Discussion:

In 22.4.1.4 [locale.codecvt] par 3, and in 22.4.1.4.2 [locale.codecvt.virtuals] par 8, a nonexistent member function "do_convert" is mentioned. This member was replaced with "do_in" and "do_out", the proper referents in the contexts above.

Rationale:


73. is_open should be const

Section: 27.9.1 [fstreams] Status: NAD Submitter: Matt Austern Opened: 1998-08-27 Last modified: 2015-04-08

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Discussion:

Classes basic_ifstream, basic_ofstream, and basic_fstream all have a member function is_open. It should be a const member function, since it does nothing but call one of basic_filebuf's const member functions.

Rationale:

Not a defect. This is a deliberate feature; const streams would be meaningless.


77. Valarray operator[] const returning value

Section: 26.6.2.4 [valarray.access] Status: Dup Submitter: Levente Farkas Opened: 1998-09-09 Last modified: 2015-04-08

View all other issues in [valarray.access].

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Duplicate of: 389

Discussion:

valarray:

    T operator[] (size_t) const;

why not

    const T& operator[] (size_t) const;

as in vector ???

One can't copy even from a const valarray eg:

    memcpy(ptr, &v[0], v.size() * sizeof(double));

[I] find this bug in valarray is very difficult.

Rationale:

The LWG believes that the interface was deliberately designed that way. That is what valarray was designed to do; that's where the "value array" name comes from. LWG members further comment that "we don't want valarray to be a full STL container." 26.6.2.4 [valarray.access] specifies properties that indicate "an absence of aliasing" for non-constant arrays; this allows optimizations, including special hardware optimizations, that are not otherwise possible.


81. Wrong declaration of slice operations

Section: 26.6.5 [template.slice.array], 26.6.7 [template.gslice.array], 26.6.8 [template.mask.array], 26.6.9 [template.indirect.array] Status: NAD Submitter: Nico Josuttis Opened: 1998-09-29 Last modified: 2015-04-08

View all other issues in [template.slice.array].

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Discussion:

Isn't the definition of copy constructor and assignment operators wrong?        Instead of

      slice_array(const slice_array&); 
      slice_array& operator=(const slice_array&);

IMHO they have to be

      slice_array(const slice_array<T>&); 
      slice_array& operator=(const slice_array<T>&);

Same for gslice_array.

Rationale:

Not a defect. The Standard is correct as written.


82. Missing constant for set elements

Section: 23.2.4 [associative.reqmts] Status: NAD Submitter: Nico Josuttis Opened: 1998-09-29 Last modified: 2015-04-08

View other active issues in [associative.reqmts].

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Discussion:

Paragraph 5 specifies:

For set and multiset the value type is the same as the key type. For map and multimap it is equal to pair<const Key, T>.

Strictly speaking, this is not correct because for set and multiset the value type is the same as the constant key type.

Rationale:

Not a defect. The Standard is correct as written; it uses a different mechanism (const &) for set and multiset. See issue 103 for a related issue.


84. Ambiguity with string::insert()

Section: 21.4.5 [string.access] Status: NAD Submitter: Nico Josuttis Opened: 1998-09-29 Last modified: 2015-04-08

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Discussion:

If I try

    s.insert(0,1,' ');

  I get an nasty ambiguity. It might be

    s.insert((size_type)0,(size_type)1,(charT)' ');

which inserts 1 space character at position 0, or

    s.insert((char*)0,(size_type)1,(charT)' ')

which inserts 1 space character at iterator/address 0 (bingo!), or

    s.insert((char*)0, (InputIterator)1, (InputIterator)' ')

which normally inserts characters from iterator 1 to iterator ' '. But according to 23.1.1.9 (the "do the right thing" fix) it is equivalent to the second. However, it is still ambiguous, because of course I mean the first!

Rationale:

Not a defect. The LWG believes this is a "genetic misfortune" inherent in the design of string and thus not a defect in the Standard as such .


85. String char types

Section: 21 [strings] Status: NAD Submitter: Nico Josuttis Opened: 1998-09-29 Last modified: 2015-04-08

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Discussion:

The standard seems not to require that charT is equivalent to traits::char_type. So, what happens if charT is not equivalent to traits::char_type?

Rationale:

There is already wording in 21.2 [char.traits] paragraph 3 that requires them to be the same.


87. Error in description of string::compare()

Section: 21.4.6.8 [string::swap] Status: Dup Submitter: Nico Josuttis Opened: 1998-09-29 Last modified: 2015-04-08

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Duplicate of: 5

Discussion:

The following compare() description is obviously a bug:

int compare(size_type pos, size_type n1, 
            charT *s, size_type n2 = npos) const;

because without passing n2 it should compare up to the end of the string instead of comparing npos characters (which throws an exception)

Rationale:


88. Inconsistency between string::insert() and string::append()

Section: 21.4.6.4 [string::insert], 21.4.6.2 [string::append] Status: NAD Submitter: Nico Josuttis Opened: 1998-09-29 Last modified: 2015-04-08

View all other issues in [string::insert].

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Discussion:

Why does

  template<class InputIterator> 
       basic_string& append(InputIterator first, InputIterator last);

return a string, while

  template<class InputIterator> 
       void insert(iterator p, InputIterator first, InputIterator last);

returns nothing ?

Rationale:

The LWG believes this stylistic inconsistency is not sufficiently serious to constitute a defect.


89. Missing throw specification for string::insert() and string::replace()

Section: 21.4.6.4 [string::insert], 21.4.6.6 [string::replace] Status: Dup Submitter: Nico Josuttis Opened: 1998-09-29 Last modified: 2015-04-08

View all other issues in [string::insert].

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Duplicate of: 83

Discussion:

All insert() and replace() members for strings with an iterator as first argument lack a throw specification. The throw specification should probably be: length_error if size exceeds maximum.

Rationale:

Considered a duplicate because it will be solved by the resolution of issue 83.


93. Incomplete Valarray Subset Definitions

Section: 26.6 [numarray] Status: NAD Submitter: Nico Josuttis Opened: 1998-09-29 Last modified: 2015-04-08

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Discussion:

You can easily create subsets, but you can't easily combine them with other subsets. Unfortunately, you almost always needs an explicit type conversion to valarray. This is because the standard does not specify that valarray subsets provide the same operations as valarrays.

For example, to multiply two subsets and assign the result to a third subset, you can't write the following:

va[slice(0,4,3)] = va[slice(1,4,3)] * va[slice(2,4,3)];

Instead, you have to code as follows:

va[slice(0,4,3)] = static_cast<valarray<double> >(va[slice(1,4,3)]) * 
                   static_cast<valarray<double> >(va[slice(2,4,3)]);

This is tedious and error-prone. Even worse, it costs performance because each cast creates a temporary objects, which could be avoided without the cast.

Proposed resolution:

Extend all valarray subset types so that they offer all valarray operations.

Rationale:

This is not a defect in the Standard; it is a request for an extension.


94. May library implementors add template parameters to Standard Library classes?

Section: 17.6.5 [conforming] Status: NAD Submitter: Matt Austern Opened: 1998-01-22 Last modified: 2015-04-08

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Discussion:

Is it a permitted extension for library implementors to add template parameters to standard library classes, provided that those extra parameters have defaults? For example, instead of defining template <class T, class Alloc = allocator<T> > class vector; defining it as template <class T, class Alloc = allocator<T>, int N = 1> class vector;

The standard may well already allow this (I can't think of any way that this extension could break a conforming program, considering that users are not permitted to forward-declare standard library components), but it ought to be explicitly permitted or forbidden.

comment from Steve Cleary via comp.std.c++:

I disagree [with the proposed resolution] for the following reason: consider user library code with template template parameters. For example, a user library object may be templated on the type of underlying sequence storage to use (deque/list/vector), since these classes all take the same number and type of template parameters; this would allow the user to determine the performance tradeoffs of the user library object. A similar example is a user library object templated on the type of underlying set storage (set/multiset) or map storage (map/multimap), which would allow users to change (within reason) the semantic meanings of operations on that object.

I think that additional template parameters should be forbidden in the Standard classes. Library writers don't lose any expressive power, and can still offer extensions because additional template parameters may be provided by a non-Standard implementation class:

 
   template <class T, class Allocator = allocator<T>, int N = 1>
   class __vector
   { ... };
   template <class T, class Allocator = allocator<T> >
   class vector: public __vector<T, Allocator>
   { ... };

Proposed resolution:

Add a new subclause [presumably 17.4.4.9] following 17.6.5.12 [res.on.exception.handling]:

17.4.4.9 Template Parameters

A specialization of a template class described in the C++ Standard Library behaves the same as if the implementation declares no additional template parameters.

Footnote: Additional template parameters with default values are thus permitted.

Add "template parameters" to the list of subclauses at the end of 17.6.5 [conforming] paragraph 1.

[Kona: The LWG agreed the standard needs clarification. After discussion with John Spicer, it seems added template parameters can be detected by a program using template-template parameters. A straw vote - "should implementors be allowed to add template parameters?" found no consensus ; 5 - yes, 7 - no.]

Rationale:

There is no ambiguity; the standard is clear as written. Library implementors are not permitted to add template parameters to standard library classes. This does not fall under the "as if" rule, so it would be permitted only if the standard gave explicit license for implementors to do this. This would require a change in the standard.

The LWG decided against making this change, because it would break user code involving template template parameters or specializations of standard library class templates.


95. Members added by the implementation

Section: 17.6.5.5 [member.functions] Status: NAD Submitter: AFNOR Opened: 1998-10-07 Last modified: 2015-04-08

View all other issues in [member.functions].

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Discussion:

In 17.3.4.4/2 vs 17.3.4.7/0 there is a hole; an implementation could add virtual members a base class and break user derived classes.

Example:

// implementation code:
struct _Base { // _Base is in the implementer namespace
        virtual void foo ();
};
class vector : _Base // deriving from a class is allowed
{ ... };

// user code:
class vector_checking : public vector 
{
        void foo (); // don't want to override _Base::foo () as the 
                     // user doesn't know about _Base::foo ()
};

Proposed resolution:

Clarify the wording to make the example illegal.

Rationale:

This is not a defect in the Standard.  The example is already illegal.  See 17.6.5.5 [member.functions] paragraph 2.


96. Vector<bool> is not a container

Section: 23.3.6 [vector] Status: NAD Submitter: AFNOR Opened: 1998-10-07 Last modified: 2015-04-08

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Discussion:

vector<bool> is not a container as its reference and pointer types are not references and pointers.

Also it forces everyone to have a space optimization instead of a speed one.

See also: 99-0008 == N1185 Vector<bool> is Nonconforming, Forces Optimization Choice.

[In Santa Cruz the LWG felt that this was Not A Defect.]

[In Dublin many present felt that failure to meet Container requirements was a defect. There was disagreement as to whether or not the optimization requirements constituted a defect.]

[The LWG looked at the following resolutions in some detail:
     * Not A Defect.
     * Add a note explaining that vector<bool> does not meet Container requirements.
     * Remove vector<bool>.
     * Add a new category of container requirements which vector<bool> would meet.
     * Rename vector<bool>.

No alternative had strong, wide-spread, support and every alternative had at least one "over my dead body" response.

There was also mention of a transition scheme something like (1) add vector_bool and deprecate vector<bool> in the next standard. (2) Remove vector<bool> in the following standard.]

[Modifying container requirements to permit returning proxies (thus allowing container requirements conforming vector<bool>) was also discussed.]

[It was also noted that there is a partial but ugly workaround in that vector<bool> may be further specialized with a customer allocator.]

[Kona: Herb Sutter presented his paper J16/99-0035==WG21/N1211, vector<bool>: More Problems, Better Solutions. Much discussion of a two step approach: a) deprecate, b) provide replacement under a new name. LWG straw vote on that: 1-favor, 11-could live with, 2-over my dead body. This resolution was mentioned in the LWG report to the full committee, where several additional committee members indicated over-my-dead-body positions.]

Discussed at Lillehammer. General agreement that we should deprecate vector<bool> and introduce this functionality under a different name, e.g. bit_vector. This might make it possible to remove the vector<bool> specialization in the standard that comes after C++0x. There was also a suggestion that in C++0x we could additional say that it's implementation defined whether vector<bool> refers to the specialization or to the primary template, but there wasn't general agreement that this was a good idea.

We need a paper for the new bit_vector class.

[ Batavia: ]

The LWG feels we need something closer to SGI's bitvector to ease migration from vector<bool>. Although some of the funcitonality from N2050 could well be used in such a template. The concern is easing the API migration for those users who want to continue using a bit-packed container. Alan and Beman to work.

[ Post Summit Alisdair adds: ]

vector<bool> is now a conforming container under the revised terms of C++0x, which supports containers of proxies.

Recommend NAD.

Two issues remain:

i/ premature optimization in the specification. There is still some sentiment that deprecation is the correct way to go, although it is still not clear what it would mean to deprecate a single specialization of a template.

Recommend: Create a new issue for the discussion, leave as Open.

ii/ Request for a new bitvector class to guarantee the optimization, perhaps with a better tuned interface.

This is a clear extension request that may be handled via a future TR.

[ Batavia (2009-05): ]

We note that most of this issue has become moot over time, and agree with Alisdair's recommendations. Move to NAD Future for reconsideration of part (ii).

[ 2009-07-29 Alisdair reopens: ]

This infamous issue was closed as NAD Future when concepts introduced support for proxy iterators, so the only remaining requirement was to provide a better type to support bitsets of dynamic length. I fear we must re-open this issue until the post-concept form of iterators is available, and hopefully will support the necessary proxy functionality to allow us to close this issue as NAD.

I recommend we spawn a separate issue (1184) requesting a dynamic length bitset and pre-emptively file it as NAD Future. It is difficult to resolve #96 when it effectively contains two separate sub-issues.

[ 2009-10 Santa Cruz: ]

Mark as NAD, and give rationale.

Proposed resolution:

We now have: N2050 and N2160.

Rationale:

We want to support proxy iterators but that is going to be separate work. Don't want to see this issue come back in these kinds of terms. We're interested in a separate container, and proxy iterators, but both of those are separate issues.

We've looked at a lot of ways to fix this that would be close to this, but those things would break existing code. Attempts to fix this directly have not been tractable, and removing it has not been tractable. Therefore we are closing.


97. Insert inconsistent definition

Section: 23 [containers] Status: NAD Submitter: AFNOR Opened: 1998-10-07 Last modified: 2015-04-08

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Discussion:

insert(iterator, const value_type&) is defined both on sequences and on set, with unrelated semantics: insert here (in sequences), and insert with hint (in associative containers). They should have different names (B.S. says: do not abuse overloading).

Rationale:

This is not a defect in the Standard. It is a genetic misfortune of the design, for better or for worse.


99. Reverse_iterator comparisons completely wrong

Section: 24.5.1.3.13 [reverse.iter.op==] Status: NAD Submitter: AFNOR Opened: 1998-10-07 Last modified: 2015-04-08

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Discussion:

The <, >, <=, >= comparison operator are wrong: they return the opposite of what they should.

Note: same problem in CD2, these were not even defined in CD1. SGI STL code is correct; this problem is known since the Morristown meeting but there it was too late

Rationale:

This is not a defect in the Standard. A careful reading shows the Standard is correct as written. A review of several implementations show that they implement exactly what the Standard says.


100. Insert iterators/ostream_iterators overconstrained

Section: 24.5.2 [insert.iterators], 24.6.4 [ostreambuf.iterator] Status: NAD Submitter: AFNOR Opened: 1998-10-07 Last modified: 2015-04-08

View all other issues in [insert.iterators].

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Discussion:

Overspecified For an insert iterator it, the expression *it is required to return a reference to it. This is a simple possible implementation, but as the SGI STL documentation says, not the only one, and the user should not assume that this is the case.

Rationale:

The LWG believes this causes no harm and is not a defect in the standard. The only example anyone could come up with caused some incorrect code to work, rather than the other way around.


101. No way to free storage for vector and deque

Section: 23.3.6 [vector], 23.3.2 [array] Status: NAD Editorial Submitter: AFNOR Opened: 1998-10-07 Last modified: 2015-04-08

View all other issues in [vector].

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Discussion:

Reserve can not free storage, unlike string::reserve

[ 2010-02-13 Alisdair adds: ]

This issue has been revisited and addressed (755, 850). This issues should be reclassified to NAD Editorial to reflect this action.

Rationale:

This is not a defect in the Standard. The LWG has considered this issue in the past and sees no need to change the Standard. Deque has no reserve() member function. For vector, shrink-to-fit can be expressed in a single line of code (where v is vector<T>):

vector<T>(v).swap(v);  // shrink-to-fit v


102. Bug in insert range in associative containers

Section: 23.2.4 [associative.reqmts] Status: Dup Submitter: AFNOR Opened: 1998-10-07 Last modified: 2015-04-08

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Duplicate of: 264

Discussion:

Table 69 of Containers say that a.insert(i,j) is linear if [i, j) is ordered. It seems impossible to implement, as it means that if [i, j) = [x], insert in an associative container is O(1)!

Proposed resolution:

N+log (size()) if [i,j) is sorted according to value_comp()

Rationale:

Subsumed by issue 264.


104. Description of basic_string::operator[] is unclear

Section: 21.4.4 [string.capacity] Status: NAD Submitter: AFNOR Opened: 1998-10-07 Last modified: 2015-04-08

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Discussion:

It is not clear that undefined behavior applies when pos == size () for the non const version.

Proposed resolution:

Rewrite as: Otherwise, if pos > size () or pos == size () and the non-const version is used, then the behavior is undefined.

Rationale:

The Standard is correct. The proposed resolution already appears in the Standard.


105. fstream ctors argument types desired

Section: 27.9 [file.streams] Status: Dup Submitter: AFNOR Opened: 1998-10-07 Last modified: 2015-04-08

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Duplicate of: 454

Discussion:

fstream ctors take a const char* instead of string.
fstream ctors can't take wchar_t

An extension to add a const wchar_t* to fstream would make the implementation non conforming.

Rationale:

This is not a defect in the Standard. It might be an interesting extension for the next Standard.


107. Valarray constructor is strange

Section: 26.6.2 [template.valarray] Status: NAD Submitter: AFNOR Opened: 1998-10-07 Last modified: 2015-04-08

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Discussion:

The order of the arguments is (elem, size) instead of the normal (size, elem) in the rest of the library. Since elem often has an integral or floating point type, both types are convertible to each other and reversing them leads to a well formed program.

Proposed resolution:

Inverting the arguments could silently break programs. Introduce the two signatures (const T&, size_t) and (size_t, const T&), but make the one we do not want private so errors result in a diagnosed access violation. This technique can also be applied to STL containers.

Rationale:

The LWG believes that while the order of arguments is unfortunate, it does not constitute a defect in the standard. The LWG believes that the proposed solution will not work for valarray<size_t> and perhaps other cases.


111. istreambuf_iterator::equal overspecified, inefficient

Section: 24.6.3.5 [istreambuf.iterator::equal] Status: NAD Submitter: Nathan Myers Opened: 1998-10-15 Last modified: 2015-04-08

View all other issues in [istreambuf.iterator::equal].

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Discussion:

The member istreambuf_iterator<>::equal is specified to be unnecessarily inefficient. While this does not affect the efficiency of conforming implementations of iostreams, because they can "reach into" the iterators and bypass this function, it does affect users who use istreambuf_iterators.

The inefficiency results from a too-scrupulous definition, which requires a "true" result if neither iterator is at eof. In practice these iterators can only usefully be compared with the "eof" value, so the extra test implied provides no benefit, but slows down users' code.

The solution is to weaken the requirement on the function to return true only if both iterators are at eof.

[ Summit: ]

Reopened by Alisdair.

[ Post Summit Daniel adds: ]

Recommend NAD. The proposed wording would violate the axioms of concept requirement EqualityComparable axioms as part of concept InputIterator and more specifically it would violate the explicit wording of 24.2.3 [input.iterators]/7:

If two iterators a and b of the same type are equal, then either a and b are both dereferenceable or else neither is dereferenceable.

[ 2009-07 Frankfurt ]

Agree NAD.

Proposed resolution:

Replace 24.6.3.5 [istreambuf.iterator::equal], paragraph 1,

-1- Returns: true if and only if both iterators are at end-of-stream, or neither is at end-of-stream, regardless of what streambuf object they use.

with

-1- Returns: true if and only if both iterators are at end-of-stream, regardless of what streambuf object they use.

Rationale:

It is not clear that this is a genuine defect. Additionally, the LWG was reluctant to make a change that would result in operator== not being a equivalence relation. One consequence of this change is that an algorithm that's passed the range [i, i) would no longer treat it as an empty range.


113. Missing/extra iostream sync semantics

Section: 27.7.2.1 [istream], 27.7.2.3 [istream.unformatted] Status: NAD Submitter: Steve Clamage Opened: 1998-10-13 Last modified: 2015-04-08

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Discussion:

In 27.6.1.1, class basic_istream has a member function sync, described in 27.6.1.3, paragraph 36.

Following the chain of definitions, I find that the various sync functions have defined semantics for output streams, but no semantics for input streams. On the other hand, basic_ostream has no sync function.

The sync function should at minimum be added to basic_ostream, for internal consistency.

A larger question is whether sync should have assigned semantics for input streams.

Classic iostreams said streambuf::sync flushes pending output and attempts to return unread input characters to the source. It is a protected member function. The filebuf version (which is public) has that behavior (it backs up the read pointer). Class strstreambuf does not override streambuf::sync, and so sync can't be called on a strstream.

If we can add corresponding semantics to the various sync functions, we should. If not, we should remove sync from basic_istream.

Rationale:

A sync function is not needed in basic_ostream because the flush function provides the desired functionality.

As for the other points, the LWG finds the standard correct as written.


116. bitset cannot be constructed with a const char*

Section: 20.6 [template.bitset] Status: Dup Submitter: Judy Ward Opened: 1998-11-06 Last modified: 2015-04-08

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Duplicate of: 778

Discussion:

The following code does not compile with the EDG compiler:

#include <bitset>
using namespace std;
bitset<32> b("111111111");

If you cast the ctor argument to a string, i.e.:

bitset<32> b(string("111111111"));

then it will compile. The reason is that bitset has the following templatized constructor:

template <class charT, class traits, class Allocator>
explicit bitset (const basic_string<charT, traits, Allocator>& str, ...);

According to the compiler vendor, Steve Adamcyk at EDG, the user cannot pass this template constructor a const char* and expect a conversion to basic_string. The reason is "When you have a template constructor, it can get used in contexts where type deduction can be done. Type deduction basically comes up with exact matches, not ones involving conversions."

I don't think the intention when this constructor became templatized was for construction from a const char* to no longer work.

Proposed resolution:

Add to 20.6 [template.bitset] a bitset constructor declaration

explicit bitset(const char*);

and in Section 20.6.1 [bitset.cons] add:

explicit bitset(const char* str);

Effects:
    Calls bitset((string) str, 0, string::npos);

Rationale:

Although the problem is real, the standard is designed that way so it is not a defect. Education is the immediate workaround. A future standard may wish to consider the Proposed Resolution as an extension.


121. Detailed definition for ctype<wchar_t> specialization

Section: 22.3.1.1.1 [locale.category] Status: NAD Submitter: Judy Ward Opened: 1998-12-15 Last modified: 2015-04-08

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Discussion:

Section 22.1.1.1.1 has the following listed in Table 51: ctype<char> , ctype<wchar_t>.

Also Section 22.4.1.1 [locale.ctype] says:

The instantiations required in Table 51 (22.1.1.1.1) namely ctype<char> and ctype<wchar_t> , implement character classing appropriate to the implementation's native character set.

However, Section 22.4.1.3 [facet.ctype.special] only has a detailed description of the ctype<char> specialization, not the ctype<wchar_t> specialization.

Proposed resolution:

Add the ctype<wchar_t> detailed class description to Section 22.4.1.3 [facet.ctype.special].

Rationale:

Specialization for wchar_t is not needed since the default is acceptable.


128. Need open_mode() function for file stream, string streams, file buffers, and string  buffers

Section: 27.8 [string.streams], 27.9 [file.streams] Status: NAD Submitter: Angelika Langer Opened: 1999-02-22 Last modified: 2015-04-08

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Discussion:

The following question came from Thorsten Herlemann:

You can set a mode when constructing or opening a file-stream or filebuf, e.g. ios::in, ios::out, ios::binary, ... But how can I get that mode later on, e.g. in my own operator << or operator >> or when I want to check whether a file-stream or file-buffer object passed as parameter is opened for input or output or binary? Is there no possibility? Is this a design-error in the standard C++ library?

It is indeed impossible to find out what a stream's or stream buffer's open mode is, and without that knowledge you don't know how certain operations behave. Just think of the append mode.

Both streams and stream buffers should have a mode() function that returns the current open mode setting.

[ post Bellevue: Alisdair requested to re-Open. ]

[ 2009-07 Frankfurt ]

Neither Howard nor Bill has received a customer request for this.

No consensus for change. The programmer can save this information to the side.

Moved to NAD.

Proposed resolution:

For stream buffers, add a function to the base class as a non-virtual function qualified as const to 27.6.3 [streambuf]:

    openmode mode() const;

    Returns the current open mode.

With streams, I'm not sure what to suggest. In principle, the mode could already be returned by ios_base, but the mode is only initialized for file and string stream objects, unless I'm overlooking anything. For this reason it should be added to the most derived stream classes. Alternatively, it could be added to basic_ios and would be default initialized in basic_ios<>::init().

Rationale:

This might be an interesting extension for some future, but it is not a defect in the current standard. The Proposed Resolution is retained for future reference.


131. list::splice throws nothing

Section: 23.3.5.5 [list.ops] Status: NAD Submitter: Howard Hinnant Opened: 1999-03-06 Last modified: 2015-04-08

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Discussion:

What happens if a splice operation causes the size() of a list to grow beyond max_size()?

Rationale:

Size() cannot grow beyond max_size(). 


135. basic_iostream doubly initialized

Section: 27.7.2.5.1 [iostream.cons] Status: NAD Submitter: Howard Hinnant Opened: 1999-03-06 Last modified: 2015-04-08

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Discussion:

-1- Effects Constructs an object of class basic_iostream, assigning initial values to the base classes by calling basic_istream<charT,traits>(sb) (lib.istream) and basic_ostream<charT,traits>(sb) (lib.ostream)

The called for basic_istream and basic_ostream constructors call init(sb). This means that the basic_iostream's virtual base class is initialized twice.

Proposed resolution:

Change 27.6.1.5.1, paragraph 1 to:

-1- Effects Constructs an object of class basic_iostream, assigning initial values to the base classes by calling basic_istream<charT,traits>(sb) (lib.istream).

Rationale:

The LWG agreed that the init() function is called twice, but said that this is harmless and so not a defect in the standard.


138. Class ctype_byname<char> redundant and misleading

Section: 22.4.1.4 [locale.codecvt] Status: NAD Submitter: Angelika Langer Opened: 1999-03-18 Last modified: 2015-04-08

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Discussion:

Section 22.4.1.4 [locale.codecvt] specifies that ctype_byname<char> must be a specialization of the ctype_byname template.

It is common practice in the standard that specializations of class templates are only mentioned where the interface of the specialization deviates from the interface of the template that it is a specialization of. Otherwise, the fact whether or not a required instantiation is an actual instantiation or a specialization is left open as an implementation detail.

Clause 22.2.1.4 deviates from that practice and for that reason is misleading. The fact, that ctype_byname<char> is specified as a specialization suggests that there must be something "special" about it, but it has the exact same interface as the ctype_byname template. Clause 22.2.1.4 does not have any explanatory value, is at best redundant, at worst misleading - unless I am missing anything.

Naturally, an implementation will most likely implement ctype_byname<char> as a specialization, because the base class ctype<char> is a specialization with an interface different from the ctype template, but that's an implementation detail and need not be mentioned in the standard.

[ Summit: ]

Reopened by Alisdair.

[ 2009-07 Frankfurt ]

Moved to NAD.

Rationale:

The standard as written is mildly misleading, but the correct fix is to deal with the underlying problem in the ctype_byname base class, not in the specialization. See issue 228.


140. map<Key, T>::value_type does not satisfy the assignable requirement

Section: 23.4.4 [map] Status: NAD Editorial Submitter: Mark Mitchell Opened: 1999-04-14 Last modified: 2015-04-08

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Discussion:

23.2 [container.requirements]

expression         return type      pre/post-condition
-------------     -----------      -------------------
X::value_type    T                    T is assignable

23.4.4 [map]

A map satisfies all the requirements of a container.

For a map<Key, T> ... the value_type is pair<const Key, T>.

There's a contradiction here. In particular, `pair<const Key, T>' is not assignable; the `const Key' cannot be assigned to. So,  map<Key, T>::value_type does not satisfy the assignable requirement imposed by a container.

[See issue 103 for the slightly related issue of modification of set keys.]

Rationale:

The LWG believes that the standard is inconsistent, but that this is a design problem rather than a strict defect. May wish to reconsider for the next standard.


143. C .h header wording unclear

Section: D.5 [depr.c.headers] Status: NAD Submitter: Christophe de Dinechin Opened: 1999-05-04 Last modified: 2015-04-08

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Discussion:

[depr.c.headers] paragraph 2 reads:

Each C header, whose name has the form name.h, behaves as if each name placed in the Standard library namespace by the corresponding cname header is also placed within the namespace scope of the namespace std and is followed by an explicit using-declaration (_namespace.udecl_)

I think it should mention the global name space somewhere...  Currently, it indicates that name placed in std is also placed in std...

I don't know what is the correct wording. For instance, if struct tm is defined in time.h, ctime declares std::tm. However, the current wording seems ambiguous regarding which of the following would occur for use of both ctime and time.h:

// version 1:
namespace std {
        struct tm { ... };
}
using std::tm;

// version 2:
struct tm { ... };
namespace std {
        using ::tm;
}

// version 3:
struct tm { ... };
namespace std {
        struct tm { ... };
}

I think version 1 is intended.

[Kona: The LWG agreed that the wording is not clear. It also agreed that version 1 is intended, version 2 is not equivalent to version 1, and version 3 is clearly not intended. The example below was constructed by Nathan Myers to illustrate why version 2 is not equivalent to version 1.

Although not equivalent, the LWG is unsure if (2) is enough of a problem to be prohibited. Points discussed in favor of allowing (2):

]

Example:

#include <time.h>
#include <utility>

int main() {
    std::tm * t;
    make_pair( t, t ); // okay with version 1 due to Koenig lookup
                       // fails with version 2; make_pair not found
    return 0;
}

Proposed resolution:

Replace D.5 [depr.c.headers] paragraph 2 with:

Each C header, whose name has the form name.h, behaves as if each name placed in the Standard library namespace by the corresponding cname header is also placed within the namespace scope of the namespace std by name.h and is followed by an explicit using-declaration (_namespace.udecl_) in global scope.

Rationale:

The current wording in the standard is the result of a difficult compromise that averted delay of the standard. Based on discussions in Tokyo it is clear that there is no still no consensus on stricter wording, so the issue has been closed. It is suggested that users not write code that depends on Koenig lookup of C library functions.


145. adjustfield lacks default value

Section: 27.5.5.2 [basic.ios.cons] Status: NAD Submitter: Angelika Langer Opened: 1999-05-12 Last modified: 2015-04-08

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Discussion:

There is no initial value for the adjustfield defined, although many people believe that the default adjustment were right. This is a common misunderstanding. The standard only defines that, if no adjustment is specified, all the predefined inserters must add fill characters before the actual value, which is "as if" the right flag were set. The flag itself need not be set.

When you implement a user-defined inserter you cannot rely on right being the default setting for the adjustfield. Instead, you must be prepared to find none of the flags set and must keep in mind that in this case you should make your inserter behave "as if" the right flag were set. This is surprising to many people and complicates matters more than necessary.

Unless there is a good reason why the adjustfield should not be initialized I would suggest to give it the default value that everybody expects anyway.

Rationale:

This is not a defect. It is deliberate that the default is no bits set. Consider Arabic or Hebrew, for example. See 22.4.2.2.2 [facet.num.put.virtuals] paragraph 19, Table 61 - Fill padding.


157. Meaningless error handling for pword() and iword()

Section: 27.5.3.5 [ios.base.storage] Status: Dup Submitter: Dietmar Kühl Opened: 1999-07-20 Last modified: 2015-04-08

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Duplicate of: 41

Discussion:

According to paragraphs 2 and 4 of 27.5.3.5 [ios.base.storage], the functions iword() and pword() "set the badbit (which might throw an exception)" on failure. ... but what does it mean for ios_base to set the badbit? The state facilities of the IOStream library are defined in basic_ios, a derived class! It would be possible to attempt a down cast but then it would be necessary to know the character type used...

Rationale:


162. Really "formatted input functions"?

Section: 27.7.2.2.3 [istream::extractors] Status: Dup Submitter: Dietmar Kühl Opened: 1999-07-20 Last modified: 2015-04-08

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Duplicate of: 60

Discussion:

It appears to be somewhat nonsensical to consider the functions defined in the paragraphs 1 to 5 to be "Formatted input function" but since these functions are defined in a section labeled "Formatted input functions" it is unclear to me whether these operators are considered formatted input functions which have to conform to the "common requirements" from 27.7.2.2.1 [istream.formatted.reqmts]: If this is the case, all manipulators, not just ws, would skip whitespace unless noskipws is set (... but setting noskipws using the manipulator syntax would also skip whitespace :-)

See also issue 166 for the same problem in formatted output

Rationale:


163. Return of gcount() after a call to gcount

Section: 27.7.2.3 [istream.unformatted] Status: Dup Submitter: Dietmar Kühl Opened: 1999-07-20 Last modified: 2015-04-08

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Duplicate of: 60

Discussion:

It is not clear which functions are to be considered unformatted input functions. As written, it seems that all functions in 27.7.2.3 [istream.unformatted] are unformatted input functions. However, it does not really make much sense to construct a sentry object for gcount(), sync(), ... Also it is unclear what happens to the gcount() if eg. gcount(), putback(), unget(), or sync() is called: These functions don't extract characters, some of them even "unextract" a character. Should this still be reflected in gcount()? Of course, it could be read as if after a call to gcount() gcount() return 0 (the last unformatted input function, gcount(), didn't extract any character) and after a call to putback() gcount() returns -1 (the last unformatted input function putback() did "extract" back into the stream). Correspondingly for unget(). Is this what is intended? If so, this should be clarified. Otherwise, a corresponding clarification should be used.

Rationale:


166. Really "formatted output functions"?

Section: 27.7.3.6.3 [ostream.inserters] Status: Dup Submitter: Dietmar Kühl Opened: 1999-07-20 Last modified: 2015-04-08

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Duplicate of: 60

Discussion:

From 27.7.3.6.1 [ostream.formatted.reqmts] it appears that all the functions defined in 27.7.3.6.3 [ostream.inserters] have to construct a sentry object. Is this really intended?

This is basically the same problem as issue 162 but for output instead of input.

Rationale:


177. Complex operators cannot be explicitly instantiated

Section: 26.4.6 [complex.ops] Status: NAD Submitter: Judy Ward Opened: 1999-07-02 Last modified: 2015-04-08

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Discussion:

A user who tries to explicitly instantiate a complex non-member operator will get compilation errors. Below is a simplified example of the reason why. The problem is that iterator_traits cannot be instantiated on a non-pointer type like float, yet when the compiler is trying to decide which operator+ needs to be instantiated it must instantiate the declaration to figure out the first argument type of a reverse_iterator operator.

namespace std {
template <class Iterator> 
struct iterator_traits
{
    typedef typename Iterator::value_type value_type;
};

template <class T> class reverse_iterator;

// reverse_iterator operator+
template <class T> 
reverse_iterator<T> operator+
(typename iterator_traits<T>::difference_type, const reverse_iterator<T>&);

template <class T> struct complex {};

// complex operator +
template <class T>
complex<T> operator+ (const T& lhs, const complex<T>& rhs) 
{ return complex<T>();} 
}

// request for explicit instantiation
template std::complex<float> std::operator+<float>(const float&, 
     const std::complex<float>&);

See also c++-stdlib reflector messages: lib-6814, 6815, 6816.

Rationale:

Implementors can make minor changes and the example will work. Users are not affected in any case.

According to John Spicer, It is possible to explicitly instantiate these operators using different syntax: change "std::operator+<float>" to "std::operator+".

The proposed resolution of issue 120 is that users will not be able to explicitly instantiate standard library templates. If that resolution is accepted then library implementors will be the only ones that will be affected by this problem, and they must use the indicated syntax.


178. Should clog and cerr initially be tied to cout?

Section: 27.4.2 [narrow.stream.objects] Status: NAD Submitter: Judy Ward Opened: 1999-07-02 Last modified: 2015-04-08

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Discussion:

Section 27.3.1 says "After the object cerr is initialized, cerr.flags() & unitbuf is nonzero. Its state is otherwise the same as required for ios_base::init (lib.basic.ios.cons). It doesn't say anything about the the state of clog. So this means that calling cerr.tie() and clog.tie() should return 0 (see Table 89 for ios_base::init effects).

Neither of the popular standard library implementations that I tried does this, they both tie cerr and clog to &cout. I would think that would be what users expect.

Rationale:

The standard is clear as written.

27.3.1/5 says that "After the object cerr is initialized, cerr.flags() & unitbuf is nonzero. Its state is otherwise the same as required for ios_base::init (27.4.4.1)." Table 89 in 27.4.4.1, which gives the postconditions of basic_ios::init(), says that tie() is 0. (Other issues correct ios_base::init to basic_ios::init().)


188. valarray helpers missing augmented assignment operators

Section: 26.6.2.7 [valarray.cassign] Status: NAD Submitter: Gabriel Dos Reis Opened: 1999-08-15 Last modified: 2015-04-08

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Discussion:

26.5.2.6 defines augmented assignment operators valarray<T>::op=(const T&), but fails to provide corresponding versions for the helper classes. Thus making the following illegal:

#include <valarray>

int main()
{
std::valarray<double> v(3.14, 1999);

v[99] *= 2.0; // Ok

std::slice s(0, 50, 2);

v[s] *= 2.0; // ERROR
}

I can't understand the intent of that omission. It makes the valarray library less intuitive and less useful.

Rationale:

Although perhaps an unfortunate design decision, the omission is not a defect in the current standard.  A future standard may wish to add the missing operators.


190. min() and max() functions should be std::binary_functions

Section: 25.4.7 [alg.min.max] Status: NAD Submitter: Mark Rintoul Opened: 1999-08-26 Last modified: 2015-04-08

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Discussion:

Both std::min and std::max are defined as template functions. This is very different than the definition of std::plus (and similar structs) which are defined as function objects which inherit std::binary_function.

This lack of inheritance leaves std::min and std::max somewhat useless in standard library algorithms which require a function object that inherits std::binary_function.

[ post Bellevue: Alisdair requested to re-Open. ]

[ 2009-07 Frankfurt ]

C++0x has lambdas to address this problem now.

Moved to NAD.

Rationale:

Although perhaps an unfortunate design decision, the omission is not a defect in the current standard.  A future standard may wish to consider additional function objects.


191. Unclear complexity for algorithms such as binary search

Section: 25.4.3 [alg.binary.search] Status: NAD Submitter: Nico Josuttis Opened: 1999-10-10 Last modified: 2015-04-08

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Discussion:

The complexity of binary_search() is stated as "At most log(last-first) + 2 comparisons", which seems to say that the algorithm has logarithmic complexity. However, this algorithms is defined for forward iterators. And for forward iterators, the need to step element-by-element results into linear complexity. But such a statement is missing in the standard. The same applies to lower_bound(), upper_bound(), and equal_range(). 

However, strictly speaking the standard contains no bug here. So this might considered to be a clarification or improvement.

Rationale:

The complexity is expressed in terms of comparisons, and that complexity can be met even if the number of iterators accessed is linear. Paragraph 1 already says exactly what happens to iterators.


192. a.insert(p,t) is inefficient and overconstrained

Section: 23.2.4 [associative.reqmts] Status: NAD Submitter: Ed Brey Opened: 1999-06-06 Last modified: 2015-04-08

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Duplicate of: 233

Discussion:

As defined in 23.1.2, paragraph 7 (table 69), a.insert(p,t) suffers from several problems:

expression return type pre/post-condition complexity
a.insert(p,t) iterator inserts t if and only if there is no element with key equivalent to the key of t in containers with unique keys; always inserts t in containers with equivalent keys. always returns the iterator pointing to the element with key equivalent to the key of t . iterator p is a hint pointing to where the insert should start to search. logarithmic in general, but amortized constant if t is inserted right after p .

1. For a container with unique keys, only logarithmic complexity is guaranteed if no element is inserted, even though constant complexity is always possible if p points to an element equivalent to t.

2. For a container with equivalent keys, the amortized constant complexity guarantee is only useful if no key equivalent to t exists in the container. Otherwise, the insertion could occur in one of multiple locations, at least one of which would not be right after p.

3. By guaranteeing amortized constant complexity only when t is inserted after p, it is impossible to guarantee constant complexity if t is inserted at the beginning of the container. Such a problem would not exist if amortized constant complexity was guaranteed if t is inserted before p, since there is always some p immediately before which an insert can take place.

4. For a container with equivalent keys, p does not allow specification of where to insert the element, but rather only acts as a hint for improving performance. This negates the added functionality that p would provide if it specified where within a sequence of equivalent keys the insertion should occur. Specifying the insert location provides more control to the user, while providing no disadvantage to the container implementation.

Proposed resolution:

In 23.2.4 [associative.reqmts] paragraph 7, replace the row in table 69 for a.insert(p,t) with the following two rows:

expression return type pre/post-condition complexity
a_uniq.insert(p,t) iterator inserts t if and only if there is no element with key equivalent to the key of t. returns the iterator pointing to the element with key equivalent to the key of t. logarithmic in general, but amortized constant if t is inserted right before p or p points to an element with key equivalent to t.
a_eq.insert(p,t) iterator inserts t and returns the iterator pointing to the newly inserted element. t is inserted right before p if doing so preserves the container ordering. logarithmic in general, but amortized constant if t is inserted right before p.

Rationale:

Too big a change.  Furthermore, implementors report checking both before p and after p, and don't want to change this behavior.


194. rdbuf() functions poorly specified

Section: 27.5.5 [ios] Status: NAD Submitter: Steve Clamage Opened: 1999-09-07 Last modified: 2015-04-08

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Discussion:

In classic iostreams, base class ios had an rdbuf function that returned a pointer to the associated streambuf. Each derived class had its own rdbuf function that returned a pointer of a type reflecting the actual type derived from streambuf. Because in ARM C++, virtual function overrides had to have the same return type, rdbuf could not be virtual.

In standard iostreams, we retain the non-virtual rdbuf function design, and in addition have an overloaded rdbuf function that sets the buffer pointer. There is no need for the second function to be virtual nor to be implemented in derived classes.

Minor question: Was there a specific reason not to make the original rdbuf function virtual?

Major problem: Friendly compilers warn about functions in derived classes that hide base-class overloads. Any standard implementation of iostreams will result in such a warning on each of the iostream classes, because of the ill-considered decision to overload rdbuf only in a base class.

In addition, users of the second rdbuf function must use explicit qualification or a cast to call it from derived classes. An explicit qualification or cast to basic_ios would prevent access to any later overriding version if there was one.

What I'd like to do in an implementation is add a using- declaration for the second rdbuf function in each derived class. It would eliminate warnings about hiding functions, and would enable access without using explicit qualification. Such a change I don't think would change the behavior of any valid program, but would allow invalid programs to compile:

 filebuf mybuf;
 fstream f;
 f.rdbuf(mybuf); // should be an error, no visible rdbuf

I'd like to suggest this problem as a defect, with the proposed resolution to require the equivalent of a using-declaration for the rdbuf function that is not replaced in a later derived class. We could discuss whether replacing the function should be allowed.

Rationale:

For historical reasons, the standard is correct as written. There is a subtle difference between the base class rdbuf() and derived class rdbuf(). The derived class rdbuf() always returns the original streambuf, whereas the base class rdbuf() will return the "current streambuf" if that has been changed by the variant you mention.

Permission is not required to add such an extension. See 17.6.5.5 [member.functions].


196. Placement new example has alignment problems

Section: 18.6.1.3 [new.delete.placement] Status: Dup Submitter: Herb Sutter Opened: 1998-12-15 Last modified: 2015-04-08

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Duplicate of: 114

Discussion:

The example in 18.6.1.3 [new.delete.placement] paragraph 4 reads:

[Example: This can be useful for constructing an object at a known address:

   char place[sizeof(Something)];
   Something* p = new (place) Something();

end example]

This example has potential alignment problems.

Rationale:


197. max_size() underspecified

Section: 17.6.3.5 [allocator.requirements], 23.2 [container.requirements] Status: NAD Submitter: Andy Sawyer Opened: 1999-10-21 Last modified: 2015-04-08

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Discussion:

Must the value returned by max_size() be unchanged from call to call?

Must the value returned from max_size() be meaningful?

Possible meanings identified in lib-6827:

1) The largest container the implementation can support given "best case" conditions - i.e. assume the run-time platform is "configured to the max", and no overhead from the program itself. This may possibly be determined at the point the library is written, but certainly no later than compile time.

2) The largest container the program could create, given "best case" conditions - i.e. same platform assumptions as (1), but take into account any overhead for executing the program itself. (or, roughly "storage=storage-sizeof(program)"). This does NOT include any resource allocated by the program. This may (or may not) be determinable at compile time.

3) The largest container the current execution of the program could create, given knowledge of the actual run-time platform, but again, not taking into account any currently allocated resource. This is probably best determined at program start-up.

4) The largest container the current execution program could create at the point max_size() is called (or more correctly at the point max_size() returns :-), given it's current environment (i.e. taking into account the actual currently available resources). This, obviously, has to be determined dynamically each time max_size() is called.

Proposed resolution:

Rationale:

max_size() isn't useful for very many things, and the existing wording is sufficiently clear for the few cases that max_size() can be used for. None of the attempts to change the existing wording were an improvement.

It is clear to the LWG that the value returned by max_size() can't change from call to call.


203. basic_istream::sentry::sentry() is uninstantiable with ctype<user-defined type>

Section: 27.7.2.1.3 [istream::sentry] Status: NAD Submitter: Matt McClure and Dietmar Kühl Opened: 2000-01-01 Last modified: 2015-04-08

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Discussion:

27.6.1.1.2 Paragraph 4 states:

To decide if the character c is a whitespace character, the constructor performs ''as if'' it executes the following code fragment: 

const ctype<charT>& ctype = use_facet<ctype<charT> >(is.getloc());
if (ctype.is(ctype.space,c)!=0)
// c is a whitespace character.

But Table 51 in 22.1.1.1.1 only requires an implementation to provide specializations for ctype<char> and ctype<wchar_t>. If sentry's constructor is implemented using ctype, it will be uninstantiable for a user-defined character type charT, unless the implementation has provided non-working (since it would be impossible to define a correct ctype<charT> specialization for an arbitrary charT) definitions of ctype's virtual member functions.

It seems the intent the standard is that sentry should behave, in every respect, not just during execution, as if it were implemented using ctype, with the burden of providing a ctype specialization falling on the user. But as it is written, nothing requires the translation of sentry's constructor to behave as if it used the above code, and it would seem therefore, that sentry's constructor should be instantiable for all character types.

Note: If I have misinterpreted the intent of the standard with respect to sentry's constructor's instantiability, then a note should be added to the following effect:

An implementation is forbidden from using the above code if it renders the constructor uninstantiable for an otherwise valid character type.

In any event, some clarification is needed.

Rationale:

It is possible but not easy to instantiate on types other than char or wchar_t; many things have to be done first. That is by intention and is not a defect.


204. distance(first, last) when "last" is before "first"

Section: 24.4.4 [iterator.operations] Status: NAD Submitter: Rintala Matti Opened: 2000-01-28 Last modified: 2015-04-08

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Discussion:

Section 24.3.4 describes the function distance(first, last) (where first and last are iterators) which calculates "the number of increments or decrements needed to get from 'first' to 'last'".

The function should work for forward, bidirectional and random access iterators, and there is a requirement 24.3.4.5 which states that "'last' must be reachable from 'first'".

With random access iterators the function is easy to implement as "last - first".

With forward iterators it's clear that 'first' must point to a place before 'last', because otherwise 'last' would not be reachable from 'first'.

But what about bidirectional iterators? There 'last' is reachable from 'first' with the -- operator even if 'last' points to an earlier position than 'first'. However, I cannot see how the distance() function could be implemented if the implementation does not know which of the iterators points to an earlier position (you cannot use ++ or -- on either iterator if you don't know which direction is the "safe way to travel").

The paragraph 24.3.4.1 states that "for ... bidirectional iterators they use ++ to provide linear time implementations". However, the ++ operator is not mentioned in the reachability requirement. Furthermore 24.3.4.4 explicitly mentions that distance() returns the number of increments _or decrements_, suggesting that it could return a negative number also for bidirectional iterators when 'last' points to a position before 'first'.

Is a further requirement is needed to state that for forward and bidirectional iterators "'last' must be reachable from 'first' using the ++ operator". Maybe this requirement might also apply to random access iterators so that distance() would work the same way for every iterator category?

Rationale:

"Reachable" is defined in the standard in X [iterator.concepts] paragraph 6. The definition is only in terms of operator++(). The LWG sees no defect in the standard.


205. numeric_limits unclear on how to determine floating point types

Section: 18.3.2.4 [numeric.limits.members] Status: NAD Submitter: Steve Cleary Opened: 2000-01-28 Last modified: 2015-04-08

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Discussion:

In several places in 18.3.2.4 [numeric.limits.members], a member is described as "Meaningful for all floating point types." However, no clear method of determining a floating point type is provided.

In 18.3.2.7 [numeric.special], paragraph 1 states ". . . (for example, epsilon() is only meaningful if is_integer is false). . ." which suggests that a type is a floating point type if is_specialized is true and is_integer is false; however, this is unclear.

When clarifying this, please keep in mind this need of users: what exactly is the definition of floating point? Would a fixed point or rational representation be considered one? I guess my statement here is that there could also be types that are neither integer or (strictly) floating point.

Rationale:

It is up to the implementor of a user define type to decide if it is a floating point type.


207. ctype<char> members return clause incomplete

Section: 22.4.1.3.2 [facet.ctype.char.members] Status: Dup Submitter: Robert Klarer Opened: 1999-11-02 Last modified: 2015-04-08

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Duplicate of: 153

Discussion:

The widen and narrow member functions are described in 22.2.1.3.2, paragraphs 9-11. In each case we have two overloaded signatures followed by a Returns clause. The Returns clause only describes one of the overloads.

Proposed resolution:

Change the returns clause in 22.4.1.3.2 [facet.ctype.char.members] paragraph 10 from:

    Returns: do_widen(low, high, to).

to:

    Returns: do_widen(c) or do_widen(low, high, to), respectively.

Change the returns clause in 22.4.1.3.2 [facet.ctype.char.members] paragraph 11 from:

    Returns: do_narrow(low, high, to).

to:

    Returns: do_narrow(c) or do_narrow(low, high, to), respectively.

Rationale:

Subsumed by issue 153, which addresses the same paragraphs.


213. Math function overloads ambiguous

Section: 26.8 [c.math] Status: NAD Submitter: Nico Josuttis Opened: 2000-02-26 Last modified: 2015-04-08

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Discussion:

Due to the additional overloaded versions of numeric functions for float and long double according to Section 26.5, calls such as int x; std::pow (x, 4) are ambiguous now in a standard conforming implementation. Current implementations solve this problem very different (overload for all types, don't overload for float and long double, use preprocessor, follow the standard and get ambiguities).

This behavior should be standardized or at least identified as implementation defined.

Rationale:

These math issues are an understood and accepted consequence of the design. They have been discussed several times in the past. Users must write casts or write floating point expressions as arguments.


215. Can a map's key_type be const?

Section: 23.2.4 [associative.reqmts] Status: NAD Submitter: Judy Ward Opened: 2000-02-29 Last modified: 2015-04-08

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Discussion:

A user noticed that this doesn't compile with the Rogue Wave library because the rb_tree class declares a key_allocator, and allocator<const int> is not legal, I think:

map < const int, ... > // legal?

which made me wonder whether it is legal for a map's key_type to be const. In email from Matt Austern he said:

I'm not sure whether it's legal to declare a map with a const key type. I hadn't thought about that question until a couple weeks ago. My intuitive feeling is that it ought not to be allowed, and that the standard ought to say so. It does turn out to work in SGI's library, though, and someone in the compiler group even used it. Perhaps this deserves to be written up as an issue too.

Rationale:

The "key is assignable" requirement from table 69 in 23.2.4 [associative.reqmts] already implies the key cannot be const.


216. setbase manipulator description flawed

Section: 27.7.4 [std.manip] Status: Dup Submitter: Hyman Rosen Opened: 2000-02-29 Last modified: 2015-04-08

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Duplicate of: 193

Discussion:

27.7.4 [std.manip] paragraph 5 says:

smanip setbase(int base);

Returns: An object s of unspecified type such that if out is an (instance of) basic_ostream then the expression out<<s behaves as if f(s) were called, in is an (instance of) basic_istream then the expression in>>s behaves as if f(s) were called. Where f can be defined as:

ios_base& f(ios_base& str, int base)
{
  // set basefield
  str.setf(n == 8 ? ios_base::oct :
                n == 10 ? ios_base::dec :
                n == 16 ? ios_base::hex :
                  ios_base::fmtflags(0), ios_base::basefield);
  return str;
}

There are two problems here. First, f takes two parameters, so the description needs to say that out<<s and in>>s behave as if f(s,base) had been called. Second, f is has a parameter named base, but is written as if the parameter was named n.

Actually, there's a third problem. The paragraph has grammatical errors. There needs to be an "and" after the first comma, and the "Where f" sentence fragment needs to be merged into its preceding sentence. You may also want to format the function a little better. The formatting above is more-or-less what the Standard contains.

Rationale:

The resolution of this defect is subsumed by the proposed resolution for issue 193.

[Tokyo: The LWG agrees that this is a defect and notes that it occurs additional places in the section, all requiring fixes.]


218. Algorithms do not use binary predicate objects for default comparisons

Section: 25.4 [alg.sorting] Status: NAD Submitter: Pablo Halpern Opened: 2000-03-06 Last modified: 2015-04-08

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Discussion:

Many of the algorithms take an argument, pred, of template parameter type BinaryPredicate or an argument comp of template parameter type Compare. These algorithms usually have an overloaded version that does not take the predicate argument. In these cases pred is usually replaced by the use of operator== and comp is replaced by the use of operator<.

This use of hard-coded operators is inconsistent with other parts of the library, particularly the containers library, where equality is established using equal_to<> and ordering is established using less<>. Worse, the use of operator<, would cause the following innocent-looking code to have undefined behavior:

vector<string*> vec;
sort(vec.begin(), vec.end());

The use of operator< is not defined for pointers to unrelated objects. If std::sort used less<> to compare elements, then the above code would be well-defined, since less<> is explicitly specialized to produce a total ordering of pointers.

Rationale:

This use of operator== and operator< was a very deliberate, conscious, and explicitly made design decision; these operators are often more efficient. The predicate forms are available for users who don't want to rely on operator== and operator<.


219. find algorithm missing version that takes a binary predicate argument

Section: 25.2.5 [alg.find] Status: NAD Submitter: Pablo Halpern Opened: 2000-03-06 Last modified: 2015-04-08

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Discussion:

The find function always searches for a value using operator== to compare the value argument to each element in the input iterator range. This is inconsistent with other find-related functions such as find_end and find_first_of, which allow the caller to specify a binary predicate object to be used for determining equality. The fact that this can be accomplished using a combination of find_if and bind_1st or bind_2nd does not negate the desirability of a consistent, simple, alternative interface to find.

[ Summit: ]

Reopened by Alisdair.

[ 2009-07 Frankfurt ]

The same thing can be achieved using find_if (as noted in the issue).

Moved to NAD.

Proposed resolution:

In section 25.2.5 [alg.find], add a second prototype for find (between the existing prototype and the prototype for find_if), as follows:

    template<class InputIterator, class T, class BinaryPredicate>
      InputIterator find(InputIterator first, InputIterator last,
                         const T& value, BinaryPredicate bin_pred);

Change the description of the return from:

Returns: The first iterator i in the range [first, last) for which the following corresponding conditions hold: *i == value, pred(*i) != false. Returns last if no such iterator is found.

 to:

Returns: The first iterator i in the range [first, last) for which the following  corresponding condition holds: *i == value, bin_pred(*i,value) != false, pred(*) != false. Return last if no such iterator is found.

Rationale:

This is request for a pure extension, so it is not a defect in the current standard.  As the submitter pointed out, "this can be accomplished using a combination of find_if and bind_1st or bind_2nd".


236. ctype<char>::is() member modifies facet

Section: 22.4.1.3.2 [facet.ctype.char.members] Status: Dup Submitter: Dietmar Kühl Opened: 2000-04-24 Last modified: 2015-04-08

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Duplicate of: 28

Discussion:

The description of the is() member in paragraph 4 of 22.4.1.3.2 [facet.ctype.char.members] is broken: According to this description, the second form of the is() method modifies the masks in the ctype object. The correct semantics if, of course, to obtain an array of masks. The corresponding method in the general case, ie. the do_is() method as described in 22.4.1.1.2 [locale.ctype.virtuals] paragraph 1 does the right thing.

Proposed resolution:

Change paragraph 4 from

The second form, for all *p in the range [low, high), assigns vec[p-low] to table()[(unsigned char)*p].

to become

The second form, for all *p in the range [low, high), assigns table()[(unsigned char)*p] to vec[p-low].

Rationale:


244. Must find's third argument be CopyConstructible?

Section: 25.2.5 [alg.find] Status: NAD Submitter: Andrew Koenig Opened: 2000-05-02 Last modified: 2015-04-08

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Discussion:

Is the following implementation of find acceptable?

        template<class Iter, class X>
        Iter find(Iter begin, Iter end, const X& x)
        {
            X x1 = x;           // this is the crucial statement
            while (begin != end && *begin != x1)
                ++begin;
            return begin;
        }

If the answer is yes, then it is implementation-dependent as to whether the following fragment is well formed:

        vector<string> v;

        find(v.begin(), v.end(), "foo");

At issue is whether there is a requirement that the third argument of find be CopyConstructible. There may be no problem here, but analysis is necessary.

Rationale:

There is no indication in the standard that find's third argument is required to be Copy Constructible. The LWG believes that no such requirement was intended. As noted above, there are times when a user might reasonably pass an argument that is not Copy Constructible.


245. Which operations on istream_iterator trigger input operations?

Section: 24.6.1 [istream.iterator] Status: NAD Submitter: Andrew Koenig Opened: 2000-05-02 Last modified: 2015-04-08

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Discussion:

I do not think the standard specifies what operation(s) on istream iterators trigger input operations. So, for example:

        istream_iterator<int> i(cin);

        int n = *i++;

I do not think it is specified how many integers have been read from cin. The number must be at least 1, of course, but can it be 2? More?

Rationale:

The standard is clear as written: the stream is read every time operator++ is called, and it is also read either when the iterator is constructed or when operator* is called for the first time. In the example above, exactly two integers are read from cin.

There may be a problem with the interaction between istream_iterator and some STL algorithms, such as find. There are no guarantees about how many times find may invoke operator++.


246. a.insert(p,t) is incorrectly specified

Section: 23.2.4 [associative.reqmts] Status: Dup Submitter: Mark Rodgers Opened: 2000-05-19 Last modified: 2015-04-08

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Duplicate of: 233

Discussion:

Closed issue 192 raised several problems with the specification of this function, but was rejected as Not A Defect because it was too big a change with unacceptable impacts on existing implementations. However, issues remain that could be addressed with a smaller change and with little or no consequent impact.

  1. The specification is inconsistent with the original proposal and with several implementations.

    The initial implementation by Hewlett Packard only ever looked immediately before p, and I do not believe there was any intention to standardize anything other than this behavior. Consequently, current implementations by several leading implementors also look immediately before p, and will only insert after p in logarithmic time. I am only aware of one implementation that does actually look after p, and it looks before p as well. It is therefore doubtful that existing code would be relying on the behavior defined in the standard, and it would seem that fixing this defect as proposed below would standardize existing practice.

  2. The specification is inconsistent with insertion for sequence containers.

    This is difficult and confusing to teach to newcomers. All insert operations that specify an iterator as an insertion location should have a consistent meaning for the location represented by that iterator.

  3. As specified, there is no way to hint that the insertion should occur at the beginning of the container, and the way to hint that it should occur at the end is long winded and unnatural.

    For a container containing n elements, there are n+1 possible insertion locations and n+1 valid iterators. For there to be a one-to-one mapping between iterators and insertion locations, the iterator must represent an insertion location immediately before the iterator.

  4. When appending sorted ranges using insert_iterators, insertions are guaranteed to be sub-optimal.

    In such a situation, the optimum location for insertion is always immediately after the element previously inserted. The mechanics of the insert iterator guarantee that it will try and insert after the element after that, which will never be correct. However, if the container first tried to insert before the hint, all insertions would be performed in amortized constant time.

Proposed resolution:

In 23.1.2 [lib.associative.reqmts] paragraph 7, table 69, make the following changes in the row for a.insert(p,t):

assertion/note pre/post condition:
Change the last sentence from

"iterator p is a hint pointing to where the insert should start to search."

to

"iterator p is a hint indicating that immediately before p may be a correct location where the insertion could occur."

complexity:
Change the words "right after" to "immediately before".

Rationale:


249. Return Type of auto_ptr::operator=

Section: X [auto.ptr] Status: NAD Submitter: Joseph Gottman Opened: 2000-06-30 Last modified: 2015-04-08

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Discussion:

According to section 20.4.5, the function auto_ptr::operator=() returns a reference to an auto_ptr. The reason that operator=() usually returns a reference is to facilitate code like

    int x,y,z;
    x = y = z = 1;

However, given analogous code for auto_ptrs,

    auto_ptr<int> x, y, z;
    z.reset(new int(1));
    x = y = z;

the result would be that z and y would both be set to NULL, instead of all the auto_ptrs being set to the same value. This makes such cascading assignments useless and counterintuitive for auto_ptrs.

Proposed resolution:

Change auto_ptr::operator=() to return void instead of an auto_ptr reference.

Rationale:

The return value has uses other than cascaded assignments: a user can call an auto_ptr member function, pass the auto_ptr to a function, etc. Removing the return value could break working user code.


257. STL functional object and iterator inheritance.

Section: X [depr.base], 24.4.2 [iterator.basic] Status: NAD Submitter: Robert Dick Opened: 2000-08-17 Last modified: 2015-04-08

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Discussion:

According to the November 1997 Draft Standard, the results of deleting an object of a derived class through a pointer to an object of its base class are undefined if the base class has a non-virtual destructor. Therefore, it is potentially dangerous to publicly inherit from such base classes.

Defect:
The STL design encourages users to publicly inherit from a number of classes which do nothing but specify interfaces, and which contain non-virtual destructors.

Attribution:
Wil Evers and William E. Kempf suggested this modification for functional objects.

Proposed resolution:

When a base class in the standard library is useful only as an interface specifier, i.e., when an object of the class will never be directly instantiated, specify that the class contains a protected destructor. This will prevent deletion through a pointer to the base class without performance, or space penalties (on any implementation I'm aware of).

As an example, replace...

    template <class Arg, class Result>
    struct unary_function {
            typedef Arg    argument_type;
            typedef Result result_type;
    };

... with...

    template <class Arg, class Result>
    struct unary_function {
            typedef Arg    argument_type;
            typedef Result result_type;
    protected:
            ~unary_function() {}
    };

Affected definitions:
 20.3.1 [lib.function.objects] -- unary_function, binary_function
 24.3.2 [lib.iterator.basic] -- iterator

Rationale:

The standard is clear as written; this is a request for change, not a defect in the strict sense. The LWG had several different objections to the proposed change. One is that it would prevent users from creating objects of type unary_function and binary_function. Doing so can sometimes be legitimate, if users want to pass temporaries as traits or tag types in generic code.


267. interaction of strstreambuf::overflow() and seekoff()

Section: D.7.1.3 [depr.strstreambuf.virtuals] Status: NAD Submitter: Martin Sebor Opened: 2000-10-05 Last modified: 2015-04-08

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Discussion:

It appears that the interaction of the strstreambuf members overflow() and seekoff() can lead to undefined behavior in cases where defined behavior could reasonably be expected. The following program demonstrates this behavior:

    #include <strstream>

    int main ()
    {
         std::strstreambuf sb;
         sb.sputc ('c');

         sb.pubseekoff (-1, std::ios::end, std::ios::in);
         return !('c' == sb.sgetc ());
    }

D.7.1.1, p1 initializes strstreambuf with a call to basic_streambuf<>(), which in turn sets all pointers to 0 in 27.5.2.1, p1.

27.5.2.2.5, p1 says that basic_streambuf<>::sputc(c) calls overflow(traits::to_int_type(c)) if a write position isn't available (it isn't due to the above).

D.7.1.3, p3 says that strstreambuf::overflow(off, ..., ios::in) makes at least one write position available (i.e., it allows the function to make any positive number of write positions available).

D.7.1.3, p13 computes newoff = seekhigh - eback(). In D.7.1, p4 we see seekhigh = epptr() ? epptr() : egptr(), or seekhigh = epptr() in this case. newoff is then epptr() - eback().

D.7.1.4, p14 sets gptr() so that gptr() == eback() + newoff + off, or gptr() == epptr() + off holds.

If strstreambuf::overflow() made exactly one write position available then gptr() will be set to just before epptr(), and the program will return 0. Buf if the function made more than one write position available, epptr() and gptr() will both point past pptr() and the behavior of the program is undefined.

Proposed resolution:

Change the last sentence of D.7.1 [depr.strstreambuf] paragraph 4 from

Otherwise, seeklow equals gbeg and seekhigh is either pend, if pend is not a null pointer, or gend.

to become

Otherwise, seeklow equals gbeg and seekhigh is either gend if 0 == pptr(), or pbase() + max where max is the maximum value of pptr() - pbase() ever reached for this stream.

[ pre-Copenhagen: Dietmar provided wording for proposed resolution. ]

[ post-Copenhagen: Fixed a typo: proposed resolution said to fix 4.7.1, not D.7.1. ]

Rationale:

This is related to issue 65: it's not clear what it means to seek beyond the current area. Without resolving issue 65 we can't resolve this. As with issue 65, the library working group does not wish to invest time nailing down corner cases in a deprecated feature.


269. cstdarg and unnamed parameters

Section: 18.8 [support.exception] Status: NAD Submitter: J. Stephen Adamczyk Opened: 2000-10-10 Last modified: 2015-04-08

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Discussion:

One of our customers asks whether this is valid C++:

   #include <cstdarg>

   void bar(const char *, va_list);

   void
   foo(const char *file, const char *, ...)
   {
     va_list ap;
     va_start(ap, file);
     bar(file, ap);
     va_end(ap);
   }

The issue being whether it is valid to use cstdarg when the final parameter before the "..." is unnamed. cstdarg is, as far as I can tell, inherited verbatim from the C standard. and the definition there (7.8.1.1 in the ISO C89 standard) refers to "the identifier of the rightmost parameter". What happens when there is no such identifier?

My personal opinion is that this should be allowed, but some tweak might be required in the C++ standard.

Rationale:

Not a defect, the C and C++ standards are clear. It is impossible to use varargs if the parameter immediately before "..." has no name, because that is the parameter that must be passed to va_start. The example given above is broken, because va_start is being passed the wrong parameter.

There is no support for extending varargs to provide additional functionality beyond what's currently there. For reasons of C/C++ compatibility, it is especially important not to make gratuitous changes in this part of the C++ standard. The C committee has already been requested not to touch this part of the C standard unless necessary.


277. Normative encouragement in allocator requirements unclear

Section: 17.6.3.5 [allocator.requirements] Status: NAD Submitter: Matt Austern Opened: 2000-11-07 Last modified: 2015-04-08

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Discussion:

In 20.1.5, paragraph 5, the standard says that "Implementors are encouraged to supply libraries that can accept allocators that encapsulate more general memory models and that support non-equal instances." This is intended as normative encouragement to standard library implementors. However, it is possible to interpret this sentence as applying to nonstandard third-party libraries.

Proposed resolution:

In 20.1.5, paragraph 5, change "Implementors" to "Implementors of the library described in this International Standard".

Rationale:

The LWG believes the normative encouragement is already sufficiently clear, and that there are no important consequences even if it is misunderstood.


279. const and non-const iterators should have equivalent typedefs

Section: 23.2 [container.requirements] Status: NAD Submitter: Steve Cleary Opened: 2000-11-27 Last modified: 2015-04-08

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Discussion:

This came from an email from Steve Cleary to Fergus in reference to issue 179. The library working group briefly discussed this in Toronto and believes it should be a separate issue.

Steve said: "We may want to state that the const/non-const iterators must have the same difference type, size_type, and category."

(Comment from Judy) I'm not sure if the above sentence should be true for all const and non-const iterators in a particular container, or if it means the container's iterator can't be compared with the container's const_iterator unless the above it true. I suspect the former.

Proposed resolution:

In Section: 23.2 [container.requirements], table 65, in the assertion/note pre/post condition for X::const_iterator, add the following:

typeid(X::const_iterator::difference_type) == typeid(X::iterator::difference_type)

typeid(X::const_iterator::size_type) == typeid(X::iterator::size_type)

typeid(X::const_iterator::category) == typeid(X::iterator::category)

Rationale:

Going through the types one by one: Iterators don't have a size_type. We already know that the difference types are identical, because the container requirements already say that the difference types of both X::iterator and X::const_iterator are both X::difference_type. The standard does not require that X::iterator and X::const_iterator have the same iterator category, but the LWG does not see this as a defect: it's possible to imagine cases in which it would be useful for the categories to be different.

It may be desirable to require X::iterator and X::const_iterator to have the same value type, but that is a new issue. (Issue 322.)


287. conflicting ios_base fmtflags

Section: 27.5.3.2 [fmtflags.state] Status: NAD Submitter: Judy Ward Opened: 2000-12-30 Last modified: 2015-04-08

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Discussion:

The Effects clause for ios_base::setf(fmtflags fmtfl) says "Sets fmtfl in flags()". What happens if the user first calls ios_base::scientific and then calls ios_base::fixed or vice-versa? This is an issue for all of the conflicting flags, i.e. ios_base::left and ios_base::right or ios_base::dec, ios_base::hex and ios_base::oct.

I see three possible solutions:

  1. Set ios_base::failbit whenever the user specifies a conflicting flag with one previously explicitly set. If the constructor is supposed to set ios_base::dec (see discussion below), then the user setting hex or oct format after construction will not set failbit.
  2. The last call to setf "wins", i.e. it clears any conflicting previous setting.
  3. All the flags that the user specifies are set, but when actually interpreting them, fixed always override scientific, right always overrides left, dec overrides hex which overrides oct.

Most existing implementations that I tried seem to conform to resolution #3, except that when using the iomanip manipulator hex or oct then that always overrides dec, but calling setf(ios_base::hex) doesn't.

There is a sort of related issue, which is that although the ios_base constructor says that each ios_base member has an indeterminate value after construction, all the existing implementations I tried explicitly set ios_base::dec.

Proposed resolution:

Rationale:

adjustfield, basefield, and floatfield are each multi-bit fields. It is possible to set multiple bits within each of those fields. (For example, dec and oct). These fields are used by locale facets. The LWG reviewed the way in which each of those three fields is used, and believes that in each case the behavior is well defined for any possible combination of bits. See for example Table 58, in 22.4.2.2.2 [facet.num.put.virtuals], noting the requirement in paragraph 6 of that section.

Users are advised to use manipulators, or else use the two-argument version of setf, to avoid unexpected behavior.


289. <cmath> requirements missing C float and long double versions

Section: 26.8 [c.math] Status: NAD Submitter: Judy Ward Opened: 2000-12-30 Last modified: 2015-04-08

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Discussion:

In ISO/IEC 9899:1990 Programming Languages C we find the following concerning <math.h>:

7.13.4 Mathematics <math.h>
The names of all existing functions declared in the <math.h> header, suffixed with f or l, are reserved respectively for corresponding functions with float and long double arguments are return values.

For example, float sinf(float) is reserved.

In the C99 standard, <math.h> must contain declarations for these functions.

So, is it acceptable for an implementor to add these prototypes to the C++ versions of the math headers? Are they required?

Proposed resolution:

Add these Functions to Table 80, section 26.5 and to Table 99, section C.2:

    acosf asinf atanf atan2f ceilf cosf coshf 
    expf fabsf floorf fmodf frexpf ldexpf 
    logf log10f modff powf sinf sinhf sqrtf 
    tanf tanhf 
    acosl asinl atanl atan2l ceill cosl coshl 
    expl fabsl floorl fmodl frexpl ldexpl 
    logl log10l modfl powl sinl sinhl sqrtl 
    tanl tanhl

There should probably be a note saying that these functions are optional and, if supplied, should match the description in the 1999 version of the C standard. In the next round of C++ standardization they can then become mandatory.

Rationale:

The C90 standard, as amended, already permits (but does not require) these functions, and the C++ standard incorporates the C90 standard by reference. C99 is not an issue, because it is never referred to by the C++ standard.


290. Requirements to for_each and its function object

Section: 25.2.4 [alg.foreach] Status: NAD Submitter: Angelika Langer Opened: 2001-01-03 Last modified: 2015-04-08

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Discussion:

The specification of the for_each algorithm does not have a "Requires" section, which means that there are no restrictions imposed on the function object whatsoever. In essence it means that I can provide any function object with arbitrary side effects and I can still expect a predictable result. In particular I can expect that the function object is applied exactly last - first times, which is promised in the "Complexity" section.

I don't see how any implementation can give such a guarantee without imposing requirements on the function object.

Just as an example: consider a function object that removes elements from the input sequence. In that case, what does the complexity guarantee (applies f exactly last - first times) mean?

One can argue that this is obviously a nonsensical application and a theoretical case, which unfortunately it isn't. I have seen programmers shooting themselves in the foot this way, and they did not understand that there are restrictions even if the description of the algorithm does not say so.

[Lillehammer: This is more general than for_each. We don't want the function object in transform invalidiating iterators either. There should be a note somewhere in clause 17 (17, not 25) saying that user code operating on a range may not invalidate iterators unless otherwise specified. Bill will provide wording.]

[ 2009-07 Frankfurt ]

Moved to NAD.

It was felt that the current description is adequate, and that there are limits to what the standard can reasonably say to prohibit perverse uses of the library.

Proposed resolution:


293. Order of execution in transform algorithm

Section: 25.3.4 [alg.transform] Status: NAD Submitter: Angelika Langer Opened: 2001-01-04 Last modified: 2015-04-08

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Discussion:

This issue is related to issue 242. In case that the resolution proposed for issue 242 is accepted, we have have the following situation: The 4 numeric algorithms (accumulate and consorts) as well as transform would allow a certain category of side effects. The numeric algorithms specify that they invoke the functor "for every iterator i in the range [first, last) in order". transform, in contrast, would not give any guarantee regarding order of invocation of the functor, which means that the functor can be invoked in any arbitrary order.

Why would that be a problem? Consider an example: say the transformator that is a simple enumerator ( or more generally speaking, "is order-sensitive" ). Since a standard compliant implementation of transform is free to invoke the enumerator in no definite order, the result could be a garbled enumeration. Strictly speaking this is not a problem, but it is certainly at odds with the prevalent understanding of transform as an algorithms that assigns "a new _corresponding_ value" to the output elements.

All implementations that I know of invoke the transformator in definite order, namely starting from first and proceeding to last - 1. Unless there is an optimization conceivable that takes advantage of the indefinite order I would suggest to specify the order, because it eliminate the uncertainty that users would otherwise have regarding the order of execution of their potentially order-sensitive function objects.

Proposed resolution:

In section 25.2.3 - Transform [lib.alg.transform] change:

-1- Effects: Assigns through every iterator i in the range [result, result + (last1 - first1)) a new corresponding value equal to op(*(first1 + (i - result)) or binary_op(*(first1 + (i - result), *(first2 + (i - result))).

to:

-1- Effects: Computes values by invoking the operation op or binary_op for every iterator in the range [first1, last1) in order. Assigns through every iterator i in the range [result, result + (last1 - first1)) a new corresponding value equal to op(*(first1 + (i - result)) or binary_op(*(first1 + (i - result), *(first2 + (i - result))).

Rationale:

For Input Iterators an order is already guaranteed, because only one order is possible. If a user who passes a Forward Iterator to one of these algorithms really needs a specific order of execution, it's possible to achieve that effect by wrapping it in an Input Iterator adaptor.


299. Incorrect return types for iterator dereference

Section: 24.2.6 [bidirectional.iterators], 24.2.7 [random.access.iterators] Status: NAD Editorial Submitter: John Potter Opened: 2001-01-22 Last modified: 2015-04-08

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Discussion:

In section 24.2.6 [bidirectional.iterators], Table 75 gives the return type of *r-- as convertible to T. This is not consistent with Table 74 which gives the return type of *r++ as T&. *r++ = t is valid while *r-- = t is invalid.

In section 24.2.7 [random.access.iterators], Table 76 gives the return type of a[n] as convertible to T. This is not consistent with the semantics of *(a + n) which returns T& by Table 74. *(a + n) = t is valid while a[n] = t is invalid.

Discussion from the Copenhagen meeting: the first part is uncontroversial. The second part, operator[] for Random Access Iterators, requires more thought. There are reasonable arguments on both sides. Return by value from operator[] enables some potentially useful iterators, e.g. a random access "iota iterator" (a.k.a "counting iterator" or "int iterator"). There isn't any obvious way to do this with return-by-reference, since the reference would be to a temporary. On the other hand, reverse_iterator takes an arbitrary Random Access Iterator as template argument, and its operator[] returns by reference. If we decided that the return type in Table 76 was correct, we would have to change reverse_iterator. This change would probably affect user code.

History: the contradiction between reverse_iterator and the Random Access Iterator requirements has been present from an early stage. In both the STL proposal adopted by the committee (N0527==94-0140) and the STL technical report (HPL-95-11 (R.1), by Stepanov and Lee), the Random Access Iterator requirements say that operator[]'s return value is "convertible to T". In N0527 reverse_iterator's operator[] returns by value, but in HPL-95-11 (R.1), and in the STL implementation that HP released to the public, reverse_iterator's operator[] returns by reference. In 1995, the standard was amended to reflect the contents of HPL-95-11 (R.1). The original intent for operator[] is unclear.

In the long term it may be desirable to add more fine-grained iterator requirements, so that access method and traversal strategy can be decoupled. (See "Improved Iterator Categories and Requirements", N1297 = 01-0011, by Jeremy Siek.) Any decisions about issue 299 should keep this possibility in mind.

Further discussion: I propose a compromise between John Potter's resolution, which requires T& as the return type of a[n], and the current wording, which requires convertible to T. The compromise is to keep the convertible to T for the return type of the expression a[n], but to also add a[n] = t as a valid expression. This compromise "saves" the common case uses of random access iterators, while at the same time allowing iterators such as counting iterator and caching file iterators to remain random access iterators (iterators where the lifetime of the object returned by operator*() is tied to the lifetime of the iterator).

Note that the compromise resolution necessitates a change to reverse_iterator. It would need to use a proxy to support a[n] = t.

Note also there is one kind of mutable random access iterator that will no longer meet the new requirements. Currently, iterators that return an r-value from operator[] meet the requirements for a mutable random access iterator, even though the expression a[n] = t will only modify a temporary that goes away. With this proposed resolution, a[n] = t will be required to have the same operational semantics as *(a + n) = t.

[ 2009-07-28 Reopened by Alisdair. No longer solved by concepts. ]

[ 2009-09-18 Alisdair adds: ]

Why can't we write through the reference returned from operator[] on a random access iterator?

Recommended solution:

In table Table 104 — Random access iterator requirements, replace

a[n] : convertible to const T & T& if X is mutable, otherwise convertible to const T&

[ 2009-10 Santa Cruz: ]

Leave Open. Alisdair to spearhead a paper on revivification.

[ 2010 Pittsburgh: Moved to NAD Editorial. Rationale added below. ]

Rationale:

Solved by N3066.

Proposed resolution:

In section 24.1.4 [lib.bidirectdional.iterators], change the return type in table 75 from "convertible to T" to T&.

In section 24.1.5 [lib.random.access.iterators], change the operational semantics for a[n] to " the r-value of a[n] is equivalent to the r-value of *(a + n)". Add a new row in the table for the expression a[n] = t with a return type of convertible to T and operational semantics of *(a + n) = t.

[Lillehammer: Real problem, but should be addressed as part of iterator redesign]

Rationale:

[ San Francisco: ]

Solved by N2758.


302. Need error indication from codecvt<>::do_length

Section: 22.4.1.5 [locale.codecvt.byname] Status: NAD Submitter: Gregory Bumgardner Opened: 2001-01-25 Last modified: 2015-04-08

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Discussion:

The effects of codecvt<>::do_length() are described in 22.2.1.5.2, paragraph 10. As implied by that paragraph, and clarified in issue 75, codecvt<>::do_length() must process the source data and update the stateT argument just as if the data had been processed by codecvt<>::in(). However, the standard does not specify how do_length() would report a translation failure, should the source sequence contain untranslatable or illegal character sequences.

The other conversion methods return an "error" result value to indicate that an untranslatable character has been encountered, but do_length() already has a return value (the number of source characters that have been processed by the method).

Proposed resolution:

This issue cannot be resolved without modifying the interface. An exception cannot be used, as there would be no way to determine how many characters have been processed and the state object would be left in an indeterminate state.

A source compatible solution involves adding a fifth argument to length() and do_length() that could be used to return position of the offending character sequence. This argument would have a default value that would allow it to be ignored:

  int length(stateT& state, 
             const externT* from, 
             const externT* from_end, 
             size_t max,
             const externT** from_next = 0);

  virtual
  int do_length(stateT& state, 
                const externT* from, 
                const externT* from_end, 
                size_t max,
                const externT** from_next);

Then an exception could be used to report any translation errors and the from_next argument, if used, could then be used to retrieve the location of the offending character sequence.

Rationale:

The standard is already clear: the return value is the number of "valid complete characters". If it encounters an invalid sequence of external characters, it stops.


304. Must *a return an lvalue when a is an input iterator?

Section: X [iterator.concepts] Status: NAD Submitter: Dave Abrahams Opened: 2001-02-05 Last modified: 2015-04-08

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Discussion:

We all "know" that input iterators are allowed to produce values when dereferenced of which there is no other in-memory copy.

But: Table 72, with a careful reading, seems to imply that this can only be the case if the value_type has no members (e.g. is a built-in type).

The problem occurs in the following entry:

  a->m     pre: (*a).m is well-defined
           Equivalent to (*a).m

*a.m can be well-defined if *a is not a reference type, but since operator->() must return a pointer for a->m to be well-formed, it needs something to return a pointer to. This seems to indicate that *a must be buffered somewhere to make a legal input iterator.

I don't think this was intentional.

Rationale:

The current standard is clear and consistent. Input iterators that return rvalues are in fact implementable. They may in some cases require extra work, but it is still possible to define an operator-> in such cases: it doesn't have to return a T*, but may return a proxy type. No change to the standard is justified.


309. Does sentry catch exceptions?

Section: 27.7 [iostream.format] Status: NAD Submitter: Martin Sebor Opened: 2001-03-19 Last modified: 2015-04-08

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Discussion:

The descriptions of the constructors of basic_istream<>::sentry (27.7.2.1.3 [istream::sentry]) and basic_ostream<>::sentry (27.7.3.4 [ostream::sentry]) do not explain what the functions do in case an exception is thrown while they execute. Some current implementations allow all exceptions to propagate, others catch them and set ios_base::badbit instead, still others catch some but let others propagate.

The text also mentions that the functions may call setstate(failbit) (without actually saying on what object, but presumably the stream argument is meant). That may have been fine for basic_istream<>::sentry prior to issue 195, since the function performs an input operation which may fail. However, issue 195 amends 27.7.2.1.3 [istream::sentry], p2 to clarify that the function should actually call setstate(failbit | eofbit), so the sentence in p3 is redundant or even somewhat contradictory.

The same sentence that appears in 27.7.3.4 [ostream::sentry], p3 doesn't seem to be very meaningful for basic_istream<>::sentry which performs no input. It is actually rather misleading since it would appear to guide library implementers to calling setstate(failbit) when os.tie()->flush(), the only called function, throws an exception (typically, it's badbit that's set in response to such an event).

Additional comments from Martin, who isn't comfortable with the current proposed resolution (see c++std-lib-11530)

The istream::sentry ctor says nothing about how the function deals with exemptions (27.6.1.1.2, p1 says that the class is responsible for doing "exception safe"(*) prefix and suffix operations but it doesn't explain what level of exception safety the class promises to provide). The mockup example of a "typical implementation of the sentry ctor" given in 27.6.1.1.2, p6, removed in ISO/IEC 14882:2003, doesn't show exception handling, either. Since the ctor is not classified as a formatted or unformatted input function, the text in 27.6.1.1, p1 through p4 does not apply. All this would seem to suggest that the sentry ctor should not catch or in any way handle exceptions thrown from any functions it may call. Thus, the typical implementation of an istream extractor may look something like [1].

The problem with [1] is that while it correctly sets ios::badbit if an exception is thrown from one of the functions called from the sentry ctor, if the sentry ctor reaches EOF while extracting whitespace from a stream that has eofbit or failbit set in exceptions(), it will cause an ios::failure to be thrown, which will in turn cause the extractor to set ios::badbit.

The only straightforward way to prevent this behavior is to move the definition of the sentry object in the extractor above the try block (as suggested by the example in 22.2.8, p9 and also indirectly supported by 27.6.1.3, p1). See [2]. But such an implementation will allow exceptions thrown from functions called from the ctor to freely propagate to the caller regardless of the setting of ios::badbit in the stream object's exceptions().

So since neither [1] nor [2] behaves as expected, the only possible solution is to have the sentry ctor catch exceptions thrown from called functions, set badbit, and propagate those exceptions if badbit is also set in exceptions(). (Another solution exists that deals with both kinds of sentries, but the code is non-obvious and cumbersome -- see [3].)

Please note that, as the issue points out, current libraries do not behave consistently, suggesting that implementors are not quite clear on the exception handling in istream::sentry, despite the fact that some LWG members might feel otherwise. (As documented by the parenthetical comment here: http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2003/n1480.html#309)

Also please note that those LWG members who in Copenhagen felt that "a sentry's constructor should not catch exceptions, because sentries should only be used within (un)formatted input functions and that exception handling is the responsibility of those functions, not of the sentries," as noted here http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2001/n1310.html#309 would in effect be either arguing for the behavior described in [1] or for extractors implemented along the lines of [3].

The original proposed resolution (Revision 25 of the issues list) clarifies the role of the sentry ctor WRT exception handling by making it clear that extractors (both library or user-defined) should be implemented along the lines of [2] (as opposed to [1]) and that no exception thrown from the callees should propagate out of either function unless badbit is also set in exceptions().

[1] Extractor that catches exceptions thrown from sentry:

struct S { long i; };

istream& operator>> (istream &strm, S &s)
{
    ios::iostate err = ios::goodbit;
    try {
        const istream::sentry guard (strm, false);
        if (guard) {
            use_facet<num_get<char> >(strm.getloc ())
                .get (istreambuf_iterator<char>(strm),
                      istreambuf_iterator<char>(),
                      strm, err, s.i);
        }
    }
    catch (...) {
        bool rethrow;
        try {
            strm.setstate (ios::badbit);
            rethrow = false;
        }
        catch (...) {
            rethrow = true;
        }
        if (rethrow)
            throw;
    }
    if (err)
        strm.setstate (err);
    return strm;
}

[2] Extractor that propagates exceptions thrown from sentry:

istream& operator>> (istream &strm, S &s)
{
    istream::sentry guard (strm, false);
    if (guard) {
        ios::iostate err = ios::goodbit;
        try {
            use_facet<num_get<char> >(strm.getloc ())
                .get (istreambuf_iterator<char>(strm),
                      istreambuf_iterator<char>(),
                      strm, err, s.i);
        }
        catch (...) {
            bool rethrow;
            try {
                strm.setstate (ios::badbit);
                rethrow = false;
            }
            catch (...) {
                rethrow = true;
            }
            if (rethrow)
                throw;
        }
        if (err)
            strm.setstate (err);
    }
    return strm;
}

[3] Extractor that catches exceptions thrown from sentry but doesn't set badbit if the exception was thrown as a result of a call to strm.clear().

istream& operator>> (istream &strm, S &s)
{
    const ios::iostate state = strm.rdstate ();
    const ios::iostate except = strm.exceptions ();
    ios::iostate err = std::ios::goodbit;
    bool thrown = true;
    try {
        const istream::sentry guard (strm, false);
        thrown = false;
        if (guard) {
            use_facet<num_get<char> >(strm.getloc ())
                .get (istreambuf_iterator<char>(strm),
                      istreambuf_iterator<char>(),
                      strm, err, s.i);
        }
    }
    catch (...) {
        if (thrown && state & except)
            throw;
        try {
            strm.setstate (ios::badbit);
            thrown = false;
        }
        catch (...) {
            thrown = true;
        }
        if (thrown)
            throw;
    }
    if (err)
        strm.setstate (err);

    return strm;
}

[Pre-Berlin] Reopened at the request of Paolo Carlini and Steve Clamage.

[Pre-Portland] A relevant newsgroup post:

The current proposed resolution of issue #309 (http://www.open-std.org/jtc1/sc22/wg21/docs/lwg-active.html#309) is unacceptable. I write commerical software and coding around this makes my code ugly, non-intuitive, and requires comments referring people to this very issue. Following is the full explanation of my experience.

In the course of writing software for commercial use, I constructed std::ifstream's based on user-supplied pathnames on typical POSIX systems.

It was expected that some files that opened successfully might not read successfully -- such as a pathname which actually refered to a directory. Intuitively, I expected the streambuffer underflow() code to throw an exception in this situation, and recent implementations of libstdc++'s basic_filebuf do just that (as well as many of my own custom streambufs).

I also intuitively expected that the istream code would convert these exceptions to the "badbit' set on the stream object, because I had not requested exceptions. I refer to 27.6.1.1. P4.

However, this was not the case on at least two implementations -- if the first thing I did with an istream was call operator>>( T& ) for T among the basic arithmetic types and std::string. Looking further I found that the sentry's constructor was invoking the exception when it pre-scanned for whitespace, and the extractor function (operator>>()) was not catching exceptions in this situation.

So, I was in a situation where setting 'noskipws' would change the istream's behavior even though no characters (whitespace or not) could ever be successfully read.

Also, calling .peek() on the istream before calling the extractor() changed the behavior (.peek() had the effect of setting the badbit ahead of time).

I found this all to be so inconsistent and inconvenient for me and my code design, that I filed a bugzilla entry for libstdc++. I was then told that the bug cannot be fixed until issue #309 is resolved by the committee.

[ 2009-07 Frankfurt ]

Moved to NAD.

See the rationale in the issue. Paolo, who requested that the issue be reopened, agreed with the rationale.

Proposed resolution:

Rationale:

The LWG agrees there is minor variation between implementations, but believes that it doesn't matter. This is a rarely used corner case. There is no evidence that this has any commercial importance or that it causes actual portability problems for customers trying to write code that runs on multiple implementations.


313. set_terminate and set_unexpected question

Section: 18.8.3.4 [terminate] Status: NAD Submitter: Judy Ward Opened: 2001-04-03 Last modified: 2015-04-08

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Discussion:

According to section 18.7.3.3 of the standard, std::terminate() is supposed to call the terminate_handler in effect immediately after evaluating the throw expression.

Question: what if the terminate_handler in effect is itself std::terminate?

For example:

  #include <exception>

  int main () {
      std::set_terminate(std::terminate);
      throw 5;
      return 0;
  }

Is the implementation allowed to go into an infinite loop?

I think the same issue applies to std::set_unexpected.

Proposed resolution:

Rationale:

Infinite recursion is to be expected: users who set the terminate handler to terminate are explicitly asking for terminate to call itself.


314. Is the stack unwound when terminate() is called?

Section: 18.8.3.4 [terminate] Status: NAD Submitter: Detlef Vollmann Opened: 2001-04-11 Last modified: 2015-04-08

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Discussion:

The standard appears to contradict itself about whether the stack is unwound when the implementation calls terminate().

From 18.7.3.3p2:

Calls the terminate_handler function in effect immediately after evaluating the throw-expression (lib.terminate.handler), if called by the implementation [...]

So the stack is guaranteed not to be unwound.

But from 15.3p9:

[...]whether or not the stack is unwound before this call to terminate() is implementation-defined (except.terminate).

And 15.5.1 actually defines that in most cases the stack is unwound.

Proposed resolution:

Rationale:

There is definitely no contradiction between the core and library clauses; nothing in the core clauses says that stack unwinding happens after terminate is called. 18.7.3.3p2 does not say anything about when terminate() is called; it merely specifies which terminate_handler is used.


323. abs() overloads in different headers

Section: 26.8 [c.math] Status: NAD Submitter: Dave Abrahams Opened: 2001-06-04 Last modified: 2015-04-08

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Discussion:

Currently the standard mandates the following overloads of abs():

    abs(long), abs(int) in <cstdlib>

    abs(float), abs(double), abs(long double) in <cmath>

    template<class T> T abs(const complex<T>&) in <complex>

    template<class T> valarray<T> abs(const valarray<T>&); in <valarray>

The problem is that having only some overloads visible of a function that works on "implicitly inter-convertible" types is dangerous in practice. The headers that get included at any point in a translation unit can change unpredictably during program development/maintenance. The wrong overload might be unintentionally selected.

Currently, there is nothing that mandates the simultaneous visibility of these overloads. Indeed, some vendors have begun fastidiously reducing dependencies among their (public) headers as a QOI issue: it helps people to write portable code by refusing to compile unless all the correct headers are #included.

The same issue may exist for other functions in the library.

Redmond: PJP reports that C99 adds two new kinds of abs: complex, and int_max_abs.

Related issue: 343.

[ Bellevue: ]

The situation is not sufficiently severe to warrant a change.

Rationale:

The programs that could potentially be broken by this situation are already fragile, and somewhat contrived: For example, a user-defined class that has conversion overloads both to long and to float. If x is a value of such a class, then abs(x) would give the long version if the user included <cstdlib>, the float version if the user included <cmath>, and would be diagnosed as ambiguous at compile time if the user included both headers. The LWG couldn't find an example of a program whose meaning would be changed (as opposed to changing it from well-formed to ill-formed) simply by adding another standard header.

Since the harm seems minimal, and there don't seem to be any simple and noninvasive solutions, this is being closed as NAD. It is marked as "Future" for two reasons. First, it might be useful to define an <all> header that would include all Standard Library headers. Second, we should at least make sure that future library extensions don't make this problem worse.


326. Missing typedef in moneypunct_byname

Section: 22.4.6.4 [locale.moneypunct.byname] Status: NAD Submitter: Martin Sebor Opened: 2001-07-05 Last modified: 2015-04-08

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Discussion:

The definition of the moneypunct facet contains the typedefs char_type and string_type. Only one of these names, string_type, is defined in the derived facet, moneypunct_byname.

Proposed resolution:

For consistency with the numpunct facet, add a typedef for char_type to the definition of the moneypunct_byname facet in 22.4.6.4 [locale.moneypunct.byname].

Rationale:

The absence of the typedef is irrelevant. Users can still access the typedef, because it is inherited from the base class.


330. Misleading "exposition only" value in class locale definition

Section: 22.3.1 [locale] Status: NAD Submitter: Martin Sebor Opened: 2001-07-15 Last modified: 2015-04-08

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Discussion:

The "exposition only" value of the std::locale::none constant shown in the definition of class locale is misleading in that it on many systems conflicts with the value assigned to one if the LC_XXX constants (specifically, LC_COLLATE on AIX, LC_ALL on HP-UX, LC_CTYPE on Linux and SunOS). This causes incorrect behavior when such a constant is passed to one of the locale member functions that accept a locale::category argument and interpret it as either the C LC_XXX constant or a bitmap of locale::category values. At least three major implementations adopt the suggested value without a change and consequently suffer from this problem.

For instance, the following code will (presumably) incorrectly copy facets belonging to the collate category from the German locale on AIX:

  std::locale l (std::locale ("C"), "de_DE", std::locale::none);

Rationale:

The LWG agrees that it may be difficult to implement locale member functions in such a way that they can take either category arguments or the LC_ constants defined in <cctype>. In light of this requirement (22.3.1.1.1 [locale.category], paragraph 2), and in light of the requirement in the preceding paragraph that it is possible to combine category bitmask elements with bitwise operations, defining the category elements is delicate, particularly if an implementor is constrained to work with a preexisting C library. (Just using the existing LC_ constants would not work in general.) There's no set of "exposition only" values that could give library implementors proper guidance in such a delicate matter. The non-normative example we're giving is no worse than any other choice would be.

See issue 347.


332. Consider adding increment and decrement operators to std::fpos< T >

Section: 27.5.4 [fpos] Status: NAD Submitter: PremAnand M. Rao Opened: 2001-08-27 Last modified: 2015-04-08

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Discussion:

Increment and decrement operators are missing from Table 88 -- Position type requirements in 27.5.4 [fpos].

Proposed resolution:

Table 88 (section 27.4.3) -- Position type requirements be updated to include increment and decrement operators.

expression        return type     operational    note

++p               fpos&           p += O(1)
p++               fpos            { P tmp = p;
                                    ++p;
                                    return tmp; }
--p               fpos&           p -= O(1)
p--               fpos            { P tmp = p;
                                    --p;
                                    return tmp; }

Rationale:

The LWG believes this is a request for extension, not a defect report. Additionally, nobody saw a clear need for this extension; fpos is used only in very limited ways.


342. seek and eofbit

Section: 27.7.2.3 [istream.unformatted] Status: NAD Submitter: Howard Hinnant Opened: 2001-10-09 Last modified: 2015-04-08

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Discussion:

I think we have a defect.

According to lwg issue 60 which is now a dr, the description of seekg in 27.7.2.3 [istream.unformatted] paragraph 38 now looks like:

Behaves as an unformatted input function (as described in 27.6.1.3, paragraph 1), except that it does not count the number of characters extracted and does not affect the value returned by subsequent calls to gcount(). After constructing a sentry object, if fail() != true, executes rdbuf()->pubseekpos( pos).

And according to lwg issue 243 which is also now a dr, 27.6.1.3, paragraph 1 looks like:

Each unformatted input function begins execution by constructing an object of class sentry with the default argument noskipws (second) argument true. If the sentry object returns true, when converted to a value of type bool, the function endeavors to obtain the requested input. Otherwise, if the sentry constructor exits by throwing an exception or if the sentry object returns false, when converted to a value of type bool, the function returns without attempting to obtain any input. In either case the number of extracted characters is set to 0; unformatted input functions taking a character array of non-zero size as an argument shall also store a null character (using charT()) in the first location of the array. If an exception is thrown during input then ios::badbit is turned on in *this'ss error state. If (exception()&badbit)!= 0 then the exception is rethrown. It also counts the number of characters extracted. If no exception has been thrown it ends by storing the count in a member object and returning the value specified. In any event the sentry object is destroyed before leaving the unformatted input function.

And finally 27.6.1.1.2/5 says this about sentry:

If, after any preparation is completed, is.good() is true, ok_ != false otherwise, ok_ == false.

So although the seekg paragraph says that the operation proceeds if !fail(), the behavior of unformatted functions says the operation proceeds only if good(). The two statements are contradictory when only eofbit is set. I don't think the current text is clear which condition should be respected.

Further discussion from Redmond:

PJP: It doesn't seem quite right to say that seekg is "unformatted". That makes specific claims about sentry that aren't quite appropriate for seeking, which has less fragile failure modes than actual input. If we do really mean that it's unformatted input, it should behave the same way as other unformatted input. On the other hand, "principle of least surprise" is that seeking from EOF ought to be OK.

Pre-Berlin: Paolo points out several problems with the proposed resolution in Ready state:

[ 2009-07 Frankfurt ]

Moved to NAD. Will reopen if proposed resolution is supplied.

Proposed resolution:

Change 27.7.2.3 [istream.unformatted] to:

Behaves as an unformatted input function (as described in 27.6.1.3, paragraph 1), except that it does not count the number of characters extracted, does not affect the value returned by subsequent calls to gcount(), and does not examine the value returned by the sentry object. After constructing a sentry object, if fail() != true, executes rdbuf()->pubseekpos(pos). In case of success, the function calls clear(). In case of failure, the function calls setstate(failbit) (which may throw ios_base::failure).

[Lillehammer: Matt provided wording.]

Rationale:

In C, fseek does clear EOF. This is probably what most users would expect. We agree that having eofbit set should not deter a seek, and that a successful seek should clear eofbit. Note that fail() is true only if failbit or badbit is set, so using !fail(), rather than good(), satisfies this goal.


344. grouping + showbase

Section: 22.4.2 [category.numeric] Status: NAD Submitter: Howard Hinnant Opened: 2001-10-13 Last modified: 2015-04-08

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Discussion:

When both grouping and showbase are active and the basefield is octal, does the leading 0 participate in the grouping or not? For example, should one format as: 0,123,456 or 0123,456?

An analogy can be drawn with hexadecimal. It appears that 0x123,456 is preferred over 0x,123,456. However, this analogy is not universally accepted to apply to the octal base. The standard is not clear on how to format (or parse) in this manner.

Proposed resolution:

Insert into 22.4.3.1.2 [facet.numpunct.virtuals] paragraph 3, just before the last sentence:

The leading hexadecimal base specifier "0x" does not participate in grouping. The leading '0' octal base specifier may participate in grouping. It is unspecified if the leading '0' participates in formatting octal numbers. In parsing octal numbers, the implementation is encouraged to accept both the leading '0' participating in the grouping, and not participating (e.g. 0123,456 or 0,123,456).

Rationale:

The current behavior may be unspecified, but it's not clear that it matters. This is an obscure corner case, since grouping is usually intended for the benefit of humans and oct/hex prefixes are usually intended for the benefit of machines. There is not a strong enough consensus in the LWG for action.


348. Minor issue with std::pair operator<

Section: 20.3 [pairs] Status: Dup Submitter: Andy Sawyer Opened: 2001-10-23 Last modified: 2015-04-08

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Duplicate of: 532

Discussion:

The current wording of 20.2.2 [lib.pairs] p6 precludes the use of operator< on any pair type which contains a pointer.

Proposed resolution:

In 20.3 [pairs] paragraph 6, replace:

    Returns: x.first < y.first || (!(y.first < x.first) && x.second <
        y.second).

With:

    Returns: std::less<T1>()( x.first, y.first ) ||
             (!std::less<T1>()( y.first, x.first) && 
             std::less<T2>()( x.second, y.second ) )

Rationale:

This is an instance of a much more general problem. If we want operator< to translate to std::less for pairs of pointers, where do we draw the line? The same issue applies to individual pointers, smart pointer wrappers, std::vector<T*>, and so on.

Andy Koenig suggests that the real issue here is that we aren't distinguishing adequately between two different orderings, a "useful ordering" and a "canonical ordering" that's used just because we sometimes need some ordering without caring much which ordering it is. Another example of the later is typeinfo's before.


350. allocator<>::address

Section: 20.7.9.1 [allocator.members], 17.6.3.5 [allocator.requirements], 17.6.1.1 [contents] Status: Dup Submitter: Nathan Myers Opened: 2001-10-25 Last modified: 2015-04-08

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Duplicate of: 634

Discussion:

See c++std-lib-9006 and c++std-lib-9007. This issue is taken verbatim from -9007.

The core language feature allowing definition of operator&() applied to any non-builtin type makes that operator often unsafe to use in implementing libraries, including the Standard Library. The result is that many library facilities fail for legal user code, such as the fragment

  class A { private: A* operator&(); };
  std::vector<A> aa;

  class B { };
  B* operator&(B&) { return 0; }
  std::vector<B> ba;

In particular, the requirements table for Allocator (Table 32) specifies no semantics at all for member address(), and allocator<>::address is defined in terms of unadorned operator &.

Proposed resolution:

In 20.6.1.1, Change the definition of allocator<>::address from:

Returns: &x

to:

Returns: The value that the built in operator&(x) would return if not overloaded.

In 20.1.6, Table 32, add to the Notes column of the a.address(r) and a.address(s) lines, respectively:

  allocator<T>::address(r)
  allocator<T>::address(s)

In addition, in clause 17.4.1.1, add a statement:

The Standard Library does not apply operator& to any type for which operator& may be overloaded.

Rationale:

The LWG believes both examples are ill-formed. The contained type is required to be CopyConstructible (17.6.3.1 [utility.arg.requirements]), and that includes the requirement that &t return the usual types and values. Since allocators are intended to be used in conjunction with containers, and since the CopyConstructible requirements appear to have been written to deal with the concerns of this issue, the LWG feels it is NAD unless someone can come up with a well-formed example exhibiting a problem.

It may well be that the CopyConstructible requirements are too restrictive and that either the container requirements or the CopyConstructive requirements should be relaxed, but that's a far larger issue. Marking this issue as "future" as a pointer to that larger issue.


351. unary_negate and binary_negate: struct or class?

Section: 20.9 [function.objects] Status: NAD Editorial Submitter: Dale Riley Opened: 2001-11-12 Last modified: 2015-04-08

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Discussion:

In 20.9 [function.objects] the header <functional> synopsis declares the unary_negate and binary_negate function objects as struct. However in 20.9.9 [negators] the unary_negate and binary_negate function objects are defined as class. Given the context, they are not "basic function objects" like negate, so this is either a typo or an editorial oversight.

[Taken from comp.std.c++]

Proposed resolution:

Change the synopsis to reflect the useage in 20.9.9 [negators]

[Curaçao: Since the language permits "struct", the LWG views this as NAD. They suggest, however, that the Project Editor might wish to make the change as editorial.]


356. Meaning of ctype_base::mask enumerators

Section: 22.4.1 [category.ctype] Status: NAD Submitter: Matt Austern Opened: 2002-01-23 Last modified: 2015-04-08

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Discussion:

What should the following program print?

  #include <locale>
  #include <iostream>

  class my_ctype : public std::ctype<char>
  {
    typedef std::ctype<char> base;
  public:
    my_ctype(std::size_t refs = 0) : base(my_table, false, refs)
    {
      std::copy(base::classic_table(), base::classic_table() + base::table_size,
                my_table);
      my_table[(unsigned char) '_'] = (base::mask) (base::print | base::space);
    }
  private:
    mask my_table[base::table_size];
  };

  int main()
  {
    my_ctype ct;
    std::cout << "isspace: " << ct.is(std::ctype_base::space, '_') << "    "
              << "isalpha: " << ct.is(std::ctype_base::alpha, '_') << std::endl;
  }

The goal is to create a facet where '_' is treated as whitespace.

On gcc 3.0, this program prints "isspace: 1 isalpha: 0". On Microsoft C++ it prints "isspace: 1 isalpha: 1".

I believe that both implementations are legal, and the standard does not give enough guidance for users to be able to use std::ctype's protected interface portably.

The above program assumes that ctype_base::mask enumerators like space and print are disjoint, and that the way to say that a character is both a space and a printing character is to or those two enumerators together. This is suggested by the "exposition only" values in 22.4.1 [category.ctype], but it is nowhere specified in normative text. An alternative interpretation is that the more specific categories subsume the less specific. The above program gives the results it does on the Microsoft compiler because, on that compiler, print has all the bits set for each specific printing character class.

From the point of view of std::ctype's public interface, there's no important difference between these two techniques. From the point of view of the protected interface, there is. If I'm defining a facet that inherits from std::ctype<char>, I'm the one who defines the value that table()['a'] returns. I need to know what combination of mask values I should use. This isn't so very esoteric: it's exactly why std::ctype has a protected interface. If we care about users being able to write their own ctype facets, we have to give them a portable way to do it.

Related reflector messages: lib-9224, lib-9226, lib-9229, lib-9270, lib-9272, lib-9273, lib-9274, lib-9277, lib-9279.

Issue 339 is related, but not identical. The proposed resolution if issue 339 says that ctype_base::mask must be a bitmask type. It does not say that the ctype_base::mask elements are bitmask elements, so it doesn't directly affect this issue.

More comments from Benjamin Kosnik, who believes that that C99 compatibility essentially requires what we're calling option 1 below.

I think the C99 standard is clear, that isspace -> !isalpha.
--------

#include <locale>
#include <iostream>

class my_ctype : public std::ctype<char>
{
private:
  typedef std::ctype<char> base;
  mask my_table[base::table_size];

public:
  my_ctype(std::size_t refs = 0) : base(my_table, false, refs)
  {
    std::copy(base::classic_table(), base::classic_table() + base::table_size,
              my_table);
    mask both = base::print | base::space;
    my_table[static_cast<mask>('_')] = both;
  }
};

int main()
{
  using namespace std;
  my_ctype ct;
  cout << "isspace: " << ct.is(ctype_base::space, '_') << endl;
  cout << "isprint: " << ct.is(ctype_base::print, '_') << endl;

  // ISO C99, isalpha iff upper | lower set, and !space.
  // 7.5, p 193
  // -> looks like g++ behavior is correct.
  // 356 -> bitmask elements are required for ctype_base
  // 339 -> bitmask type required for mask
  cout << "isalpha: " << ct.is(ctype_base::alpha, '_') << endl;
}

Proposed resolution:

Informally, we have three choices:

  1. Require that the enumerators are disjoint (except for alnum and graph)
  2. Require that the enumerators are not disjoint, and specify which of them subsume which others. (e.g. mandate that lower includes alpha and print)
  3. Explicitly leave this unspecified, which the result that the above program is not portable.

Either of the first two options is just as good from the standpoint of portability. Either one will require some implementations to change.

Rationale:

The LWG agrees that this is a real ambiguity, and that both interpretations are conforming under the existing standard. However, there's no evidence that it's causing problems for real users. Users who want to define ctype facets portably can test the ctype_base masks to see which interpretation is being used.


357. <cmath> float functions cannot return HUGE_VAL

Section: 26.8 [c.math] Status: NAD Editorial Submitter: Ray Lischner Opened: 2002-02-26 Last modified: 2015-04-08

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Discussion:

The float versions of the math functions have no meaningful value to return for a range error. The long double versions have a value they can return, but it isn't necessarily the most reasonable value.

Section 26.5 [lib.c.math], paragraph 5, says that C++ "adds float and long double overloaded versions of these functions, with the same semantics," referring to the math functions from the C90 standard.

The C90 standard, in section 7.5.1, paragraph 3, says that functions return "the value of the macro HUGE_VAL" when they encounter a range error. Section 7.5, paragraph 2, defines HUGE_VAL as a macro that "expands to a positive double expression, not necessarily representable as a float."

Therefore, the float versions of the math functions have no way to signal a range error. [Curaçao: The LWG notes that this isn't strictly correct, since errno is set.] The semantics require that they return HUGE_VAL, but they cannot because HUGE_VAL might not be representable as a float.

The problem with long double functions is less severe because HUGE_VAL is representable as a long double. On the other hand, it might not be a "huge" long double value, and might fall well within the range of normal return values for a long double function. Therefore, it does not make sense for a long double function to return a double (HUGE_VAL) for a range error.

Proposed resolution:

Curaçao: C99 was faced with a similar problem, which they fixed by adding HUGE_VALF and HUGE_VALL in addition to HUGE_VAL.

C++ must also fix, but it should be done in the context of the general C99 based changes to C++, not via DR. Thus the LWG in Curaçao felt the resolution should be NAD, FUTURE, but the issue is being held open for one more meeting to ensure LWG members not present during the discussion concur.

Rationale:

Will be fixed as part of more general work in the TR.


361. num_get<>::do_get (..., void*&) checks grouping

Section: 22.4.2.2.2 [facet.num.put.virtuals] Status: NAD Submitter: Martin Sebor Opened: 2002-03-12 Last modified: 2015-04-08

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Discussion:

22.2.2.2.2, p12 specifies that thousands_sep is to be inserted only for integral types (issue 282 suggests that this should be done for all arithmetic types).

22.2.2.1.2, p12 requires that grouping be checked for all extractors including that for void*.

I don't think that's right. void* values should not be checked for grouping, should they? (Although if they should, then num_put needs to write them out, otherwise their extraction will fail.)

Proposed resolution:

Change the first sentence of 22.2.2.2.2, p12 from

Digit grouping is checked. That is, the positions of discarded separators is examined for consistency with use_facet<numpunct<charT> >(loc).grouping(). If they are not consistent then ios_base::failbit is assigned to err.

to

Except for conversions to void*, digit grouping is checked...

Rationale:

This would be a change: as it stands, the standard clearly specifies that grouping applies to void*. A survey of existing practice shows that most existing implementations do that, as they should.


366. Excessive const-qualification

Section: 27 [input.output] Status: NAD Submitter: Walter Brown, Marc Paterno Opened: 2002-05-10 Last modified: 2015-04-08

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Discussion:

The following member functions are declared const, yet return non-const pointers. We believe they are should be changed, because they allow code that may surprise the user. See document N1360 for details and rationale.

[Santa Cruz: the real issue is that we've got const member functions that return pointers to non-const, and N1360 proposes replacing them by overloaded pairs. There isn't a consensus about whether this is a real issue, since we've never said what our constness policy is for iostreams. N1360 relies on a distinction between physical constness and logical constness; that distinction, or those terms, does not appear in the standard.]

Proposed resolution:

In 27.4.4 and 27.4.4.2

Replace

  basic_ostream<charT,traits>* tie() const;

with

  basic_ostream<charT,traits>* tie();
  const basic_ostream<charT,traits>* tie() const;

and replace

  basic_streambuf<charT,traits>* rdbuf() const;

with

  basic_streambuf<charT,traits>* rdbuf();
  const basic_streambuf<charT,traits>* rdbuf() const;

In 27.5.2 and 27.5.2.3.1

Replace

  char_type* eback() const;

with

  char_type* eback();
  const char_type* eback() const;

Replace

  char_type gptr() const;

with

  char_type* gptr();
  const char_type* gptr() const;

Replace

  char_type* egptr() const;

with

  char_type* egptr();
  const char_type* egptr() const;

In 27.5.2 and 27.5.2.3.2

Replace

  char_type* pbase() const;

with

  char_type* pbase();
  const char_type* pbase() const;

Replace

  char_type* pptr() const;

with

  char_type* pptr();
  const char_type* pptr() const;

Replace

  char_type* epptr() const;

with

  char_type* epptr();
  const char_type* epptr() const;

In 27.7.2, 27.7.2.2, 27.7.3 27.7.3.2, 27.7.4, and 27.7.6

Replace

  basic_stringbuf<charT,traits,Allocator>* rdbuf() const;

with

  basic_stringbuf<charT,traits,Allocator>* rdbuf();
  const basic_stringbuf<charT,traits,Allocator>* rdbuf() const;

In 27.8.1.5, 27.8.1.7, 27.8.1.8, 27.8.1.10, 27.8.1.11, and 27.8.1.13

Replace

  basic_filebuf<charT,traits>* rdbuf() const;

with

  basic_filebuf<charT,traits>* rdbuf();
  const basic_filebuf<charT,traits>* rdbuf() const;

Rationale:

The existing specification is a bit sloppy, but there's no particular reason to change this other than tidiness, and there are a number of ways in which streams might have been designed differently if we were starting today. There's no evidence that the existing constness policy is harming users. We might consider a different constness policy as part of a full stream redesign.


367. remove_copy/remove_copy_if and Input Iterators

Section: 25.3.8 [alg.remove] Status: NAD Submitter: Anthony Williams Opened: 2002-05-13 Last modified: 2015-04-08

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Discussion:

remove_copy and remove_copy_if (25.3.8 [alg.remove]) permit their input range to be marked with Input Iterators. However, since two operations are required against the elements to copy (comparison and assigment), when the input range uses Input Iterators, a temporary copy must be taken to avoid dereferencing the iterator twice. This therefore requires the value type of the InputIterator to be CopyConstructible. If the iterators are at least Forward Iterators, then the iterator can be dereferenced twice, or a reference to the result maintained, so the temporary is not required.

Proposed resolution:

Add "If InputIterator does not meet the requirements of forward iterator, then the value type of InputIterator must be copy constructible. Otherwise copy constructible is not required." to 25.3.8 [alg.remove] paragraph 6.

Rationale:

The assumption is that an input iterator can't be dereferenced twice. There's no basis for that assumption in the Standard.


368. basic_string::replace has two "Throws" paragraphs

Section: 21.4.6.6 [string::replace] Status: NAD Editorial Submitter: Beman Dawes Opened: 2002-06-03 Last modified: 2015-04-08

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Discussion:

21.4.6.6 [string::replace] basic_string::replace, second signature, given in paragraph 1, has two "Throws" paragraphs (3 and 5).

In addition, the second "Throws" paragraph (5) includes specification (beginning with "Otherwise, the function replaces ...") that should be part of the "Effects" paragraph.

Proposed resolution:

Rationale:

This is editorial. Both "throws" statements are true. The bug is just that the second one should be a sentence, part of the "Effects" clause, not a separate "Throws". The project editor has been notified.


372. Inconsistent description of stdlib exceptions

Section: 17.6.5.12 [res.on.exception.handling], 18.7.1 [type.info] Status: NAD Submitter: Randy Maddox Opened: 2002-07-22 Last modified: 2015-04-08

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Discussion:

Paragraph 3 under clause 17.6.5.12 [res.on.exception.handling], Restrictions on Exception Handling, states that "Any other functions defined in the C++ Standard Library that do not have an exception-specification may throw implementation-defined exceptions unless otherwise specified." This statement is followed by a reference to footnote 178 at the bottom of that page which states, apparently in reference to the C++ Standard Library, that "Library implementations are encouraged (but not required) to report errors by throwing exceptions from (or derived from) the standard exceptions."

These statements appear to be in direct contradiction to clause 18.7.1 [type.info], which states "The class exception defines the base class for the types of objects thrown as exceptions by the C++ Standard library components ...".

Is this inconsistent?

Proposed resolution:

Rationale:

Clause 17 is setting the overall library requirements, and it's clear and consistent. This sentence from Clause 18 is descriptive, not setting a requirement on any other class.


374. moneypunct::frac_digits returns int not unsigned

Section: 22.4.6.3.1 [locale.moneypunct.members], 22.4.6.3.2 [locale.moneypunct.virtuals] Status: NAD Submitter: Ray Lischner Opened: 2002-08-08 Last modified: 2015-04-08

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Discussion:

In section 22.4.6.3.1 [locale.moneypunct.members], frac_digits() returns type "int". This implies that frac_digits() might return a negative value, but a negative value is nonsensical. It should return "unsigned".

Similarly, in section 22.4.6.3.2 [locale.moneypunct.virtuals], do_frac_digits() should return "unsigned".

Proposed resolution:

Rationale:

Regardless of whether the return value is int or unsigned, it's always conceivable that frac_digits might return a nonsensical value. (Is 4294967295 really any better than -1?) The clients of moneypunct, the get and put facets, can and do perform range checks.


377. basic_string::insert and length_error

Section: 21.4.6.4 [string::insert] Status: NAD Submitter: Ray Lischner Opened: 2002-08-16 Last modified: 2015-04-08

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Discussion:

Section 21.4.6.4 [string::insert], paragraph 4, contains the following, "Then throws length_error if size() >= npos - rlen."

Related to DR 83, this sentence should probably be removed.

Proposed resolution:

Rationale:

This requirement is redundant but correct. No change is needed.


378. locale immutability and locale::operator=()

Section: 22.3.1 [locale] Status: Dup Submitter: Martin Sebor Opened: 2002-09-06 Last modified: 2015-04-08

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Duplicate of: 31

Discussion:

I think there is a problem with 22.1.1, p6 which says that

    -6- An instance of locale is immutable; once a facet reference
        is obtained from it, that reference remains usable as long
        as the locale value itself exists.

and 22.1.1.2, p4:

    const locale& operator=(const locale& other) throw();

    -4- Effects: Creates a copy of other, replacing the current value.

How can a reference to a facet obtained from a locale object remain valid after an assignment that clearly must replace all the facets in the locale object? Imagine a program such as this

    std::locale loc ("de_DE");
    const std::ctype<char> &r0 = std::use_facet<std::ctype<char> >(loc);
    loc = std::locale ("en_US");
    const std::ctype<char> &r1 = std::use_facet<std::ctype<char> >(loc);

Is r0 really supposed to be preserved and destroyed only when loc goes out of scope?

Proposed resolution:

[Summer '04 mid-meeting mailing: Martin and Dietmar believe this is a duplicate of issue 31 and recommend that it be closed. ]


382. codecvt do_in/out result

Section: 22.4.1.4 [locale.codecvt] Status: NAD Submitter: Martin Sebor Opened: 2002-08-30 Last modified: 2015-04-08

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Discussion:

It seems that the descriptions of codecvt do_in() and do_out() leave sufficient room for interpretation so that two implementations of codecvt may not work correctly with the same filebuf. Specifically, the following seems less than adequately specified:

  1. the conditions under which the functions terminate
  2. precisely when the functions return ok
  3. precisely when the functions return partial
  4. the full set of conditions when the functions return error
  1. 22.4.1.4.2 [locale.codecvt.virtuals], p2 says this about the effects of the function: ...Stops if it encounters a character it cannot convert... This assumes that there *is* a character to convert. What happens when there is a sequence that doesn't form a valid source character, such as an unassigned or invalid UNICODE character, or a sequence that cannot possibly form a character (e.g., the sequence "\xc0\xff" in UTF-8)?
  2. Table 53 says that the function returns codecvt_base::ok to indicate that the function(s) "completed the conversion." Suppose that the source sequence is "\xc0\x80" in UTF-8, with from pointing to '\xc0' and (from_end==from + 1). It is not clear whether the return value should be ok or partial (see below).
  3. Table 53 says that the function returns codecvt_base::partial if "not all source characters converted." With the from pointers set up the same way as above, it is not clear whether the return value should be partial or ok (see above).
  4. Table 53, in the row describing the meaning of error mistakenly refers to a "from_type" character, without the symbol from_type having been defined. Most likely, the word "source" character is intended, although that is not sufficient. The functions may also fail when they encounter an invalid source sequence that cannot possibly form a valid source character (e.g., as explained in bullet 1 above).

Finally, the conditions described at the end of 22.4.1.4.2 [locale.codecvt.virtuals], p4 don't seem to be possible:

"A return value of partial, if (from_next == from_end), indicates that either the destination sequence has not absorbed all the available destination elements, or that additional source elements are needed before another destination element can be produced."

If the value is partial, it's not clear to me that (from_next ==from_end) could ever hold if there isn't enough room in the destination buffer. In order for (from_next==from_end) to hold, all characters in that range must have been successfully converted (according to 22.4.1.4.2 [locale.codecvt.virtuals], p2) and since there are no further source characters to convert, no more room in the destination buffer can be needed.

It's also not clear to me that (from_next==from_end) could ever hold if additional source elements are needed to produce another destination character (not element as incorrectly stated in the text). partial is returned if "not all source characters have been converted" according to Table 53, which also implies that (from_next==from) does NOT hold.

Could it be that the intended qualifying condition was actually (from_next != from_end), i.e., that the sentence was supposed to read

"A return value of partial, if (from_next != from_end),..."

which would make perfect sense, since, as far as I understand it, partial can only occur if (from_next != from_end)?

[Lillehammer: Defer for the moment, but this really needs to be fixed. Right now, the description of codecvt is too vague for it to be a useful contract between providers and clients of codecvt facets. (Note that both vendors and users can be both providers and clients of codecvt facets.) The major philosophical issue is whether the standard should only describe mappings that take a single wide character to multiple narrow characters (and vice versa), or whether it should describe fully general N-to-M conversions. When the original standard was written only the former was contemplated, but today, in light of the popularity of utf8 and utf16, that doesn't seem sufficient for C++0x. Bill supports general N-to-M conversions; we need to make sure Martin and Howard agree.]

[ 2009-07 Frankfurt ]

codecvt is meant to be a 1-to-N to N-to-1 conversion. It does not work well for N-to-M conversions. wbuffer_convert now exists, and handles N-to-M cases. Also, there is a new specialization of codecvt that permits UTF-16 <-> UTF-8 conversions.

NAD without prejudice. Will reopen if proposed resolution is supplied.

Proposed resolution:


385. Does call by value imply the CopyConstructible requirement?

Section: 17 [library] Status: NAD Submitter: Matt Austern Opened: 2002-10-23 Last modified: 2015-04-08

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Discussion:

Many function templates have parameters that are passed by value; a typical example is find_if's pred parameter in 25.2.5 [alg.find]. Are the corresponding template parameters (Predicate in this case) implicitly required to be CopyConstructible, or does that need to be spelled out explicitly?

This isn't quite as silly a question as it might seem to be at first sight. If you call find_if in such a way that template argument deduction applies, then of course you'll get call by value and you need to provide a copy constructor. If you explicitly provide the template arguments, however, you can force call by reference by writing something like find_if<my_iterator, my_predicate&>. The question is whether implementation are required to accept this, or whether this is ill-formed because my_predicate& is not CopyConstructible.

The scope of this problem, if it is a problem, is unknown. Function object arguments to generic algorithms in clauses 25 [algorithms] and 26 [numerics] are obvious examples. A review of the whole library is necessary.

[ This is really two issues. First, predicates are typically passed by value but we don't say they must be Copy Constructible. They should be. Second: is specialization allowed to transform value arguments into references? References aren't copy constructible, so this should not be allowed. ]

[ 2007-01-12, Howard: First, despite the note above, references are copy constructible. They just aren't assignable. Second, this is very closely related to 92 and should be consistent with that. That issue already says that implementations are allowed to copy function objects. If one passes in a reference, it is copyable, but susceptible to slicing if one passes in a reference to a base. Third, with rvalue reference in the language one only needs to satisfy MoveConstructible to pass an rvalue "by value". Though the function might still copy the function object internally (requiring CopyConstructible). Finally (and fwiw), if we wanted to, it is easy to code all of the std::algorithms such that they do not copy function objects internally. One merely passes them by reference internally if desired (this has been fully implemented and shipped for several years). If this were mandated, it would reverse 92, allowing function objects to reliably maintain state. E.g. the example in 92 would reliably remove only the third element. ]

Proposed resolution:

Recommend NAD.

Rationale:

Generic algorithms will be marked with concepts and these will imply a requirement of MoveConstructible (not CopyConstructible). The signature of the function will then precisely describe and enforce the precise requirements.


388. Use of complex as a key in associative containers

Section: 26.4 [complex.numbers] Status: NAD Submitter: Gabriel Dos Reis Opened: 2002-11-08 Last modified: 2015-04-08

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Discussion:

Practice with std::complex<> and the associative containers occasionally reveals artificial and distracting issues with constructs resembling: std::set<std::complex<double> > s;

The main reason for the above to fail is the absence of an appropriate definition for std::less<std::complex<T> >. That in turn comes from the definition of the primary template std::less<> in terms of operator<.

The usual argument goes as follows: Since there is no ordering over the complex field compatible with field operations it makes little sense to define a function operator< operating on the datatype std::complex<T>. That is fine. However, that reasoning does not carry over to std::less<T> which is used, among other things, by associative containers as an ordering useful to meet complexity requirements.

Related issue: 348.

[ Pre Bellevue: Reopened at the request of Alisdair. ]

[ Bellevue: ]

This is a request for a design change, and not a defect in the standard. It is in scope to consider, but the group feels that it is not a change that we need to do. Is there a total ordering for floating point values, including NaN? There is not a clear enough solution or big enough problem for us to solve. Solving this problem would require solving the problem for floating point, which is equally unclear. The LWG noted that users who want to put objects into an associative container for which operator< isn't defined can simply provide their own comparison function object. NAD

Proposed resolution:

Informally: Add a specialization of std::less for std::complex.

Rationale:

Discussed in Santa Cruz. An overwhelming majority of the LWG believes this should not be treated a DR: it's a request for a design change, not a defect in the existing standard. Most people (10-3) believed that we probably don't want this change, period: as with issue 348, it's hard to know where to draw the line. The LWG noted that users who want to put objects into an associative container for which operator< isn't defined can simply provide their own comparison function object.


390. CopyConstructible requirements too strict

Section: 17.6.3.1 [utility.arg.requirements] Status: NAD Editorial Submitter: Doug Gregor Opened: 2002-10-24 Last modified: 2015-04-08

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Discussion:

The CopyConstructible requirements in Table 30 state that for an object t of type T (where T is CopyConstructible), the expression &t returns the address of t (with type T*). This requirement is overly strict, in that it disallows types that overload operator& to not return a value of type T*. This occurs, for instance, in the Boost.Lambda library, where operator& is overloaded for a Boost.Lambda function object to return another function object.

Example:

  std::vector<int> u, v;
  int x;
  // ...
  std::transform(u.begin(), u.end(), std::back_inserter(v), _1 * x);

_1 * x returns an unnamed function object with operator& overloaded to not return T* , therefore rendering the std::transform call ill-formed. However, most standard library implementations will compile this code properly, and the viability of such binder libraries is severely hindered by the unnecessary restriction in the CopyConstructible requirements.

For reference, the address of an object can be retrieved without using the address-of operator with the following function template:

  template <typename T> T* addressof(T& v)
  {
    return reinterpret_cast<T*>(
         &const_cast<char&>(reinterpret_cast<const volatile char &>(v)));
  }

Note: this relates directly to library issue 350, which will need to be reexamined if the CopyConstructible requirements change.

Proposed resolution:

Remove the last two rows of Table 30, eliminating the requirements that &t and &u return the address of t and u, respectively.

Rationale:

This was a deliberate design decision. Perhaps it should be reconsidered for C++0x.


392. 'equivalence' for input iterators

Section: 24.2.3 [input.iterators] Status: NAD Submitter: Corwin Joy Opened: 2002-12-11 Last modified: 2015-04-08

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Discussion:

In section 24.2.3 [input.iterators] table 72 - 'Input Iterator Requirements' we have as a postcondition of *a: "If a==b and (a, b) is in the domain of == then *a is equivalent to *b".

In section 24.6.3.5 [istreambuf.iterator::equal] it states that "istreambuf_iterator::equal returns true if and only if both iterators are at end-of-stream, or neither is at end-of-stream, regardless of what streambuf object they use." (My emphasis).

The defect is that either 'equivalent' needs to be more precisely defined or the conditions for equality in 24.6.3.5 [istreambuf.iterator::equal] are incorrect. (Or both).

Consider the following example:

   #include <iostream>
   #include <fstream>
   #include <iterator>
   using namespace std;

   int main() {
    ifstream file1("file1.txt"), file2("file2.txt");
    istreambuf_iterator<char> f1(file1), f2(file2);
    cout << "f1 == f2 : " << boolalpha << (f1 == f2) << endl;
    cout << "f1 = " << *f1 << endl;
    cout << "f2 = " << *f2 << endl;
    return 0;
   }

Now assuming that neither f1 or f2 are at the end-of-stream then f1 == f2 by 24.6.3.5 [istreambuf.iterator::equal].

However, it is unlikely that *f1 will give the same value as *f2 except by accident.

So what does *f1 'equivalent' to *f2 mean? I think the standard should be clearer on this point, or at least be explicit that this does not mean that *f1 and *f2 are required to have the same value in the case of input iterators.

Proposed resolution:

Rationale:

The two iterators aer not in the domain of ==


393. do_in/do_out operation on state unclear

Section: 22.4.1.4.2 [locale.codecvt.virtuals] Status: NAD Editorial Submitter: Alberto Barbati Opened: 2002-12-24 Last modified: 2015-04-08

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Discussion:

this DR follows the discussion on the previous thread "codecvt::do_in not consuming external characters". It's just a clarification issue and not a request for a change.

Can do_in()/do_out() produce output characters without consuming input characters as a result of operation on state?

Proposed resolution:

Add a note at the end of 22.4.1.4.2 [locale.codecvt.virtuals], paragraph 3:

[Note: As a result of operations on state, it can return ok or partial and set from_next == from and to_next != to. --end note]

Rationale:

The submitter believes that standard already provides an affirmative answer to the question. However, the current wording has induced a few library implementors to make the incorrect assumption that do_in()/do_out() always consume at least one internal character when they succeed.

The submitter also believes that the proposed resolution is not in conflict with the related issue 76. Moreover, by explicitly allowing operations on state to produce characters, a codecvt implementation may effectively implement N-to-M translations without violating the "one character at a time" principle described in such issue. On a side note, the footnote in the proposed resolution of issue 76 that informally rules out N-to-M translations for basic_filebuf should be removed if this issue is accepted as valid.

[ Kona (2007): The proposed resolution is to add a note. Since this is non-normative, the issue is editorial, but we believe that the note is correct. Proposed Disposition: NAD, Editorial ]


394. behavior of formatted output on failure

Section: 27.7.3.6.1 [ostream.formatted.reqmts] Status: NAD Submitter: Martin Sebor Opened: 2002-12-27 Last modified: 2015-04-08

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Discussion:

There is a contradiction in Formatted output about what bit is supposed to be set if the formatting fails. On sentence says it's badbit and another that it's failbit.

27.6.2.5.1, p1 says in the Common Requirements on Formatted output functions:

     ... If the generation fails, then the formatted output function
     does setstate(ios::failbit), which might throw an exception.

27.6.2.5.2, p1 goes on to say this about Arithmetic Inserters:

... The formatting conversion occurs as if it performed the following code fragment:

     bool failed =
         use_facet<num_put<charT,ostreambuf_iterator<charT,traits>
         > >
         (getloc()).put(*this, *this, fill(), val). failed();

     ... If failed is true then does setstate(badbit) ...

The original intent of the text, according to Jerry Schwarz (see c++std-lib-10500), is captured in the following paragraph:

In general "badbit" should mean that the stream is unusable because of some underlying failure, such as disk full or socket closure; "failbit" should mean that the requested formatting wasn't possible because of some inconsistency such as negative widths. So typically if you clear badbit and try to output something else you'll fail again, but if you clear failbit and try to output something else you'll succeed.

In the case of the arithmetic inserters, since num_put cannot report failure by any means other than exceptions (in response to which the stream must set badbit, which prevents the kind of recoverable error reporting mentioned above), the only other detectable failure is if the iterator returned from num_put returns true from failed().

Since that can only happen (at least with the required iostream specializations) under such conditions as the underlying failure referred to above (e.g., disk full), setting badbit would seem to be the appropriate response (indeed, it is required in 27.6.2.5.2, p1). It follows that failbit can never be directly set by the arithmetic (it can only be set by the sentry object under some unspecified conditions).

The situation is different for other formatted output functions which can fail as a result of the streambuf functions failing (they may do so by means other than exceptions), and which are then required to set failbit.

The contradiction, then, is that ostream::operator<<(int) will set badbit if the disk is full, while operator<<(ostream&, char) will set failbit under the same conditions. To make the behavior consistent, the Common requirements sections for the Formatted output functions should be changed as proposed below.

[Kona: There's agreement that this is a real issue. What we decided at Kona: 1. An error from the buffer (which can be detected either directly from streambuf's member functions or by examining a streambuf_iterator) should always result in badbit getting set. 2. There should never be a circumstance where failbit gets set. That represents a formatting error, and there are no circumstances under which the output facets are specified as signaling a formatting error. (Even more so for string output that for numeric because there's nothing to format.) If we ever decide to make it possible for formatting errors to exist then the facets can signal the error directly, and that should go in clause 22, not clause 27. 3. The phrase "if generation fails" is unclear and should be eliminated. It's not clear whether it's intended to mean a buffer error (e.g. a full disk), a formatting error, or something else. Most people thought it was supposed to refer to buffer errors; if so, we should say so. Martin will provide wording.]

[ 2009-07 Frankfurt ]

NAD. This issue is already fixed.

Proposed resolution:

Rationale:


397. ostream::sentry dtor throws exceptions

Section: 27.7.3.4 [ostream::sentry] Status: NAD Editorial Submitter: Martin Sebor Opened: 2003-01-05 Last modified: 2015-04-08

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Discussion:

17.4.4.8, p3 prohibits library dtors from throwing exceptions.

27.6.2.3, p4 says this about the ostream::sentry dtor:

    -4- If ((os.flags() & ios_base::unitbuf) && !uncaught_exception())
        is true, calls os.flush().
    

27.6.2.6, p7 that describes ostream::flush() says:

    -7- If rdbuf() is not a null pointer, calls rdbuf()->pubsync().
        If that function returns ?-1 calls setstate(badbit) (which
        may throw ios_base::failure (27.4.4.3)).
    

That seems like a defect, since both pubsync() and setstate() can throw an exception.

[ The contradiction is real. Clause 17 says destructors may never throw exceptions, and clause 27 specifies a destructor that does throw. In principle we might change either one. We're leaning toward changing clause 17: putting in an "unless otherwise specified" clause, and then putting in a footnote saying the sentry destructor is the only one that can throw. PJP suggests specifying that sentry::~sentry() should internally catch any exceptions it might cause. ]

[ See 418 and 622 for related issues. ]

[ 2009-07 Frankfurt ]

Move to Review. Add "Throws: nothing" to the specification of ostream::sentry::~sentry().

[ 2009-10-13 Daniel adds: ]

The proposed resolution of 835 is written to match the outcome of this issue.

[ 2009 Santa Cruz: ]

Move to Open. Our intent is to solve this issue with 835.

[ 2010-03-06 Martin updates wording. ]

[ 2010 Pittsburgh: ]

Moved to NAD Editorial.

Rationale:

Solved by 835.

Proposed resolution:

Add after 27.7.3.4 [ostream::sentry] p17:

~sentry();

-17- If (os.flags() & ios_base::unitbuf) is true, calls os.flush().

Throws: Nothing.


398. effects of end-of-file on unformatted input functions

Section: 27.7.3.4 [ostream::sentry] Status: NAD Submitter: Martin Sebor Opened: 2003-01-05 Last modified: 2015-04-08

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Discussion:

While reviewing unformatted input member functions of istream for their behavior when they encounter end-of-file during input I found that the requirements vary, sometimes unexpectedly, and in more than one case even contradict established practice (GNU libstdc++ 3.2, IBM VAC++ 6.0, STLPort 4.5, SunPro 5.3, HP aCC 5.38, Rogue Wave libstd 3.1, and Classic Iostreams).

The following unformatted input member functions set eofbit if they encounter an end-of-file (this is the expected behavior, and also the behavior of all major implementations):

    basic_istream<charT, traits>&
    get (char_type*, streamsize, char_type);
    

Also sets failbit if it fails to extract any characters.

    basic_istream<charT, traits>&
    get (char_type*, streamsize);
    

Also sets failbit if it fails to extract any characters.

    basic_istream<charT, traits>&
    getline (char_type*, streamsize, char_type);
    

Also sets failbit if it fails to extract any characters.

    basic_istream<charT, traits>&
    getline (char_type*, streamsize);
    

Also sets failbit if it fails to extract any characters.

    basic_istream<charT, traits>&
    ignore (int, int_type);
    
    basic_istream<charT, traits>&
    read (char_type*, streamsize);
    

Also sets failbit if it encounters end-of-file.

    streamsize readsome (char_type*, streamsize);
    

The following unformated input member functions set failbit but not eofbit if they encounter an end-of-file (I find this odd since the functions make it impossible to distinguish a general failure from a failure due to end-of-file; the requirement is also in conflict with all major implementation which set both eofbit and failbit):

    int_type get();
    
    basic_istream<charT, traits>&
    get (char_type&);
    

These functions only set failbit of they extract no characters, otherwise they don't set any bits, even on failure (I find this inconsistency quite unexpected; the requirement is also in conflict with all major implementations which set eofbit whenever they encounter end-of-file):

    basic_istream<charT, traits>&
    get (basic_streambuf<charT, traits>&, char_type);
    
    basic_istream<charT, traits>&
    get (basic_streambuf<charT, traits>&);
    

This function sets no bits (all implementations except for STLport and Classic Iostreams set eofbit when they encounter end-of-file):

    int_type peek ();
    

Informally, what we want is a global statement of intent saying that eofbit gets set if we trip across EOF, and then we can take away the specific wording for individual functions. A full review is necessary. The wording currently in the standard is a mishmash, and changing it on an individual basis wouldn't make things better. Dietmar will do this work.

[ 2009-07 Frankfurt ]

Moved to NAD. See 27.7.2.1 [istream] p3.

Proposed resolution:


399. volations of unformatted input function requirements

Section: 27.7.2.3 [istream.unformatted] Status: NAD Submitter: Martin Sebor Opened: 2003-01-05 Last modified: 2015-04-08

View other active issues in [istream.unformatted].

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Discussion:

The Effects clauses for the two functions below violate the general requirements on unformatted input functions outlined in 27.6.1.3: they do not begin by constructing a sentry object. Instead, they begin by calling widen ('\n'), which may throw an exception. The exception is then allowed to propagate from the unformatted input function irrespective of the setting of exceptions().

Note that in light of 27.6.1.1, p3 and p4, the fact that the functions allow exceptions thrown from widen() to propagate may not strictly speaking be a defect (but the fact that the functions do not start by constructing a sentry object still is). However, since an exception thrown from ctype<charT> ::widen() during any other input operation (say, from within a call to num_get<charT>::get()) will be caught and cause badbit to be set, these two functions should not be treated differently for the sake of consistency.

Proposed resolution:

Rationale:

Not a defect. The standard is consistent, and the behavior required by the standard is unambiguous. Yes, it's theoretically possible for widen to throw. (Not that this will happen for the default ctype facet or for most real-world replacement ctype facets.) Users who define ctype facets that can throw, and who care about this behavior, can use alternative signatures that don't call widen.


408. Is vector<reverse_iterator<char*> > forbidden?

Section: 24.2 [iterator.requirements] Status: NAD Editorial Submitter: Nathan Myers Opened: 2003-06-03 Last modified: 2015-04-08

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Discussion:

I've been discussing iterator semantics with Dave Abrahams, and a surprise has popped up. I don't think this has been discussed before.

X [iterator.concepts] says that the only operation that can be performed on "singular" iterator values is to assign a non-singular value to them. (It doesn't say they can be destroyed, and that's probably a defect.) Some implementations have taken this to imply that there is no need to initialize the data member of a reverse_iterator<> in the default constructor. As a result, code like

  std::vector<std::reverse_iterator<char*> > v(7);
  v.reserve(1000);

invokes undefined behavior, because it must default-initialize the vector elements, and then copy them to other storage. Of course many other vector operations on these adapters are also left undefined, and which those are is not reliably deducible from the standard.

I don't think that 24.1 was meant to make standard-library iterator types unsafe. Rather, it was meant to restrict what operations may be performed by functions which take general user- and standard iterators as arguments, so that raw pointers would qualify as iterators. However, this is not clear in the text, others have come to the opposite conclusion.

One question is whether the standard iterator adaptors have defined copy semantics. Another is whether they have defined destructor semantics: is

  { std::vector<std::reverse_iterator<char*> >  v(7); }

undefined too?

Note this is not a question of whether algorithms are allowed to rely on copy semantics for arbitrary iterators, just whether the types we actually supply support those operations. I believe the resolution must be expressed in terms of the semantics of the adapter's argument type. It should make clear that, e.g., the reverse_iterator<T> constructor is actually required to execute T(), and so copying is defined if the result of T() is copyable.

Issue 235, which defines reverse_iterator's default constructor more precisely, has some relevance to this issue. However, it is not the whole story.

The issue was whether

  reverse_iterator() { }

is allowed, vs.

  reverse_iterator() : current() { }

The difference is when T is char*, where the first leaves the member uninitialized, and possibly equal to an existing pointer value, or (on some targets) may result in a hardware trap when copied.

8.5 paragraph 5 seems to make clear that the second is required to satisfy DR 235, at least for non-class Iterator argument types.

But that only takes care of reverse_iterator, and doesn't establish a policy for all iterators. (The reverse iterator adapter was just an example.) In particular, does my function

  template <typename Iterator>
    void f() { std::vector<Iterator>  v(7); } 

evoke undefined behavior for some conforming iterator definitions? I think it does, now, because vector<> will destroy those singular iterator values, and that's explicitly disallowed.

24.1 shouldn't give blanket permission to copy all singular iterators, because then pointers wouldn't qualify as iterators. However, it should allow copying of that subset of singular iterator values that are default-initialized, and it should explicitly allow destroying any iterator value, singular or not, default-initialized or not.

Related issues: 407, 1012

[ We don't want to require all singular iterators to be copyable, because that is not the case for pointers. However, default construction may be a special case. Issue: is it really default construction we want to talk about, or is it something like value initialization? We need to check with core to see whether default constructed pointers are required to be copyable; if not, it would be wrong to impose so strict a requirement for iterators. ]

[ 2009-05-10 Alisdair provided wording. ]

The comments regarding destroying singular iterators have already been resolved. That just leaves copying (with moving implied).

[ 2009-07 Frankfurt ]

This is related to LWG 1012.

Note that there is a bug in the proposed resolution to LWG 1012. The change to [reverse.iter.con] should be modified so that the word "default" in the second sentence of the Effects clause is replaced by "value."

We believe that the proposed fix to LWG 1012 (now corrected) is sufficient to solve the problem for reverse_iterator. However, Alisdair pointed out that LWG 1012 does not solve the general problem for authors of iterator adaptors.

There are some problems with the proposed resolution. The phrase "safely copyable" is not a term of art. Also, it mentions a DefaultConstructible? concept.

Move to Review after Alisdair updates the wording.

[ 2009-07-31 Alisdair revised wording: ]

[ 2009-08-17 Alisdair and Daniel collaborate on slightly revised wording. This issue depends upon 724 ]

[ 2009-10-14 Daniel adds: ]

There is a clear dependency on 1213, because the term "singular", which is used as part of the resolution, is not properly defined yet.

[ 2009-10 Santa Cruz: ]

Moved to Open. Alisdair will provide improved wording to make this have "value semantics" and otherwise behave like a valid iterator.

[ 2010 Pittsburgh: Moved to NAD Editorial. Rationale added below. ]

Rationale:

Solved by N3066.

Proposed resolution:

Add a new paragrpah to Iterator concepts 24.2 [iterator.requirements] after para 5 (the one describing singular iterators)

Just as a regular pointer to an array guarantees that there is a pointer value pointing past the last element of the array, so for any iterator type there is an iterator value that points past the last element of a corresponding container. These values are called past-the-end values. Values of an iterator i for which the expression *i is defined are called dereferenceable. The library never assumes that past-the-end values are dereferenceable. Iterators can also have singular values that are not associated with any container. [Example: After the declaration of an uninitialized pointer x (as with int* x;), x must always be assumed to have a singular value of a pointer. — end example] Results of most expressions are undefined for singular values; the only exceptions are destroying an iterator that holds a singular value and the assignment of a non-singular value to an iterator that holds a singular value. In this case the singular value is overwritten the same way as any other value. Dereferenceable values are always non-singular.

After value-initialization, any iterator that satisfies the DefaultConstructible requirements ([defaultconstructible]) shall not introduce undefined behaviour when used as the source of a copy or move operation, even if it would otherwise be singular. [Note: This guarantee is not offered for default-initialization (8.5 [dcl.init]), although the distinction only matters for types with trivial default constructors such as pointers. — end note]


417. what does ctype::do_widen() return on failure

Section: 22.4.1.1.2 [locale.ctype.virtuals] Status: NAD Submitter: Martin Sebor Opened: 2003-09-18 Last modified: 2015-04-08

View all other issues in [locale.ctype.virtuals].

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Discussion:

The Effects and Returns clauses of the do_widen() member function of the ctype facet fail to specify the behavior of the function on failure. That the function may not be able to simply cast the narrow character argument to the type of the result since doing so may yield the wrong value for some wchar_t encodings. Popular implementations of ctype<wchar_t> that use mbtowc() and UTF-8 as the native encoding (e.g., GNU glibc) will fail when the argument's MSB is set. There is no way for the the rest of locale and iostream to reliably detect this failure.

[Kona: This is a real problem. Widening can fail. It's unclear what the solution should be. Returning WEOF works for the wchar_t specialization, but not in general. One option might be to add a default, like narrow. But that's an incompatible change. Using traits::eof might seem like a good idea, but facets don't have access to traits (a recurring problem). We could have widen throw an exception, but that's a scary option; existing library components aren't written with the assumption that widen can throw.]

[ 2009-07 Frankfurt ]

NAD. The behavior is specified for all of the facets that an implementation is required to provide, for the basic character set.

Proposed resolution:


418. exceptions thrown during iostream cleanup

Section: 27.5.3.1.6 [ios::Init] Status: NAD Submitter: Martin Sebor Opened: 2003-09-18 Last modified: 2015-04-08

View all other issues in [ios::Init].

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Discussion:

The dtor of the ios_base::Init object is supposed to call flush() on the 6 standard iostream objects cout, cerr, clog, wcout, wcerr, and wclog. This call may cause an exception to be thrown.

17.4.4.8, p3 prohibits all library destructors from throwing exceptions.

The question is: What should this dtor do if one or more of these calls to flush() ends up throwing an exception? This can happen quite easily if one of the facets installed in the locale imbued in the iostream object throws.

[Kona: We probably can't do much better than what we've got, so the LWG is leaning toward NAD. At the point where the standard stream objects are being cleaned up, the usual error reporting mechanism are all unavailable. And exception from flush at this point will definitely cause problems. A quality implementation might reasonably swallow the exception, or call abort, or do something even more drastic.]

[ See 397 and 622 for related issues. ]

[ 2009-07 Frankfurt ]

Moved to NAD, no consensus for change.

Proposed resolution:


421. is basic_streambuf copy-constructible?

Section: 27.6.3.1 [streambuf.cons] Status: NAD Submitter: Martin Sebor Opened: 2003-09-18 Last modified: 2015-04-08

View all other issues in [streambuf.cons].

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Discussion:

The reflector thread starting with c++std-lib-11346 notes that the class template basic_streambuf, along with basic_stringbuf and basic_filebuf, is copy-constructible but that the semantics of the copy constructors are not defined anywhere. Further, different implementations behave differently in this respect: some prevent copy construction of objects of these types by declaring their copy ctors and assignment operators private, others exhibit undefined behavior, while others still give these operations well-defined semantics.

Note that this problem doesn't seem to be isolated to just the three types mentioned above. A number of other types in the library section of the standard provide a compiler-generated copy ctor and assignment operator yet fail to specify their semantics. It's believed that the only types for which this is actually a problem (i.e. types where the compiler-generated default may be inappropriate and may not have been intended) are locale facets. See issue 439.

[ 2009-07 Frankfurt ]

NAD. Option B is already in the Working Draft.

Proposed resolution:

27.5.2 [lib.streambuf]: Add into the synopsis, public section, just above the destructor declaration:

basic_streambuf(const basic_streambuf& sb);
basic_streambuf& operator=(const basic_streambuf& sb);

Insert after 27.5.2.1, paragraph 2:

basic_streambuf(const basic_streambuf& sb);

Constructs a copy of sb.

Postcondtions:

                eback() == sb.eback()
                gptr()  == sb.gptr()
                egptr() == sb.egptr()
                pbase() == sb.pbase()
                pptr()  == sb.pptr()
                epptr() == sb.epptr()
                getloc() == sb.getloc()
basic_streambuf& operator=(const basic_streambuf& sb);

Assigns the data members of sb to this.

Postcondtions:

                eback() == sb.eback()
                gptr()  == sb.gptr()
                egptr() == sb.egptr()
                pbase() == sb.pbase()
                pptr()  == sb.pptr()
                epptr() == sb.epptr()
                getloc() == sb.getloc()

Returns: *this.

27.7.1 [lib.stringbuf]:

Option A:

Insert into the basic_stringbuf synopsis in the private section:

basic_stringbuf(const basic_stringbuf&);             // not defined
basic_stringbuf& operator=(const basic_stringbuf&);  // not defined

Option B:

Insert into the basic_stringbuf synopsis in the public section:

basic_stringbuf(const basic_stringbuf& sb);
basic_stringbuf& operator=(const basic_stringbuf& sb);

27.7.1.1, insert after paragraph 4:

basic_stringbuf(const basic_stringbuf& sb);

Constructs an independent copy of sb as if with sb.str(), and with the openmode that sb was constructed with.

Postcondtions:

               str() == sb.str()
               gptr()  - eback() == sb.gptr()  - sb.eback()
               egptr() - eback() == sb.egptr() - sb.eback()
               pptr()  - pbase() == sb.pptr()  - sb.pbase()
               getloc() == sb.getloc()

Note: The only requirement on epptr() is that it point beyond the initialized range if an output sequence exists. There is no requirement that epptr() - pbase() == sb.epptr() - sb.pbase().

basic_stringbuf& operator=(const basic_stringbuf& sb);

After assignment the basic_stringbuf has the same state as if it were initially copy constructed from sb, except that the basic_stringbuf is allowed to retain any excess capacity it might have, which may in turn effect the value of epptr().

27.8.1.1 [lib.filebuf]

Insert at the bottom of the basic_filebuf synopsis:

private:
  basic_filebuf(const basic_filebuf&);             // not defined
  basic_filebuf& operator=(const basic_filebuf&);  // not defined

[Kona: this is an issue for basic_streambuf itself and for its derived classes. We are leaning toward allowing basic_streambuf to be copyable, and specifying its precise semantics. (Probably the obvious: copying the buffer pointers.) We are less sure whether the streambuf derived classes should be copyable. Howard will write up a proposal.]

[Sydney: Dietmar presented a new argument against basic_streambuf being copyable: it can lead to an encapsulation violation. filebuf inherits from streambuf. Now suppose you inherit a my_hijacking_buf from streambuf. You can copy the streambuf portion of a filebuf to a my_hijacking_buf, giving you access to the pointers into the filebuf's internal buffer. Perhaps not a very strong argument, but it was strong enough to make people nervous. There was weak preference for having streambuf not be copyable. There was weak preference for having stringbuf not be copyable even if streambuf is. Move this issue to open for now. ]

[ 2007-01-12, Howard: Rvalue Reference Recommendations for Chapter 27 recommends protected copy constructor and assignment for basic_streambuf with the same semantics as would be generated by the compiler. These members aid in derived classes implementing move semantics. A protected copy constructor and copy assignment operator do not expose encapsulation more so than it is today as each data member of a basic_streambuf is already both readable and writable by derived classes via various get/set protected member functions (eback(), setp(), etc.). Rather a protected copy constructor and copy assignment operator simply make the job of derived classes implementing move semantics less tedious and error prone. ]

Rationale:

27.5.2 [lib.streambuf]: The proposed basic_streambuf copy constructor and assignment operator are the same as currently implied by the lack of declarations: public and simply copies the data members. This resolution is not a change but a clarification of the current standard.

27.7.1 [lib.stringbuf]: There are two reasonable options: A) Make basic_stringbuf not copyable. This is likely the status-quo of current implementations. B) Reasonable copy semantics of basic_stringbuf can be defined and implemented. A copyable basic_streambuf is arguably more useful than a non-copyable one. This should be considered as new functionality and not the fixing of a defect. If option B is chosen, ramifications from issue 432 are taken into account.

27.8.1.1 [lib.filebuf]: There are no reasonable copy semantics for basic_filebuf.


424. normative notes

Section: 17.5.1.2 [structure.summary] Status: NAD Editorial Submitter: Martin Sebor Opened: 2003-09-18 Last modified: 2015-04-08

View all issues with NAD Editorial status.

Discussion:

The text in 17.3.1.1, p1 says:
"Paragraphs labelled "Note(s):" or "Example(s):" are informative, other paragraphs are normative."
The library section makes heavy use of paragraphs labeled "Notes(s)," some of which are clearly intended to be normative (see list 1), while some others are not (see list 2). There are also those where the intent is not so clear (see list 3).

List 1 -- Examples of (presumably) normative Notes:
20.7.9.1 [allocator.members], p3,
20.7.9.1 [allocator.members], p10,
21.4.2 [string.cons], p11,
22.3.1.2 [locale.cons], p11,
23.3.3.4 [deque.modifiers], p2,
25.4.7 [alg.min.max], p3,
26.4.6 [complex.ops], p15,
27.6.3.4.3 [streambuf.virt.get], p7.

List 2 -- Examples of (presumably) informative Notes:
18.6.1.3 [new.delete.placement], p3,
21.4.6.6 [string::replace], p14,
22.4.1.4.2 [locale.codecvt.virtuals], p3,
25.2.4 [alg.foreach], p4,
26.4.5 [complex.member.ops], p1,
27.5.3.5 [ios.base.storage], p6.

List 3 -- Examples of Notes that are not clearly either normative or informative:
22.3.1.2 [locale.cons], p8,
22.3.1.5 [locale.statics], p6,
27.6.3.4.5 [streambuf.virt.put], p4.

None of these lists is meant to be exhaustive.

[Definitely a real problem. The big problem is there's material that doesn't quite fit any of the named paragraph categories (e.g. Effects). Either we need a new kind of named paragraph, or we need to put more material in unnamed paragraphs jsut after the signature. We need to talk to the Project Editor about how to do this. ]

[ Bellevue: Specifics of list 3: First 2 items correct in std (22.1.1.2, 22.1.1.5) Third item should be non-normative (27.5.2.4.5), which Pete will handle editorially. ]

[ post San Francisco: Howard: reopened, needs attention. ]

[Pete: I changed the paragraphs marked "Note" and "Notes" to use "Remark" and "Remarks". Fixed as editorial. This change has been in the WD since the post-Redmond mailing, in 2004. Recommend NAD.]

[ Batavia: We feel that the references in List 2 above should be changed from Remarks to Notes. We also feel that those items in List 3 need to be double checked for the same change. Alan and Pete to review. ]

[ Batavia (2009-05): ]

A spot-check of List 2 suggests the issue is still relevant, and a review of List 3 still seems called-for.

Move to NAD Editorial.

Proposed resolution:


429. typo in basic_ios::clear(iostate)

Section: 27.5.5.4 [iostate.flags] Status: Dup Submitter: Martin Sebor Opened: 2003-09-18 Last modified: 2015-04-08

View all other issues in [iostate.flags].

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Duplicate of: 412

Discussion:

The Effects clause in 27.4.4.3, p5 describing the effects of a call to the ios_base member function clear(iostate state) says that the function only throws if the respective bits are already set prior to the function call. That's obviously not the intent. If it was, a call to clear(badbit) on an object for which (rdstate() == goodbit && exceptions() == badbit) holds would not result in an exception being thrown.

Proposed resolution:

The text ought to be changed from
"If (rdstate() & exceptions()) == 0, returns. ..."
to
"If (state & exceptions()) == 0, returns. ..."

Rationale:


433. Contradiction in specification of unexpected()

Section: D.8.4 [unexpected] Status: NAD Submitter: Vyatcheslav Sysoltsev Opened: 2003-09-29 Last modified: 2015-04-08

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Discussion:

Clause 15.5.2 [except.unexpected] paragraph 1 says that "void unexpected(); is called (18.7.2) immediately after completing the stack unwinding for the former function", but 18.7.2.4 (Effects) says that "void unexpected(); . . . Calls the unexpected_handler function in effect immediately after evaluating the throwexpression (18.7.2.2),". Isn't here a contradiction: 15.5.2 requires stack have been unwound when in void unexpected() and therefore in unexpected_handler but 18.7.2.4 claims that unexpected_handler is called "in effect immediately" after evaluation of throw expression is finished, so there is no space left for stack to be unwound therefore? I think the phrase "in effect immediately" should be removed from the standard because it brings ambiguity in understanding.

Proposed resolution:

Rationale:

There is no contradiction. The phrase "in effect immediately" is just to clarify which handler is to be called.


437. Formatted output of function pointers is confusing

Section: 27.7.3.6.2 [ostream.inserters.arithmetic] Status: NAD Submitter: Ivan Godard Opened: 2003-10-24 Last modified: 2015-04-08

View all other issues in [ostream.inserters.arithmetic].

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Discussion:

Given:

void f(int) {}
void(*g)(int) = f;
cout << g;

(with the expected #include and usings), the value printed is a rather surprising "true". Rather useless too.

The standard defines:

ostream& operator<<(ostream&, void*);

which picks up all data pointers and prints their hex value, but does not pick up function pointers because there is no default conversion from function pointer to void*. Absent that, we fall back to legacy conversions from C and the function pointer is converted to bool.

There should be an analogous inserter that prints the address of a function pointer.

Proposed resolution:

Rationale:

This is indeed a wart, but there is no good way to solve it. C doesn't provide a portable way of outputting the address of a function point either.


439. Should facets be copyable?

Section: 22.4 [locale.categories] Status: NAD Submitter: Matt Austern Opened: 2003-11-02 Last modified: 2015-04-08

View all other issues in [locale.categories].

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Discussion:

The following facets classes have no copy constructors described in the standard, which, according to the standard, means that they are supposed to use the compiler-generated defaults. Default copy behavior is probably inappropriate. We should either make these classes uncopyable or else specify exactly what their constructors do.

Related issue: 421.

        ctype_base
        ctype
        ctype_byname
        ctype<char>
        ctype_byname<char>
        codecvt_base
        codecvt
        codecvt_byname
        num_get
        num_put
        numpunct
        numpunct_byname
        collate
        collate_byname
        time_base
        time_get
        time_get_byname
        time_put
        time_put_byname
        money_get
        money_put
        money_base
        moneypunct
        moneypunct_byname
        messages_base
        messages
        messages_byname

Proposed resolution:

Rationale:

The copy constructor in the base class is private.


440. Should std::complex use unqualified transcendentals?

Section: 26.4.8 [complex.transcendentals] Status: NAD Submitter: Matt Austern Opened: 2003-11-05 Last modified: 2015-04-08

View all issues with NAD status.

Discussion:

Operations like pow and exp on complex<T> are typically implemented in terms of operations like sin and cos on T. Should implementations write this as std::sin, or as plain unqualified sin?

The issue, of course, is whether we want to use argument-dependent lookup in the case where T is a user-defined type. This is similar to the issue of valarray transcendentals, as discussed in issue 226.

This issue differs from valarray transcendentals in two important ways. First, "the effect of instantiating the template complex for types other than float, double or long double is unspecified." (26.4.1 [complex.syn]) Second, the standard does not dictate implementation, so there is no guarantee that a particular real math function is used in the implementation of a particular complex function.

Proposed resolution:

Rationale:

If you instantiate std::complex for user-defined types, all bets are off.


446. Iterator equality between different containers

Section: 24.2 [iterator.requirements], 23.2 [container.requirements] Status: NAD Editorial Submitter: Andy Koenig Opened: 2003-12-16 Last modified: 2015-04-08

View all other issues in [iterator.requirements].

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Discussion:

What requirements does the standard place on equality comparisons between iterators that refer to elements of different containers. For example, if v1 and v2 are empty vectors, is v1.end() == v2.end() allowed to yield true? Is it allowed to throw an exception?

The standard appears to be silent on both questions.

[Sydney: The intention is that comparing two iterators from different containers is undefined, but it's not clear if we say that, or even whether it's something we should be saying in clause 23 or in clause 24. Intuitively we might want to say that equality is defined only if one iterator is reachable from another, but figuring out how to say it in any sensible way is a bit tricky: reachability is defined in terms of equality, so we can't also define equality in terms of reachability. ]

[ 2009-07 Frankfurt ]

Daniel volunteered to work on this.

[ 2009-09-20 Daniel provided wording. ]

[ 2009-10 Santa Cruz: ]

Leave as Open. Alisdair has volunteered to refine the wording.

[ 2010 Pittsburgh: Moved to NAD Editorial. Rationale added below. ]

Rationale:

Solved by N3066.

Proposed resolution:

Insert a new paragraph between 24.2 [iterator.requirements]/7+8:

[..] The result of the application of functions in the library to invalid ranges is undefined.

The result of directly or indirectly evaluating any comparison function or the binary - operator with two iterator values as arguments that were obtained from two different ranges r1 and r2 (including their past-the-end values) which are not subranges of one common range is undefined, unless explicitly described otherwise.


447. Wrong template argument for time facets

Section: 22.3.1.1.1 [locale.category] Status: Dup Submitter: Pete Becker Opened: 2003-12-26 Last modified: 2015-04-08

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Duplicate of: 327

Discussion:

22.1.1.1.1/4, table 52, "Required Instantiations", lists, among others:

    time_get<char,InputIterator>
    time_get_byname<char,InputIterator>
    time_get<wchar_t,OutputIterator>
    time_get_byname<wchar_t,OutputIterator>

The second argument to the last two should be InputIterator, not OutputIterator.

Proposed resolution:

Change the second template argument to InputIterator.

Rationale:


450. set::find is inconsistent with associative container requirements

Section: 23.4.6 [set] Status: Dup Submitter: Bill Plauger Opened: 2004-01-30 Last modified: 2015-04-08

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Duplicate of: 214

Discussion:

map/multimap have:

    iterator find(const key_type& x) const;
    const_iterator find(const key_type& x) const;

which is consistent with the table of associative container requirements. But set/multiset have:

    iterator find(const key_type&) const;

set/multiset should look like map/multimap, and honor the requirements table, in this regard.

Proposed resolution:

Rationale:


451. Associative erase should return an iterator

Section: 23.2.4 [associative.reqmts], 23.4 [associative] Status: Dup Submitter: Bill Plauger Opened: 2004-01-30 Last modified: 2015-04-08

View other active issues in [associative.reqmts].

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Duplicate of: 130

Discussion:

map/multimap/set/multiset have:

    void erase(iterator);
    void erase(iterator, iterator);

But there's no good reason why these can't return an iterator, as for vector/deque/list:

    iterator erase(iterator);
    iterator erase(iterator, iterator);

Proposed resolution:

Informally: The table of associative container requirements, and the relevant template classes, should return an iterator designating the first element beyond the erased subrange.

Rationale:


452. locale::combine should be permitted to generate a named locale

Section: 22.3.1.3 [locale.members] Status: NAD Submitter: Bill Plauger Opened: 2004-01-30 Last modified: 2015-04-08

View all other issues in [locale.members].

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Discussion:

template<class Facet>
    locale::combine(const locale&) const;

is obliged to create a locale that has no name. This is overspecification and overkill. The resulting locale should follow the usual rules -- it has a name if the locale argument has a name and Facet is one of the standard facets.

[ Sydney and post-Sydney (see c++std-lib-13439, c++std-lib-13440, c++std-lib-13443): agreed that it's overkill to say that the locale is obligated to be nameless. However, we also can't require it to have a name. At the moment, locale names are based on categories and not on individual facets. If a locale contains two different facets of different names from the same category, then this would not fit into existing naming schemes. We need to give implementations more freedom. Bill will provide wording. ]

Rationale:

After further discussion the LWG decided to close this as NAD. The fundamental problem is that names right now are per-category, not per-facet. The combine member function works at the wrong level of granularity.


454. basic_filebuf::open should accept wchar_t names

Section: 27.9.1.4 [filebuf.members] Status: NAD Submitter: Bill Plauger Opened: 2004-01-30 Last modified: 2015-04-08

View all other issues in [filebuf.members].

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Duplicate of: 105

Discussion:

    basic_filebuf *basic_filebuf::open(const char *, ios_base::open_mode);

should be supplemented with the overload:

    basic_filebuf *basic_filebuf::open(const wchar_t *, ios_base::open_mode);

Depending on the operating system, one of these forms is fundamental and the other requires an implementation-defined mapping to determine the actual filename.

[Sydney: Yes, we want to allow wchar_t filenames. Bill will provide wording.]

[ In Toronto we noted that this is issue 5 from N1569. ]

How does this interact with the newly-defined character types, and how do we avoid interface explosion considering std::string overloads that were added? Propose another solution that is different than the suggestion proposed by PJP.

Suggestion is to make a member template function for basic_string (for char, wchar_t, u16char, u32char instantiations), and then just keep a const char* member.

Goal is to do implicit conversion between character string literals to appropriate basic_string type. Not quite sure if this is possible.

Implementors are free to add specific overloads for non-char character types.

[ Martin adds pre-Sophia Antipolis: ]

Please see issue 454: problems and solutions.

[ Sophia Antipolis: ]

Beman is concerned that making these changes to basic_filebuf is not usefully changed unless fstream is also changed; this also only handles wchar_t and not other character types.

The TR2 filesystem library is a more complete solution, but is not available soon.

[ Martin adds: please reference N2683 for problems and solutions. ]

Proposed resolution:

Change from:

basic_filebuf<charT,traits>* open(
    const char* s,
    ios_base::openmode mode );

Effects: If is_open() != false, returns a null pointer. Otherwise, initializes the filebuf as required. It then opens a file, if possible, whose name is the NTBS s ("as if" by calling std::fopen(s,modstr)).

to:

basic_filebuf<charT,traits>* open(
    const char* s,
    ios_base::openmode mode );

basic_filebuf<charT,traits>* open(
    const wchar_t* ws,
    ios_base::openmode mode );

Effects: If is_open() != false, returns a null pointer. Otherwise, initializes the filebuf as required. It then opens a file, if possible, whose name is the NTBS s ("as if" by calling std::fopen(s,modstr)). For the second signature, the NTBS s is determined from the WCBS ws in an implementation-defined manner.

(NOTE: For a system that "naturally" represents a filename as a WCBS, the NTBS s in the first signature may instead be mapped to a WCBS; if so, it follows the same mapping rules as the first argument to open.)

Rationale:

Slightly controversial, but by a 7-1 straw poll the LWG agreed to move this to Ready. The controversy was because the mapping between wide names and files in a filesystem is implementation defined. The counterargument, which most but not all LWG members accepted, is that the mapping between narrow files names and files is also implemenation defined.

[Lillehammer: Moved back to "open" status, at Beman's urging. (1) Why just basic_filebuf, instead of also basic_fstream (and possibly other things too). (2) Why not also constructors that take std::basic_string? (3) We might want to wait until we see Beman's filesystem library; we might decide that it obviates this.]

[ post Bellevue: ]

Move again to Ready.

There is a timing issue here. Since the filesystem library will not be in C++0x, this should be brought forward. This solution would remain valid in the context of the proposed filesystem.

This issue has been kicking around for a while, and the wchar_t addition alone would help many users. Thus, we suggest putting this on the reflector list with an invitation for someone to produce proposed wording that covers basic_fstream. In the meantime, we suggest that the proposed wording be adopted as-is.

If more of the Lillehammer questions come back, they should be introduced as separate issues.

[ San Francisco: ]

Some existing implementations provide overload already. Expected filesystem "path" object overloads neatly, without surprises; implying NAD.


458. 24.1.5 contains unintended limitation for operator-

Section: 24.2.7 [random.access.iterators] Status: NAD Submitter: Daniel Frey Opened: 2004-02-27 Last modified: 2015-04-08

View all other issues in [random.access.iterators].

View all issues with NAD status.

Discussion:

In 24.1.5 [lib.random.access.iterators], table 76 the operational semantics for the expression "r -= n" are defined as "return r += -n". This means, that the expression -n must be valid, which is not the case for unsigned types.

[ Sydney: Possibly not a real problem, since difference type is required to be a signed integer type. However, the wording in the standard may be less clear than we would like. ]

[ Post Summit Alisdair adds: ]

This issue refers to a requirements table we have removed.

The issue might now relate to 24.2.7 [random.access.iterators] p5. However, the rationale in the issue already recognises that the difference_type must be signed, so this really looks NAD.

[ Batavia (2009-05): ]

We agree with Alisdair's observations.

Move to NAD.

[ 2009-07 Frankfurt: ]

Need to look at again without concepts.

There was a question about this phrase in the discussion: "the expression -n must be valid, which is not the case for unsigned types." If n is an object of the iterator difference_type (eg ptrdiff_t), then it is never unsigned.

[ 2009-10 Santa Cruz: ]

The group reviewed the wording in the draft and agreed that n is of difference type, the difference type is signed, and the current wording is correct. Moved to NAD.

Proposed resolution:

To remove this limitation, I suggest to change the operational semantics for this column to:

    { Distance m = n;
      if (m >= 0)
        while (m--) --r;
      else
        while (m++) ++r;
      return r; }

459. Requirement for widening in stage 2 is overspecification

Section: 22.4.2.1.2 [facet.num.get.virtuals] Status: NAD Submitter: Martin Sebor Opened: 2004-03-16 Last modified: 2015-04-08

View other active issues in [facet.num.get.virtuals].

View all other issues in [facet.num.get.virtuals].

View all issues with NAD status.

Discussion:

When parsing strings of wide-character digits, the standard requires the library to widen narrow-character "atoms" and compare the widened atoms against the characters that are being parsed. Simply narrowing the wide characters would be far simpler, and probably more efficient. The two choices are equivalent except in convoluted test cases, and many implementations already ignore the standard and use narrow instead of widen.

First, I disagree that using narrow() instead of widen() would necessarily have unfortunate performance implications. A possible implementation of narrow() that allows num_get to be implemented in a much simpler and arguably comparably efficient way as calling widen() allows, i.e. without making a virtual call to do_narrow every time, is as follows:

  inline char ctype<wchar_t>::narrow (wchar_t wc, char dflt) const
  {
      const unsigned wi = unsigned (wc);

      if (wi > UCHAR_MAX)
          return typeid (*this) == typeid (ctype<wchar_t>) ?
                 dflt : do_narrow (wc, dflt);

      if (narrow_ [wi] < 0) {
         const char nc = do_narrow (wc, dflt);
         if (nc == dflt)
             return dflt;
         narrow_ [wi] = nc;
      }

      return char (narrow_ [wi]);
  }

Second, I don't think the change proposed in the issue (i.e., to use narrow() instead of widen() during Stage 2) would be at all drastic. Existing implementations with the exception of libstdc++ currently already use narrow() so the impact of the change on programs would presumably be isolated to just a single implementation. Further, since narrow() is not required to translate alternate wide digit representations such as those mentioned in issue 303 to their narrow equivalents (i.e., the portable source characters '0' through '9'), the change does not necessarily imply that these alternate digits would be treated as ordinary digits and accepted as part of numbers during parsing. In fact, the requirement in 22.4.1.1.2 [locale.ctype.virtuals], p13 forbids narrow() to translate an alternate digit character, wc, to an ordinary digit in the basic source character set unless the expression (ctype<charT>::is(ctype_base::digit, wc) == true) holds. This in turn is prohibited by the C standard (7.25.2.1.5, 7.25.2.1.5, and 5.2.1, respectively) for charT of either char or wchar_t.

[Sydney: To a large extent this is a nonproblem. As long as you're only trafficking in char and wchar_t we're only dealing with a stable character set, so you don't really need either 'widen' or 'narrow': can just use literals. Finally, it's not even clear whether widen-vs-narrow is the right question; arguably we should be using codecvt instead.]

[ 2009-07 Frankfurt ]

NAD. The standard is clear enough as written.

Proposed resolution:

Change stage 2 so that implementations are permitted to use either technique to perform the comparison:

  1. call widen on the atoms and compare (either by using operator== or char_traits<charT>::eq) the input with the widened atoms, or
  2. call narrow on the input and compare the narrow input with the atoms
  3. do (1) or (2) only if charT is not char or wchar_t, respectively; i.e., avoid calling widen or narrow if it the source and destination types are the same

462. Destroying objects with static storage duration

Section: 3.6.3 [basic.start.term], 18.4 [cstdint] Status: NAD Submitter: Bill Plauger Opened: 2004-03-23 Last modified: 2015-04-08

View all issues with NAD status.

Discussion:

3.6.3 Termination spells out in detail the interleaving of static destructor calls and calls to functions registered with atexit. To match this behavior requires intimate cooperation between the code that calls destructors and the exit/atexit machinery. The former is tied tightly to the compiler; the latter is a primitive mechanism inherited from C that traditionally has nothing to do with static construction and destruction. The benefits of intermixing destructor calls with atexit handler calls is questionable at best, and very difficult to get right, particularly when mixing third-party C++ libraries with different third-party C++ compilers and C libraries supplied by still other parties.

I believe the right thing to do is defer all static destruction until after all atexit handlers are called. This is a change in behavior, but one that is likely visible only to perverse test suites. At the very least, we should permit deferred destruction even if we don't require it.

[If this is to be changed, it should probably be changed by CWG. At this point, however, the LWG is leaning toward NAD. Implementing what the standard says is hard work, but it's not impossible and most vendors went through that pain years ago. Changing this behavior would be a user-visible change, and would break at least one real application.]

[ Batavia: Send to core with our recommendation that we should permit deferred destruction but not require it. ]

[ Howard: The course of action recommended in Batavia would undo LWG issue 3 and break current code implementing the "phoenix singleton". Search the net for "phoenix singleton atexit" to get a feel for the size of the adverse impact this change would have. Below is sample code which implements the phoenix singleton and would break if atexit is changed in this way: ]

#include <cstdlib>
#include <iostream>
#include <type_traits>
#include <new>

class A
{
    bool alive_;
    A(const A&);
    A& operator=(const A&);
public:
    A() : alive_(true) {std::cout << "A()\n";}
    ~A() {alive_ = false; std::cout << "~A()\n";}
    void use()
    {
        if (alive_)
            std::cout << "A is alive\n";
        else
            std::cout << "A is dead\n";
    }
};

void deallocate_resource();

// This is the phoenix singleton pattern
A& get_resource(bool create = true)
{
    static std::aligned_storage<sizeof(A), std::alignment_of<A>::value>::type buf;
    static A* a;
    if (create)
    {
        if (a != (A*)&buf)
        {
            a = ::new (&buf) A;
            std::atexit(deallocate_resource);
        }
    }
    else
    {
        a->~A();
        a = (A*)&buf + 1;
    }
    return *a;
}

void deallocate_resource()
{
    get_resource(false);
}

void use_A(const char* message)
{
    A& a = get_resource();
    std::cout << "Using A " << message << "\n";
    a.use();
}

struct B
{
    ~B() {use_A("from ~B()");}
};

B b;

int main()
{
    use_A("from main()");
}

The correct output is:

A()
Using A from main()
A is alive
~A()
A()
Using A from ~B()
A is alive
~A()

[ Bellevue: Confirmed no interaction with quick_exit. Strong feeling against mandating the change. Leaning towards NAD rather than permitting the change, as this would make common implementations of pheonix-singleton pattern implementation defined, as noted by Howard. Bill agrees issue is no longer serious, and accepts NAD. ]

Proposed resolution:


463. auto_ptr usability issues

Section: X [auto.ptr] Status: NAD Submitter: Rani Sharoni Opened: 2003-12-07 Last modified: 2015-04-08

View all other issues in [auto.ptr].

View all issues with NAD status.

Discussion:

TC1 CWG DR #84 effectively made the template<class Y> operator auto_ptr<Y>() member of auto_ptr (20.4.5.3/4) obsolete.

The sole purpose of this obsolete conversion member is to enable copy initialization base from r-value derived (or any convertible types like cv-types) case:

#include <memory>
using std::auto_ptr;

struct B {};
struct D : B {};

auto_ptr<D> source();
int sink(auto_ptr<B>);
int x1 = sink( source() ); // #1 EDG - no suitable copy constructor

The excellent analysis of conversion operations that was given in the final auto_ptr proposal (http://www.open-std.org/jtc1/sc22/wg21/docs/papers/1997/N1128.pdf) explicitly specifies this case analysis (case 4). DR #84 makes the analysis wrong and actually comes to forbid the loophole that was exploited by the auto_ptr designers.

I didn't encounter any compliant compiler (e.g. EDG, GCC, BCC and VC) that ever allowed this case. This is probably because it requires 3 user defined conversions and in fact current compilers conform to DR #84.

I was surprised to discover that the obsolete conversion member actually has negative impact of the copy initialization base from l-value derived case:

auto_ptr<D> dp;
int x2 = sink(dp); // #2 EDG - more than one user-defined conversion applies

I'm sure that the original intention was allowing this initialization using the template<class Y> auto_ptr(auto_ptr<Y>& a) constructor (20.4.5.1/4) but since in this copy initialization it's merely user defined conversion (UDC) and the obsolete conversion member is UDC with the same rank (for the early overloading stage) there is an ambiguity between them.

Removing the obsolete member will have impact on code that explicitly invokes it:

int y = sink(source().operator auto_ptr<B>());

IMHO no one ever wrote such awkward code and the reasonable workaround for #1 is:

int y = sink( auto_ptr<B>(source()) );

I was even more surprised to find out that after removing the obsolete conversion member the initialization was still ill-formed: int x3 = sink(dp); // #3 EDG - no suitable copy constructor

This copy initialization semantically requires copy constructor which means that both template conversion constructor and the auto_ptr_ref conversion member (20.4.5.3/3) are required which is what was explicitly forbidden in DR #84. This is a bit amusing case in which removing ambiguity results with no candidates.

I also found exception safety issue with auto_ptr related to auto_ptr_ref:

int f(auto_ptr<B>, std::string);
auto_ptr<B> source2();

// string constructor throws while auto_ptr_ref
// "holds" the pointer
int x4 = f(source2(), "xyz"); // #4

The theoretic execution sequence that will cause a leak:

  1. call auto_ptr<B>::operator auto_ptr_ref<B>()
  2. call string::string(char const*) and throw

According to 20.4.5.3/3 and 20.4.5/2 the auto_ptr_ref conversion member returns auto_ptr_ref<Y> that holds *this and this is another defect since the type of *this is auto_ptr<X> where X might be different from Y. Several library vendors (e.g. SGI) implement auto_ptr_ref<Y> with Y* as member which is much more reasonable. Other vendor implemented auto_ptr_ref as defectively required and it results with awkward and catastrophic code: int oops = sink(auto_ptr<B>(source())); // warning recursive on all control paths

Dave Abrahams noticed that there is no specification saying that auto_ptr_ref copy constructor can't throw.

My proposal comes to solve all the above issues and significantly simplify auto_ptr implementation. One of the fundamental requirements from auto_ptr is that it can be constructed in an intuitive manner (i.e. like ordinary pointers) but with strict ownership semantics which yield that source auto_ptr in initialization must be non-const. My idea is to add additional constructor template with sole propose to generate ill-formed, diagnostic required, instance for const auto_ptr arguments during instantiation of declaration. This special constructor will not be instantiated for other types which is achievable using 14.8.2/2 (SFINAE). Having this constructor in hand makes the constructor template<class Y> auto_ptr(auto_ptr<Y> const&) legitimate since the actual argument can't be const yet non const r-value are acceptable.

This implementation technique makes the "private auxiliary class" auto_ptr_ref obsolete and I found out that modern C++ compilers (e.g. EDG, GCC and VC) consume the new implementation as expected and allow all intuitive initialization and assignment cases while rejecting illegal cases that involve const auto_ptr arguments.

The proposed auto_ptr interface:

namespace std {
    template<class X> class auto_ptr {
    public:
        typedef X element_type;

        // 20.4.5.1 construct/copy/destroy:
        explicit auto_ptr(X* p=0) throw();
        auto_ptr(auto_ptr&) throw();
        template<class Y> auto_ptr(auto_ptr<Y> const&) throw();
        auto_ptr& operator=(auto_ptr&) throw();
        template<class Y> auto_ptr& operator=(auto_ptr<Y>) throw();
        ~auto_ptr() throw();

        // 20.4.5.2 members:
        X& operator*() const throw();
        X* operator->() const throw();
        X* get() const throw();
        X* release() throw();
        void reset(X* p=0) throw();

    private:
        template<class U>
        auto_ptr(U& rhs, typename
unspecified_error_on_const_auto_ptr<U>::type = 0);
    };
}

One compliant technique to implement the unspecified_error_on_const_auto_ptr helper class is using additional private auto_ptr member class template like the following:

template<typename T> struct unspecified_error_on_const_auto_ptr;

template<typename T>
struct unspecified_error_on_const_auto_ptr<auto_ptr<T> const>
{ typedef typename auto_ptr<T>::const_auto_ptr_is_not_allowed type; };

There are other techniques to implement this helper class that might work better for different compliers (i.e. better diagnostics) and therefore I suggest defining its semantic behavior without mandating any specific implementation. IMO, and I didn't found any compiler that thinks otherwise, 14.7.1/5 doesn't theoretically defeat the suggested technique but I suggest verifying this with core language experts.

Further changes in standard text:

Remove section 20.4.5.3

Change 20.4.5/2 to read something like: Initializing auto_ptr<X> from const auto_ptr<Y> will result with unspecified ill-formed declaration that will require unspecified diagnostic.

Change 20.4.5.1/4,5,6 to read:

template<class Y> auto_ptr(auto_ptr<Y> const& a) throw();

4 Requires: Y* can be implicitly converted to X*.

5 Effects: Calls const_cast<auto_ptr<Y>&>(a).release().

6 Postconditions: *this holds the pointer returned from a.release().

Change 20.4.5.1/10

template<class Y> auto_ptr& operator=(auto_ptr<Y> a) throw();

10 Requires: Y* can be implicitly converted to X*. The expression delete get() is well formed.

LWG TC DR #127 is obsolete.

Notice that the copy constructor and copy assignment operator should remain as before and accept non-const auto_ptr& since they have effect on the form of the implicitly declared copy constructor and copy assignment operator of class that contains auto_ptr as member per 12.8/5,10:

struct X {
    // implicit X(X&)
    // implicit X& operator=(X&)
    auto_ptr<D> aptr_;
};

In most cases this indicates about sloppy programming but preserves the current auto_ptr behavior.

Dave Abrahams encouraged me to suggest fallback implementation in case that my suggestion that involves removing of auto_ptr_ref will not be accepted. In this case removing the obsolete conversion member to auto_ptr<Y> and 20.4.5.3/4,5 is still required in order to eliminate ambiguity in legal cases. The two constructors that I suggested will co exist with the current members but will make auto_ptr_ref obsolete in initialization contexts. auto_ptr_ref will be effective in assignment contexts as suggested in DR #127 and I can't see any serious exception safety issues in those cases (although it's possible to synthesize such). auto_ptr_ref<X> semantics will have to be revised to say that it strictly holds pointer of type X and not reference to an auto_ptr for the favor of cases in which auto_ptr_ref<Y> is constructed from auto_ptr<X> in which X is different from Y (i.e. assignment from r-value derived to base).

[Redmond: punt for the moment. We haven't decided yet whether we want to fix auto_ptr for C++-0x, or remove it and replace it with move_ptr and unique_ptr.]

[ Oxford 2007: Recommend NAD. We're just going to deprecate it. It still works for simple use cases and people know how to deal with it. Going forward unique_ptr is the recommended tool. ]

[ 2007-11-09: Reopened at the request of David Abrahams, Alisdair Meredith and Gabriel Dos Reis. ]

[ 2009-07 Frankfurt ]

This is a complicated issue, so we agreed to defer discussion until later in the week so that interested parties can read up on it.

[ 2009-10-04 Daniel adds: ]

I suggest to close this issue as NAD. The reasons are two-fold: First, the suggested proposed resolution uses no longer appropriate language means to solve this issue, which has the effect that the recommended resolution is another - but better - form of hack. Second, either following the suggested resolution or the now more natural alternative via the added member set

template<class Y> auto_ptr(auto_ptr<Y>&&) throw();
template<class Y> auto_ptr& operator=(auto_ptr<Y>&&) throw();

would still have a non-zero probability to break user-code that actively references auto_ptr_ref. This risk seems to indicate that a decision which would not touch the current spec of auto_ptr at all (but deprecating it) and instead recommending to use unique_ptr for new code instead might have the best cost-benefit ratio. IMO the current solution of 1100 can be considered as an active user-support for this transition.

[ 2009-10 Santa Cruz: ]

Mark as NAD. Alisdair will open a new issue (1247) with proposed wording to handle auto_ptr_ref.

Proposed resolution:

Change the synopsis in X [auto.ptr]:

namespace std { 
  template <class Y> struct auto_ptr_ref {};

  // exposition only
  template <class T> struct constant_object;

  // exposition only
  template <class T>
  struct cannot_transfer_ownership_from
    : constant_object<T> {};

  template <class X> class auto_ptr { 
  public: 
    typedef X element_type; 

    // D.9.1.1 construct/copy/destroy: 
    explicit auto_ptr(X* p =0) throw(); 
    auto_ptr(auto_ptr&) throw(); 
    template<class Y> auto_ptr(auto_ptr<Y> const&) throw(); 
    auto_ptr& operator=(auto_ptr&) throw(); 
    template<class Y> auto_ptr& operator=(auto_ptr<Y>&) throw();
    auto_ptr& operator=(auto_ptr_ref<X> r) throw();
    ~auto_ptr() throw(); 

    // D.9.1.2 members: 
    X& operator*() const throw();
    X* operator->() const throw();
    X* get() const throw();
    X* release() throw();
    void reset(X* p =0) throw();

    // D.9.1.3 conversions:
    auto_ptr(auto_ptr_ref<X>) throw();
    template<class Y> operator auto_ptr_ref<Y>() throw();
    template<class Y> operator auto_ptr<Y>() throw();

    // exposition only
    template<class U>
    auto_ptr(U& rhs, typename cannot_transfer_ownership_from<U>::error = 0);
  }; 

  template <> class auto_ptr<void> 
  { 
  public: 
    typedef void element_type; 
  }; 

}

Remove X [auto.ptr.conv].

Change X [auto.ptr], p3:

The auto_ptr provides a semantics of strict ownership. An auto_ptr owns the object it holds a pointer to. Copying an auto_ptr copies the pointer and transfers ownership to the destination. If more than one auto_ptr owns the same object at the same time the behavior of the program is undefined. Templates constant_object and cannot_transfer_ownership_from, and the final constructor of auto_ptr are for exposition only. For any types X and Y, initializing auto_ptr<X> from const auto_ptr<Y> is ill-formed, diagnostic required. [Note: The uses of auto_ptr include providing temporary exception-safety for dynamically allocated memory, passing ownership of dynamically allocated memory to a function, and returning dynamically allocated memory from a function. auto_ptr does not meet the CopyConstructible and Assignable requirements for Standard Library container elements and thus instantiating a Standard Library container with an auto_ptr results in undefined behavior. -- end note]

Change [auto.ptr.cons], p5:

template<class Y> auto_ptr(auto_ptr<Y> const& a) throw();

Requires: Y* can be implicitly converted to X*.

Effects: Calls const_cast<auto_ptr<Y>&>(a).release().

Postconditions: *this holds the pointer returned from a.release().

Change [auto.ptr.cons], p10:

template<class Y> auto_ptr& operator=(auto_ptr<Y>& a) throw();

Requires: Y* can be implicitly converted to X*. The expression delete get() is well formed.

Effects: Calls reset(a.release()).

Returns: *this.


466. basic_string ctor should prevent null pointer error

Section: 21.4.1 [string.require] Status: NAD Submitter: Daniel Frey Opened: 2004-06-10 Last modified: 2015-04-08

View all other issues in [string.require].

View all issues with NAD status.

Discussion:

Today, my colleagues and me wasted a lot of time. After some time, I found the problem. It could be reduced to the following short example:

  #include <string>
  int main() { std::string( 0 ); }

The problem is that the tested compilers (GCC 2.95.2, GCC 3.3.1 and Comeau online) compile the above without errors or warnings! The programs (at least for the GCC) resulted in a SEGV.

I know that the standard explicitly states that the ctor of string requires a char* which is not zero. STLs could easily detect the above case with a private ctor for basic_string which takes a single 'int' argument. This would catch the above code at compile time and would not ambiguate any other legal ctors.

[Redmond: No great enthusiasm for doing this. If we do, however, we want to do it for all places that take charT* pointers, not just the single-argument constructor. The other question is whether we want to catch this at compile time (in which case we catch the error of a literal 0, but not an expression whose value is a null pointer), at run time, or both. Recommend NAD. Relegate this functionality to debugging implementations.]

[ Post Summit: Alisdair requests this be re-opened as several new language facilities are designed to solve exactly this kind of problem. ]

[ Batavia (2009-05): ]

We are unable to achieve consensus on an approach to a resolution. There is some sentiment for treating this as a QOI matter. It is also possible that when string is brought into the concepts world, this issue might be addressed in that context.

[ 2009-07 Frankfurt ]

We considered three options:

The consensus was NAD.

Proposed resolution:

Add to the synopsis in 21.4 [basic.string]

basic_string( nullptr_t ) = delete;

470. accessing containers from their elements' special functions

Section: 23 [containers] Status: NAD Submitter: Martin Sebor Opened: 2004-06-28 Last modified: 2015-04-08

View other active issues in [containers].

View all other issues in [containers].

View all issues with NAD status.

Discussion:

The standard doesn't prohibit the destructors (or any other special functions) of containers' elements invoked from a member function of the container from "recursively" calling the same (or any other) member function on the same container object, potentially while the container is in an intermediate state, or even changing the state of the container object while it is being modified. This may result in some surprising (i.e., undefined) behavior.

Read email thread starting with c++std-lib-13637 for more.

Proposed resolution:

Add to Container Requirements the following new paragraph:

    Unless otherwise specified, the behavior of a program that
    invokes a container member function f from a member function
    g of the container's value_type on a container object c that
    called g from its mutating member function h, is undefined.
    I.e., if v is an element of c, directly or indirectly calling
    c.h() from v.g() called from c.f(), is undefined.

[Redmond: This is a real issue, but it's probably a clause 17 issue, not clause 23. We get the same issue, for example, if we try to destroy a stream from one of the stream's callback functions.]

Rationale:

Recommend NAD. We agree this is an issue, but not a defect. We believe that there is no wording we can put in the standard that will cover all cases without introducing unfortunate corner cases.


472. Missing "Returns" clause in std::equal_range

Section: 25.4.3.3 [equal.range] Status: Dup Submitter: Prateek R Karandikar Opened: 2004-06-30 Last modified: 2015-04-08

View all other issues in [equal.range].

View all issues with Dup status.

Duplicate of: 270

Discussion:

There is no "Returns:" clause for std::equal_range, which returns non-void.

Proposed resolution:

Rationale:

Fixed as part of issue 270.


476. Forward Iterator implied mutability

Section: 24.2.5 [forward.iterators] Status: NAD Submitter: Dave Abrahams Opened: 2004-07-09 Last modified: 2015-04-08

View all other issues in [forward.iterators].

View all issues with NAD status.

Discussion:

24.1/3 says:

Forward iterators satisfy all the requirements of the input and output iterators and can be used whenever either kind is specified

The problem is that satisfying the requirements of output iterator means that you can always assign *something* into the result of dereferencing it. That makes almost all non-mutable forward iterators non-conforming. I think we need to sever the refinement relationship between forward iterator and output iterator.

Related issue: 200. But this is not a dup.

Proposed resolution:

Rationale:

Yes, 24.1/3 does say that. But it's introductory material. The precise specification is in 24.1.3, and the requrements table there is right. We don't need to fine-tune introductory wording. (Especially since this wording is likely to be changed as part of the iterator overhaul.)


477. Operator-> for const forward iterators

Section: 24.2.5 [forward.iterators] Status: Dup Submitter: Dave Abrahams Opened: 2004-07-11 Last modified: 2015-04-08

View all other issues in [forward.iterators].

View all issues with Dup status.

Duplicate of: 478

Discussion:

The Forward Iterator requirements table contains the following:

 expression  return type         operational  precondition
                                  semantics
  ==========  ==================  ===========  ==========================
  a->m        U& if X is mutable, (*a).m       pre: (*a).m is well-defined.
              otherwise const U&

  r->m        U&                  (*r).m       pre: (*r).m is well-defined.

The first line is exactly right. The second line is wrong. Basically it implies that the const-ness of the iterator affects the const-ness of referenced members. But Paragraph 11 of [lib.iterator.requirements] says:

In the following sections, a and b denote values of type const X, n denotes a value of the difference type Distance, u, tmp, and m denote identifiers, r denotes a value of X&, t denotes a value of value type T, o denotes a value of some type that is writable to the output iterator.

AFAICT if we need the second line at all, it should read the same as the first line.

Related issue: 478

Proposed resolution:

Rationale:

The LWG agrees that this is a real problem. Marked as a DUP because the LWG chose to adopt the solution proposed in 478.


479. Container requirements and placement new

Section: 23.2 [container.requirements] Status: Dup Submitter: Herb Sutter Opened: 2004-08-01 Last modified: 2015-04-08

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Duplicate of: 580

Discussion:

Nothing in the standard appears to make this program ill-formed:

  struct C {
    void* operator new( size_t s ) { return ::operator new( s ); }
    // NOTE: this hides in-place and nothrow new
  };

  int main() {
    vector<C> v;
    v.push_back( C() );
  }

Is that intentional? We should clarify whether or not we intended to require containers to support types that define their own special versions of operator new.

[ Lillehammer: A container will definitely never use this overridden operator new, but whether it will fail to compile is unclear from the standard. Are containers supposed to use qualified or unqualified placement new? 20.4.1.1 is somewhat relevant, but the standard doesn't make it completely clear whether containers have to use Allocator::construct(). If containers don't use it, the details of how containers use placement new are unspecified. That is the real bug, but it needs to be fixed as part of the allocator overhaul. Weak support that the eventual solution should make this code well formed. ]

Proposed resolution:


480. unary_function and binary_function should have protected nonvirtual destructors

Section: X [depr.base] Status: NAD Submitter: Joe Gottman Opened: 2004-08-19 Last modified: 2015-04-08

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Discussion:

The classes std::unary_function and std::binary_function are both designed to be inherited from but contain no virtual functions. This makes it too easy for a novice programmer to write code like binary_function<int, int, int> *p = new plus<int>; delete p;

There are two common ways to prevent this source of undefined behavior: give the base class a public virtual destructor, or give it a protected nonvirtual destructor. Since unary_function and binary_function have no other virtual functions, (note in particular the absence of an operator()() ), it would cost too much to give them public virtual destructors. Therefore, they should be given protected nonvirtual destructors.

Proposed resolution:

Change Paragraph 20.3.1 of the Standard from

    template <class Arg, class Result>
    struct unary_function {
        typedef Arg argument_type;
        typedef Result result_type;
    };

    template <class Arg1, class Arg2, class Result>
    struct binary_function {
        typedef Arg1 first_argument_type;
        typedef Arg2 second_argument_type;
        typedef Result result_type;
    };

to

    template <class Arg, class Result>
        struct unary_function {
        typedef Arg argument_type;
        typedef Result result_type;
    protected:
        ~unary_function() {}
    };

    template <class Arg1, class Arg2, class Result>
    struct binary_function {
        typedef Arg1 first_argument_type;
        typedef Arg2 second_argument_type;
        typedef Result result_type;
    protected:
        ~binary_function() {}
    };

Rationale:

The LWG doesn't believe the existing definition causes anybody any concrete harm.


481. unique's effects on the range [result, last)

Section: 25.3.9 [alg.unique] Status: NAD Submitter: Andrew Koenig Opened: 2004-08-30 Last modified: 2015-04-08

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Discussion:

The standard says that unique(first, last) "eliminates all but the first element from every consecutive group of equal elements" in [first, last) and returns "the end of the resulting range". So a postcondition is that [first, result) is the same as the old [first, last) except that duplicates have been eliminated.

What postconditions are there on the range [result, last)? One might argue that the standard says nothing about those values, so they can be anything. One might also argue that the standard doesn't permit those values to be changed, so they must not be. Should the standard say something explicit one way or the other?

Proposed resolution:

Rationale:

We don't want to make many guarantees about what's in [result, end). Maybe we aren't being quite explicit enough about not being explicit, but it's hard to think that's a major problem.


483. Heterogeneous equality and EqualityComparable

Section: 25.2 [alg.nonmodifying], 25.3 [alg.modifying.operations] Status: Dup Submitter: Peter Dimov Opened: 2004-09-20 Last modified: 2015-04-08

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Duplicate of: 283

Discussion:

c++std-lib-14262

[lib.alg.find] requires T to be EqualityComparable:

template <class InputIterator, class T>
   InputIterator find(InputIterator first, InputIterator last,
                      const T& value);

However the condition being tested, as specified in the Effects clause, is actually *i == value, where i is an InputIterator.

The two clauses are in agreement only if the type of *i is T, but this isn't necessarily the case. *i may have a heterogeneous comparison operator that takes a T, or a T may be convertible to the type of *i.

Further discussion (c++std-lib-14264): this problem affects a number of algorithsm in clause 25, not just find. We should try to resolve this problem everywhere it appears.

Proposed resolution:

[lib.alg.find]:

Remove [lib.alg.find]/1.

[lib.alg.count]:

Remove [lib.alg.count]/1.

[lib.alg.search]:

Remove "Type T is EqualityComparable (20.1.1), " from [lib.alg.search]/4.

[lib.alg.replace]:

Remove [lib.alg.replace]/1. Replace [lb.alg.replace]/2 with:

For every iterator i in the range [first, last) for which *i == value or pred(*i) holds perform *i = new_value.

Remove the first sentence of /4. Replace the beginning of /5 with:

For every iterator i in the range [result, result + (last - first)), assign to *i either...

(Note the defect here, current text says assign to i, not *i).

[lib.alg.fill]:

Remove "Type T is Assignable (23.1), " from /1. Replace /2 with:

For every iterator i in the range [first, last) or [first, first + n), perform *i = value.

[lib.alg.remove]:

Remove /1. Remove the first sentence of /6.

Rationale:

Duplicate of (a subset of) issue 283.


486. min/max CopyConstructible requirement is too strict

Section: 25.4.7 [alg.min.max] Status: Dup Submitter: Dave Abrahams Opened: 2004-10-13 Last modified: 2015-04-08

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Duplicate of: 281

Discussion:

A straightforward implementation of these algorithms does not need to copy T.

Proposed resolution:

drop the the words "and CopyConstructible" from paragraphs 1 and 4

Rationale:


487. Allocator::construct is too limiting

Section: 17.6.3.5 [allocator.requirements] Status: NAD Submitter: Dhruv Matani Opened: 2004-10-17 Last modified: 2015-04-08

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Discussion:

The standard's version of allocator::construct(pointer, const_reference) severely limits what you can construct using this function. Say you can construct a socket from a file descriptor. Now, using this syntax, I first have to manually construct a socket from the fd, and then pass the constructed socket to the construct() function so it will just to an uninitialized copy of the socket I manually constructed. Now it may not always be possible to copy construct a socket eh! So, I feel that the changes should go in the allocator::construct(), making it:

    template<typename T>
    struct allocator{
      template<typename T1>
      void construct(pointer T1 const& rt1);
    };

Now, the ctor of the class T which matches the one that takes a T1 can be called! Doesn't that sound great?

Proposed resolution:

Rationale:

NAD. STL uses copying all the time, and making it possible for allocators to construct noncopyable objects is useless in the absence of corresponding container changes. We might consider this as part of a larger redesign of STL.


489. std::remove / std::remove_if wrongly specified

Section: 25.3.8 [alg.remove] Status: NAD Submitter: Thomas Mang Opened: 2004-12-12 Last modified: 2015-04-08

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Discussion:

In Section 25.2.7 [lib.alg.remove], paragraphs 1 to 5 describe the behavior of the mutating sequence operations std::remove and std::remove_if. However, the wording does not reflect the intended behavior [Note: See definition of intended behavior below] of these algorithms, as it is known to the C++ community [1].

1) Analysis of current wording:

25.2.7 [lib.alg.remove], paragraph 2:

Current wording says: "Effects: Eliminates all the elements referred to by iterator i in the range [first, last) for which the following corresponding conditions hold: *i == value, pred(*i) != false."

This sentences expresses specifically that all elements denoted by the (original) range [first, last) for which the corresponding condition hold will be eliminated. Since there is no formal definition of the term "eliminate" provided, the meaning of "eliminate" in everyday language implies that as postcondition, no element in the range denoted by [first, last) will hold the corresponding condition on reiteration over the range [first, last).

However, this is neither the intent [Note: See definition of intended behavior below] nor a general possible approach. It can be easily proven that if all elements of the original range[first, last) will hold the condition, it is not possible to substitute them by an element for which the condition will not hold.

25.2.7 [lib.alg.remove], paragraph 3:

Current wording says: "Returns: The end of the resulting range."

The resulting range is not specified. In combination with 25.2.7 [lib.alg.remove], paragraph 2, the only reasonable interpretation of this so-called resulting range is the range [first,last) - thus returning always the ForwardIterator 'last' parameter.

25.2.7 [lib.alg.remove], paragraph 4:

Current wording says: "Notes: Stable: the relative order of the elements that are not removed is the same as their relative order in the original range"

This sentences makes use of the term "removed", which is neither specified, nor used in a previous paragraph (which uses the term "eliminate"), nor unamgiuously separated from the name of the algorithm.

2) Description of intended behavior:

For the rest of this Defect Report, it is assumed that the intended behavior was that all elements of the range [first, last) which do not hold the condition *i == value (std::remove) or pred(*i) != false (std::remove_if)], call them s-elements [Note: s...stay], will be placed into a contiguous subrange of [first, last), denoted by the iterators [first, return value). The number of elements in the resulting range [first, return value) shall be equal to the number of s-elements in the original range [first, last). The relative order of the elements in the resulting subrange[first, return value) shall be the same as the relative order of the corresponding elements in the original range. It is undefined whether any elements in the resulting subrange [return value, last) will hold the corresponding condition, or not.

All implementations known to the author of this Defect Report comply with this intent. Since the intent of the behavior (contrary to the current wording) is also described in various utility references serving the C++ community [1], it is not expected that fixing the paragraphs will influence current code - unless the code relies on the behavior as it is described by current wording and the implementation indeed reflects the current wording, and not the intent.

3) Proposed fixes:

Change 25.2.7 [lib.alg.remove], paragraph 2 to:

"Effect: Places all the elements referred to by iterator i in the range [first, last) for which the following corresponding conditions hold : !(*i == value), pred(*i) == false into the subrange [first, k) of the original range, where k shall denote a value of type ForwardIterator. It is undefined whether any elements in the resulting subrange [k, last) will hold the corresponding condition, or not."

Comments to the new wording:

a) "Places" has no special meaning, and the everyday language meaning should fit. b) The corresponding conditions were negated compared to the current wording, becaue the new wording requires it. c) The wording "of the original range" might be redundant, since any subrange starting at 'first' and containing no more elements than the original range is implicitly a subrange of the original range [first, last). d) The iterator k was introduced instead of "return value" in order to avoid a cyclic dependency on 25.2.7/3. The wording ", where k shall denote a value of type ForwardIterator" might be redundant, because it follows implicitly by 25.2.7/3. e) "Places" does, in the author's opinion, explicitly forbid duplicating any element holding the corresponding condition in the original range [first, last) within the resulting range [first, k). If there is doubt this term might be not unambiguous regarding this, it is suggested that k is specified more closely by the following wording: "k shall denote a value of type ForwardIterator [Note: see d)] so that k - first is equal to the number of elements in the original range [first, last) for which the corresponding condition did hold". This could also be expressed as a separate paragraph "Postcondition:" f) The senctence "It is undefined whether any elements in the resulting subrange [k, last) will hold the corresponding condition, or not." was added consciously so the term "Places" does not imply if the original range [first, last) contains n elements holding the corresponding condition, the identical range[first, last) will also contain exactly n elements holding the corresponding condition after application of the algorithm.

Change 25.2.7 [lib.alg.remove], paragraph 3 to: "Returns: The iterator k."

Change 25.2.7 [lib.alg.remove], paragraph 4 to: "Notes: Stable: the relative order of the elements that are placed into the subrange [first, return value) shall be the same as their relative order was in the original range [first, last) prior to application of the algorithm."

Comments to the new wording:

a) the wording "was ... prior to application of the algorithm" is used to explicitly distinguish the original range not only by means of iterators, but also by a 'chronological' factor from the resulting range [first, return value). It might be redundant.

[1]: The wording of these references is not always unambiguous, and provided examples partially contradict verbal description of the algorithms, because the verbal description resembles the problematic wording of ISO/IEC 14882:2003.

Proposed resolution:

Rationale:

The LWG believes that the standard is sufficiently clear, and that there is no evidence of any real-world confusion about this point.


490. std::unique wrongly specified

Section: 25.3.9 [alg.unique] Status: NAD Submitter: Thomas Mang Opened: 2004-12-12 Last modified: 2015-04-08

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Discussion:

In Section 25.2.8 [lib.alg.unique], paragraphs 1 to 3 describe the behavior of the mutating sequence operation std::unique. However, the wording does not reflect the intended behavior [Note: See definition of intended behavior below] of these algorithms, as it is known to the C++ community [1].

1) Analysis of current wording:

25.2.8 [lib.alg.unique], paragraph 1:

Current wording says: "Effects: Eliminates all but the first element from every consecutive group of equal elements referred to by the iterator i in the range [first, last) for which the following corresponding conditions hold: *i == *(i - 1) or pred(*i, *(i -1)) != false"

This sentences expresses specifically that all elements denoted by the (original) range [first, last) which are not but the first element from a consecutive group of equal elements (where equality is defined as *i == *(i - 1) or pred(*i, *(i - 1)) ! = false) [Note: See DR 202], call them r-elements [Note: r...remove], will be eliminated. Since there is no formal definition of the term "eliminate" provided, it is undefined how this "elimination" takes place. But the meaning of "eliminate" in everyday language seems to disallow explicitly that after application of the algorithm, any r-element will remain at any position of the range [first, last) [2].

Another defect in the current wording concerns the iterators used to compare two elements for equality: The current wording contains the expression "(i - 1)", which is not covered by 25/9 [Note: See DR submitted by Thomas Mang regarding invalid iterator arithmetic expressions].

25.2.8 [lib.alg.unique], paragraph 2:

Current wording says: "Returns: The end of the resulting range."

The resulting range is not specified. In combination with 25.2.8 [lib.alg.unique], paragraph 1, one reasonable interpretation (in the author's opinion even the only possible interpretation) of this so-called resulting range is the range [first, last) - thus returning always the ForwardIterator 'last' parameter.

2) Description of intended behavior:

For the rest of this Defect Report, it is assumed that the intended behavior was that all elements denoted by the original range [first, last) which are the first element from a consecutive group of elements for which the corresponding conditions: *(i-1) == *i (for the version of unique without a predicate argument) or pred(*(i-1), *i) ! = false (for the version of unique with a predicate argument) [Note: If such a group of elements consists of only a single element, this is also considered the first element] [Note: See resolutions of DR 202], call them s-elements [Note: s...stay], will be placed into a contiguous subrange of [first, last), denoted by the iterators [first, return value). The number of elements in the resulting range [first, return value) shall be equal to the number of s-elements in the original range [first, last). Invalid iterator arithmetic expressions are expected to be resolved as proposed in DR submitted by Thomas Mang regarding invalid iterator arithmetic expressions. It is also assumed by the author that the relative order of the elements in the resulting subrange [first, return value) shall be the same as the relative order of the corresponding elements (the s-elements) in the original range [Note: If this was not intended behavior, the additional proposed paragraph about stable order will certainly become obsolete]. Furthermore, the resolutions of DR 202 are partially considered.

All implementations known to the author of this Defect Report comply with this intent [Note: Except possible effects of DR 202]. Since this intent of the behavior (contrary to the current wording) is also described in various utility references serving the C++ community [1], it is not expected that fixing the paragraphs will influence current code [Note: Except possible effects of DR 202] - unless the code relies on the behavior as it is described by current wording and the implementation indeed reflects the current wording, and not the intent.

3) Proposed fixes:

Change 25.2.8 [lib.alg.unique], paragraph 1 to:

"Effect: Places the first element from every consecutive group of elements, referred to by the iterator i in the range [first, last), for which the following conditions hold: *(i-1) == *i (for the version of unique without a predicate argument) or pred(*(i -1), *i) != false (for the version of unique with a predicate argument), into the subrange [first, k) of the original range, where k shall denote a value of type ForwardIterator."

Comments to the new wording:

a) The new wording was influenced by the resolutions of DR 202. If DR 202 is resolved in another way, the proposed wording need also additional review. b) "Places" has no special meaning, and the everyday language meaning should fit. c) The expression "(i - 1)" was left, but is expected that DR submitted by Thomas Mang regarding invalid iterator arithmetic expressions will take this into account. d) The wording "(for the version of unique without a predicate argument)" and "(for the version of unique with a predicate argument)" was added consciously for clarity and is in resemblence with current 23.2.2.4 [lib.list.ops], paragraph 19. It might be considered redundant. e) The wording "of the original range" might be redundant, since any subrange starting at first and containing no more elements than the original range is implicitly a subrange of the original range [first, last). f) The iterator k was introduced instead of "return value" in order to avoid a cyclic dependency on 25.2.8 [lib.alg.unique], paragraph 2. The wording ", where k shall denote a value of type ForwardIterator" might be redundant, because it follows implicitly by 25.2.8 [lib.alg.unique], paragraph 2. g) "Places" does, in the author's opinion, explicitly forbid duplicating any s-element in the original range [first, last) within the resulting range [first, k). If there is doubt this term might be not unambiguous regarding this, it is suggested that k is specified more closely by the following wording: "k shall denote a value of type ForwardIterator [Note: See f)] so that k - first is equal to the number of elements in the original range [first, last) being the first element from every consecutive group of elements for which the corresponding condition did hold". This could also be expressed as a separate paragraph "Postcondition:". h) If it is considered that the wording is unclear whether it declares the element of a group which consists of only a single element implicitly to be the first element of this group [Note: Such an interpretation could eventually arise especially in case last - first == 1] , the following additional sentence is proposed: "If such a group of elements consists of only a single element, this element is also considered the first element."

Change 25.2.8 [lib.alg.unique], paragraph 2 to: "Returns: The iterator k."

Add a separate paragraph "Notes:" as 25.2.8 [lib.alg.unique], paragraph 2a or 3a, or a separate paragraph "Postcondition:" before 25.2.8 [lib.alg.unique], paragraph 2 (wording inside {} shall be eliminated if the preceding expressions are used, or the preceding expressions shall be eliminated if wording inside {} is used):

"Notes:{Postcondition:} Stable: the relative order of the elements that are placed into the subrange [first, return value {k}) shall be the same as their relative order was in the original range [first, last) prior to application of the algorithm."

Comments to the new wording:

a) It is assumed by the author that the algorithm was intended to be stable. In case this was not the intent, this paragraph becomes certainly obsolete. b) The wording "was ... prior to application of the algorithm" is used to explicitly distinguish the original range not only by means of iterators, but also by a 'chronological' factor from the resulting range [first, return value). It might be redundant.

25.2.8 [lib.alg.unique], paragraph 3:

See DR 239.

4) References to other DRs:

See DR 202, but which does not address any of the problems described in this Defect Report [Note: This DR is supposed to complement DR 202]. See DR 239. See DR submitted by Thomas Mang regarding invalid iterator arithmetic expressions.

[1]: The wording of these references is not always unambiguous, and provided examples partially contradict verbal description of the algorithms, because the verbal description resembles the problematic wording of ISO/IEC 14882:2003.

[2]: Illustration of conforming implementations according to current wording:

One way the author of this DR considers how this "elimination" could be achieved by a conforming implementation according to current wording is by substituting each r-element by _any_ s-element [Note: s...stay; any non-r-element], since all r-elements are "eliminated".

In case of a sequence consisting of elements being all 'equal' [Note: See DR 202], substituting each r-element by the single s-element is the only possible solution according to current wording.

Proposed resolution:

Rationale:

The LWG believes the standard is sufficiently clear. No implementers get it wrong, and changing it wouldn't cause any code to change, so there is no real-world harm here.


491. std::list<>::unique incorrectly specified

Section: 23.3.5.5 [list.ops] Status: NAD Submitter: Thomas Mang Opened: 2004-12-12 Last modified: 2015-04-08

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Discussion:

In Section 23.3.5.5 [list.ops], paragraphs 19 to 21 describe the behavior of the std::list<T, Allocator>::unique operation. However, the current wording is defective for various reasons.

1) Analysis of current wording:

23.3.5.5 [list.ops], paragraph 19:

Current wording says: "Effects: Eliminates all but the first element from every consecutive group of equal elements referred to by the iterator i in the range [first + 1, last) for which *i == *(i - 1) (for the version of unique with no argument) or pred(*i, *(i -1)) (for the version of unique with a predicate argument) holds."

This sentences makes use of the undefined term "Eliminates". Although it is, to a certain degree, reasonable to consider the term "eliminate" synonymous with "erase", using "Erase" in the first place, as the wording of 23.3.5.5 [list.ops], paragraph 15 does, would be clearer.

The range of the elements referred to by iterator i is "[first + 1, last)". However, neither "first" nor "last" is defined.

The sentence makes three times use of iterator arithmetic expressions ( "first + 1", "*i == *(i - 1)", "pred(*i, *(i -1))" ) which is not defined for bidirectional iterator [see DR submitted by Thomas Mang regarding invalid iterator arithmetic expressions].

The same problems as pointed out in DR 202 (equivalence relation / order of arguments for pred()) apply to this paragraph.

23.3.5.5 [list.ops], paragraph 20:

Current wording says: "Throws: Nothing unless an exception in thrown by *i == *(i-1) or pred(*i, *(i - 1))"

The sentence makes two times use of invalid iterator arithmetic expressions ( "*i == *(i - 1)", "pred(*i, *(i -1))" ).

[Note: Minor typos: "in" / missing dot at end of sentence.]

23.3.5.5 [list.ops], paragraph 21:

Current wording says: "Complexity: If the range (last - first) is not empty, exactly (last - first) - 1 applications of the corresponding predicate, otherwise no application of the predicate.

See DR 315 regarding "(last - first)" not yielding a range.

Invalid iterator arithmetic expression "(last - first) - 1" left .

2) Description of intended behavior:

For the rest of this Defect Report, it is assumed that "eliminate" is supposed to be synonymous to "erase", that "first" is equivalent to an iterator obtained by a call to begin(), "last" is equivalent to an iterator obtained by a call to end(), and that all invalid iterator arithmetic expressions are resolved as described in DR submitted by Thomas Mang regarding invalid iterator arithmetic expressions.

Furthermore, the resolutions of DR 202 are considered regarding equivalence relation and order of arguments for a call to pred.

All implementations known to the author of this Defect Report comply with these assumptions, apart from the impact of the alternative resolution of DR 202. Except for the changes implied by the resolutions of DR 202, no impact on current code is expected.

3) Proposed fixes:

Change 23.3.5.5 [list.ops], paragraph 19 to:

"Effect: Erases all but the first element from every consecutive group of elements, referred to by the iterator i in the range [begin(), end()), for which the following conditions hold: *(i-1) == *i (for the version of unique with no argument) or pred(*(i-1), *i) != false (for the version of unique with a predicate argument)."

Comments to the new wording:

a) The new wording was influenced by DR 202 and the resolutions presented there. If DR 202 is resolved in another way, the proposed wording need also additional review. b) "Erases" refers in the author's opinion unambiguously to the member function "erase". In case there is doubt this might not be unamgibuous, a direct reference to the member function "erase" is suggested [Note: This would also imply a change of 23.3.5.5 [list.ops], paragraph 15.]. c) The expression "(i - 1)" was left, but is expected that DR submitted by Thomas Mang regarding invalid iterator arithmetic expressions will take this into account. d) The wording "(for the version of unique with no argument)" and "(for the version of unique with a predicate argument)" was kept consciously for clarity. e) "begin()" substitutes "first", and "end()" substitutes "last". The range need adjustment from "[first + 1, last)" to "[begin(), end())" to ensure a valid range in case of an empty list. f) If it is considered that the wording is unclear whether it declares the element of a group which consists of only a single element implicitly to be the first element of this group [Note: Such an interpretation could eventually arise especially in case size() == 1] , the following additional sentence is proposed: "If such a group of elements consists of only a single element, this element is also considered the first element."

Change 23.3.5.5 [list.ops], paragraph 20 to:

"Throws: Nothing unless an exception is thrown by *(i-1) == *i or pred(*(i-1), *i)."

Comments to the new wording:

a) The wording regarding the conditions is identical to proposed 23.3.5.5 [list.ops], paragraph 19. If 23.3.5.5 [list.ops], paragraph 19 is resolved in another way, the proposed wording need also additional review. b) The expression "(i - 1)" was left, but is expected that DR submitted by Thomas Mang regarding invalid iterator arithmetic expressions will take this into account. c) Typos fixed.

Change 23.3.5.5 [list.ops], paragraph 21 to:

"Complexity: If empty() == false, exactly size() - 1 applications of the corresponding predicate, otherwise no applications of the corresponding predicate."

Comments to the new wording:

a) The new wording is supposed to also replace the proposed resolution of DR 315, which suffers from the problem of undefined "first" / "last".

5) References to other DRs:

See DR 202. See DR 239. See DR 315. See DR submitted by Thomas Mang regarding invalid iterator arithmetic expressions.

Proposed resolution:

Rationale:

"All implementations known to the author of this Defect Report comply with these assumption", and "no impact on current code is expected", i.e. there is no evidence of real-world confusion or harm.


492. Invalid iterator arithmetic expressions

Section: 17.5.1.4 [structure.specifications] Status: NAD Submitter: Thomas Mang Opened: 2004-12-12 Last modified: 2015-04-08

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Discussion:

Various clauses other than clause 25 make use of iterator arithmetic not supported by the iterator category in question. Algorithms in clause 25 are exceptional because of 25 [lib.algorithms], paragraph 9, but this paragraph does not provide semantics to the expression "iterator - n", where n denotes a value of a distance type between iterators.

1) Examples of current wording:

Current wording outside clause 25:

23.2.2.4 [lib.list.ops], paragraphs 19-21: "first + 1", "(i - 1)", "(last - first)" 23.3.1.1 [lib.map.cons], paragraph 4: "last - first" 23.3.2.1 [lib.multimap.cons], paragraph 4: "last - first" 23.3.3.1 [lib.set.cons], paragraph 4: "last - first" 23.3.4.1 [lib.multiset.cons], paragraph 4: "last - first" 24.4.1 [lib.reverse.iterators], paragraph 1: "(i - 1)"

[Important note: The list is not complete, just an illustration. The same issue might well apply to other paragraphs not listed here.]

None of these expressions is valid for the corresponding iterator category.

Current wording in clause 25:

25.1.1 [lib.alg.foreach], paragraph 1: "last - 1" 25.1.3 [lib.alg.find.end], paragraph 2: "[first1, last1 - (last2-first2))" 25.2.8 [lib.alg.unique], paragraph 1: "(i - 1)" 25.2.8 [lib.alg.unique], paragraph 5: "(i - 1)"

However, current wording of 25 [lib.algorithms], paragraph 9 covers neither of these four cases:

Current wording of 25 [lib.algorithms], paragraph 9:

"In the description of the algorithms operator + and - are used for some of the iterator categories for which they do not have to be defined. In these cases the semantics of a+n is the same as that of

{X tmp = a;
advance(tmp, n);
return tmp;
}

and that of b-a is the same as of return distance(a, b)"

This paragrpah does not take the expression "iterator - n" into account, where n denotes a value of a distance type between two iterators [Note: According to current wording, the expression "iterator - n" would be resolved as equivalent to "return distance(n, iterator)"]. Even if the expression "iterator - n" were to be reinterpreted as equivalent to "iterator + -n" [Note: This would imply that "a" and "b" were interpreted implicitly as values of iterator types, and "n" as value of a distance type], then 24.3.4/2 interfers because it says: "Requires: n may be negative only for random access and bidirectional iterators.", and none of the paragraphs quoted above requires the iterators on which the algorithms operate to be of random access or bidirectional category.

2) Description of intended behavior:

For the rest of this Defect Report, it is assumed that the expression "iterator1 + n" and "iterator1 - iterator2" has the semantics as described in current 25 [lib.algorithms], paragraph 9, but applying to all clauses. The expression "iterator1 - n" is equivalent to an result-iterator for which the expression "result-iterator + n" yields an iterator denoting the same position as iterator1 does. The terms "iterator1", "iterator2" and "result-iterator" shall denote the value of an iterator type, and the term "n" shall denote a value of a distance type between two iterators.

All implementations known to the author of this Defect Report comply with these assumptions. No impact on current code is expected.

3) Proposed fixes:

Change 25 [lib.algorithms], paragraph 9 to:

"In the description of the algorithms operator + and - are used for some of the iterator categories for which they do not have to be defined. In this paragraph, a and b denote values of an iterator type, and n denotes a value of a distance type between two iterators. In these cases the semantics of a+n is the same as that of

{X tmp = a;
advance(tmp, n);
return tmp;
}

,the semantics of a-n denotes the value of an iterator i for which the following condition holds: advance(i, n) == a, and that of b-a is the same as of return distance(a, b)".

Comments to the new wording:

a) The wording " In this paragraph, a and b denote values of an iterator type, and n denotes a value of a distance type between two iterators." was added so the expressions "b-a" and "a-n" are distinguished regarding the types of the values on which they operate. b) The wording ",the semantics of a-n denotes the value of an iterator i for which the following condition holds: advance(i, n) == a" was added to cover the expression 'iterator - n'. The wording "advance(i, n) == a" was used to avoid a dependency on the semantics of a+n, as the wording "i + n == a" would have implied. However, such a dependency might well be deserved. c) DR 225 is not considered in the new wording.

Proposed fixes regarding invalid iterator arithmetic expressions outside clause 25:

Either a) Move modified 25 [lib.algorithms], paragraph 9 (as proposed above) before any current invalid iterator arithmetic expression. In that case, the first sentence of 25 [lib.algorithms], paragraph 9, need also to be modified and could read: "For the rest of this International Standard, ...." / "In the description of the following clauses including this ...." / "In the description of the text below ..." etc. - anyways substituting the wording "algorithms", which is a straight reference to clause 25. In that case, 25 [lib.algorithms] paragraph 9 will certainly become obsolete. Alternatively, b) Add an appropiate paragraph similar to resolved 25 [lib.algorithms], paragraph 9, to the beginning of each clause containing invalid iterator arithmetic expressions. Alternatively, c) Fix each paragraph (both current wording and possible resolutions of DRs) containing invalid iterator arithmetic expressions separately.

5) References to other DRs:

See DR 225. See DR 237. The resolution could then also read "Linear in last - first".

[ Bellevue: ]

Keep open and ask Bill to provide wording.

[ 2009-05-09 Alisdair adds: ]

This issue is related to 997.

[ 2009-07 Frankfurt ]

Hinnant: this isn't going to change any user's code or any vendor's implementation.

No objection to "NAD without prejudice." If anyone proposes a resolution, the LWG will consider it.

Move to NAD.

Proposed resolution:

[Lillehammer: Minor issue, but real. We have a blanket statement about this in 25/11. But (a) it should be in 17, not 25; and (b) it's not quite broad enough, because there are some arithmetic expressions it doesn't cover. Bill will provide wording.]


493. Undefined Expression in Input Iterator Note Title

Section: 24.2.3 [input.iterators] Status: NAD Submitter: Chris Jefferson Opened: 2004-12-13 Last modified: 2015-04-08

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Discussion:

1) In 24.1.1/3, the following text is currently present.

"Note: For input iterators, a==b does not imply ++a=++b (Equality does not guarantee the substitution property or referential transparency)."

However, when in Table 72, part of the definition of ++r is given as:

"pre: r is dereferenceable. post: any copies of the previous value of r are no longer required either to be dereferenceable ..."

While a==b does not imply that b is a copy of a, this statement should perhaps still be made more clear.

2) There are no changes to intended behaviour

3) This Note should be altered to say "Note: For input iterators a==b, when its behaviour is defined ++a==++b may still be false (Equality does not guarantee the substitution property or referential transparency).

Proposed resolution:

Rationale:

This is descriptive text, not normative, and the meaning is clear.


494. Wrong runtime complexity for associative container's insert and delete

Section: 23.2.4 [associative.reqmts] Status: NAD Submitter: Hans B os Opened: 2004-12-19 Last modified: 2015-04-08

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Discussion:

According to [lib.associative.reqmts] table 69, the runtime comlexity of insert(p, t) and erase(q) can be done in amortized constant time.

It was my understanding that an associative container could be implemented as a balanced binary tree.

For inser(p, t), you 'll have to iterate to p's next node to see if t can be placed next to p. Furthermore, the insertion usually takes place at leaf nodes. An insert next to the root node will be done at the left of the root next node

So when p is the root node you 'll have to iterate from the root to its next node, which takes O(log(size)) time in a balanced tree.

If you insert all values with insert(root, t) (where root is the root of the tree before insertion) then each insert takes O(log(size)) time. The amortized complexity per insertion will be O(log(size)) also.

For erase(q), the normal algorithm for deleting a node that has no empty left or right subtree, is to iterate to the next (or previous), which is a leaf node. Then exchange the node with the next and delete the leaf node. Furthermore according to DR 130, erase should return the next node of the node erased. Thus erasing the root node, requires iterating to the next node.

Now if you empty a map by deleting the root node until the map is empty, each operation will take O(log(size)), and the amortized complexity is still O(log(size)).

The operations can be done in amortized constant time if iterating to the next node can be done in (non amortized) constant time. This can be done by putting all nodes in a double linked list. This requires two extra links per node. To me this is a bit overkill since you can already efficiently insert or erase ranges with erase(first, last) and insert(first, last).

Proposed resolution:

Rationale:

Only "amortized constant" in special circumstances, and we believe that's implementable. That is: doing this N times will be O(N), not O(log N).


499. Std. doesn't seem to require stable_sort() to be stable!

Section: 25.4.1.2 [stable.sort] Status: NAD Editorial Submitter: Prateek Karandikar Opened: 2005-04-12 Last modified: 2015-04-08

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Discussion:

17.3.1.1 Summary

1 The Summary provides a synopsis of the category, and introduces the first-level subclauses. Each subclause also provides a summary, listing the headers specified in the subclause and the library entities provided in each header.

2 Paragraphs labelled "Note(s):" or "Example(s):" are informative, other paragraphs are normative.

So this means that a "Notes" paragraph wouldn't be normative.

25.3.1.2 stable_sort

template<class RandomAccessIterator> 
void stable_sort(RandomAccessIterat or first, RandomAccessIterator last); 

template<class RandomAccessIterator, class Compare> 
void stable_sort(RandomAccessIterat or first, RandomAccessIterator last, Compare comp);

1 Effects: Sorts the elements in the range [first, last).

2 Complexity: It does at most N(log N)^2 (where N == last - first) comparisons; if enough extra memory is available, it is N log N.

3 Notes: Stable: the relative order of the equivalent elements is preserved.

The Notes para is informative, and nowhere else is stability mentioned above.

Also, I just searched for the word "stable" in my copy of the Standard. and the phrase "Notes: Stable: the relative order of the elements..." is repeated several times in the Standard library clauses for describing various functions. How is it that stability is talked about in the informative paragraph? Or am I missing something obvious?

Proposed resolution:

Rationale:

This change has already been made.


500. do_length cannot be implemented correctly

Section: 22.4.1.5 [locale.codecvt.byname] Status: NAD Submitter: Krzysztof Żelechowski Opened: 2005-05-24 Last modified: 2015-04-08

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Discussion:

  1. codecvt::do_length is of type int;
  2. it is assumed to be sort-of returning from_next - from of type ptrdiff_t;
  3. ptrdiff_t cannot be cast to an int without data loss.

Contradiction.

Proposed resolution:


501. Proposal: strengthen guarantees of lib.comparisons

Section: X [depr.base] Status: NAD Submitter: Me <anti_spam_email2003@yahoo.com> Opened: 2005-06-07 Last modified: 2015-04-08

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Discussion:

"For templates greater, less, greater_equal, and less_equal, the specializations for any pointer type yield a total order, even if the built-in operators <, >, <=, >= do not."

The standard should do much better than guarantee that these provide a total order, it should guarantee that it can be used to test if memory overlaps, i.e. write a portable memmove. You can imagine a platform where the built-in operators use a uint32_t comparison (this tests for overlap on this platform) but the less<T*> functor is allowed to be defined to use a int32_t comparison. On this platform, if you use std::less with the intent of making a portable memmove, comparison on an array that straddles the 0x7FFFFFFF/0x8000000 boundary can give incorrect results.

Proposed resolution:

Add a footnote to 20.5.3/8 saying:

Given a p1 and p2 such that p1 points to N objects of type T and p2 points to M objects of type T. If [p1,p1+N) does not overlap [p2,p2+M), less returns the same value when comparing all pointers in [p1,p1+N) to all pointers in [p2,p2+M). Otherwise, there is a value Q and a value R such that less returns the same value when comparing all pointers in [p1,p1+Q) to all pointers in [p2,p2+R) and an opposite value when comparing all pointers in [p1+Q,p1+N) to all pointers in [p2+R,p2+M). For the sake of completeness, the null pointer value (4.10) for T is considered to be an array of 1 object that doesn't overlap with any non-null pointer to T. less_equal, greater, greater_equal, equal_to, and not_equal_to give the expected results based on the total ordering semantics of less. For T of void, treat it as having similar semantics as T of char i.e. less<cv T*>(a, b) gives the same results as less<cv void*>(a, b) which gives the same results as less<cv char*>((cv char*)(cv void*)a, (cv char*)(cv void*)b).

I'm also thinking there should be a footnote to 20.5.3/1 saying that if A and B are similar types (4.4/4), comp<A>(a,b) returns the same value as comp<B>(a,b) (where comp is less, less_equal, etc.). But this might be problematic if there is some really funky operator overloading going on that does different things based on cv (that should be undefined behavior if somebody does that though). This at least should be guaranteed for all POD types (especially pointers) that use the built-in comparison operators.

Rationale:

less is already required to provide a strict weak ordering which is good enough to detect overlapping memory situations.


502. Proposition: Clarification of the interaction between a facet and an iterator

Section: 22.3.1.1.1 [locale.category] Status: NAD Submitter: Christopher Conrade Zseleghovski Opened: 2005-06-07 Last modified: 2015-04-08

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Discussion:

Motivation:

This requirement seems obvious to me, it is the essence of code modularity. I have complained to Mr. Plauger that the Dinkumware library does not observe this principle but he objected that this behaviour is not covered in the standard.

[ 2009-07 Frankfurt ]

No objection to NAD, Fixed.

Move to NAD.

Proposed resolution:

Append the following point to 22.1.1.1.1:

6. The implementation of a facet of Table 52 parametrized with an InputIterator/OutputIterator should use that iterator only as character source/sink respectively. For a *_get facet, it means that the value received depends only on the sequence of input characters and not on how they are accessed. For a *_put facet, it means that the sequence of characters output depends only on the value to be formatted and not of how the characters are stored.

[ Berlin: Moved to Open, Need to clean up this area to make it clear locales don't have to contain open ended sets of facets. Jack, Howard, Bill. ]


503. more on locales

Section: 22.4 [locale.categories] Status: NAD Submitter: P.J. Plauger Opened: 2005-06-20 Last modified: 2015-04-08

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Discussion:

a) In 22.2.1.1 para. 2 we refer to "the instantiations required in Table 51" to refer to the facet *objects* associated with a locale. And we almost certainly mean just those associated with the default or "C" locale. Otherwise, you can't switch to a locale that enforces a different mapping between narrow and wide characters, or that defines additional uppercase characters.

b) 22.2.1.5 para. 3 (codecvt) has the same issues.

c) 22.2.1.5.2 (do_unshift) is even worse. It *forbids* the generation of a homing sequence for the basic character set, which might very well need one.

d) 22.2.1.5.2 (do_length) likewise dictates that the default mapping between wide and narrow characters be taken as one-for-one.

e) 22.2.2 para. 2 (num_get/put) is both muddled and vacuous, as far as I can tell. The muddle is, as before, calling Table 51 a list of instantiations. But the constraint it applies seems to me to cover *all* defined uses of num_get/put, so why bother to say so?

f) 22.2.3.1.2 para. 1(do_decimal_point) says "The required instantiations return '.' or L'.'.) Presumably this means "as appropriate for the character type. But given the vague definition of "required" earlier, this overrules *any* change of decimal point for non "C" locales. Surely we don't want to do that.

g) 22.2.3.1.2 para. 2 (do_thousands_sep) says "The required instantiations return ',' or L','.) As above, this probably means "as appropriate for the character type. But this overrules the "C" locale, which requires *no* character ('\0') for the thousands separator. Even if we agree that we don't mean to block changes in decimal point or thousands separator, we should also eliminate this clear incompatibility with C.

h) 22.2.3.1.2 para. 2 (do_grouping) says "The required instantiations return the empty string, indicating no grouping." Same considerations as for do_decimal_point.

i) 22.2.4.1 para. 1 (collate) refers to "instantiations required in Table 51". Same bad jargon.

j) 22.2.4.1.2 para. 1 (do_compare) refers to "instantiations required in Table 51". Same bad jargon.

k) 22.2.5 para. 1 (time_get/put) uses the same muddled and vacuous as num_get/put.

l) 22.2.6 para. 2 (money_get/put) uses the same muddled and vacuous as num_get/put.

m) 22.2.6.3.2 (do_pos/neg_format) says "The instantiations required in Table 51 ... return an object of type pattern initialized to {symbol, sign, none, value}." This once again *overrides* the "C" locale, as well as any other locale."

3) We constrain the use_facet calls that can be made by num_get/put, so why don't we do the same for money_get/put? Or for any of the other facets, for that matter?

4) As an almost aside, we spell out when a facet needs to use the ctype facet, but several also need to use a codecvt facet and we don't say so.

[ Berlin: Bill to provide wording. ]

[ 2009-07 Frankfurt ]

No objection to NAD.

Move to NAD.

Proposed resolution:


504. Integer types in pseudo-random number engine requirements

Section: 26.5.1 [rand.req], TR1 5.1.1 [tr.rand.req] Status: NAD Editorial Submitter: Walter Brown Opened: 2005-07-03 Last modified: 2015-04-08

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Discussion:

In [tr.rand.req], Paragraph 2 states that "... s is a value of integral type, g is an ... object returning values of unsigned integral type ..."

Proposed resolution:

In 5.1.1 [tr.rand.req], Paragraph 2 replace

... s is a value of integral type, g is an lvalue of a type other than X that defines a zero-argument function object returning values of unsigned integral type unsigned long int, ...

In 5.1.1 [tr.rand.seq], Table 16, replace in the line for X(s)

creates an engine with the initial internal state determined by static_cast<unsigned long>(s)

[ Mont Tremblant: Both s and g should be unsigned long. This should refer to the constructor signatures. Jens provided wording post Mont Tremblant. ]

[ Berlin: N1932 adopts the proposed resolution: see 26.3.1.3/1e and Table 3 row 2. Moved to Ready. ]

Rationale:

Jens: Just requiring X(unsigned long) still makes it possible for an evil library writer to also supply a X(int) that does something unexpected. The wording above requires that X(s) always performs as if X(unsigned long) would have been called. I believe that is sufficient and implements our intentions from Mont Tremblant. I see no additional use in actually requiring a X(unsigned long) signature. u.seed(s) is covered by its reference to X(s), same arguments.

[ Portland: Subsumed by N2111. ]


506. Requirements of Distribution parameter for variate_generator

Section: 26.5 [rand], TR1 5.1.3 [tr.rand.var] Status: NAD Submitter: Walter Brown Opened: 2005-07-03 Last modified: 2015-04-08

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Discussion:

Paragraph 3 requires that template argument U (which corresponds to template parameter Engine) satisfy all uniform random number generator requirements. However, there is no analogous requirement regarding the template argument that corresponds to template parameter Distribution. We believe there should be, and that it should require that this template argument satisfy all random distribution requirements.

Proposed resolution:

Consequence 1: Remove the precondition clauses [tr.rand.var]/16 and /18.

Consequence 2: Add max() and min() functions to those distributions that do not already have them.

[ Mont Tremblant: Jens reccommends NAD, min/max not needed everywhere. Marc supports having min and max to satisfy generic programming interface. ]

Rationale:

Berlin: N1932 makes this moot: variate_generator has been eliminated.


509. Uniform_int template parameters

Section: 26.5.8.2 [rand.dist.uni], TR1 5.1.7.1 [tr.rand.dist.iunif] Status: NAD Submitter: Walter Brown Opened: 2005-07-03 Last modified: 2015-04-08

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Discussion:

In [tr.rand.dist.iunif] the uniform_int distribution currently has a single template parameter, IntType, used as the input_type and as the result_type of the distribution. We believe there is no reason to conflate these types in this way.

Proposed resolution:

We recommend that there be a second template parameter to reflect the distribution's input_type, and that the existing first template parameter continue to reflect (solely) the result_type:

template< class IntType = int, UIntType = unsigned int >
class uniform_int
{
public:
  // types
  typedef  UIntType  input_type;
  typedef  IntType   result_type;

[ Berlin: Moved to NAD. N1932 makes this moot: the input_type template parameter has been eliminated. ]


510. Input_type for bernoulli_distribution

Section: 26.5.8.3 [rand.dist.bern], TR1 5.1.7.2 [tr.rand.dist.bern] Status: NAD Submitter: Walter Brown Opened: 2005-07-03 Last modified: 2015-04-08

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Discussion:

In [tr.rand.dist.bern] the distribution currently requires;

typedef  int  input_type;

Proposed resolution:

We believe this is an unfortunate choice, and recommend instead:

typedef  unsigned int  input_type;

[ Berlin: Moved to NAD. N1932 makes this moot: the input_type template parameter has been eliminated. ]


511. Input_type for binomial_distribution

Section: 26.5.8 [rand.dist], TR1 5.1.7.5 [tr.rand.dist.bin] Status: NAD Submitter: Walter Brown Opened: 2005-07-03 Last modified: 2015-04-08

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Discussion:

Unlike all other distributions in TR1, this binomial_distribution has an implementation-defined input_type. We believe this is an unfortunate choice, because it hinders users from writing portable code. It also hinders the writing of compliance tests. We recommend instead:

typedef  RealType  input_type;

While this choice is somewhat arbitrary (as it was for some of the other distributions), we make this particular choice because (unlike all other distributions) otherwise this template would not publish its RealType argument and so users could not write generic code that accessed this second template parameter. In this respect, the choice is consistent with the other distributions in TR1.

We have two reasons for recommending that a real type be specified instead. One reason is based specifically on characteristics of binomial distribution implementations, while the other is based on mathematical characteristics of probability distribution functions in general.

Implementations of binomial distributions commonly use Stirling approximations for values in certain ranges. It is far more natural to use real values to represent these approximations than it would be to use integral values to do so. In other ranges, implementations reply on the Bernoulli distribution to obtain values. While TR1's bernoulli_distribution::input_type is specified as int, we believe this would be better specified as double.

This brings us to our main point: The notion of a random distribution rests on the notion of a cumulative distribution function, which in turn mathematically depends on a continuous dependent variable. Indeed, such a distribution function would be meaningless if it depended on discrete values such as integers - and this remains true even if the distribution function were to take discrete steps.

Although this note is specifically about binomial_distribution::input_type, we intend to recommend that all of the random distributions input_types be specified as a real type (either a RealType template parameter, or double, as appropriate).

Of the nine distributions in TR1, four already have this characteristic (uniform_real, exponential_distribution, normal_distribution, and gamma_distribution). We have already argued the case for the binomial the remaining four distributions.

In the case of uniform_int, we believe that the calculations to produce an integer result in a specified range from an integer in a different specified range is best done using real arithmetic. This is because it involves a product, one of whose terms is the ratio of the extents of the two ranges. Without real arithmetic, the results become less uniform: some numbers become more (or less) probable that they should be. This is, of course, undesireable behavior in a uniform distribution.

Finally, we believe that in the case of the bernoulli_distribution (briefly mentioned earlier), as well as the cases of the geometric_distribution and the poisson_distribution, it would be far more natural to have a real input_type. This is because the most natural computation involves the random number delivered and the distribution's parameter p (in the case of bernoulli_distribution, for example, the computation is a comparison against p), and p is already specified in each case as having some real type.

Proposed resolution:

typedef  RealType  input_type;

[ Berlin: Moved to NAD. N1932 makes this moot: the input_type template parameter has been eliminated. ]


512. Seeding subtract_with_carry_01 from a single unsigned long

Section: 26.5.3 [rand.eng], TR1 5.1.4.4 [tr.rand.eng.sub1] Status: NAD Editorial Submitter: Walter Brown Opened: 2005-07-03 Last modified: 2015-04-08

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Discussion:

Paragraph 8 specifies the algorithm by which a subtract_with_carry_01 engine is to be seeded given a single unsigned long. This algorithm is seriously flawed in the case where the engine parameter w (also known as word_size) exceeds 31 [bits]. The key part of the paragraph reads:

sets x(-r) ... x(-1) to (lcg(1)*2**(-w)) mod 1

and so forth.

Since the specified linear congruential engine, lcg, delivers numbers with a maximum of 2147483563 (just a shade under 31 bits), then when w is, for example, 48, each of the x(i) will be less than 2**-17. The consequence is that roughly the first 400 numbers delivered will be conspicuously close to either zero or one.

Unfortunately, this is not an innocuous flaw: One of the predefined engines in [tr.rand.predef], namely ranlux64_base_01, has w = 48 and would exhibit this poor behavior, while the original N1378 proposal states that these pre-defined engines are intended to be of "known good properties."

Proposed resolution:

In 5.1.4.4 [tr.rand.eng.sub1], replace the "effects" clause for void seed(unsigned long value = 19780503) by

Effects: If value == 0, sets value to 19780503. In any case, with a linear congruential generator lcg(i) having parameters mlcg = 2147483563, alcg = 40014, clcg = 0, and lcg(0) = value, sets carry(-1) and x(-r) … x(-1) as if executing


linear_congruential<unsigned long, 40014, 0, 2147483563> lcg(value);
seed(lcg);

to (lcg(1) · 2-w) mod 1 … (lcg(r) · 2-w) mod 1, respectively. If x(-1) == 0, sets carry(-1) = 2-w, else sets carry(-1) = 0.

[ Jens provided revised wording post Mont Tremblant. ]

[ Berlin: N1932 adopts the originally-proposed resolution of the issue. Jens's supplied wording is a clearer description of what is intended. Moved to Ready. ]

Rationale:

Jens: I'm using an explicit type here, because fixing the prose would probably not qualify for the (with issue 504 even stricter) requirements we have for seed(Gen&).

[ Portland: Subsumed by N2111. ]


513. Size of state for subtract_with_carry_01

Section: 26.5.3 [rand.eng], TR1 5.1.4.4 [tr.rand.eng.sub1] Status: NAD Editorial Submitter: Walter Brown Opened: 2005-07-03 Last modified: 2015-04-08

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Discussion:

Paragraph 3 begins:

The size of the state is r.

However, this is not quite consistent with the remainder of the paragraph which specifies a total of nr+1 items in the textual representation of the state. We recommend the sentence be corrected to match:

The size of the state is nr+1.

To give meaning to the coefficient n, it may be also desirable to move n's definition from later in the paragraph. Either of the following seem reasonable formulations:

With n=..., the size of the state is nr+1.

The size of the state is nr+1, where n=... .

Proposed resolution:

[ Jens: I plead for "NAD" on the grounds that "size of state" is only used as an argument for big-O complexity notation, thus constant factors and additions don't count. ]

[ Berlin: N1932 adopts the proposed NAD. ]


514. Size of state for subtract_with_carry

Section: 26.5.3.3 [rand.eng.sub], TR1 5.1.4.3 [tr.rand.eng.sub] Status: NAD Editorial Submitter: Walter Brown Opened: 2005-07-03 Last modified: 2015-04-08

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Discussion:

Paragraph 2 begins:

The size of the state is r.

However, the next sentence specifies a total of r+1 items in the textual representation of the state, r specific x's as well as a specific carry. This makes a total of r+1 items that constitute the size of the state, rather than r.

Proposed resolution:

We recommend the sentence be corrected to match:

The size of the state is r+1.

[ Jens: I plead for "NAD" on the grounds that "size of state" is only used as an argument for big-O complexity notation, thus constant factors and additions don't count. ]

[ Berlin: N1932 adopts the proposed NAD. ]


515. Random number engine traits

Section: 26.5.2 [rand.synopsis], TR1 5.1.2 [tr.rand.synopsis] Status: NAD Submitter: Walter Brown Opened: 2005-07-03 Last modified: 2015-04-08

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Discussion:

To accompany the concept of a pseudo-random number engine as defined in Table 17, we propose and recommend an adjunct template, engine_traits, to be declared in [tr.rand.synopsis] as:

template< class PSRE >
class engine_traits;

This template's primary purpose would be as an aid to generic programming involving pseudo-random number engines. Given only the facilities described in tr1, it would be very difficult to produce any algorithms involving the notion of a generic engine. The intent of this proposal is to provide, via engine_traits<>, sufficient descriptive information to allow an algorithm to employ a pseudo-random number engine without regard to its exact type, i.e., as a template parameter.

For example, today it is not possible to write an efficient generic function that requires any specific number of random bits. More specifically, consider a cryptographic application that internally needs 256 bits of randomness per call:

template< class Eng, class InIter, class OutIter >
void crypto( Eng& e, InIter in, OutIter out );

Without knowning the number of bits of randomness produced per call to a provided engine, the algorithm has no means of determining how many times to call the engine.

In a new section [tr.rand.eng.traits], we proposed to define the engine_traits template as:

template< class PSRE >
class engine_traits
{
  static  std::size_t  bits_of_randomness = 0u;
  static  std::string  name()  { return "unknown_engine"; }
  // TODO: other traits here
};

Further, each engine described in [tr.rand.engine] would be accompanied by a complete specialization of this new engine_traits template.

Proposed resolution:

[ Berlin: Walter: While useful for implementation per TR1, N1932 has no need for this feature. Recommend close as NAD. ]

Rationale:

Recommend NAD, N1932, N2111 covers this. Already in WP.


516. Seeding subtract_with_carry_01 using a generator

Section: 26.5.3 [rand.eng], TR1 5.1.4.4 [tr.rand.eng.sub1] Status: NAD Editorial Submitter: Walter Brown Opened: 2005-07-03 Last modified: 2015-04-08

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Discussion:

Paragraph 6 says:

... obtained by successive invocations of g, ...

We recommend instead:

... obtained by taking successive invocations of g mod 2**32, ...

as the context seems to require only 32-bit quantities be used here.

Proposed resolution:

Berlin: N1932 adopts the proposed resultion: see 26.3.3.4/7. Moved to Ready.

[ Portland: Subsumed by N2111. ]


517. Should include name in external representation

Section: 26.5.1 [rand.req], TR1 5.1.1 [tr.rand.req] Status: NAD Submitter: Walter Brown Opened: 2005-07-03 Last modified: 2015-04-08

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Discussion:

The last two rows of Table 16 deal with the i/o requirements of an engine, specifying that the textual representation of an engine's state, appropriately formatted, constitute the engine's external representation.

This seems adequate when an engine's type is known. However, it seems inadequate in the context of generic code, where it becomes useful and perhaps even necessary to determine an engine's type via input.

Proposed resolution:

We therefore recommend that, in each of these two rows of Table 16, the text "textual representation" be expanded so as to read "engine name followed by the textual representation."

[ Berlin: N1932 considers this NAD. This is a QOI issue. ]


526. Is it undefined if a function in the standard changes in parameters?

Section: 23.2.3 [sequence.reqmts] Status: NAD Submitter: Chris Jefferson Opened: 2005-09-14 Last modified: 2015-04-08

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Discussion:

Problem: There are a number of places in the C++ standard library where it is possible to write what appear to be sensible ways of calling functions, but which can cause problems in some (or all) implementations, as they cause the values given to the function to be changed in a way not specified in standard (and therefore not coded to correctly work). These fall into two similar categories.

1) Parameters taken by const reference can be changed during execution of the function

Examples:

Given std::vector<int> v:

v.insert(v.begin(), v[2]);

v[2] can be changed by moving elements of vector

Given std::list<int> l:

l.remove(*l.begin());

Will delete the first element, and then continue trying to access it. This is particularily vicious, as it will appear to work in almost all cases.

2) A range is given which changes during the execution of the function: Similarly,

v.insert(v.begin(), v.begin()+4, v.begin()+6);

This kind of problem has been partly covered in some cases. For example std::copy(first, last, result) states that result cannot be in the range [first, last). However, does this cover the case where result is a reverse_iterator built from some iterator in the range [first, last)? Also, std::copy would still break if result was reverse_iterator(last + 1), yet this is not forbidden by the standard

Solution:

One option would be to try to more carefully limit the requirements of each function. There are many functions which would have to be checked. However as has been shown in the std::copy case, this may be difficult. A simpler, more global option would be to somewhere insert text similar to:

If the execution of any function would change either any values passed by reference or any value in any range passed to a function in a way not defined in the definition of that function, the result is undefined.

Such code would have to at least cover chapters 23 and 25 (the sections I read through carefully). I can see no harm on applying it to much of the rest of the standard.

Some existing parts of the standard could be improved to fit with this, for example the requires for 25.2.1 (Copy) could be adjusted to:

Requires: For each non-negative integer n < (last - first), assigning to *(result + n) must not alter any value in the range [first + n, last).

However, this may add excessive complication.

One other benefit of clearly introducing this text is that it would allow a number of small optimisations, such as caching values passed by const reference.

Matt Austern adds that this issue also exists for the insert and erase members of the ordered and unordered associative containers.

[ Berlin: Lots of controversey over how this should be solved. Lots of confusion as to whether we're talking about self referencing iterators or references. Needs a good survey as to the cases where this matters, for which implementations, and how expensive it is to fix each case. ]

Proposed resolution:

Rationale:

Recommend NAD.


528. const_iterator iterator issue when they are the same type

Section: 23.5 [unord], TR1 6.3.4 [tr.unord.unord] Status: NAD Submitter: Paolo Carlini Opened: 2005-10-12 Last modified: 2015-04-08

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Discussion:

while implementing the resolution of issue 6.19 I'm noticing the following: according to 6.3.4.3/2 (and 6.3.4.5/2), for unordered_set and unordered_multiset:

"The iterator and const_iterator types are both const types. It is unspecified whether they are the same type"

Now, according to the resolution of 6.19, we have overloads of insert with hint and erase (single and range) both for iterator and const_iterator, which, AFAICS, can be meaningful at the same time *only* if iterator and const_iterator *are* in fact different types.

Then, iterator and const_iterator are *required* to be different types? Or that is an unintended consequence? Maybe the overloads for plain iterators should be added only to unordered_map and unordered_multimap? Or, of course, I'm missing something?

Proposed resolution:

Add to 6.3.4.3p2 (and 6.3.4.5p2):

2 ... The iterator and const_iterator types are both const constant iterator types. It is unspecified whether they are the same type.

Add a new subsection to 17.4.4 [lib.conforming]:

An implementation shall not supply an overloaded function signature specified in any library clause if such a signature would be inherently ambiguous during overload resolution due to two library types referring to the same type.

[Note: For example, this occurs when a container's iterator and const_iterator types are the same. -- end note]

[ Post-Berlin: Beman supplied wording. ]

Rationale:

Toronto: The first issue has been fixed by N2350 (the insert and erase members are collapsed into one signature). Alisdair to open a separate issue on the chapter 17 wording.


529. The standard encourages redundant and confusing preconditions

Section: 17.6.4.11 [res.on.required] Status: NAD Editorial Submitter: David Abrahams Opened: 2005-10-25 Last modified: 2015-04-08

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Discussion:

17.4.3.8/1 says:

Violation of the preconditions specified in a function's Required behavior: paragraph results in undefined behavior unless the function's Throws: paragraph specifies throwing an exception when the precondition is violated.

This implies that a precondition violation can lead to defined behavior. That conflicts with the only reasonable definition of precondition: that a violation leads to undefined behavior. Any other definition muddies the waters when it comes to analyzing program correctness, because precondition violations may be routinely done in correct code (e.g. you can use std::vector::at with the full expectation that you'll get an exception when your index is out of range, catch the exception, and continue). Not only is it a bad example to set, but it encourages needless complication and redundancy in the standard. For example:

  21 Strings library 
  21.3.3 basic_string capacity

  void resize(size_type n, charT c);

  5 Requires: n <= max_size()
  6 Throws: length_error if n > max_size().
  7 Effects: Alters the length of the string designated by *this as follows:

The Requires clause is entirely redundant and can be dropped. We could make that simplifying change (and many others like it) even without changing 17.4.3.8/1; the wording there just seems to encourage the redundant and error-prone Requires: clause.

[ Batavia: Alan and Pete to work. ]

[ Bellevue: NAD Editorial, this group likes N2121, Pete agrees, accepting it is Pete's business. General agreement that precondition violations are synonymous with UB. ]

Proposed resolution:

1. Change 17.4.3.8/1 to read:

Violation of the preconditions specified in a function's Required behavior: paragraph results in undefined behavior unless the function's Throws: paragraph specifies throwing an exception when the precondition is violated.

2. Go through and remove redundant Requires: clauses. Specifics to be provided by Dave A.

[ Berlin: The LWG requests a detailed survey of part 2 of the proposed resolution. ]

[ Alan provided the survey N2121. ]


536. Container iterator constructor and explicit convertibility

Section: 23.2 [container.requirements] Status: Dup Submitter: Joaquín M López Muñoz Opened: 2005-12-17 Last modified: 2015-04-08

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Duplicate of: 589

Discussion:

The iterator constructor X(i,j) for containers as defined in 23.1.1 and 23.2.2 does only require that i and j be input iterators but nothing is said about their associated value_type. There are three sensible options:

  1. iterator's value_type is exactly X::value_type (modulo cv).
  2. iterator's value_type is *implicitly* convertible to X::value_type.
  3. iterator's value_type is *explicitly* convertible to X::value_type.

The issue has practical implications, and stdlib vendors have taken divergent approaches to it: Dinkumware follows 2, libstdc++ follows 3.

The same problem applies to the definition of insert(p,i,j) for sequences and insert(i,j) for associative contianers, as well as assign.

[ The following added by Howard and the example code was originally written by Dietmar. ]

Valid code below?

#include <vector> 
#include <iterator> 
#include <iostream> 

struct foo 
{ 
    explicit foo(int) {} 
}; 

int main() 
{ 
    std::vector<int> v_int; 
    std::vector<foo> v_foo1(v_int.begin(), v_int.end()); 
    std::vector<foo> v_foo2((std::istream_iterator<int>(std::cin)), 
                             std::istream_iterator<int>()); 
} 

[ Berlin: Some support, not universal, for respecting the explicit qualifier. ]

Proposed resolution:


544. minor NULL problems in C.2

Section: C.5 [diff.library] Status: NAD Editorial Submitter: Martin Sebor Opened: 2005-11-25 Last modified: 2015-04-08

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Discussion:

According to C.2.2.3, p1, "the macro NULL, defined in any of <clocale>, <cstddef>, <cstdio>, <cstdlib>, <cstring>, <ctime>, or <cwchar>." This is consistent with the C standard.

However, Table 95 in C.2 fails to mention <clocale> and <cstdlib>.

In addition, C.2, p2 claims that "The C++ Standard library provides 54 standard macros from the C library, as shown in Table 95." While table 95 does have 54 entries, since a couple of them (including the NULL macro) are listed more than once, the actual number of macros defined by the C++ Standard Library may not be 54.

Proposed resolution:

I propose we add <clocale> and <cstdlib> to Table 96 and remove the number of macros from C.2, p2 and reword the sentence as follows:

The C++ Standard library provides 54 standard macros from defines a number macros corresponding to those defined by the C Standard library, as shown in Table 96.

[ Portland: Resolution is considered editorial. It will be incorporated into the WD. ]


546. _Longlong and _ULonglong are integer types

Section: TR1 5.1.1 [tr.rand.req] Status: NAD Submitter: Matt Austern Opened: 2006-01-10 Last modified: 2015-04-08

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Discussion:

The TR sneaks in two new integer types, _Longlong and _Ulonglong, in [tr.c99]. The rest of the TR should use that type. I believe this affects two places. First, the random number requirements, 5.1.1/10-11, lists all of the types with which template parameters named IntType and UIntType may be instantiated. _Longlong (or "long long", assuming it is added to C++0x) should be added to the IntType list, and UIntType (again, or "unsigned long long") should be added to the UIntType list. Second, 6.3.2 lists the types for which hash<> is required to be instantiable. _Longlong and _Ulonglong should be added to that list, so that people may use long long as a hash key.

[ 2009-07 Frankfurt ]

We are not going to fix TR1.

The paper "long long goes to the library" addresses the integration of long long into the C++0x library.

Move to NAD.

Proposed resolution:


547. division should be floating-point, not integer

Section: 26.5 [rand], TR1 5.1 [tr.rand] Status: NAD Submitter: Matt Austern Opened: 2006-01-10 Last modified: 2015-04-08

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Discussion:

Paragraph 10 describes how a variate generator uses numbers produced by an engine to pass to a generator. The sentence that concerns me is: "Otherwise, if the value for engine_value_type::result_type is true and the value for Distribution::input_type is false [i.e. if the engine produces integers and the engine wants floating-point values], then the numbers in s_eng are divided by engine().max() - engine().min() + 1 to obtain the numbers in s_e." Since the engine is producing integers, both the numerator and the denominator are integers and we'll be doing integer division, which I don't think is what we want. Shouldn't we be performing a conversion to a floating-point type first?

Proposed resolution:

Rationale:

Recommend NAD as the affected section is now gone and so the issue is moot. N2111.


548. May random_device block?

Section: 26.5.6 [rand.device], TR1 5.1.6 [tr.rand.device] Status: NAD Submitter: Matt Austern Opened: 2006-01-10 Last modified: 2015-04-08

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Discussion:

Class random_device "produces non-deterministic random numbers", using some external source of entropy. In most real-world systems, the amount of available entropy is limited. Suppose that entropy has been exhausted. What is an implementation permitted to do? In particular, is it permitted to block indefinitely until more random bits are available, or is the implementation required to detect failure immediately? This is not an academic question. On Linux a straightforward implementation would read from /dev/random, and "When the entropy pool is empty, reads to /dev/random will block until additional environmental noise is gathered." Programmers need to know whether random_device is permitted to (or possibly even required to?) behave the same way.

[ Berlin: Walter: N1932 considers this NAD. Does the standard specify whether std::cin may block? ]

See N2391 and N2423 for some further discussion.

Proposed resolution:

Adopt the proposed resolution in N2423 (NAD).


549. Undefined variable in binomial_distribution

Section: 26.5.8 [rand.dist], TR1 5.1.7.5 [tr.rand.dist.bin] Status: NAD Editorial Submitter: Matt Austern Opened: 2006-01-10 Last modified: 2015-04-08

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Discussion:

Paragraph 1 says that "A binomial distributon random distribution produces integer values i>0 with p(i) = (n choose i) * p*i * (1-p)^(t-i), where t and p are the parameters of the distribution. OK, that tells us what t, p, and i are. What's n?

Proposed resolution:

Berlin: Typo: "n" replaced by "t" in N1932: see 26.3.7.2.2/1.

[ Portland: Subsumed by N2111. ]


553. very minor editorial change intptr_t / uintptr_t

Section: 18.4.1 [cstdint.syn], TR1 8.22.1 [tr.c99.cstdint.syn] Status: NAD Editorial Submitter: Paolo Carlini Opened: 2006-01-30 Last modified: 2015-04-08

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Discussion:

In the synopsis, some types are identified as optional: int8_t, int16_t, and so on, consistently with C99, indeed.

On the other hand, intptr_t and uintptr_t, are not marked as such and probably should, consistently with C99, 7.18.1.4.

Proposed resolution:

Change 18.4.1 [cstdint.syn]:

...
typedef signed integer type intptr_t;    // optional
...
typedef unsigned integer type uintptr_t;    // optional
...

Rationale:

Recommend NAD and fix as editorial with the proposed resolution.


554. Problem with lwg DR 184 numeric_limits<bool>

Section: 18.3.2.7 [numeric.special] Status: NAD Submitter: Howard Hinnant Opened: 2006-01-29 Last modified: 2015-04-08

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Discussion:

I believe we have a bug in the resolution of: lwg 184 (WP status).

The resolution spells out each member of numeric_limits<bool>. The part I'm having a little trouble with is:

static const bool traps = false;

Should this not be implementation defined? Given:

int main()
{
     bool b1 = true;
     bool b2 = false;
     bool b3 = b1/b2;
}

If this causes a trap, shouldn't numeric_limits<bool>::traps be true?

Proposed resolution:

Change 18.2.1.5p3:

-3- The specialization for bool shall be provided as follows:

namespace std { 
   template <> class numeric_limits<bool> {
      ...
      static const bool traps = false implementation-defined;
      ...
   };
}

[ Redmond: NAD because traps refers to values, not operations. There is no bool value that will trap. ]


555. TR1, 8.21/1: typo

Section: TR1 8.21 [tr.c99.boolh] Status: NAD Editorial Submitter: Paolo Carlini Opened: 2006-02-02 Last modified: 2015-04-08

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Discussion:

This one, if nobody noticed it yet, seems really editorial: s/cstbool/cstdbool/

Proposed resolution:

Change 8.21p1:

-1- The header behaves as if it defines the additional macro defined in <cstdbool> by including the header <cstdbool>.

[ Redmond: Editorial. ]


557. TR1: div(_Longlong, _Longlong) vs div(intmax_t, intmax_t)

Section: 18.4 [cstdint], TR1 8.22 [tr.c99.cstdint] Status: NAD Editorial Submitter: Paolo Carlini Opened: 2006-02-06 Last modified: 2015-04-08

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Discussion:

I'm seeing a problem with such overloads: when, _Longlong == intmax_t == long long we end up, essentially, with the same arguments and different return types (lldiv_t and imaxdiv_t, respectively). Similar issue with abs(_Longlong) and abs(intmax_t), of course.

Comparing sections 8.25 and 8.11, I see an important difference, however: 8.25.3 and 8.25.4 carefully describe div and abs for _Longlong types (rightfully, because not moved over directly from C99), whereas there is no equivalent in 8.11: the abs and div overloads for intmax_t types appear only in the synopsis and are not described anywhere, in particular no mention in 8.11.2 (at variance with 8.25.2).

I'm wondering whether we really, really, want div and abs for intmax_t...

Proposed resolution:

[ Portland: no consensus. ]

Rationale:

[ Batavia, Bill: The <cstdint> synopsis in TR1 8.11.1 [tr.c99.cinttypes.syn] contains: ]

intmax_t imaxabs(intmax_t i);
intmax_t abs(intmax_t i);

imaxdiv_t imaxdiv(intmax_t numer, intmax_t denom);
imaxdiv_t div(intmax_t numer, intmax_t denom);

[ and in TR1 8.11.2 [tr.c99.cinttypes.def]: ]

The header defines all functions, types, and macros the same as C99 subclause 7.8.

[ This is as much definition as we give for most other C99 functions, so nothing need change. We might, however, choose to add the footnote: ]

[Note: These overloads for abs and div may well be equivalent to those that take long long arguments. If so, the implementation is responsible for avoiding conflicting declarations. -- end note]

[ Bellevue: NAD Editorial. Pete must add a footnote, as described below. ]

[ Looks like a real problem. Dietmar suggests div() return a template type. Matt: looks like imaxdiv_t is loosly defined. Can it be a typedef for lldiv_t when _Longlong == intmax_t? PJP seems to agree. We would need a non-normative note declaring that the types lldiv_t and imaxdiv_t may not be unique if intmax_t==_longlong. ]


558. lib.input.iterators Defect

Section: 24.2.3 [input.iterators] Status: NAD Editorial Submitter: David Abrahams Opened: 2006-02-09 Last modified: 2015-04-08

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Discussion:

24.1.1 Input iterators [lib.input.iterators]

1 A class or a built-in type X satisfies the requirements of an input iterator for the value type T if the following expressions are valid, where U is the type of any specified member of type T, as shown in Table 73.

There is no capital U used in table 73. There is a lowercase u, but that is clearly not meant to denote a member of type T. Also, there's no description in 24.1.1 of what lowercase a means. IMO the above should have been...Hah, a and b are already covered in 24.1/11, so maybe it should have just been:

Proposed resolution:

Change 24.1.1p1:

-1- A class or a built-in type X satisfies the requirements of an input iterator for the value type T if the following expressions are valid, where U is the type of any specified member of type T, as shown in Table 73.

[ Portland: Editorial. ]


560. User-defined allocators without default constructor

Section: 17.6.3.5 [allocator.requirements] Status: NAD Submitter: Sergey P. Derevyago Opened: 2006-02-17 Last modified: 2015-04-08

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Discussion:

1. The essence of the problem.

User-defined allocators without default constructor are not explicitly supported by the standard but they can be supported just like std::vector supports elements without default constructor.

As a result, there exist implementations that work well with such allocators and implementations that don't.

2. The cause of the problem.

1) The standard doesn't explicitly state this intent but it should. In particular, 20.1.5p5 explicitly state the intent w.r.t. the allocator instances that compare non-equal. So it can similarly state the intent w.r.t. the user-defined allocators without default constructor.

2) Some container operations are obviously underspecified. In particular, 21.3.7.1p2 tells:

template<class charT, class traits, class Allocator>
  basic_string<charT,traits,Allocator> operator+(
    const charT* lhs,
    const basic_string<charT,traits,Allocator>& rhs
  );

Returns: basic_string<charT,traits,Allocator>(lhs) + rhs.

That leads to the basic_string<charT,traits,Allocator>(lhs, Allocator()) call. Obviously, the right requirement is:

Returns: basic_string<charT,traits,Allocator>(lhs, rhs.get_allocator()) + rhs.

It seems like a lot of DRs can be submitted on this "Absent call to get_allocator()" topic.

3. Proposed actions.

1) Explicitly state the intent to allow for user-defined allocators without default constructor in 20.1.5 Allocator requirements.

2) Correct all the places, where a correct allocator object is available through the get_allocator() call but default Allocator() gets passed instead.

4. Code sample.

Let's suppose that the following memory pool is available:

class mem_pool {
      // ...
      void* allocate(size_t size);
      void deallocate(void* ptr, size_t size);
};

So the following allocator can be implemented via this pool:

class stl_allocator {
      mem_pool& pool;

 public:
      explicit stl_allocator(mem_pool& mp) : pool(mp) {}
      stl_allocator(const stl_allocator& sa) : pool(sa.pool) {}
      template <class U>
      stl_allocator(const stl_allocator<U>& sa)  : pool(sa.get_pool()) {}
      ~stl_allocator() {}

      pointer allocate(size_type n, std::allocator<void>::const_pointer = 0)
      {
       return (n!=0) ? static_cast<pointer>(pool.allocate(n*sizeof(T))) : 0;
      }

      void deallocate(pointer p, size_type n)
      {
       if (n!=0) pool.deallocate(p, n*sizeof(T));
      }

      // ...
};

Then the following code works well on some implementations and doesn't work on another:

typedef basic_string<char, char_traits<char>, stl_allocator<char> > 
  tl_string;
mem_pool mp;
tl_string s1("abc", stl_allocator<int>(mp));
printf("(%s)\n", ("def"+s1).c_str());

In particular, on some implementations the code can't be compiled without default stl_allocator() constructor.

The obvious way to solve the compile-time problems is to intentionally define a NULL pointer dereferencing default constructor

stl_allocator() : pool(*static_cast<mem_pool*>(0)) {}

in a hope that it will not be called. The problem is that it really gets called by operator+(const char*, const string&) under the current 21.3.7.1p2 wording.

Proposed resolution:

Rationale:

Recommend NAD. operator+() with string already requires the desired semantics of copying the allocator from one of the strings (lhs when there is a choice).


568. log2 overloads missing

Section: TR1 8.16.4 [tr.c99.cmath.over] Status: NAD Submitter: Paolo Carlini Opened: 2006-03-07 Last modified: 2015-04-08

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Discussion:

log2 is missing from the list of "additional overloads" in TR1 8.16.4 [tr.c99.cmath.over] p1.

Hinnant: This is a TR1 issue only. It is fixed in the current (N2135) WD.

[ Batavia (2009-05): ]

We agree this has been fixed in the Working Draft. Move to NAD.

Proposed resolution:

Add log2 to the list of functions in TR1 8.16.4 [tr.c99.cmath.over] p1.


569. Postcondition for basic_ios::clear(iostate) incorrectly stated

Section: 27.5.5.4 [iostate.flags] Status: Dup Submitter: Seungbeom Kim Opened: 2006-03-10 Last modified: 2015-04-08

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Duplicate of: 272

Discussion:

Section: 27.4.4.3 [lib.iostate.flags]

Paragraph 4 says:

void clear(iostate state = goodbit);

Postcondition: If rdbuf()!=0 then state == rdstate(); otherwise rdstate()==state|ios_base::badbit.

The postcondition "rdstate()==state|ios_base::badbit" is parsed as "(rdstate()==state)|ios_base::badbit", which is probably what the committee meant.

Rationale:


570. Request adding additional explicit specializations of char_traits

Section: 21.2 [char.traits] Status: NAD Submitter: Jack Reeves Opened: 2006-04-06 Last modified: 2015-04-08

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Discussion:

Currently, the Standard Library specifies only a declaration for template class char_traits<> and requires the implementation provide two explicit specializations: char_traits<char> and char_traits<wchar_t>. I feel the Standard should require explicit specializations for all built-in character types, i.e. char, wchar_t, unsigned char, and signed char.

I have put together a paper (N1985) that describes this in more detail and includes all the necessary wording.

[ Portland: Jack will rewrite N1985 to propose a primary template that will work with other integral types. ]

[ Toronto: issue has grown with addition of char16_t and char32_t. ]

[ post Bellevue: ]

We suggest that Jack be asked about the status of his paper, and if it is not forthcoming, the work-item be assigned to someone else. If no one steps forward to do the paper before the next meeting, we propose to make this NAD without further discussion. We leave this Open for now, but our recommendation is NAD.

Note: the issue statement should be updated, as the Toronto comment has already been resolved. E.g., char_traits specializations for char16_t and char32_t are now in the working paper.

[ Sophia Antipolis: ]

Nobody has submitted the requested paper, so we move to NAD, as suggested by the decision at the last meeting.

Proposed resolution:


571. Update C90 references to C99?

Section: 1.2 [intro.refs] Status: NAD Editorial Submitter: Beman Dawes Opened: 2006-04-08 Last modified: 2015-04-08

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Discussion:

1.2 Normative references [intro.refs] of the WP currently refers to ISO/IEC 9899:1990, Programming languages - C. Should that be changed to ISO/IEC 9899:1999?

What impact does this have on the library?

Proposed resolution:

In 1.2/1 [intro.refs] of the WP, change:

Rationale:

Recommend NAD, fixed editorially.


572. Oops, we gave 507 WP status

Section: 26.5 [rand], TR1 5.1 [tr.rand] Status: NAD Submitter: Howard Hinnant Opened: 2006-04-11 Last modified: 2015-04-08

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Discussion:

In Berlin, as a working group, we voted in favor of N1932 which makes issue 507 moot: variate_generator has been eliminated. Then in full committee we voted to give this issue WP status (mistakenly).

Proposed resolution:

Strike the proposed resolution of issue 507.

[ post-Portland: Walter and Howard recommend NAD. The proposed resolution of 507 no longer exists in the current WD. ]

Rationale:

NAD. Will be moot once N2135 is adopted.


573. C++0x file positioning should handle modern file sizes

Section: 27.5.4 [fpos] Status: NAD Submitter: Beman Dawes Opened: 2006-04-12 Last modified: 2015-04-08

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Discussion:

There are two deficiencies related to file sizes:

  1. It doesn't appear that the Standard Library is specified in a way that handles modern file sizes, which are often too large to be represented by an unsigned long.
  2. The std::fpos class does not currently have the ability to set/get file positions.

The Dinkumware implementation of the Standard Library as shipped with the Microsoft compiler copes with these issues by:

  1. Defining fpos_t be long long, which is large enough to represent any file position likely in the foreseeable future.
  2. Adding member functions to class fpos. For example,
    fpos_t seekpos() const;
    

Because there are so many types relating to file positions and offsets (fpos_t, fpos, pos_type, off_type, streamoff, streamsize, streampos, wstreampos, and perhaps more), it is difficult to know if the Dinkumware extensions are sufficient. But they seem a useful starting place for discussions, and they do represent existing practice.

[ Kona (2007): We need a paper. It would be nice if someone proposed clarifications to the definitions of pos_type and off_type. Currently these definitions are horrible. Proposed Disposition: Open ]

[ 2009-07 Frankfurt ]

This is the subject of paper N2926.

If we choose to take any action, we will move the paper, so the issue can be closed.

Move to NAD.

Proposed resolution:


579. erase(iterator) for unordered containers should not return an iterator

Section: 23.2.5 [unord.req] Status: NAD Submitter: Joaquín M López Muñoz Opened: 2006-06-13 Last modified: 2015-04-08

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Discussion:

Addresses ES-2

See N2023 for full discussion.

[ 2009-12-11 Paolo opens: ]

I'm asking for DR 579 to be re-opened, basing on recent discussions on the library reflector, see Message c++std-lib-26040 and replies.

[ 2010-02-07 Paolo updates wording. ]

As pointed out by Chris in c++std-lib-26040, that an erase(unordered_container, iterator) returning an iterator can easily implemented in user code, if needed; that actually returning an iterator costs nothing for the overload taking two iterators, thus that proposed change is only for consistency; that forward_list::erase_after also returns void (for different reasons, granted, but isn't that any "erase" function in the containers uniformly returns an iterator); that, also in thread started by Chris' message, Alberto pointed out that the proxy idea isn't a good one; that users both of the GNU and Boost implementations are reporting serious performance problems with the current version returning an iterator.

[ 2010-02-07 Original wording saved here: ]

Option 1:

The problem can be eliminated by omitting the requirement that a.erase(q) return an iterator. This is, however, in contrast with the equivalent requirements for other standard containers.

Option 2:

a.erase(q) can be made to compute the next iterator only when explicitly requested: the technique consists in returning a proxy object implicitly convertible to iterator, so that

iterator q1=a.erase(q);

works as expected, while

a.erase(q);

does not ever invoke the conversion-to-iterator operator, thus avoiding the associated computation. To allow this technique, some sections of TR1 along the line "return value is an iterator..." should be changed to "return value is an unspecified object implicitly convertible to an iterator..." Although this trick is expected to work transparently, it can have some collateral effects when the expression a.erase(q) is used inside generic code.

[ 2010-03-27 Joaquín adds: ]

Signature of iterator erase(const_iterator) should be changed to void erase(const_iterator). If this is not viable an acceptable tradeoff could be to make the return type of erase(const_iterator) implementation defined.

The standard should allow implementations of unordered associative containers using either singly or doubly linked lists. N2023 proves that singly-linked lists implementations cannot provide the required complexity for iterator erase(const_iterator). Thus, some action is needed to allow both implementations.

Option 1: Changing the required complexity from O(1) to O(log n). This option merely masks a design flaw. Users are forcefully penalized for what they don't use (the returned iterator). Besides, they would have to learn about the pathological (yet very real) situations where using erase can lead to quadratic performance. Two out of these three objections remain even if some alternative member function like void quick_erase(const_iterator) is thrown in to the interface.

Some objections have been expressed to changing return type of erase to void, arguing that it would break current existing practice with standard library implementations based on doubly-linked lists, where the problem does not occur. However implementations based on drafts should not block the resolution of a serious design issue, more so when the issue will hurt future users of C++, as it's happening already.

Option 2: Make erase return type implementation defined. There's a possible tradeoff with the objectors above consisting in changing the signature to implementation defined erase(iterator), so that returning an iterator is indeed a valid extension. To this it can be argued that this would make implementantions returning an iterator look as somehow promoting proprietary extensions: this in my opinion is not a valid argument since those implementations are already extending the required interface by providing bidirectional iterators (just forward iterators are required).

[ 2010 Rapperswil: ]

The issue was lengthy discussed and implementation experience was demonstrated that a non-void return type is implementable for both single-linked and double-linked lists without loss of efficiency.

By a 12-1-1-0 poll voted to keep the return type of erase as iterator instead of void and a second 0-0-3-10 poll rejected the additional proposal to add a quick_erase returning void, thus LWG decided for NAD.

Rationale:

No consensus for a change.

Proposed resolution:


580. unused allocator members

Section: 23.2.1 [container.requirements.general] Status: NAD Editorial Submitter: Martin Sebor Opened: 2006-06-14 Last modified: 2015-04-08

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Duplicate of: 479

Discussion:

C++ Standard Library templates that take an allocator as an argument are required to call the allocate() and deallocate() members of the allocator object to obtain storage. However, they do not appear to be required to call any other allocator members such as construct(), destroy(), address(), and max_size(). This makes these allocator members less than useful in portable programs.

It's unclear to me whether the absence of the requirement to use these allocator members is an unintentional omission or a deliberate choice. However, since the functions exist in the standard allocator and since they are required to be provided by any user-defined allocator I believe the standard ought to be clarified to explictly specify whether programs should or should not be able to rely on standard containers calling the functions.

I propose that all containers be required to make use of these functions.

[ Batavia: We support this resolution. Martin to provide wording. ]

[ pre-Oxford: Martin provided wording. ]

[ 2009-04-28 Pablo adds: ]

N2554 (scoped allocators), N2768 (allocator concepts), and N2810 (allocator defects), address all of these points EXCEPT max_size(). So, I would add a note to that affect and re-class the defect as belonging to section 23.2.1 [container.requirements.general].

[ 2009-07 Frankfurt ]

The comment in the description of this issue that this "would be" rendered editorial by the adoption of N2257 is confusing. It appears that N2257 was never adopted.

[ 2009-10 Santa Cruz: ]

NAD Editorial. Addressed by N2982.

Proposed resolution:

Specifically, I propose to change 23.2 [container.requirements], p9 as follows:

-9- Copy constructors for all container types defined in this clause that are parametrized on Allocator copy anthe allocator argument from their respective first parameters. All other constructors for these container types take an const Allocator& argument (20.1.6), an allocator whose value_type is the same as the container's value_type. A copy of this argument isshall be used for any memory allocation and deallocation performed, by these constructors and by all member functions, during the lifetime of each container object. Allocation shall be performed "as if" by calling the allocate() member function on a copy of the allocator object of the appropriate type New Footnote), and deallocation "as if" by calling deallocate() on a copy of the same allocator object of the corresponding type. A copy of this argument shall also be used to construct and destroy objects whose lifetime is managed by the container, including but not limited to those of the container's value_type, and to obtain their address. All objects residing in storage allocated by a container's allocator shall be constructed "as if" by calling the construct() member function on a copy of the allocator object of the appropriate type. The same objects shall be destroyed "as if" by calling destroy() on a copy of the same allocator object of the same type. The address of such objects shall be obtained "as if" by calling the address() member function on a copy of the allocator object of the appropriate type. Finally, a copy of this argument shall be used by its container object to determine the maximum number of objects of the container's value_type the container may store at the same time. The container member function max_size() obtains this number from the value returned by a call to get_allocator().max_size(). In all container types defined in this clause that are parametrized on Allocator, the member get_allocator() returns a copy of the Allocator object used to construct the container.258)

New Footnote: This type may be different from Allocator: it may be derived from Allocator via Allocator::rebind<U>::other for the appropriate type U.

The proposed wording seems cumbersome but I couldn't think of a better way to describe the requirement that containers use their Allocator to manage only objects (regardless of their type) that persist over their lifetimes and not, for example, temporaries created on the stack. That is, containers shouldn't be required to call Allocator::construct(Allocator::allocate(1), elem) just to construct a temporary copy of an element, or Allocator::destroy(Allocator::address(temp), 1) to destroy temporaries.

[ Howard: This same paragraph will need some work to accommodate 431. ]

[ post Oxford: This would be rendered NAD Editorial by acceptance of N2257. ]


582. specialized algorithms and volatile storage

Section: 20.7.12.2 [uninitialized.copy] Status: NAD Submitter: Martin Sebor Opened: 2006-06-14 Last modified: 2015-04-08

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Discussion:

Related to 1029

The specialized algorithms [lib.specialized.algorithms] are specified as having the general effect of invoking the following expression:


new (static_cast<void*>(&*i))
    typename iterator_traits<ForwardIterator>::value_type (x)

            

This expression is ill-formed when the type of the subexpression &*i is some volatile-qualified T.

[ Batavia: Lack of support for proposed resolution but agree there is a defect. Howard to look at wording. Concern that move semantics properly expressed if iterator returns rvalue. ]

[ 2009-06-17 Pablo adds: ]

Propose that Issue 582 be closed NAD.

Issue 582 asks that uninitialized_copy, uninitialized_fill, and uninitialized_fill_n should be well-formed if the result type is volatile. My feeling is that the standard does not, and should not, guarantee any useful behavior when constructors are invoked on volatile storage, so making it syntactically legal to call uninitialized_copy on volatile storage is not useful. A possible editorial change would be to put my previous sentence into a non-normative note.

Note that the three sections starting with 20.7.12.2 [uninitialized.copy] do not yet have concepts. Here's a first crack at the first one:

template <InputIterator InIter, OutputIterator OutIter>
requires ExplicitConvertible<HasDereference<OutIter::reference>::result,
                             OutIter::value_type&>
      && Convertible<OutIter::value_type*, void*>
      && ExplicitConvertible<OutIter::value_type, InIter::reference>
  OutIter uninitialized_copy(InIter first, InIter last, OutIter result);

Effects:

while (first != last) {
  typedef OutIter::value_type value_type;
  value_type& outRef = static_cast<value_type&>(*result++);
  ::new (static_cast<void*>(addressof(outRef))) value_type(*first++);
}

Notes:

  1. This definition is actually LESS constrained than in C++03 because there is no requirement that the result be a forward iterator.
  2. If OutIter returns a proxy type with an overloaded operator&, this definition probably won't compile. Lifting this limitation while allowing value_type to have an overloaded operator& would be hard, but is probably possible with careful overloading. I'm not sure it's worth it.
  3. This definition retains the prohibition on the use of volatile types for the result.

[ 2009-07 Frankfurt ]

We don't deal with volatile in the library.

Jim: should we state that explicitly somewhere?

Beman: you might argue that clause 17 should say something about volatile. However, if you want to raise we argument, we should open it as a separate issue and consult with experts on concurrency.

Hinnant: actually, some library components do handle volatile, so we'd need to be very careful about what we say in clause 17.

No objection to NAD.

Move to NAD.

Proposed resolution:

In order to allow these algorithms to operate on volatile storage I propose to change the expression so as to make it well-formed even for pointers to volatile types. Specifically, I propose the following changes to clauses 20 and 24. Change 20.6.4.1, p1 to read:


Effects:

typedef typename iterator_traits<ForwardIterator>::pointer    pointer;
typedef typename iterator_traits<ForwardIterator>::value_type value_type;

for (; first != last; ++result, ++first)
    new (static_cast<void*>(const_cast<pointer>(&*result))
        value_type (*first);

            

change 20.6.4.2, p1 to read


Effects:

typedef typename iterator_traits<ForwardIterator>::pointer    pointer;
typedef typename iterator_traits<ForwardIterator>::value_type value_type;

for (; first != last; ++result, ++first)
    new (static_cast<void*>(const_cast<pointer>(&*first))
        value_type (*x);

            

and change 20.6.4.3, p1 to read


Effects:

typedef typename iterator_traits<ForwardIterator>::pointer    pointer;
typedef typename iterator_traits<ForwardIterator>::value_type value_type;

for (; n--; ++first)
    new (static_cast<void*>(const_cast<pointer>(&*first))
        value_type (*x);

            

In addition, since there is no partial specialization for iterator_traits<volatile T*> I propose to add one to parallel such specialization for <const T*>. Specifically, I propose to add the following text to the end of 24.3.1, p3:

and for pointers to volatile as


namespace std {
template<class T> struct iterator_traits<volatile T*> {
typedef ptrdiff_t difference_type;
typedef T value_type;
typedef volatile T* pointer;
typedef volatile T& reference;
typedef random_access_iterator_tag iterator_category;
};
}

            

Note that the change to iterator_traits isn't necessary in order to implement the specialized algorithms in a way that allows them to operate on volatile strorage. It is only necesassary in order to specify their effects in terms of iterator_traits as is done here. Implementations can (and some do) achieve the same effect by means of function template overloading.


583. div() for unsigned integral types

Section: 26.8 [c.math] Status: NAD Submitter: Beman Dawes Opened: 2006-06-15 Last modified: 2015-04-08

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Discussion:

There is no div() function for unsigned integer types.

There are several possible resolutions. The simplest one is noted below. Other possibilities include a templated solution.

Proposed resolution:

Add to 26.7 [lib.c.math] paragraph 8:

struct udiv_t div(unsigned, unsigned);
struct uldiv_t div(unsigned long, unsigned long);
struct ulldiv_t div(unsigned long long, unsigned long long);

Rationale:

Toronto: C99 does not have these unsigned versions because the signed version exist just to define the implementation-defined behavior of signed integer division. Unsigned integer division has no implementation-defined behavior and thus does not need this treatment.


584. missing int pow(int,int) functionality

Section: 26.8 [c.math] Status: NAD Submitter: Beman Dawes Opened: 2006-06-15 Last modified: 2015-04-08

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Discussion:

There is no pow() function for any integral type.

Proposed resolution:

Add something like:

template< typename T>
T power( T x, int n );
// requires: n >=0

Rationale:

Toronto: We already have double pow(integral, integral) from 26.8 [c.math] p11.


585. facet error reporting

Section: 22.4 [locale.categories] Status: NAD Submitter: Martin Sebor, Paolo Carlini Opened: 2006-06-22 Last modified: 2015-04-08

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Discussion:

Section 22.2, paragraph 2 requires facet get() members that take an ios_base::iostate& argument, err, to ignore the (initial) value of the argument, but to set it to ios_base::failbit in case of a parse error.

We believe there are a few minor problems with this blanket requirement in conjunction with the wording specific to each get() member function.

First, besides get() there are other member functions with a slightly different name (for example, get_date()). It's not completely clear that the intent of the paragraph is to include those as well, and at least one implementation has interpreted the requirement literally.

Second, the requirement to "set the argument to ios_base::failbit suggests that the functions are not permitted to set it to any other value (such as ios_base::eofbit, or even ios_base::eofbit | ios_base::failbit).

However, 22.2.2.1.2, p5 (Stage 3 of num_get parsing) and p6 (bool parsing) specifies that the do_get functions perform err |= ios_base::eofbit, which contradicts the earlier requirement to ignore err's initial value.

22.2.6.1.2, p1 (the Effects clause of the money_get facet's do_get member functions) also specifies that err's initial value be used to compute the final value by ORing it with either ios_base::failbit or withios_base::eofbit | ios_base::failbit.

[ 2009-07 Frankfurt ]

Move to NAD.

Proposed resolution:

We believe the intent is for all facet member functions that take an ios_base::iostate& argument to:

To that effect we propose to change 22.2, p2 as follows:

The put() members make no provision for error reporting. (Any failures of the OutputIterator argument must be extracted from the returned iterator.) Unless otherwise specified, the get() members that take an ios_base::iostate& argument whose value they ignore, but set to ios_base::failbit in case of a parse error., err, start by evaluating err = ios_base::goodbit, and may subsequently set err to either ios_base::eofbit, or ios_base::failbit, or ios_base::eofbit | ios_base::failbit in response to reaching the end-of-file or in case of a parse error, or both, respectively.

[ Kona (2007): We need to change the proposed wording to clarify that the phrase "the get members" actually denotes get(), get_date(), etc. Proposed Disposition: Open ]


587. iststream ctor missing description

Section: D.7.2.1 [depr.istrstream.cons] Status: NAD Editorial Submitter: Martin Sebor Opened: 2006-06-22 Last modified: 2015-04-08

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Discussion:

The iststream(char*, streamsize) ctor is in the class synopsis in D.7.2 but its signature is missing in the description below (in D.7.2.1).

Proposed resolution:

This seems like a simple editorial issue and the missing signature can be added to the one for const char* in paragraph 2.

[ post Oxford: Noted that it is already fixed in N2284 ]


588. requirements on zero sized tr1::arrays and other details

Section: 23.3.2 [array] Status: NAD Submitter: Gennaro Prota Opened: 2006-07-18 Last modified: 2015-04-08

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Discussion:

The wording used for section 23.2.1 [lib.array] seems to be subtly ambiguous about zero sized arrays (N==0). Specifically:

* "An instance of array<T, N> stores N elements of type T, so that [...]"

Does this imply that a zero sized array object stores 0 elements, i.e. that it cannot store any element of type T? The next point clarifies the rationale behind this question, basically how to implement begin() and end():

* 23.2.1.5 [lib.array.zero], p2: "In the case that N == 0, begin() == end() == unique value."

What does "unique" mean in this context? Let's consider the following possible implementations, all relying on a partial specialization:

a)
    template< typename T >
    class array< T, 0 > {
    
        ....

        iterator begin()
        { return iterator( reinterpret_cast< T * >( this ) ); }
        ....

    };

This has been used in boost, probably intending that the return value had to be unique to the specific array object and that array couldn't store any T. Note that, besides relying on a reinterpret_cast, has (more than potential) alignment problems.

b)
    template< typename T >
    class array< T, 0 > {
    
        T t;

        iterator begin()
        { return iterator( &t ); }
        ....

    };

This provides a value which is unique to the object and to the type of the array, but requires storing a T. Also, it would allow the user to mistakenly provide an initializer list with one element.

A slight variant could be returning *the* null pointer of type T

    return static_cast<T*>(0);

In this case the value would be unique to the type array<T, 0> but not to the objects (all objects of type array<T, 0> with the same value for T would yield the same pointer value).

Furthermore this is inconsistent with what the standard requires from allocation functions (see library issue 9).

c) same as above but with t being a static data member; again, the value would be unique to the type, not to the object.

d) to avoid storing a T *directly* while disallowing the possibility to use a one-element initializer list a non-aggregate nested class could be defined

    struct holder { holder() {} T t; } h;

and then begin be defined as

 iterator begin() { return &h.t; }

But then, it's arguable whether the array stores a T or not. Indirectly it does.

-----------------------------------------------------

Now, on different issues:

* what's the effect of calling assign(T&) on a zero-sized array? There seems to be only mention of front() and back(), in 23.2.1 [lib.array] p4 (I would also suggest to move that bullet to section 23.2.1.5 [lib.array.zero], for locality of reference)

* (minor) the opening paragraph of 23.2.1 [lib.array] wording is a bit inconsistent with that of other sequences: that's not a problem in itself, but compare it for instance with "A vector is a kind of sequence that supports random access iterators"; though the intent is obvious one might argue that the wording used for arrays doesn't tell what an array is, and relies on the reader to infer that it is what the <array> header defines.

* it would be desiderable to have a static const data member of type std::size_t, with value N, for usage as integral constant expression

* section 23.1 [lib.container.requirements] seem not to consider fixed-size containers at all, as it says: "[containers] control allocation and deallocation of these objects [the contained objects] through constructors, destructors, *insert and erase* operations"

* max_size() isn't specified: the result is obvious but, technically, it relies on table 80: "size() of the largest possible container" which, again, doesn't seem to consider fixed size containers

[ 2009-05-29 Daniel adds: ]

  1. star bullet 1 ("what's the effect of calling assign(T&) on a zero-sized array?[..]");

    assign has been renamed to fill and the semantic of fill is now defined in terms of the free algorithm fill_n, which is well-defined for this situation.

  2. star bullet 3 ("it would be desiderable to have a static const data member..."):

    It seems that tuple_size<array<T, N> >::value as of 23.3.2.9 [array.tuple] does provide this functionality now.

[ 2009-07 Frankfurt ]

Alisdair to address by the next meeting, or declare NAD.

Moved to Tentatively NAD.

[ 2009 Santa Cruz: ]

Moved to NAD.

Proposed resolution:

[ Kona (2007): requirements on zero sized tr1::arrays and other details Issue 617: std::array is a sequence that doesn't satisfy the sequence requirements? Alisdair will prepare a paper. Proposed Disposition: Open ]


590. Type traits implementation latitude should be removed for C++0x

Section: 20.10 [meta], TR1 4.9 [tr.meta.req] Status: NAD Editorial Submitter: Beman Dawes Opened: 2006-08-10 Last modified: 2015-04-08

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Discussion:

20.4.9 [lib.meta.req], Implementation requirements, provides latitude for type traits implementers that is not needed in C++0x. It includes the wording:

[Note: the latitude granted to implementers in this clause is temporary, and is expected to be removed in future revisions of this document. -- end note]

Note: N2157: Minor Modifications to the type traits Wording also has the intent of removing this wording from the WP.

Proposed resolution:

Remove 20.4.9 [lib.meta.req] in its entirety from the WP.

[ post-Oxford: Recommend NAD Editorial. This resolution is now in the current working draft. ]


591. Misleading "built-in

Section: 18.3.2.4 [numeric.limits.members] Status: NAD Editorial Submitter: whyglinux Opened: 2006-08-08 Last modified: 2015-04-08

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Discussion:

18.2.1.2 numeric_limits members [lib.numeric.limits.members] Paragraph 7:

"For built-in integer types, the number of non-sign bits in the representation."

26.1 Numeric type requirements [lib.numeric.requirements] Footnote:

"In other words, value types. These include built-in arithmetic types, pointers, the library class complex, and instantiations of valarray for value types."

Integer types (which are bool, char, wchar_t, and the signed and unsigned integer types) and arithmetic types (which are integer and floating types) are all built-in types and thus there are no non-built-in (that is, user-defined) integer or arithmetic types. Since the redundant "built-in" in the above 2 sentences can mislead that there may be built-in or user-defined integer and arithmetic types (which is not correct), the "built-in" should be removed.

Proposed resolution:

18.2.1.2 numeric_limits members [lib.numeric.limits.members] Paragraph 7:

"For built-in integer types, the number of non-sign bits in the representation."

26.1 Numeric type requirements [lib.numeric.requirements] Footnote:

"In other words, value types. These include built-in arithmetic types, pointers, the library class complex, and instantiations of valarray for value types."

Rationale:

Recommend NAD / Editorial. The proposed resolution is accepted as editorial.


592. Incorrect treatment of rdbuf()->close() return type

Section: 27.9.1.9 [ifstream.members] Status: NAD Editorial Submitter: Christopher Kohlhoff Opened: 2006-08-17 Last modified: 2015-04-08

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Discussion:

I just spotted a minor problem in 27.8.1.7 [lib.ifstream.members] para 4 and also 27.8.1.13 [lib.fstream.members] para 4. In both places it says:

void close();

Effects: Calls rdbuf()->close() and, if that function returns false, ...

However, basic_filebuf::close() (27.8.1.2) returns a pointer to the filebuf on success, null on failure, so I think it is meant to say "if that function returns a null pointer". Oddly, it is correct for basic_ofstream.

Proposed resolution:

Change 27.9.1.9 [ifstream.members], p5:

Effects: Calls rdbuf()->close() and, if that function fails (returns false a null pointer), calls setstate(failbit) (which may throw ios_base::failure (27.4.4.3)).

Change 27.9.1.17 [fstream.members], p5:

Effects: Calls rdbuf()->close() and, if that function fails (returns false a null pointer), calls setstate(failbit) (which may throw ios_base::failure (27.4.4.3)).

[ Kona (2007): Proposed Disposition: NAD, Editorial ]


597. Decimal: The notion of 'promotion' cannot be emulated by user-defined types.

Section: TRDecimal 3.2 [trdec.types.types] Status: NAD Submitter: Daveed Vandevoorde Opened: 2006-04-05 Last modified: 2015-04-08

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Discussion:

In a private email, Daveed writes:

I am not familiar with the C TR, but my guess is that the class type approach still won't match a built-in type approach because the notion of "promotion" cannot be emulated by user-defined types.

Here is an example:


         struct S {
           S(_Decimal32 const&);  // Converting constructor
         };
         void f(S);

         void f(_Decimal64);

         void g(_Decimal32 d) {
           f(d);
         }

If _Decimal32 is a built-in type, the call f(d) will likely resolve to f(_Decimal64) because that requires only a promotion, whereas f(S) requires a user-defined conversion.

If _Decimal32 is a class type, I think the call f(d) will be ambiguous because both the conversion to _Decimal64 and the conversion to S will be user-defined conversions with neither better than the other.

Robert comments:

In general, a library of arithmetic types cannot exactly emulate the behavior of the intrinsic numeric types. There are several ways to tell whether an implementation of the decimal types uses compiler intrinisics or a library. For example:

                 _Decimal32 d1;
                 d1.operator+=(5);  // If d1 is a builtin type, this won't compile.

In preparing the decimal TR, we have three options:

  1. require that the decimal types be class types
  2. require that the decimal types be builtin types, like float and double
  3. specify a library of class types, but allow enough implementor latitude that a conforming implementation could instead provide builtin types

We decided as a group to pursue option #3, but that approach implies that implementations may not agree on the semantics of certain use cases (first example, above), or on whether certain other cases are well-formed (second example). Another potentially important problem is that, under the present definition of POD, the decimal classes are not POD types, but builtins will be.

Note that neither example above implies any problems with respect to C-to-C++ compatibility, since neither example can be expressed in C.

[ 2009-07 Frankfurt ]

Decimal numeric types may either be builtin types or library types. We only intend to specify the common subset of behaviors of the two implementation approaches. The front matter of the Decimal TR says this explicitly.

Move to NAD.

Proposed resolution:


606. Decimal: allow narrowing conversions

Section: TRDecimal 3.2 [trdec.types.types] Status: NAD Submitter: Martin Sebor Opened: 2006-06-15 Last modified: 2015-04-08

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Discussion:

In c++std-lib-17205, Martin writes:

...was it a deliberate design choice to make narrowing assignments ill-formed while permitting narrowing compound assignments? For instance:

      decimal32 d32;
      decimal64 d64;

      d32 = 64;     // error
      d32 += 64;    // okay

In c++std-lib-17229, Robert responds:

It is a vestige of an old idea that I forgot to remove from the paper. Narrowing assignments should be permitted. The bug is that the converting constructors that cause narrowing should not be explicit. Thanks for pointing this out.

[ 2009-07 Frankfurt ]

The current state of the Decimal TR is the result of a deliberate design decision that has been examined many times.

Move to NAD.

Proposed resolution:

1. In "3.2.2 Class decimal32" synopsis, remove the explicit specifier from the narrowing conversions:

                // 3.2.2.2 conversion from floating-point type:
                explicit decimal32(decimal64 d64);
                explicit decimal32(decimal128 d128);

2. Do the same thing in "3.2.2.2. Conversion from floating-point type."

3. In "3.2.3 Class decimal64" synopsis, remove the explicit specifier from the narrowing conversion:

                // 3.2.3.2 conversion from floating-point type:
                explicit decimal64(decimal128 d128);

4. Do the same thing in "3.2.3.2. Conversion from floating-point type."

[ Redmond: We prefer explicit conversions for narrowing and implicit for widening. ]


614. std::string allocator requirements still inconsistent

Section: 21.4 [basic.string] Status: NAD Submitter: Bo Persson Opened: 2006-12-05 Last modified: 2015-04-08

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Discussion:

This is based on N2134, where 21.3.1/2 states: "... The Allocator object used shall be a copy of the Allocator object passed to the basic_string object's constructor or, if the constructor does not take an Allocator argument, a copy of a default-constructed Allocator object."

Section 21.3.2/1 lists two constructors:

basic_string(const basic_string<charT,traits,Allocator>& str );

basic_string(const basic_string<charT,traits,Allocator>& str ,
             size_type pos , size_type n = npos,
             const Allocator& a = Allocator());

and then says "In the first form, the Allocator value used is copied from str.get_allocator().", which isn't an option according to 21.3.1.

[ Batavia: We need blanket statement to the effect of: ]

  1. If an allocator is passed in, use it, or,
  2. If a string is passed in, use its allocator.

[ Review constructors and functions that return a string; make sure we follow these rules (substr, operator+, etc.). Howard to supply wording. ]

[ Bo adds: The new container constructor which takes only a size_type is not consistent with 23.2 [container.requirements], p9 which says in part: ]

All other constructors for these container types take an Allocator& argument (20.1.2), an allocator whose value type is the same as the container's value type. A copy of this argument is used for any memory allocation performed, by these constructors and by all member functions, during the lifetime of each container object.

[ post Bellevue: We re-confirm that the issue is real. Pablo will provide wording. ]

[ 2009-07 Frankfurt ]

Move to NAD.

Proposed resolution:


615. Inconsistencies in Section 21.4

Section: 21.8 [c.strings] Status: NAD Editorial Submitter: Bo Persson Opened: 2006-12-11 Last modified: 2015-04-08

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Discussion:

In the current draft N2134, 21.4/1 says

"Tables 59,228) 60, 61, 62,and 63 229) 230) describe headers <cctype>, <cwctype>, <cstring>, <cwchar>, and <cstdlib> (character conversions), respectively."

Here footnote 229 applies to table 62, not table 63.

Also, footnote 230 lists the new functions in table 63, "atoll, strtoll, strtoull, strtof, and strtold added by TR1". However, strtof is not present in table 63.

Proposed resolution:

Rationale:

Recommend NAD, editorial. Send to Pete.


617. std::array is a sequence that doesn't satisfy the sequence requirements?

Section: 23.3.2 [array] Status: NAD Submitter: Bo Persson Opened: 2006-12-30 Last modified: 2015-04-08

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Discussion:

The <array> header is given under 23.3 [sequences]. 23.3.2 [array]/paragraph 3 says:

"Unless otherwise specified, all array operations are as described in 23.2 [container.requirements]".

However, array isn't mentioned at all in section 23.2 [container.requirements]. In particular, Table 82 "Sequence requirements" lists several operations (insert, erase, clear) that std::array does not have in 23.3.2 [array].

Also, Table 83 "Optional sequence operations" lists several operations that std::array does have, but array isn't mentioned.

[ 2009-07 Frankfurt ]

The real issue seems to be different than what is described here. Non-normative text says that std::array is a sequence container, but there is disagreement about what that really means. There are two possible interpretations:

  1. a sequence container is one that satisfies all sequence container requirements
  2. a sequence container is one that satisfies some of the sequence container requirements. Any operation that the container supports is specified by one or more sequence container requirements, unless that operation is specifically singled out and defined alongside the description of the container itself.

Move to Tentatively NAD.

[ 2009-07-15 Loïc Joly adds: ]

The section 23.2.3 [sequence.reqmts]/1 states that array is a sequence. 23.2.3 [sequence.reqmts]/3 introduces table 83, named Sequence container requirements. This seems to me to be defining the requirements for all sequences. However, array does not follow all of this requirements (this can be read in the array specific section, for the standard is currently inconsistent).

Proposed resolution 1 (minimal change):

Say that array is a container, that in addition follows only some of the sequence requirements, as described in the array section:

The library provides five three basic kinds of sequence containers: array, vector, forward_list, list, and deque. In addition, array and forward_list follows some of the requirements of sequences, as described in their respective sections.

Proposed resolution 2 (most descriptive description, no full wording provided):

Introduce the notion of a Fixed Size Sequence, with it requirement table that would be a subset of the current Sequence container. array would be the only Fixed Size Sequence (but dynarray is in the queue for TR2). Sequence requirements would now be requirements in addition to Fixed Size Sequence requirements (it is currently in addition to container).

[ 2009-07 Frankfurt: ]

Move to NAD Editorial

[ 2009 Santa Cruz: ]

This will require a lot of reorganization. Editor doesn't think this is really an issue, since the description of array can be considered as overriding what's specified about sequences. Move to NAD.

Proposed resolution:


626. new Remark clauses not documented

Section: 17.5.1.4 [structure.specifications] Status: NAD Editorial Submitter: Martin Sebor Opened: 2007-01-20 Last modified: 2015-04-08

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Discussion:

The Remark clauses newly introduced into the Working Paper (N2134) are not mentioned in 17.5.1.4 [structure.specifications] where we list the meaning of Effects, Requires, and other clauses (with the exception of Notes which are documented as informative in 17.5.1.2 [structure.summary], p2, and which they replace in many cases).

Propose add a bullet for Remarks along with a brief description.

[ Batavia: Alan and Pete to work. ]

[ Bellevue: Already resolved in current working paper. ]

Proposed resolution:


627. Low memory and exceptions

Section: 18.6.1.1 [new.delete.single] Status: NAD Submitter: P.J. Plauger Opened: 2007-01-23 Last modified: 2015-04-08

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Discussion:

I recognize the need for nothrow guarantees in the exception reporting mechanism, but I strongly believe that implementors also need an escape hatch when memory gets really low. (Like, there's not enough heap to construct and copy exception objects, or not enough stack to process the throw.) I'd like to think we can put this escape hatch in 18.6.1.1 [new.delete.single], operator new, but I'm not sure how to do it. We need more than a footnote, but the wording has to be a bit vague. The idea is that if new can't allocate something sufficiently small, it has the right to abort/call terminate/call unexpected.

[ Bellevue: NAD. 1.4p2 specifies a program must behave correctly "within its resource limits", so no further escape hatch is necessary. ]

Proposed resolution:


631. conflicting requirements for BinaryPredicate

Section: 25 [algorithms] Status: NAD Submitter: James Kanze Opened: 2007-01-31 Last modified: 2015-04-08

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Discussion:

The general requirements for BinaryPredicate (in 25 [algorithms]/8) contradict the implied specific requirements for some functions. In particular, it says that:

[...] if an algorithm takes BinaryPredicate binary_pred as its argument and first1 and first2 as its iterator arguments, it should work correctly in the construct if (binary_pred (*first1 , *first2 )){...}. BinaryPredicate always takes the first iterator type as its first argument, that is, in those cases when T value is part of the signature, it should work correctly in the context of if (binary_pred (*first1 , value)){...}.

In the description of upper_bound (25.4.3.2 [upper.bound]/2), however, the use is described as "!comp(value, e)", where e is an element of the sequence (a result of dereferencing *first).

In the description of lexicographical_compare, we have both "*first1 < *first2" and "*first2 < *first1" (which presumably implies "comp( *first1, *first2 )" and "comp( *first2, *first1 )".

Logically, the BinaryPredicate is used as an ordering relationship, with the semantics of "less than". Depending on the function, it may be used to determine equality, or any of the inequality relationships; doing this requires being able to use it with either parameter first. I would thus suggest that the requirement be:

Alternatively, one could specify an order for each function. IMHO, this would be more work for the committee, more work for the implementors, and of no real advantage for the user: some functions, such as lexicographical_compare or equal_range, will still require both functions, and it seems like a much easier rule to teach that both functions are always required, rather than to have a complicated list of when you only need one, and which one.

[ Toronto: Moved to Open. ConceptGCC seems to get lower_bound and upper_bound to work withoutt these changes. ]

[ 2009-07-28 Reopened by Alisdair. No longer solved by concepts. ]

[ 2009-10 Santa Cruz: ]

Move to Review. The small problem with the "iterator type" will be fixed. The cited functions (lower_bound, uppwer_bound, equal_range) don't actually use BinaryPredicate , and where it is used, it is consistent with [algorithm]/8, so the main complaint of the issue is moot.

[ 2010-01-16 Beman clarified wording. ]

[ 2010-01-31: Moved to Tentatively NAD after 5 positive votes on c++std-lib. Rationale added below. ]

Rationale:

[ post San Francisco: ]

Solved by N2759.

2010-01-31: The draft standard is well specified as is, and this specification is desired. Issues 556 and 870 solve the remaining unclearness regarding the meaning of BinaryPredicate.

Proposed resolution:

Change 25 [algorithms] paragraph 8 as indicated:

8 The BinaryPredicate parameter is used whenever an algorithm expects a function object that when applied to the result of dereferencing two corresponding iterators or to dereferencing an iterator and type T when T is part of the signature returns a value testable as true. BinaryPredicate always takes the first iterator value_type as one of its arguments; which argument is unspecified. In other words, if If an algorithm takes BinaryPredicate binary_pred as its argument and first1 and first2 as its iterator arguments, it should work correctly both in the construct if (binary_pred(*first1, *first2)){...} and if (binary_pred (*first2, *first1)){...}. BinaryPredicate always takes the first iterator type as its first argument, that is, in In those cases when T value is part of the signature, it should work correctly in the context of if (binary_pred(*first1, value)){...} and of if (binary_pred (value, *first1)){...}. binary_pred shall not apply any non-constant function through the dereferenced iterators. [Note: if the two types are not identical, and neither is convertable to the other, this may require that the BinaryPredicate be a functional object with two overloaded operator()() functions. — end note]


632. Time complexity of size() for std::set

Section: 23.2 [container.requirements] Status: NAD Submitter: Lionel B Opened: 2007-02-01 Last modified: 2015-04-08

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Discussion:

A recent news group discussion:

Anyone know if the Standard has anything to say about the time complexity of size() for std::set? I need to access a set's size (not to know if it is empty!) heavily during an algorithm and was thus wondering whether I'd be better off tracking the size "manually" or whether that'd be pointless.

That would be pointless. size() is O(1).

Nit: the standard says "should" have constant time. Implementations may take license to do worse. I know that some do this for std::list<> as a part of some trade-off with other operation.

I was aware of that, hence my reluctance to use size() for std::set.

However, this reason would not apply to std::set<> as far as I can see.

Ok, I guess the only option is to try it and see...

If I have any recommendation to the C++ Standards Committee it is that implementations must (not "should"!) document clearly[1], where known, the time complexity of *all* container access operations.

[1] In my case (gcc 4.1.1) I can't swear that the time complexity of size() for std::set is not documented... but if it is it's certainly well hidden away.

[ Kona (2007): This issue affects all the containers. We'd love to see a paper dealing with the broad issue. We think that the complexity of the size() member of every container -- except possibly list -- should be O(1). Alan has volunteered to provide wording. ]

[ Bellevue: ]

Mandating O(1) size will not fly, too many implementations would be invalidated. Alan to provide wording that toughens wording, but that does not absolutely mandate O(1).

[ Batavia (2009-05): ]

We observed that the wording "should" (in note a) has no effect. Howard prefers that O(1) size be mandated. It is not clear that this issue can be resolved to everyone's satisfaction, but Alan will provide wording nonetheless.

[ 2009-07 Frankfurt ]

Fixed by paper N2923.

Proposed resolution:


633. Return clause mentions undefined "type()"

Section: 20.9.12.2.5 [func.wrap.func.targ] Status: NAD Editorial Submitter: Daniel Krügler Opened: 2007-02-03 Last modified: 2015-04-08

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Discussion:

20.9.12.2.5 [func.wrap.func.targ], p4 says:

Returns: If type() == typeid(T), a pointer to the stored function target; otherwise a null pointer.

  1. There exists neither a type, a typedef type, nor member function type() in class template function nor in the global or std namespace.
  2. Assuming that type should have been target_type(), this description would lead to false results, if T = cv void due to returns clause 20.9.12.2.5 [func.wrap.func.targ], p1.

Proposed resolution:

Change 20.9.12.2.5 [func.wrap.func.targ], p4:

Returns: If type() target_type() == typeid(T) && typeid(T) != typeid(void), a pointer to the stored function target; otherwise a null pointer.

[ Pete: Agreed. It's editorial, so I'll fix it. ]


636. 26.5.2.3 valarray::operator[]

Section: 26.6.2.4 [valarray.access] Status: NAD Editorial Submitter: Bo Persson Opened: 2007-02-11 Last modified: 2015-04-08

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Discussion:

The signature of the const operator[] has been changed to return a const reference.

The description in paragraph 1 still says that the operator returns by value.

[ Pete recommends editorial fix. ]

Proposed resolution:


637. [c.math]/10 inconsistent return values

Section: 26.8 [c.math] Status: NAD Editorial Submitter: Bo Persson Opened: 2007-02-13 Last modified: 2015-04-08

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Discussion:

26.8 [c.math], paragraph 10 has long lists of added signatures for float and long double functions. All the signatures have float/long double return values, which is inconsistent with some of the double functions they are supposed to overload.

Proposed resolution:

Change 26.8 [c.math], paragraph 10,

float int ilogb(float);
float long lrint(float);
float long lround(float);
float long long llrint(float);
float long long llround(float);

long double int ilogb(long double);
long double long lrint(long double);
long double long lround(long double);
long double long long llrint(long double);
long double long long llround(long double);

639. Still problems with exceptions during streambuf IO

Section: 27.7.2.2.3 [istream::extractors], 27.7.3.6.3 [ostream.inserters] Status: NAD Submitter: Daniel Krügler Opened: 2007-02-17 Last modified: 2015-04-08

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Discussion:

There already exist two active DR's for the wording of 27.7.2.2.3 [istream::extractors]/13 from 14882:2003(E), namely 64 and 413.

Even with these proposed corrections, already maintained in N2134, I have the feeling, that the current wording does still not properly handle the "exceptional" situation. The combination of para 14

"[..] Characters are extracted and inserted until any of the following occurs:

[..]

- an exception occurs (in which case the exception is caught)."

and 15

"If the function inserts no characters, it calls setstate(failbit), which may throw ios_base::failure (27.4.4.3). If it inserted no characters because it caught an exception thrown while extracting characters from *this and failbit is on in exceptions() (27.4.4.3), then the caught exception is rethrown."

both in N2134 seems to imply that any exception, which occurs *after* at least one character has been inserted is caught and lost for ever. It seems that even if failbit is on in exceptions() rethrow is not allowed due to the wording "If it inserted no characters because it caught an exception thrown while extracting".

Is this behaviour by design?

I would like to add that its output counterpart in 27.7.3.6.3 [ostream.inserters]/7-9 (also N2134) does not demonstrate such an exception-loss-behaviour. On the other side, I wonder concerning several subtle differences compared to input::

1) Paragraph 8 says at its end:

"- an exception occurs while getting a character from sb."

Note that there is nothing mentioned which would imply that such an exception will be caught compared to 27.7.2.2.3 [istream::extractors]/14.

2) Paragraph 9 says:

"If the function inserts no characters, it calls setstate(failbit) (which may throw ios_base::failure (27.4.4.3)). If an exception was thrown while extracting a character, the function sets failbit in error state, and if failbit is on in exceptions() the caught exception is rethrown."

The sentence starting with "If an exception was thrown" seems to imply that such an exception *should* be caught before.

Proposed resolution:

(a) In 27.7.2.2.3 [istream::extractors]/15 (N2134) change the sentence

If the function inserts no characters, it calls setstate(failbit), which may throw ios_base::failure (27.4.4.3). If it inserted no characters because it caught an exception thrown while extracting characters from *this an exception was thrown while extracting a character from *this, the function sets failbit in error state, and failbit is on in exceptions() (27.4.4.3), then the caught exception is rethrown.

(b) In 27.7.3.6.3 [ostream.inserters]/8 (N2134) change the sentence:

Gets characters from sb and inserts them in *this. Characters are read from sb and inserted until any of the following occurs:

Rationale:

This extractor is described as a formatted input function so the exception behavior is already specified. There is additional behavior described in this section that applies to the case in which failbit is set. This doesn't contradict the usual exception behavior for formatted input functions because that applies to the case in which badbit is set.


641. Editorial fix for 27.6.4 (N2134)

Section: 27.7.5 [ext.manip] Status: NAD Editorial Submitter: Daniel Krügler Opened: 2007-02-18 Last modified: 2015-04-08

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Discussion:

The function f in para 4 (27.7.5 [ext.manip]) references an unknown strm in the following line:

mg.get(Iter(str.rdbuf()), Iter(), intl, strm, err, mon);

Proposed resolution:

Change 27.7.5 [ext.manip], p4:

mg.get(Iter(str.rdbuf()), Iter(), intl, strm, err, mon);

[ Oxford: Editorial. ]


642. Invalidated fstream footnotes in N2134

Section: 27.9.1.9 [ifstream.members], 27.9.1.13 [ofstream.members] Status: NAD Editorial Submitter: Daniel Krügler Opened: 2007-02-20 Last modified: 2015-04-08

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Discussion:

The standard wording of N2134 has extended the 14882:2003(E) wording for the ifstream/ofstream/fstream open function to fix a long standing problem, see 409.

Now it's properly written as

"If that function does not return a null pointer calls clear(), otherwise calls setstate(failbit)[..]"

instead of the previous

"If that function returns a null pointer, calls setstate(failbit)[..]

While the old footnotes saying

"A successful open does not change the error state."

where correct and important, they are invalid now for ifstream and ofstream (because clear *does* indeed modify the error state) and should be removed (Interestingly fstream itself never had these, although they where needed for that time).

Proposed resolution:

In 27.9.1.9 [ifstream.members], remove footnote:

334) A successful open does not change the error state.

In 27.9.1.13 [ofstream.members], remove footnote:

335) A successful open does not change the error state.


644. Possible typos in 'function' description

Section: 20.9.12.2 [func.wrap.func] Status: NAD Submitter: Bo Persson Opened: 2007-02-25 Last modified: 2015-04-08

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Discussion:

20.9.12.2 [func.wrap.func]

The note in paragraph 2 refers to 'undefined void operators', while the section declares a pair of operators returning bool.

[ Post-Sophia Antipolis: ]

Changed from Pending WP to Open. This issue was voted to WP at the same time the operators were changed from private to deleted. The two issues stepped on each other. What do we want the return type of these deleted functions to be?

[ 2009-05-02 Daniel adds: ]

I suggest harmonizing this issue with similar classes. E.g. in 20.8.2.3 [util.smartptr.weak] bool return values for

template <class Y> bool operator<(weak_ptr<Y> const&) const = delete;
template <class Y> bool operator<=(weak_ptr<Y> const&) const = delete;
template <class Y> bool operator>(weak_ptr<Y> const&) const = delete;
template <class Y> bool operator>=(weak_ptr<Y> const&) const = delete;

are used and basically all newer provided deleted copy assignment operators of type X use the canonical return type X& instead of void. Since the note mentioned in the issue description has now already been changed to

deleted overloads close possible hole in the type system

it seems to be of even lesser need to perform the change. Therefore I recommend declaring the issue as NAD.

[ Batavia (2009-05): ]

We agree with Daniel's recommendation.

Move to NAD.

Proposed resolution:

Change 20.9.12.2 [func.wrap.func]

...
private:
   // 20.9.12.2 [func.wrap.func], undefined operators:
   template<class Function2> bool void operator==(const function<Function2>&);
   template<class Function2> bool void operator!=(const function<Function2>&);
};

Change 20.9.12.2 [func.wrap.func]

template<class Function2> bool void operator==(const function<Function2>&);
template<class Function2> bool void operator!=(const function<Function2>&);

645. Missing members in match_results

Section: 28.10 [re.results] Status: NAD Editorial Submitter: Daniel Krügler Opened: 2007-02-26 Last modified: 2015-04-08

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Discussion:

According to the description given in 28.10 [re.results]/2 the class template match_results "shall satisfy the requirements of a Sequence, [..], except that only operations defined for const-qualified Sequences are supported". Comparing the provided operations from 28.10 [re.results]/3 with the sequence/container tables 80 and 81 one recognizes the following missing operations:

1) The members

const_iterator rbegin() const;
const_iterator rend() const;

should exists because 23.1/10 demands these for containers (all sequences are containers) which support bidirectional iterators. Aren't these supported by match_result? This is not explicitely expressed, but it's somewhat implied by two arguments:

(a) Several typedefs delegate to iterator_traits<BidirectionalIterator>.

(b) The existence of const_reference operator[](size_type n) const implies even random-access iteration. I also suggest, that match_result should explicitly mention, which minimum iterator category is supported and if this does not include random-access the existence of operator[] is somewhat questionable.

2) The new "convenience" members

const_iterator cbegin() const;
const_iterator cend() const;
const_iterator crbegin() const;
const_iterator crend() const;

should be added according to tables 80/81.

Proposed resolution:

Add the following members to the match_results synopsis after end() in 28.10 [re.results] para 3:

const_iterator cbegin() const; 
const_iterator cend() const;

In section 28.10.4 [re.results.acc] change:

const_iterator begin() const;
const_iterator cbegin() const;

-7- Returns: A starting iterator that enumerates over all the sub-expressions stored in *this.

const_iterator end() const;
const_iterator cend() const;

-8- Returns: A terminating iterator that enumerates over all the sub-expressions stored in *this.

[ Kona (2007): Voted to adopt proposed wording in N2409 except removing the entry in the table container requirements. Moved to Review. ]

[ Bellevue: Proposed wording now in the WP. ]


647. Inconsistent regex_search params

Section: 28.11.3 [re.alg.search] Status: NAD Editorial Submitter: Daniel Krügler Opened: 2007-02-26 Last modified: 2015-04-08

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Discussion:

28.11.3 [re.alg.search]/5 declares

template <class iterator, class charT, class traits>
bool regex_search(iterator first, iterator last,
                  const basic_regex<charT, traits>& e,
                  regex_constants::match_flag_type flags =
                      regex_constants::match_default);

where it's not explained, which iterator category the parameter iterator belongs to. This is inconsistent to the preceding declaration in the synopsis section 28.4 [re.syn], which says:

template <class BidirectionalIterator, class charT, class traits>
bool regex_search(BidirectionalIterator first, BidirectionalIterator last,
                  const basic_regex<charT, traits>& e,
                  regex_constants::match_flag_type flags =
                      regex_constants::match_default);

Proposed resolution:

In 28.11.3 [re.alg.search]/5 replace all three occurences of param "iterator" with "BidirectionalIterator"

template <class iterator BidirectionalIterator, class charT, class traits>
  bool regex_search(iterator BidirectionalIterator first, iterator BidirectionalIterator last, 
                    const basic_regex<charT, traits>& e, 
                    regex_constants::match_flag_type flags = 
                      regex_constants::match_default);

-6- Effects: Behaves "as if" by constructing an object what of type match_results<iterator BidirectionalIterator> and then returning the result of regex_search(first, last, what, e, flags).

Rationale:

Applied to working paper while issue was still in New status.


648. regex_iterator c'tor needs clarification/editorial fix

Section: 28.12.1.1 [re.regiter.cnstr] Status: NAD Editorial Submitter: Daniel Krügler Opened: 2007-03-03 Last modified: 2015-04-08

View all issues with NAD Editorial status.

Discussion:

In 28.12.1.1 [re.regiter.cnstr]/2 the effects paragraph starts with:

Effects: Initializes begin and end to point to the beginning and the end of the target sequence, sets pregex to &re, sets flags to f,[..]

There are two issues with this description:

  1. The meaning of very first part of this quote is unclear, because there is no target sequence provided, instead there are given two parameters a and b, both of type BidirectionalIterator. The mentioned part does not explain what a and b represent.
  2. There does not exist any parameter f, but instead a parameter m in the constructor declaration, so this is actually an editorial fix.

Proposed resolution:

In 28.12.1.1 [re.regiter.cnstr]/2 change the above quoted part by

Effects: Initializes begin and end to point to the beginning and the end of the target sequence designated by the iterator range [a, b), sets pregex to &re, sets flags to f m, then calls regex_search(begin, end, match, *pregex, flags). If this call returns false the constructor sets *this to the end-of-sequence iterator.


649. Several typos in regex_token_iterator constructors

Section: 28.12.2.1 [re.tokiter.cnstr] Status: NAD Editorial Submitter: Daniel Krügler Opened: 2007-03-03 Last modified: 2015-04-08

View all other issues in [re.tokiter.cnstr].

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Discussion:

In 28.12.2.1 [re.tokiter.cnstr]/1+2 both the constructor declaration and the following text shows some obvious typos:

1) The third constructor form is written as

template <std::size_t N>
  regex_token_iterator(BidirectionalIterator a, BidirectionalIterator b, 
                       const regex_type& re, 
                       const int (&submatches)[R], 
                       regex_constants::match_flag_type m = 
                         regex_constants::match_default);

where the dimensions of submatches are specified by an unknown value R, which should be N.

2) Paragraph 2 of the same section says in its last sentence:

The third constructor initializes the member subs to hold a copy of the sequence of integer values pointed to by the iterator range [&submatches, &submatches + R).

where again R must be replaced by N.

3) Paragraph 3 of the same section says in its first sentence:

Each constructor then sets N to 0, and position to position_iterator(a, b, re, f).

where a non-existing parameter "f" is mentioned, which must be replaced by the parameter "m".

Proposed resolution:

Change 28.12.2.1 [re.tokiter.cnstr]/1:

template <std::size_t N>
  regex_token_iterator(BidirectionalIterator a, BidirectionalIterator b, 
                       const regex_type& re, 
                       const int (&submatches)[R N], 
                       regex_constants::match_flag_type m = 
                         regex_constants::match_default);

Change 28.12.2.1 [re.tokiter.cnstr]/2:

Effects: The first constructor initializes the member subs to hold the single value submatch. The second constructor initializes the member subs to hold a copy of the argument submatches. The third constructor initializes the member subs to hold a copy of the sequence of integer values pointed to by the iterator range [&submatches, &submatches + R N).

Change 28.12.2.1 [re.tokiter.cnstr]/3:

Each constructor then sets N to 0, and position to position_iterator(a, b, re, f m). If position is not an end-of-sequence iterator the constructor sets result to the address of the current match. Otherwise if any of the values stored in subs is equal to -1 the constructor sets *this to a suffix iterator that points to the range [a, b), otherwise the constructor sets *this to an end-of-sequence iterator.


653. Library reserved names

Section: 1.2 [intro.refs] Status: NAD Submitter: Alisdair Meredith Opened: 2007-03-08 Last modified: 2015-04-08

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Discussion:

1.2 [intro.refs] Normative references

The following standards contain provisions which, through reference in this text, constitute provisions of this Interna- tional Standard. At the time of publication, the editions indicated were valid. All standards are subject to revision, and parties to agreements based on this International Standard are encouraged to investigate the possibility of applying the most recent editions of the standards indicated below. Members of IEC and ISO maintain registers of currently valid International Standards.

I'm not sure how many of those reserve naming patterns that might affect us, but I am equally sure I don't own a copy of any of these to check!

The point is to list the reserved naming patterns, rather than the individual names themselves - although we may want to list C keywords that are valid identifiers in C++ but likely to cause trouble in shared headers (e.g. restrict)

[ Kona (2007): Recommend NAD. No one has identified a specific defect, just the possibility of one. ]

[ Post-Kona: Alisdair request Open. A good example of the problem was a discussion of the system error proposal, where it was pointed out an all-caps identifier starting with a capital E conflicted with reserved macro names for both Posix and C. I had absolutely no idea of this rule, and suspect I was not the only one in the room.

Resolution will require someone with access to all the listed documents to research their respective name reservation rules, or people with access to specific documents add their rules to this issue until the list is complete. ]

[ Bellevue: Wording is aleady present in various standards, and no-one has come forward with wording. Suggest a formal paper rather than a defect report is the correct way to proceed. ]

Proposed resolution:


656. Typo in subtract_with_carry_engine declaration

Section: 26.5.2 [rand.synopsis] Status: NAD Editorial Submitter: Daniel Krügler Opened: 2007-03-08 Last modified: 2015-04-08

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Discussion:

26.5.2 [rand.synopsis] the header <random> synopsis contains an unreasonable closing curly brace inside the subtract_with_carry_engine declaration.

Proposed resolution:

Change the current declaration in 26.5.2 [rand.synopsis]

template <class UIntType, size_t w}, size_t s, size_t r>
class subtract_with_carry_engine;

[ Pete: Recommends editorial. ]


657. unclear requirement about header inclusion

Section: 17.6.2.2 [using.headers] Status: NAD Submitter: Gennaro Prota Opened: 2007-03-14 Last modified: 2015-04-08

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Discussion:

17.6.2.2 [using.headers] states:

A translation unit shall include a header only outside of any external declaration or definition, [...]

I see three problems with this requirement:

  1. The C++ standard doesn't define what an "external declaration" or an "external definition" are (incidentally the C99 standard does, and has a sentence very similar to the above regarding header inclusion).

    I think the intent is that the #include directive shall lexically appear outside *any* declaration; instead, when the issue was pointed out on comp.std.c++ at least one poster interpreted "external declaration" as "declaration of an identifier with external linkage". If this were the correct interpretation, then the two inclusions below would be legal:

      // at global scope
      static void f()
      {
    # include <cstddef>
      }
    
      static void g()
      {
    # include <stddef.h>
      }
    

    (note that while the first example is unlikely to compile correctly, the second one may well do)

  2. as the sentence stands, violations will require a diagnostic; is this the intent? It was pointed out on comp.std.c++ (by several posters) that at least one way to ensure a diagnostic exists:

    [If there is an actual file for each header,] one simple way to implement this would be to insert a reserved identifier such as __begin_header at the start of each standard header. This reserved identifier would be ignored for all other purposes, except that, at the appropriate point in phase 7, if it is found inside an external definition, a diagnostic is generated. There's many other similar ways to achieve the same effect.

    --James Kuyper, on comp.std.c++

  3. is the term "header" meant to be limited to standard headers? Clause 17 is all about the library, but still the general question is interesting and affects one of the points in the explicit namespaces proposal (n1691):

    Those seeking to conveniently enable argument-dependent lookups for all operators within an explicit namespace could easily create a header file that does so:

        namespace mymath::
        {
            #include "using_ops.hpp"
        }
    

Proposed resolution:

Rationale:

We believe that the existing language does not cause any real confusion and any new formulation of the rules that we could come up with are unlikely to be better than what's already in the standard.


662. Inconsistent handling of incorrectly-placed thousands separators

Section: 22.4.2.1.2 [facet.num.get.virtuals] Status: NAD Submitter: Cosmin Truta Opened: 2007-04-05 Last modified: 2015-04-08

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Discussion:

From Section 22.4.2.1.2 [facet.num.get.virtuals], paragraphs 11 and 12, it is implied that the value read from a stream must be stored even if the placement of thousands separators does not conform to the grouping() specification from the numpunct facet. Since incorrectly-placed thousands separators are flagged as an extraction failure (by the means of failbit), we believe it is better not to store the value. A consistent strategy, in which any kind of extraction failure leaves the input item intact, is conceptually cleaner, is able to avoid corner-case traps, and is also more understandable from the programmer's point of view.

Here is a quote from "The C++ Programming Language (Special Edition)" by B. Stroustrup (Section D.4.2.3, pg. 897):

"If a value of the desired type could not be read, failbit is set in r. [...] An input operator will use r to determine how to set the state of its stream. If no error was encountered, the value read is assigned through v; otherwise, v is left unchanged."

This statement implies that rdstate() alone is sufficient to determine whether an extracted value is to be assigned to the input item val passed to do_get. However, this is in disagreement with the current C++ Standard. The above-mentioned assumption is true in all cases, except when there are mismatches in digit grouping. In the latter case, the parsed value is assigned to val, and, at the same time, err is assigned to ios_base::failbit (essentially "lying" about the success of the operation). Is this intentional? The current behavior raises both consistency and usability concerns.

Although digit grouping is outside the scope of scanf (on which the virtual methods of num_get are based), handling of grouping should be consistent with the overall behavior of scanf. The specification of scanf makes a distinction between input failures and matching failures, and yet both kinds of failures have no effect on the input items passed to scanf. A mismatch in digit grouping logically falls in the category of matching failures, and it would be more consistent, and less surprising to the user, to leave the input item intact whenever a failure is being signaled.

The extraction of bool is another example outside the scope of scanf, and yet consistent, even in the event of a successful extraction of a long but a failed conversion from long to bool.

Inconsistency is further aggravated by the fact that, when failbit is set, subsequent extraction operations are no-ops until failbit is explicitly cleared. Assuming that there is no explicit handling of rdstate() (as in cin>>i>>j) it is counter-intuitive to be able to extract an integer with mismatched digit grouping, but to be unable to extract another, properly-formatted integer that immediately follows.

Moreover, setting failbit, and selectively assigning a value to the input item, raises usability problems. Either the strategy of scanf (when there is no extracted value in case of failure), or the strategy of the strtol family (when there is always an extracted value, and there are well-defined defaults in case of a failure) are easy to understand and easy to use. On the other hand, if failbit alone cannot consistently make a difference between a failed extraction, and a successful but not-quite-correct extraction whose output happens to be the same as the previous value, the programmer must resort to implementation tricks. Consider the following example:

    int i = old_i;
    cin >> i;
    if (cin.fail())
        // can the value of i be trusted?
        // what does it mean if i == old_i?
        // ...

Last but not least, the current behvaior is not only confusing to the casual reader, but it has also been confusing to some book authors. Besides Stroustrup's book, other books (e.g. "Standard C++ IOStreams and Locales" by Langer and Kreft) are describing the same mistaken assumption. Although books are not to be used instead of the standard reference, the readers of these books, as well as the people who are generally familiar to scanf, are even more likely to misinterpret the standard, and expect the input items to remain intact when a failure occurs.

Proposed resolution:

Change 22.4.2.1.2 [facet.num.get.virtuals]:

Stage 3: The result of stage 2 processing can be one of

In the first case, Ddigit grouping is checked. That is, the positions of discarded separators is examined for consistency with use_facet<numpunct<charT> >(loc).grouping(). If they are not consistent then ios_base::failbit is assigned to err. Otherwise, the value that was converted in stage 2 is stored in val and ios_base::goodbit is stored in err.

Rationale:

post-Toronto: Changed from New to NAD at the request of the author. The preferred solution of N2327 makes this resolution obsolete.


663. Complexity Requirements

Section: 17.5.1.4 [structure.specifications] Status: NAD Submitter: Thomas Plum Opened: 2007-04-16 Last modified: 2015-04-08

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Discussion:

17.5.1.4 [structure.specifications] para 5 says

-5- Complexity requirements specified in the library clauses are upper bounds, and implementations that provide better complexity guarantees satisfy the requirements.

The following objection has been raised:

The library clauses suggest general guidelines regarding complexity, but we have been unable to discover any absolute hard-and-fast formulae for these requirements. Unless or until the Library group standardizes specific hard-and-fast formulae, we regard all the complexity requirements as subject to a "fudge factor" without any intrinsic upper bound.

[Plum ref _23213Y31 etc]

Proposed resolution:

Rationale:

Kona (2007): No specific instances of underspecification have been identified, and big-O notation always involves constant factors.


667. money_get's widened minus sign

Section: 22.4.6.1.2 [locale.money.get.virtuals] Status: NAD Submitter: Thomas Plum Opened: 2007-04-16 Last modified: 2015-04-08

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Discussion:

22.4.6.1.2 [locale.money.get.virtuals], para 1 says:

The result is returned as an integral value stored in units or as a sequence of digits possibly preceded by a minus sign (as produced by ct.widen(c) where c is '-' or in the range from '0' through '9', inclusive) stored in digits.

The following objection has been raised:

Some implementations interpret this to mean that a facet derived from ctype<wchar_t> can provide its own member do_widen(char) which produces e.g. L'@' for the "widened" minus sign, and that the '@' symbol will appear in the resulting sequence of digits. Other implementations have assumed that one or more places in the standard permit the implementation to "hard-wire" L'-' as the "widened" minus sign. Are both interpretations permissible, or only one?

[Plum ref _222612Y14]

Furthermore: if ct.widen('9') produces L'X' (a non-digit), does a parse fail if a '9' appears in the subject string? [Plum ref _22263Y33]

[ Kona (2007): Bill and Dietmar to provide proposed wording. ]

[ post Bellevue: Bill adds: ]

The Standard is clear that the minus sign stored in digits is ct.widen('-'). The subject string must contain characters c in the set [-0123456789] which are translated by ct.widen(c) calls before being stored in digits; the widened characters are not relevant to the parsing of the subject string.

[ Batavia (2009-05): ]

We agree with Bill's comment above, in line with the first of the interpretations offered in the issue. Move to NAD.

Proposed resolution:


668. money_get's empty minus sign

Section: 22.4.6.1.2 [locale.money.get.virtuals] Status: NAD Submitter: Thomas Plum Opened: 2007-04-16 Last modified: 2015-04-08

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Discussion:

22.4.6.1.2 [locale.money.get.virtuals], para 3 says:

If pos or neg is empty, the sign component is optional, and if no sign is detected, the result is given the sign that corresponds to the source of the empty string.

The following objection has been raised:

A negative_sign of "" means "there is no way to write a negative sign" not "any null sequence is a negative sign, so it's always there when you look for it".

[Plum ref _222612Y32]

[ Kona (2007): Bill to provide proposed wording and interpretation of existing wording. ]

Related to 669.

[ 2009-05-17 Howard adds: ]

I disagree that a negative_sign of "" means "there is no way to write a negative sign". The meaning requires the sentences of 22.4.6.1.2 [locale.money.get.virtuals] p3 following that quoted above to be taken into account:

-3- ... If pos or neg is empty, the sign component is optional, and if no sign is detected, the result is given the sign that corresponds to the source of the empty string. Otherwise, the character in the indicated position must match the first character of pos or neg, and the result is given the corresponding sign. If the first character of pos is equal to the first character of neg, or if both strings are empty, the result is given a positive sign.

So a negative_sign of "" means "there is no way to write a negative sign" only when positive_sign is also "". However when negative_sign is "" and postive_sign.size() > 0, then one writes a negative value by not writing the postive_sign in the position indicated by money_base::sign. For example:

pattern = {symbol, sign, value, none}
positive_sign = "+"
negative_sign = ""
$123   // a negative value, using optional sign
$+123  // a positive value
$-123  // a parse error

And:

pattern = {symbol, sign, value, none}
positive_sign = ""
negative_sign = ""
$123   // a positive value, no sign possible
$+123  // a parse error
$-123  // a parse error

And (regarding 669):

pattern = {symbol, sign, value, none}
positive_sign = "-"
negative_sign = "-"
$123   // a parse error, sign is mandatory
$+123  // a parse error
$-123  // a positive value

The text seems both unambiguous and clear to me. I recommend NAD for both this issue and 669. However I would have no objection to adding examples such as those above.

[ Batavia (2009-05): ]

This discussion applies equally to issue 669 (q.v.). Howard has added examples above, and recommends either NAD or a resolution that adds his (or similar) examples to the Working Paper.

Alan would like to rewrite paragraph 3.

We recommend moving to NAD. Anyone who feels strongly about adding the examples is invited to submit corresponding wording. We further recommend issue 669 be handled identically.

[ 2009-07-14 Alan reopens with improved wording. ]

[ 2009-07 Frankfurt ]

No consensus for closing as NAD. Leave in Review.

[ 2009-10 Santa Cruz: ]

NAD. Agreed that the original assessment as NAD was correct.

Proposed resolution:

Change 22.4.6.1.2 [locale.money.get.virtuals] p3:

-3- If the first character (if any) in the string pos returned by mp.positive_sign() or the string neg returned by mp.negative_sign() is recognized in the position indicated by sign in the format pattern, it is consumed and any remaining characters in the string are required after all the other format components. [Example: If showbase is off, then for a neg value of "()" and a currency symbol of "L", in "(100 L)" the "L" is consumed; but if neg is "-", the "L" in "-100 L" is not consumed. -- end example] If pos or neg is empty, the sign component is optional, and if no sign is detected, the result is given the sign that corresponds to the source of the empty string. Otherwise, the character in the indicated position must match the first character of pos or neg, and the result is given the corresponding sign. If the first character of pos is equal to the first character of neg, or if both strings are empty, the result is given a positive sign. The sign pattern strings pos and neg are returned by mp.positive_sign() and mp.negative_sign() respectively. A sign pattern is matched if its first character is recognized in s in the position indicated by sign in the format pattern, or if the pattern is empty and there is no sign recognized in s. A match is required to occur. If both patterns are matched, the result is given a positive sign, otherwise the result is given the sign corresponding to the matched pattern. If the pattern contains more than one character, the characters after the first must be matched in s after all other format components. If any sign characters are matched, s is consumed up to and including those characters. [Example: If showbase is off, then for a neg value of "()" and a currency symbol of "L", in "(100 L)" the entire string is consumed; but for a neg value of "-", in "-100 L", the string is consumed through the second "0" (the space and "L" are not consumed). — end example]


669. Equivalent postive and negative signs in money_get

Section: 22.4.6.1.2 [locale.money.get.virtuals] Status: NAD Submitter: Thomas Plum Opened: 2007-04-16 Last modified: 2015-04-08

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Discussion:

22.4.6.1.2 [locale.money.get.virtuals], para 3 sentence 4 says:

If the first character of pos is equal to the first character of neg, or if both strings are empty, the result is given a positive sign.

One interpretation is that an input sequence must match either the positive pattern or the negative pattern, and then in either event it is interpreted as positive. The following objections has been raised:

The input can successfully match only a positive sign, so the negative pattern is an unsuccessful match.

[Plum ref _222612Y34, 222612Y51b]

[ Bill to provide proposed wording and interpretation of existing wording. ]

[ 2009-05-17 See Howard's comments in related issue 668. ]

[ Batavia (2009-05): ]

This discussion applies equally to issue 668 (q.v.). Howard has added examples there, and recommends either NAD or a resolution that adds his (or similar) examples to the Working Paper.

We recommend moving to NAD. Anyone who feels strongly about adding the examples is invited to submit corresponding wording. We further recommend issue 668 be handled identically.

Proposed resolution:


670. money_base::pattern and space

Section: 22.4.6.3 [locale.moneypunct] Status: Dup Submitter: Thomas Plum Opened: 2007-04-16 Last modified: 2015-04-08

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Duplicate of: 836

Discussion:

22.4.6.3 [locale.moneypunct], para 2 says:

The value space indicates that at least one space is required at that position.

The following objection has been raised:

Whitespace is optional when matching space. (See 22.4.6.1.2 [locale.money.get.virtuals], para 2.)

[Plum ref _22263Y22]

[ Kona (2007): Bill to provide proposed wording. We agree that C++03 is ambiguous, and that we want C++0X to say "space" means 0 or more whitespace characters on input. ]

Proposed resolution:


683. regex_token_iterator summary error

Section: 28.12.2 [re.tokiter] Status: NAD Editorial Submitter: Eric Niebler Opened: 2007-06-02 Last modified: 2015-04-08

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Discussion:

28.12.2 [re.tokiter], p3 says:

After it is constructed, the iterator finds and stores a value match_results<BidirectionalIterator> position and sets the internal count N to zero.

Should read:

After it is constructed, the iterator finds and stores a value match_resultsregex_iterator<BidirectionalIterator, charT, traits> position and sets the internal count N to zero.

[ John adds: ]

Yep, looks like a typo/administrative fix to me.

Proposed resolution:


684. Unclear which members of match_results should be used in comparison

Section: 28.10 [re.results] Status: NAD Editorial Submitter: Nozomu Katoo Opened: 2007-05-27 Last modified: 2015-04-08

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Discussion:

In 28.4 [re.syn] of N2284, two template functions are declared here:

// 28.10, class template match_results: 
  <snip>
// match_results comparisons 
  template <class BidirectionalIterator, class Allocator> 
    bool operator== (const match_results<BidirectionalIterator, Allocator>& m1, 
                     const match_results<BidirectionalIterator, Allocator>& m2); 
  template <class BidirectionalIterator, class Allocator> 
    bool operator!= (const match_results<BidirectionalIterator, Allocator>& m1, 
                     const match_results<BidirectionalIterator, Allocator>& m2); 

// 28.10.6, match_results swap:

But the details of these two bool operator functions (i.e., which members of match_results should be used in comparison) are not described in any following sections.

[ John adds: ]

That looks like a bug: operator== should return true only if the two objects refer to the same match - ie if one object was constructed as a copy of the other.

[ Kona (2007): Bill and Pete to add minor wording to that proposed in N2409. ]

Proposed resolution:

Add a new section after 28.10.7 [re.results.swap], which reads:

28.10.7 match_results non-member functions.

template<class BidirectionalIterator, class Allocator> 
  bool operator==(const match_results<BidirectionalIterator, Allocator>& m1, 
                  const match_results<BidirectionalIterator, Allocator>& m2);

Returns: true only if the two objects refer to the same match.

template<class BidirectionalIterator, class Allocator> 
  bool operator!=(const match_results<BidirectionalIterator, Allocator>& m1, 
                  const match_results<BidirectionalIterator, Allocator>& m2);

Returns: !(m1 == m2).

template<class BidirectionalIterator, class Allocator> 
  void swap(match_results<BidirectionalIterator, Allocator>& m1, 
            match_results<BidirectionalIterator, Allocator>& m2);

Returns: m1.swap(m2).

[ Bellevue: Proposed wording now in WP. ]


686. unique_ptr and shared_ptr fail to specify non-convertibility to int for unspecified-bool-type

Section: 20.8.1.2.4 [unique.ptr.single.observers], 20.8.2.2.5 [util.smartptr.shared.obs] Status: NAD Submitter: Beman Dawes Opened: 2007-06-14 Last modified: 2015-04-08

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Discussion:

The standard library uses the operator unspecified-bool-type() const idiom in five places. In three of those places (20.9.12.2.3 [func.wrap.func.cap], function capacity for example) the returned value is constrained to disallow unintended conversions to int. The standardese is

The return type shall not be convertible to int.

This constraint is omitted for unique_ptr and shared_ptr. It should be added for those.

[ Bellevue: ]

Close as NAD. Accepting paper N2435 makes it irrelevant.

Proposed resolution:

To the Returns paragraph for operator unspecified-bool-type() const of 20.8.1.2.4 [unique.ptr.single.observers] paragraph 11 and 20.8.2.2.5 [util.smartptr.shared.obs] paragraph 16, add the sentence:

The return type shall not be convertible to int.

[ Kona (2007): Uncertain if nullptr will address this issue. ]


690. abs(long long) should return long long

Section: 26.8 [c.math] Status: NAD Editorial Submitter: Niels Dekker Opened: 2007-06-10 Last modified: 2015-04-08

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Discussion:

Quoting the latest draft (n2135), 26.8 [c.math]:

The added signatures are:

long abs(long); // labs()
long abs(long long); // llabs()

Shouldn't abs(long long) have long long as return type?

Proposed resolution:

Change 26.8 [c.math]:

long long abs(long long); // llabs()

Rationale:

Had already been fixed in the WP by the time the LWG reviewed this.


701. assoc laguerre poly's

Section: TR1 5.2.1.1 [tr.num.sf.Lnm] Status: NAD Submitter: Christopher Crawford Opened: 2007-06-30 Last modified: 2015-04-08

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Discussion:

I see that the definition the associated Laguerre polynomials TR1 5.2.1.1 [tr.num.sf.Lnm] has been corrected since N1687. However, the draft standard only specifies ranks of integer value m, while the associated Laguerre polynomials are actually valid for real values of m > -1. In the case of non-integer values of m, the definition Ln(m) = (1/n!)exx-m (d/dx)n (e-xxm+n) must be used, which also holds for integer values of m. See Abramowitz & Stegun, 22.11.6 for the general case, and 22.5.16-17 for the integer case. In fact fractional values are most commonly used in physics, for example to m = +/- 1/2 to describe the harmonic oscillator in 1 dimension, and 1/2, 3/2, 5/2, ... in 3 dimensions.

If I am correct, the calculation of the more general case is no more difficult, and is in fact the function implemented in the GNU Scientific Library. I would urge you to consider upgrading the standard, either adding extra functions for real m or switching the current ones to double.

[ Batavia (2009-05): ]

We understand the issue, and have opted not to extend as recommended.

Move to NAD.

Proposed resolution:


702. Restriction in associated Legendre functions

Section: TR1 5.2.1.2 [tr.num.sf.Plm] Status: NAD Submitter: Christopher Crawford Opened: 2007-06-30 Last modified: 2015-04-08

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Discussion:

One other small thing, in TR1 5.2.1.2 [tr.num.sf.Plm], the restriction should be |x| <= 1, not x >= 0.

[ Batavia (2009-05): ]

The error has been corrected in the pending IS.

Move to NAD.

Proposed resolution:


707. null pointer constant for exception_ptr

Section: 18.8.5 [propagation] Status: NAD Submitter: Jens Maurer Opened: 2007-07-20 Last modified: 2015-04-08

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Discussion:

From the Toronto Core wiki:

What do you mean by "null pointer constant"? How do you guarantee that exception_ptr() == 1 doesn't work? Do you even want to prevent that? What's the semantics? What about void *p = 0; exception_ptr() == p? Maybe disallow those in the interface, but how do you do that with portable C++? Could specify just "make it work".

Peter's response:

null pointer constant as defined in 4.10 [conv.ptr]. Intent is "just make it work", can be implemented as assignment operator taking a unique pointer to member, as in the unspecified bool type idiom.

[ Bellevue: ]

Original implementation was possible using the "unspecified-null-pointer" idiom, similar to unspecified-bool.

Even simpler now with nullptr_t.

NAD Rationale : null pointer constant is a perfectly defined term, and while API is clearly implementable there is no need to spell out implementation details.

Proposed resolution:


717. Incomplete valarray::operator[] specification in [valarray.access]

Section: 26.6.2.4 [valarray.access] Status: NAD Editorial Submitter: Daniel Krügler Opened: 2007-08-27 Last modified: 2015-04-08

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Discussion:

Since the return type of valarray's operator[] const overload has been changed to const T& as described in 389 several paragraphs of the section 26.6.2.4 [valarray.access] are now incompletely specified, because many requirements and guarantees should now also apply to the const overload. Most notably, the address and reference guarantees should be extended to the const overload case.

Proposed resolution:

Change 26.6.2.4 [valarray.access]:

-1- When applied to a constant array, the subscript operator returns a reference to the corresponding element of the array. When applied to a non-constant array, tThe subscript operator returns a reference to the corresponding element of the array.

-3- The expression &a[i+j] == &a[i] + j evaluates as true for all size_t i and size_t j such that i+j is less than the length of the non-constant array a.

-4- Likewise, the expression &a[i] != &b[j] evaluates as true for any two non-constant arrays a and b and for any size_t i and size_t j such that i is less than the length of a and j is less than the length of b. This property indicates an absence of aliasing and may be used to advantage by optimizing compilers.281)

-5- The reference returned by the subscript operator for an non-constant array is guaranteed to be valid until the member function resize(size_t, T) (26.5.2.7) is called for that array or until the lifetime of that array ends, whichever happens first.


718. basic_string is not a sequence

Section: 21.4 [basic.string] Status: NAD Editorial Submitter: Bo Persson Opened: 2007-08-18 Last modified: 2015-04-08

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Discussion:

Paragraph 21.4 [basic.string]/3 states:

The class template basic_string conforms to the requirements for a Sequence (23.1.1) and for a Reversible Container (23.1).

First of all, 23.2.3 [sequence.reqmts] is no longer "Sequence" but "Sequence container". Secondly, after the resent changes to containers (emplace, push_back, const_iterator parameters to insert and erase), basic_string is not even close to conform to the current requirements.

[ Bellevue: ]

General consensus is to suggest option 2.

[ 2009-07 Frankfurt: ]

Move to NAD Editorial

Proposed resolution:

Remove this sentence, in recognition of the fact that basic_string is not just a vector-light for literal types, but something quite different, a string abstraction in its own right.


721. wstring_convert inconsistensies

Section: 22.3.3.2.2 [conversions.string] Status: NAD Submitter: Bo Persson Opened: 2007-08-27 Last modified: 2015-04-08

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Discussion:

Paragraph 3 says that the Codecvt template parameter shall meet the requirements of std::codecvt, even though std::codecvt itself cannot be used (because of a protected destructor).

How are we going to explain this code to beginning programmers?

template<class I, class E, class S>
struct codecvt : std::codecvt<I, E, S>
{
    ~codecvt()
    { }
};

void main()
{
    std::wstring_convert<codecvt<wchar_t, char, std::mbstate_t> > compiles_ok;
    
    std::wstring_convert<std::codecvt<wchar_t, char, std::mbstate_t> >   not_ok;
}

[ San Francisco: ]

Bill will propose a resolution.

[ 2009-07 Frankfurt: ]

codecvt isn't intended for beginning programmers. This is a regrettable consequence of the original design of the facet.

Move to NAD.

Proposed resolution:


725. Optional sequence container requirements column label

Section: 23.2.3 [sequence.reqmts] Status: NAD Editorial Submitter: David Abrahams Opened: 2007-09-16 Last modified: 2015-04-08

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Discussion:

Table 90: (Optional sequence container operations) states the "assertion note pre/post-condition" of operator[] to be

*(a.begin() + n)

Surely that's meant to be "operational semantics?"

Proposed resolution:

Table 90: Optional sequence container operations
expression return type assertion/note
pre/post-condition

operational semantics
container

726. Missing regex_replace() overloads

Section: 28.11.4 [re.alg.replace] Status: NAD Submitter: Stephan T. Lavavej Opened: 2007-09-22 Last modified: 2015-04-08

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Discussion:

Two overloads of regex_replace() are currently provided:

template <class OutputIterator, class BidirectionalIterator, 
    class traits, class charT> 
  OutputIterator 
  regex_replace(OutputIterator out, 
                BidirectionalIterator first, BidirectionalIterator last, 
                const basic_regex<charT, traits>& e, 
                const basic_string<charT>& fmt, 
                regex_constants::match_flag_type flags = 
                  regex_constants::match_default);
 
template <class traits, class charT> 
  basic_string<charT> 
  regex_replace(const basic_string<charT>& s, 
                const basic_regex<charT, traits>& e, 
                const basic_string<charT>& fmt, 
                regex_constants::match_flag_type flags = 
                  regex_constants::match_default);
  1. Overloads taking const charT * are provided for regex_match() and regex_search(), but not regex_replace(). This is inconsistent.
  2. The absence of const charT * overloads prevents ordinary-looking code from compiling, such as:

    const string s("kitten");
    const regex r("en");
    cout << regex_replace(s, r, "y") << endl;
    

    The compiler error message will be something like "could not deduce template argument for 'const std::basic_string<_Elem> &' from 'const char[1]'".

    Users expect that anything taking a basic_string<charT> can also take a const charT *. In their own code, when they write a function taking std::string (or std::wstring), they can pass a const char * (or const wchar_t *), thanks to basic_string's implicit constructor. Because the regex algorithms are templated on charT, they can't rely on basic_string's implicit constructor (as the compiler error message indicates, template argument deduction fails first).

    If a user figures out what the compiler error message means, workarounds are available - but they are all verbose. Explicit template arguments could be given to regex_replace(), allowing basic_string's implicit constructor to be invoked - but charT is the last template argument, not the first, so this would be extremely verbose. Therefore, constructing a basic_string from each C string is the simplest workaround.

  3. There is an efficiency consideration: constructing basic_strings can impose performance costs that could be avoided by a library implementation taking C strings and dealing with them directly. (Currently, for replacement sources, C strings can be converted into iterator pairs at the cost of verbosity, but for format strings, there is no way to avoid constructing a basic_string.)

[ Sophia Antipolis: ]

We note that Boost already has these overloads. However, the proposed wording is provided only for 28.11.4 [re.alg.replace]; wording is needed for the synopsis as well. We also note that this has impact on match_results::format, which may require further overloads.

[ 2009-07 Frankfurt: ]

Daniel to tweak for us.

[ 2009-07-25 Daniel tweaks both this issue and 727. ]

This is solved by the proposed resolution of 727.

[ 2009-10 Santa Cruz: ]

Leave Open. Though we believe this is solved by the proposed resolution to 727.

[ 2010-01-27 Moved to Tentatively NAD after 5 positive votes on c++std-lib. Rationale added below. ]

Rationale:

Solved by 727.

Proposed resolution:

Provide additional overloads for regex_replace(): one additional overload of the iterator-based form (taking const charT* fmt), and three additional overloads of the convenience form (one taking const charT* str, another taking const charT* fmt, and the third taking both const charT* str and const charT* fmt). 28.11.4 [re.alg.replace]:

template <class OutputIterator, class BidirectionalIterator, 
    class traits, class charT> 
  OutputIterator 
  regex_replace(OutputIterator out, 
                BidirectionalIterator first, BidirectionalIterator last, 
                const basic_regex<charT, traits>& e, 
                const basic_string<charT>& fmt, 
                regex_constants::match_flag_type flags = 
                  regex_constants::match_default);

template <class OutputIterator, class BidirectionalIterator, 
    class traits, class charT> 
  OutputIterator 
  regex_replace(OutputIterator out, 
                BidirectionalIterator first, BidirectionalIterator last, 
                const basic_regex<charT, traits>& e, 
                const charT* fmt, 
                regex_constants::match_flag_type flags = 
                  regex_constants::match_default);

...

template <class traits, class charT> 
  basic_string<charT> 
  regex_replace(const basic_string<charT>& s, 
                const basic_regex<charT, traits>& e, 
                const basic_string<charT>& fmt, 
                regex_constants::match_flag_type flags = 
                  regex_constants::match_default);

template <class traits, class charT> 
  basic_string<charT> 
  regex_replace(const basic_string<charT>& s, 
                const basic_regex<charT, traits>& e, 
                const charT* fmt, 
                regex_constants::match_flag_type flags = 
                  regex_constants::match_default);

template <class traits, class charT> 
  basic_string<charT> 
  regex_replace(const charT* s, 
                const basic_regex<charT, traits>& e, 
                const basic_string<charT>& fmt, 
                regex_constants::match_flag_type flags = 
                  regex_constants::match_default);

template <class traits, class charT> 
  basic_string<charT> 
  regex_replace(const charT* s, 
                const basic_regex<charT, traits>& e, 
                const charT* fmt, 
                regex_constants::match_flag_type flags = 
                  regex_constants::match_default);

729. Problem in [rand.req.eng]/3

Section: 26.5.1.4 [rand.req.eng] Status: NAD Submitter: Stephan Tolksdorf Opened: 2007-09-21 Last modified: 2015-04-08

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Discussion:

The 3rd table row in 26.5.1.4 [rand.req.eng]/3 requires random number engines to accept any arithmetic type as a seed, which is then casted to the engine's result_type and subsequently used for seeding the state of the engine. The requirement stated as "Creates an engine with initial state determined by static_cast<X::result_type>(s)" forces random number engines to either use a seeding method that completely depends on the result_type (see the discussion of seeding for the mersenne_twister_engine in point T2 above) or at least to throw away "bits of randomness" in the seed value if the result_type is smaller than the seed type. This seems to be inappropriate for many modern random number generators, in particular F2-linear or cryptographic ones, which operate on an internal bit array that in principle is independent of the type of numbers returned.

Possible resolution: I propose to change the wording to a version similar to "Creates an engine with initial state determined by static_cast<UintType>(s), where UintType is an implementation specific unsigned integer type."

Additionally, the definition of s in 26.5.1.4 [rand.req.eng]/1 c) could be restricted to unsigned integer types.

Similarly, the type of the seed in 26.5.1.5 [rand.req.adapt]/3 e) could be left unspecified.

See N2424 for further discussion.

[ Stephan Tolksdorf adds pre-Bellevue: ]

In reply to the discussion in N2424 regarding this issue:

The descriptions of all engines and engine adaptors given in sections 26.5.3 [rand.eng] and 26.5.4 [rand.adapt] already specify the concrete types of the integer arguments for seeding. Hence, relaxing the general requirement in 26.5.1.4 [rand.req.eng] would not affect portability and reproducibility of the standard library. Furthermore, it is not clear to me what exactly the guarantee "with initial state determined by static_cast<X::result_type>(s)" is useful for. On the other hand, relaxing the requirement would allow developers to implement other random number engines that do not have to cast all arithmetic seed arguments to their result_types.

[ Bellevue: ]

Propose close NAD for the reasons given in N2424.

Proposed resolution:

See N2424 for further discussion.

[ Stephan Tolksdorf adds pre-Bellevue: ]

Change row 3 of table 105 "Random number engine requirements" in 26.5.1.4 [rand.req.eng]/3

Creates an engine with initial state determined by static_cast<X::result_type>(s)

Similarly, change 26.5.1.5 [rand.req.adapt]/3 e)

When X::X is invoked with an X::result_type value s of arithmetic type (3.9.1), ...


730. Comment on [rand.req.adapt]/3 e)

Section: 26.5.1.5 [rand.req.adapt] Status: NAD Submitter: Stephan Tolksdorf Opened: 2007-09-21 Last modified: 2015-04-08

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Discussion:

If an engine adaptor is invoked with an argument of type seed_seq, then all base engines are specified to be seeded with this seed_seq. As seed_seq's randomization method is qualified as constant, this procedure will ef fectively initialize all base engines with the same seed (though the resulting state might still dif fer to a certain degree if the engines are of different types). It is not clear whether this mode of operation is in general appropriate, hence -- as far as the stated requirements are of general nature and not just specific to the engine adaptors provided by the library -- it might be better to leave the behaviour unspecified, since the current definition of seed_seq does not allow for a generally satisfying specification.

Posssible resolution: [As above]

See N2424 for further discussion.

[ Bellevue: ]

Close NAD for the reasons given in N2424.

Proposed resolution:

See N2424 for the proposed resolution.


731. proposal for a customizable seed_seq

Section: 26.5.7.1 [rand.util.seedseq] Status: NAD Submitter: Stephan Tolksdorf Opened: 2007-09-21 Last modified: 2015-04-08

View other active issues in [rand.util.seedseq].

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Discussion:

The proper way to seed random number engines seems to be the most frequently discussed issue of the 26.5 [rand] proposal. While the new seed_seq approach is already rather general and probably sufficient for most situations, it is unlikely to be optimal in every case (one problem was pointed out in point T5 above). In some situations it might, for instance, be better to seed the state with a cryptographic generator.

In my opinion this is a pretty strong argument for extending the standard with a simple facility to customize the seeding procedure. This could, for example, be done with the following minimal changes:

Possible resolution:

  1. Turn the interface specification of 26.5.7.1 [rand.util.seedseq]/2 into a "SeedSeq" requirement, where the exact behaviour of the constructors and the randomize method are left unspecified and where the const qualification for randomize is removed. Classes implementing this interface are additionally required to specialize the traits class in c).
  2. Provide the class seed_seq as a default implementation of the SeedSeq interface.
  3. Supplement the seed_seq with a traits class

    template <typename T> 
    struct is_seed_seq { static const bool value = false; }
    

    and the specialization

    template <> 
    struct is_seed_seq<seed_seq> { static const bool value = true; }
    

    which users can supplement with further specializations.

  4. Change 26.5.1.4 [rand.req.eng]/1 d) to "q is an lvalue of a type that fulfils the SeedSeq requirements", and modify the constructors and seed methods in 26.5.3 [rand.eng] appropriately (the actual implementation could be done using the SFINAE technique).

[ Bellevue: ]

See N2424. Close NAD but note that "conceptizing" the library may cause this problem to be solved by that route.

Proposed resolution:

See N2424 for the proposed resolution.


733. Comment on [rand.req.dist]/9

Section: 26.5.1.6 [rand.req.dist] Status: NAD Submitter: Stephan Tolksdorf Opened: 2007-09-21 Last modified: 2015-04-08

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Discussion:

The requirement "P shall have a declaration of the form typedef X distribution_- type" effectively makes the use of inheritance for implementing distributions very inconvenient, because the child of a distribution class in general will not satisfy this requirement. In my opinion the benefits of having a typedef in the parameter class pointing back to the distribution class are not worth the hassle this requirement causes. [In my code base I never made use of the nested typedef but on several occasions could have profited from being able to use simple inheritance for the implementation of a distribution class.]

Proposed resolution: I propose to drop this requirement.

[ Bellevue: ]

Close NAD for the reasons given in N2424. In practice it is not inconvenient to meet these requirements.

Proposed resolution:

See N2424 for the proposed resolution.


735. Unfortunate naming

Section: 26.5.8.3.2 [rand.dist.bern.bin], 26.5.8.3.4 [rand.dist.bern.negbin] Status: NAD Submitter: Stephan Tolksdorf Opened: 2007-09-21 Last modified: 2015-04-08

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Discussion:

In my opinion the choice of name for the t parameter of the binomial_distribution is very unfortunate. In virtually every internet reference, book and software implementation this parameter is called n instead, see for example Wikipedia, Mathworld, Evans et al. (1993) Statistical Distributions, 2nd E., Wiley, p. 38, the R statistical computing language, p. 926, Mathematica and Matlab.

Similarly, the choice of k for the parameter of the negative binomial distributions is rather unusual. The most common choice for the negative binomial distribution seems to be r instead.

Choosing unusual names for the parameters causes confusion among users and makes the interface unnecessarily inconvenient to use.

Possible resolution: For these reasons, I propose to change the name of the respective parameters to n and r.

[ Bellevue: ]

In N2424. NAD It has been around for a while. It is hardly universal, there is prior art, and this would confuse people.

Proposed resolution:

See N2424 for the proposed resolution.


736. Comment on [rand.dist.samp.discrete]

Section: 26.5.8.6.1 [rand.dist.samp.discrete] Status: NAD Submitter: Stephan Tolksdorf Opened: 2007-09-21 Last modified: 2015-04-08

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Discussion:

  1. The specification for discrete_distribution requires the member probabilities() to return a vector of standardized probabilities, which forces the implementation every time to divide each probability by the sum of all probabilities, as the sum will in practice almost never be exactly 1.0. This is unnecessarily inef ficient as the implementation would otherwise not need to compute the standardized probabilities at all and could instead work with the non-standardized probabilities and the sum. If there was no standardization the user would just get back the probabilities that were previously supplied to the distribution object, which to me seems to be the more obvious solution.
  2. The behaviour of discrete_distribution is not specified in case the number of given probabilities is larger than the maximum number representable by the IntType.

Possible resolution: I propose to change the specification such that the non-standardized probabilities need to be returned and that an additional requirement is included for the number of probabilities to be smaller than the maximum of IntType.

[ Stephan Tolksdorf adds pre-Bellevue: ]

In reply to the discussion in N2424 of this issue:

Rescaled floating-point parameter vectors can not be expected to compare equal because of the limited precision of floating-point numbers. My proposal would at least guarantee that a parameter vector (of type double) passed into the distribution would compare equal with the one returned by the probabilities() method. Furthermore, I do not understand why "the changed requirement would lead to a significant increase in the amount of state in the distribution object". A typical implementation's state would increase by exactly one number: the sum of all probabilities. The textual representation for serialization would not need to grow at all. Finally, the proposed replacement "0 < n <= numeric_limits<IntType>::max() + 1" makes the implementation unnecessarily complicated, "0 < n <= numeric_limits<IntType>::max()" would be better.

[ Bellevue: ]

In N2424. We agree with the observation and the proposed resolution to part b). We recommend the wording n > 0 be replaced with 0 < n numeric_limits::max() + 1. However, we disagree with part a), as it would interfere with the definition of parameters' equality. Further, the changed requirement would lead to a significant increase in the amount of state of the distribution object.

As it stands now, it is convenient, and the changes proposed make it much less so.

NAD. Part a the current behavior is desirable. Part b, any constructor can fail, but the rules under which it can fail do not need to be listed here.

Proposed resolution:

See N2424 for the proposed resolution.

[ Stephan Tolksdorf adds pre-Bellevue: ]

In 26.5.8.6.1 [rand.dist.samp.discrete]:

Proposed wording a):

Change in para. 2

Constructs a discrete_distribution object with n=1 and p0 = w0 = 1

and change in para. 5

Returns: A vector<double> whose size member returns n and whose operator[] member returns pk the weight wk as a double value when invoked with argument k for k = 0, ..., n-1

Proposed wording b):

Change in para. 3:

If firstW == lastW, let the sequence w have length n = 1 and consist of the single value w0 = 1. Otherwise, [firstW,lastW) shall form a sequence w of length n > 0 such that 0 < n <= numeric_limits<IntType>::max(), and *firstW shall yield a value w0 convertible to double. [Note: The values wk are commonly known as the weights . -- end note]


737. Comment on [rand.dist.samp.pconst]

Section: 26.5.8.6.2 [rand.dist.samp.pconst] Status: NAD Submitter: Stephan Tolksdorf Opened: 2007-09-21 Last modified: 2015-04-08

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Discussion:

  1. The discussion in point T11 above regarding probabilities() similarly applies to the method densities() of piecewise_constant_distribution.
  2. The design of the constructor

    template <class InputIteratorB, class InputIteratorW> 
    piecewise_constant_distribution( InputIteratorB firstB, InputIteratorB lastB, 
                                     InputIteratorW firstW);
    

    is unnecessarily unsafe, as there is no separate end-iterator given for the weights. I can't see any performance or convenience reasons that would justify the risks inherent in such a function interface, in particular the risk that input error might go unnoticed.

Possible resolution: I propose to add an InputIteratorW lastW argument to the interface.

[ Stephan Tolksdorf adds pre-Bellevue: ]

In reply to the discussion in N2424 I'd like to make the same comments as for 736.

[ Bellevue: ]

In N2424. There is already precedent elsewhere in the library. Follows existing convention. NAD.

Proposed resolution:

See N2424 for the proposed resolution.

[ Stephan Tolksdorf adds pre-Bellevue: ]

In 26.5.8.6.2 [rand.dist.samp.pconst]:

Proposed wording a)

Change in para. 2

Constructs a piecewise_constant_distribution object with n = 1, p0 = w0 = 1, b0 = 0, and b1 = 1

and change in para. 5

A vector<result_type> whose size member returns n and whose operator[] member returns pk the weight wk as a double value when invoked with argument k for k = 0, ..., n-1

Proposed wording b)

Change both occurrences of

"piecewise_constant_distribution(InputIteratorB firstB, InputIteratorB lastB,
                                 InputIteratorW firstW, InputIteratorW lastW)

and change in para. 3

the length of the sequence w starting from firstW shall be at least n, *firstW shall return a value w0 that is convertible to double, and any wk for k >= n shall be ignored by the distribution [firstW, lastW) shall form a sequence w of length n whose leading element w0 shall be convertible to double


738. Editorial issue in [rand.adapt.disc]/3

Section: 26.5.4.2 [rand.adapt.disc] Status: NAD Editorial Submitter: Stephan Tolksdorf Opened: 2007-09-21 Last modified: 2015-04-08

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Discussion:

Since the template parameter p and r are of type size_t, the member n in the class exposition should have type size_t, too.

Proposed resolution:

See N2424 for the proposed resolution.


739. Defect in [rand.util.canonical]/3

Section: 26.5.7.2 [rand.util.canonical] Status: NAD Submitter: Stephan Tolksdorf Opened: 2007-09-21 Last modified: 2015-04-08

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Discussion:

The complexity of generate_canonical is specified to be "exactly k=max(1, ceil(b/log2 R)) invocations of g". This terms involves a logarithm that is not rounded and hence can not (in general) be computed at compile time. As this function template is performance critical, I propose to replace ceil(b/log2 R) with ceil(b/floor(log2 R)).

See N2424 for further discussion.

[ Bellevue: ]

In N2424. Close NAD as described there.

Proposed resolution:

See N2424 for the proposed resolution.


741. Const-incorrect get_deleter function for shared_ptr

Section: 20.8.2.2.10 [util.smartptr.getdeleter] Status: NAD Submitter: Daniel Krügler Opened: 2007-09-27 Last modified: 2015-04-08

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Discussion:

The following issue was raised by Alf P. Steinbach in c.l.c++.mod:

According to the recent draft N2369, both the header memory synopsis of 20.7 [memory] and 20.8.2.2.10 [util.smartptr.getdeleter] declare:

template<class D, class T> D* get_deleter(shared_ptr<T> const& p);

This allows to retrieve the pointer to a mutable deleter of a const shared_ptr (if that owns one) and therefore contradicts the usual philosophy that associated functors are either read-only (e.g. key_comp or value_comp of std::map) or do at least reflect the mutability of the owner (as seen for the both overloads of unique_ptr::get_deleter). Even the next similar counter-part of get_deleter - the two overloads of function::target in the class template function synopsis 20.9.12.2 [func.wrap.func] or in 20.9.12.2.5 [func.wrap.func.targ] - do properly mirror the const-state of the owner.

Possible proposed resolutions:

Replace the declarations of get_deleter in the header <memory> synopsis of 20.7 [memory] and in 20.8.2.2.10 [util.smartptr.getdeleter] by one of the following alternatives (A) or (B):

  1. Provide only the immutable variant. This would reflect the current praxis of container::get_allocator(), map::key_comp(), or map::value_comp.
    template<class D, class T> const D* get_deleter(shared_ptr<T> const& p);
    
  2. Just remove the function.

Alberto Ganesh Barbati adds:

  1. Replace it with two functions:

    template <class D, class T> D get_deleter(shared_ptr<T> const&);
    template <class D, class T> bool has_deleter(shared_ptr<T> const&);
    

    The first one would throw if D is the wrong type, while the latter would never throw. This approach would reflect the current praxis of use_facet/has_facet, with the twist of returning the deleter by value as container::get_allocator() do.

Peter Dimov adds:

My favorite option is "not a defect". A, B and C break useful code.

[ Bellevue: ]

Concern this is similar to confusing "pointer to const" with "a constant pointer".

Proposed resolution:


745. copy_exception API slices.

Section: 18.8.5 [propagation] Status: NAD Submitter: Alisdair Meredith Opened: 2007-10-10 Last modified: 2015-04-08

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Discussion:

It could be I did not understand the design rationale, but I thought copy_exception would produce an exception_ptr to the most-derived (dynamic) type of the passed exception. Instead it slices, which appears to be less useful, and a likely source of FAQ questions in the future.

(Peter Dimov suggests NAD)

[ Bellevue: ]

How could this be implemented in a way that the dynamic type is cloned?

The feature is designed to create an exception_ptr from an object whose static type is identical to the dynamic type and thus there is no slicing involved.

Proposed resolution:


747. We have 3 separate type traits to identify classes supporting no-throw operations

Section: 20.10.4.3 [meta.unary.prop] Status: NAD Submitter: Alisdair Meredith Opened: 2007-10-10 Last modified: 2015-04-08

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Discussion:

We have 3 separate type traits to identify classes supporting no-throw operations, which are very useful when trying to provide exception safety guarantees. However, I'm not entirely clear on what the current wording requires of a conforming implementation. To quote from has_nothrow_default_constructor:

or T is a class type with a default constructor that is known not to throw any exceptions

What level of magic do we expect to deduce if this is known?

E.g.

struct test{
 int x;
 test() : x() {}
};

Should I expect a conforming compiler to assert( has_nothrow_constructor<test>::value )

Is this a QoI issue?

Should I expect to 'know' only if-and-only-if there is an inline definition available?

Should I never expect that to be true, and insist that the user supplies an empty throw spec if they want to assert the no-throw guarantee?

It would be helpful to maybe have a footnote explaining what is required, but right now I don't know what to suggest putting in the footnote.

(agreement since is that trivial ops and explicit no-throws are required. Open if QoI should be allowed to detect further)

[ Bellevue: ]

This looks like a QoI issue. In the case of trivial and nothrow it is known. Static analysis of the program is definitely into QoI. Move to OPEN. Need to talk to Core about this.

[ 2009-07 Frankfurt: ]

This is QoI.

Move to NAD.

Proposed resolution:


748. The is_abstract type trait is defined by reference to 10.4.

Section: 20.10.4.3 [meta.unary.prop] Status: NAD Submitter: Alisdair Meredith Opened: 2007-10-10 Last modified: 2015-04-08

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Discussion:

I am trying to decide is a pure virtual function is a necessary as well as sufficient requirement to be classified as abstract?

For instance, is the following (non-polymorphic) type considered abstract?

struct abstract {
protected:
 abstract(){}
 abstract( abstract const & ) {}
 ~abstract() {}
};

(Suggested that this may be NAD, with an editorial fix-up from Pete on the core wording to make clear that abstract requires a pure virtual function)

Proposed resolution:

Core has clarified that the definition abstract is adequate. Issue withdrawn by submitter. NAD.


750. The current definition for is_convertible requires that the type be implicitly convertible, so explicit constructors are ignored.

Section: 20.10.6 [meta.rel] Status: Dup Submitter: Alisdair Meredith Opened: 2007-10-10 Last modified: 2015-04-08

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Duplicate of: 719

Discussion:

With the pending arrival of explicit conversion functions though, I'm wondering if we want an additional trait, is_explictly_convertible?

[ Bellevue: ]

Alisdair is considering preparing a paper listing a number of missing type traits, and feels that it might be useful to handle them all together rather than piecemeal. This would affect issue 719 and 750. These two issues should move to OPEN pending AM paper on type traits.

[ 2009-07 Frankfurt: ]

Duplicate of 719 (for our purposes).

[ Addressed in N2947. ]

Proposed resolution:


751. change pass-by-reference members of vector<bool> to pass-by-value?

Section: 23.3.7 [vector.bool] Status: NAD Submitter: Alisdair Meredith Opened: 2007-10-10 Last modified: 2015-04-08

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Discussion:

A number of vector<bool> members take const bool& as arguments. Is there any chance we could change them to pass-by-value or would I be wasting everyone's time if wrote up an issue?

[ post Bellevue: ]

As we understand it, the original requester (Martin Sebor) would like for implementations to be permitted to pass-by-value. Alisdair suggests that if this is to be resolved, it should be resolved more generally, e.g. in other containers as well.

We note that this would break ABI. However, we also suspect that this might be covered under the "as-if" rule in section 1.9.

Many in the group feel that for vector<bool>, this is a "don't care", and that at this point in the process it's not worth the bandwidth.

Issue 679 -- which was in ready status pre-Bellevue and is now in the working paper -- is related to this, though not a duplicate.

Moving to Open with a task for Alisdair to craft a informative note to be put whereever appropriate in the WP. This note would clarify places where pass-by-const-ref can be transformed to pass-by-value under the as-if rule.

[ San Francisco: ]

This is really a clause 17 issue, rather than something specific to vector<bool>.

Move to Open. Alisdair to provide a resolution. Alternately, Howard can close this as NAD and then open a new issue to handle the general issue (rather than the vector<bool> one).

Howard: Haven't yet opened new issue. Lacking wording for it.

[ 2009-07 Frankfurt: ]

NAD. Insufficient motivation to make any changes.

Proposed resolution:


754. Ambiguous return clause for std::uninitialized_copy

Section: 20.7.12.2 [uninitialized.copy] Status: NAD Editorial Submitter: Daniel Krügler Opened: 2007-10-15 Last modified: 2015-04-08

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Discussion:

14882-2003, [lib.uninitialized.copy] is currently written as follows:

template <class InputIterator, class ForwardIterator>
  ForwardIterator uninitialized_copy(InputIterator first, InputIterator last,
                                     ForwardIterator result);

-1- Effects:

for (; first != last; ++result, ++first)
  new (static_cast<void*>(&*result))
    typename iterator_traits<ForwardIterator>::value_type(*first);

-2- Returns: result

similarily for N2369, and its corresponding section 20.7.12.2 [uninitialized.copy].

It's not clear to me what the return clause is supposed to mean, I see two possible interpretations:

  1. The notion of result is supposed to mean the value given by the function parameter result [Note to the issue editor: Please use italics for result]. This seems somewhat implied by recognizing that both the function parameter and the name used in the clause do have the same italic font.
  2. The notion of "result" is supposed to mean the value of result after the preceding effects clause. This is in fact what all implementations I checked do (and which is probably it's intend, because it matches the specification of std::copy).

The problem is: I see nothing in the standard which grants that this interpretation is correct, specifically [lib.structure.specifications] or 17.5.1.4 [structure.specifications] resp. do not clarify which "look-up" rules apply for names found in the elements of the detailed specifications - Do they relate to the corresponding synopsis or to the effects clause (or possibly other elements)? Fortunately most detailed descriptions are unambigious in this regard, e.g. this problem does not apply for std::copy.

Proposed resolution:

Change the wording of the return clause to say (20.7.12.2 [uninitialized.copy]):

-2- Returns: The value of result after effects have taken place.

[ Bellevue: ]

Resolution: NAD editorial -- project editor to decide if change is worthwhile. Concern is that there are many other places this might occur.


757. Typo in the synopsis of vector

Section: 23.3.6 [vector] Status: NAD Editorial Submitter: Paolo Carlini Opened: 2007-11-04 Last modified: 2015-04-08

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Discussion:

In the synopsis 23.3.6 [vector], there is the signature:

void insert(const_iterator position, size_type n, T&& x);

instead of:

iterator insert(const_iterator position, T&& x);

23.3.6.5 [vector.modifiers] is fine.

Proposed resolution:

Change the synopsis in 23.3.6 [vector]:

iterator insert(const_iterator position, const T& x); 
iterator insert(const_iterator position, T&& x);
void     insert(const_iterator position, size_type n, const T& x); 
void     insert(const_iterator position, size_type n, T&& x);

763. Renaming emplace() overloads

Section: 23.2.4 [associative.reqmts] Status: NAD Submitter: Sylvain Pion Opened: 2007-12-04 Last modified: 2015-04-08

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Discussion:

The associative containers provide 2 overloads of emplace():

template <class... Args> pair<iterator, bool> emplace(Args&&... args);
template <class... Args> iterator emplace(const_iterator position, Args&&... args);

This is a problem if you mean the first overload while passing a const_iterator as first argument.

[ Related to 767 ]

[ Bellevue: ]

This can be disambiguated by passing "begin" as the first argument in the case when the non-default choice is desired. We believe that desire will be rare.

[For related discussion see 1302]

LWG N2680 renamed one of the overloads to emplace_hint.

Resolution: Change state to NAD.

Proposed resolution:

Rename one of the two overloads. For example to emplace_here, hint_emplace...


764. equal_range on unordered containers should return a pair of local_iterators

Section: 23.2.5 [unord.req] Status: NAD Submitter: Joe Gottman Opened: 2007-11-29 Last modified: 2015-04-08

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Discussion:

A major attribute of the unordered containers is that iterating though them inside a bucket is very fast while iterating between buckets can be much slower. If an unordered container has a low load factor, iterating between the last iterator in one bucket and the next iterator, which is in another bucket, is O(bucket_count()) which may be much larger than O(size()).

If b is an non-const unordered container of type B and k is an object of it's key_type, then b.equal_range(k) currently returns pair<B::iterator, B::iterator>. Consider the following code:

B::iterator lb, ub;
tie(lb, ub) = b.equal_range(k);
for (B::iterator it = lb; it != ub; ++it) {
        // Do something with *it
}

If b.equal_range(k) returns a non-empty range (i.e. b contains at least on element whose key is equivalent to k), then every iterator in the half-open range [lb, ub) will be in the same bucket, but ub will likely either be in a different bucket or be equal to b.end(). In either case, iterating between ub - 1 and ub could take a much longer time than iterating through the rest of the range.

If instead of returning pair<iterator, iterator>, equal_range were to return pair<local_iterator, local_iterator>, then ub (which, like lb, would now be a local_iterator) could be guaranteed to always be in the same bucket as lb. In the cases where currently ub is equal to b.end() or is in a different bucket, ub would be equal to b.end(b.bucket(key)). This would make iterating between lb and ub much faster, as every iteration would be constant time.

[ Bellevue: ]

The proposed resolution breaks consistency with other container types for dubious benefit, and iterators are already constant time.

Proposed resolution:

Change the entry for equal_range in Table 93 (23.2.5 [unord.req]) as follows:

expression return type assertion/note pre/post-condition complexity
b.equal_range(k) pair<local_iterator,local_iterator>; pair<const_local_iterator,const_local_iterator> for const b. Returns a range containing all elements with keys equivalent to k. Returns make_pair(b.end(b.bucket(key)),b.end(b.bucket(key))) if no such elements exist. Average case Θ(b.count(k)). Worst case Θ(b.size()).

773. issues with random

Section: 26.5.8.2 [rand.dist.uni] Status: NAD Submitter: P.J. Plauger Opened: 2008-01-14 Last modified: 2015-04-08

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Discussion:

  1. 26.5.8.2.1 [rand.dist.uni.int] uniform_int constructor has changed the default max constructor parameter from 9 (in TR1) to max(). The value is arbitrary at best and shouldn't be lightly changed because it breaks backward compatibility.
  2. 26.5.8.2.1 [rand.dist.uni.int] uniform_int has a parameter param that you can provide on construction or operator(), set, and get. But there is not even a hint of what this might be for.
  3. 26.5.8.2.2 [rand.dist.uni.real] uniform_real. Same issue as #2.

[ Bellevue: ]

NAD. Withdrawn.

Proposed resolution:


784. unique_lock::release

Section: 30.4.2.2.3 [thread.lock.unique.mod] Status: NAD Submitter: Constantine Sapuntzakis Opened: 2008-02-02 Last modified: 2015-04-08

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Discussion:

unique_lock::release will probably lead to many mistakes where people call release instead of unlock. I just coded such a mistake using the boost pre-1.35 threads library last week.

In many threading libraries, a call with release in it unlocks the lock (e.g. ReleaseMutex in Win32, java.util.concurrent.Semaphore).

I don't call unique_lock::lock much at all, so I don't get to see the symmetry between ::lock and ::unlock. I usually use the constructor to lock the mutex. So I'm left to remember whether to call release or unlock during the few times I need to release the mutex before the scope ends. If I get it wrong, the compiler doesn't warn me.

An alternative name for release may be disown.

This might be a rare case where usability is hurt by consistency with the rest of the C++ standard (e.g. std::auto_ptr::release).

[ Bellevue: ]

Change a name from release to disown. However prior art uses the release name. Compatibility with prior art is more important that any possible benefit such a change might make. We do not see the benefit for changing. NAD

Proposed resolution:

Change the synopsis in 30.4.2.2 [thread.lock.unique]:

template <class Mutex> 
class unique_lock 
{ 
public:
   ...
   mutex_type* release disown();
   ...
};

Change 30.4.2.2.3 [thread.lock.unique.mod]:

mutex_type *release disown();

785. Random Number Requirements in TR1

Section: TR1 5.1.4.5 [tr.rand.eng.disc], TR1 5.1.4.6 [tr.rand.eng.xor] Status: NAD Submitter: John Maddock Opened: 2008-01-15 Last modified: 2015-04-08

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Discussion:

Table 16 of TR1 requires that all Pseudo Random Number generators have a

seed(integer-type s)

member function that is equivalent to:

mygen = Generator(s)

But the generators xor_combine and discard_block have no such seed member, only the

template <class Gen>
seed(Gen&);

member, which will not accept an integer literal as an argument: something that appears to violate the intent of Table 16.

So... is this a bug in TR1?

This is a real issue BTW, since the Boost implementation does adhere to the requirements of Table 16, while at least one commercial implementation does not and follows a strict adherence to sections 5.1.4.5 and 5.1.4.6 instead.

[ Jens adds: ]

Both engines do have the necessary constructor, therefore the omission of the seed() member functions appears to be an oversight.

[ Post Summit Daniel adds: ]

Recommend NAD: xor_combine does no longer exist and discard_block[_engine] has now the required seed overload accepting a result_type, which shall be an unsigned integral type.

[ Batavia (2009-05): ]

Move to NAD as recommended.

Proposed resolution:

NAD Recommended.


790. xor_combine::seed not specified

Section: X [rand.adapt.xor] Status: NAD Submitter: P.J. Plauger Opened: 2008-02-09 Last modified: 2015-04-08

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Discussion:

xor_combine::seed(result_type) and seed(seed_seq&) don't say what happens to each of the sub-engine seeds. (Should probably do the same to both, unlike TR1.)

[ Bellevue: ]

Overcome by the previous proposal. NAD mooted by resolution of 789.

Proposed resolution:


791. piecewise_constant_distribution::densities has wrong name

Section: 26.5.8.6.2 [rand.dist.samp.pconst] Status: NAD Submitter: P.J. Plauger Opened: 2008-02-09 Last modified: 2015-04-08

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Discussion:

piecewise_constant_distribution::densities() should be probabilities(), just like discrete_distribution. (There's no real use for weights divided by areas.)

[ Bellevue: ]

Fermilab does not agree with this summary. As defined in the equation in 26.4.8.5.2/4, the quantities are indeed probability densities not probabilities. Because we view this distribution as a parameterization of a *probability density function*, we prefer to work in terms of probability densities.

We don't think this should be changed.

If there is a technical argument about why the implementation dealing with these values can't be as efficient as one dealing with probabilities, we might reconsider. We don't care about this one member function being somewhat more or less efficient; we care about the size of the distribution object and the speed of the calls to generate variates.

Proposed resolution:

Change synopsis in 26.5.8.6.2 [rand.dist.samp.pconst]:

template <class RealType = double> 
class piecewise_constant_distribution 
{ 
public:
    ...
    vector<double> densities probabilities() const;
    ...
};

Change 26.5.8.6.2 [rand.dist.samp.pconst]/6:

vector<double> densities probabilities() const;

795. general_pdf_distribution should be dropped

Section: X [rand.dist.samp.genpdf] Status: Dup Submitter: P.J. Plauger Opened: 2008-02-09 Last modified: 2015-04-08

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Duplicate of: 732

Discussion:

general_pdf_distribution should be dropped. (It's a research topic in adaptive numerical integration.)

[ Stephan Tolksdorf notes: ]

This appears to be a duplicate of 732.

Proposed resolution:


796. ranlux48_base returns wrong value

Section: 26.5.5 [rand.predef] Status: NAD Submitter: P.J. Plauger Opened: 2008-02-09 Last modified: 2015-04-08

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Discussion:

The 10,000th value returned by ranlux48_base is supposed to be 61839128582725. We get 192113843633948. (Note that the underlying generator was changed in Kona.)

[ Bellevue: ]

Submitter withdraws defect.

Proposed resolution:

Change 26.5.5 [rand.predef]/p5:

typedef subtract_with_carry_engine<uint_fast64_t, 48, 5, 12> 
        ranlux48_base; 

Required behavior: The 10000th consecutive invocation of a default-constructed object of type ranlux48_base shall produce the value 61839128582725 192113843633948.


797. ranlux48 returns wrong value

Section: 26.5.5 [rand.predef] Status: NAD Submitter: P.J. Plauger Opened: 2008-02-09 Last modified: 2015-04-08

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Discussion:

The 10,000th value returned by ranlux48 is supposed to be 249142670248501. We get 88229545517833. (Note that this depends on ranlux48_base.)

[ Bellevue: ]

Submitter withdraws defect.

Proposed resolution:

Change 26.5.5 [rand.predef]/p6:

typedef discard_block_engine<ranlux48_base, 389, 11> 
        ranlux48

Required behavior: The 10000th consecutive invocation of a default-constructed object of type ranlux48 shall produce the value 249142670248501 88229545517833.


799. [tr.rand.eng.mers] and [rand.eng.mers]

Section: 26.5.3.2 [rand.eng.mers], TR1 5.1.4.2 [tr.rand.eng.mers] Status: NAD Submitter: Stephan Tolksdorf Opened: 2008-02-18 Last modified: 2015-04-08

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Discussion:

TR1 5.1.4.2 [tr.rand.eng.mers](10) requires that operator== for the mersenne_twister returns true if and only if the states of two mersenne_twisters, consisting each of n integers between 0 and 2w - 1, are completely equal. This is a contradiction with TR1 5.1.1 [tr.rand.req](3) because the given definition of the state also includes the lower r bits of x(i-n), which will never be used to generate a random number. If two mersenne_twisters only differ in the lower bits of x(i-n) they will not compare equal, although they will produce an identical sequence of random numbers.

26.5.3.2 [rand.eng.mers] in the latest C++ draft does not specify the behaviour of operator== but uses a similar definition of the state and, just like TR1 5.1.4.2 [tr.rand.eng.mers], requires the textual representation of a mersenne_twister_engine to consist of Xi-n to Xi-1, including the lower bits of Xi-n. This leads to two problems: First, the unsuspecting implementer is likely to erroneously compare the lower r bits of Xi-n in operator==. Second, if only the lower r bits differ, two mersenne_twister_engines will compare equal (if correctly implemented) but have different textual representations, which conceptually is a bit ugly.

I propose that a paragraph or footnote is added to 26.5.3.2 [rand.eng.mers] which clarifies that the lower r bits of Xi-n are not to be compared in operator== and operator!=. It would only be consequent if furthermore the specification for the textual respresentation was changed to Xi-n bitand ((2w - 1) - (2r - 1)), Xi-(n-1), ..., Xi-1 or something similar.

These changes would likely have no practical effect, but would allow an implementation that does the right thing to be standard-conformant.

[ Bellevue: ]

Fermi Lab has no objection to the proposed change. However it feels that more time is needed to check the details, which would suggest a change to REVIEW.

Bill feels that this is NAD, not enough practical importance to abandon the simple definition of equality, and someone would have to do a lot more study to ensure that all cases are covered for a very small payback. The submitter admits that "These changes would likely have no practical effect,", and according to Plum's razor this means that it is not worth the effort!

Revisted: Agree that the fact that there is no practical difference means that no change can be justified.

Proposed resolution:

In 26.5.3.2 [rand.eng.mers]:

Insert at the end of para 2.:

[Note: The lower r bits of Xi-n do not influence the state transition and hence should not be compared when comparing two mersenne_twister_engine objects. -- end note]

In para 5. change:

The textual representation of xi consists of the values of Xi-n bitand ((2w - 1) - (2r - 1)), Xi-(n-1), ..., Xi-1, in that order.


802. knuth_b returns wrong value

Section: 26.5.5 [rand.predef] Status: NAD Submitter: P.J. Plauger Opened: 2008-02-20 Last modified: 2015-04-08

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Discussion:

The 10,000th value returned by knuth_b is supposed to be 1112339016. We get 2126698284.

Proposed resolution:

Change 26.5.5 [rand.predef]/p8:

typedef shuffle_order_engine<minstd_rand0, 256> 
        knuth_b; 

Required behavior: The 10000th consecutive invocation of a default-constructed object of type knuth_b shall produce the value 1112339016 2126698284.

[ Bellevue: Submitter withdraws defect. "We got the wrong value for entirely the right reasons". NAD. ]


812. unsolicited multithreading considered harmful?

Section: 25.4.1 [alg.sort] Status: NAD Editorial Submitter: Paul McKenney Opened: 2008-02-27 Last modified: 2015-04-08

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Discussion:

Multi-threading is a good thing, but unsolicited multi-threading can potentially be harmful. For example, sort() performance might be greatly increased via a multithreaded implementation. However, such a multithreaded implementation could result in concurrent invocations of the user-supplied comparator. This would in turn result in problems given a caching comparator that might be written for complex sort keys. Please note that this is not a theoretical issue, as multithreaded implementations of sort() already exist.

Having a multithreaded sort() available is good, but it should not be the default for programs that are not explicitly multithreaded. Users should not be forced to deal with concurrency unless they have asked for it.

[ This may be covered by N2410 Thread-Safety in the Standard Library (Rev 1). ]

Proposed resolution:

Rationale:

This is already covered by 17.6.5.6/20 in N2723.


822. Object with explicit copy constructor no longer CopyConstructible

Section: 17.6.3.1 [utility.arg.requirements] Status: NAD Submitter: James Kanze Opened: 2008-04-01 Last modified: 2015-04-08

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Discussion:

I just noticed that the following program is legal in C++03, but is forbidden in the current draft:

#include <vector>
#include <iostream>

class Toto
{
public:
    Toto() {}
    explicit Toto( Toto const& ) {}
} ;

int
main()
{
    std::vector< Toto > v( 10 ) ;
    return 0 ;
}

Is this change intentional? (And if so, what is the justification? I wouldn't call such code good, but I don't see any reason to break it unless we get something else in return.)

[ San Francisco: ]

The subgroup that looked at this felt this was a good change, but it may already be handled by incoming concepts (we're not sure).

[ Post Summit: ]

Alisdair: Proposed resolution kinda funky as these tables no longer exist. Move from direct init to copy init. Clarify with Doug, recommends NAD.

Walter: Suggest NAD via introduction of concepts.

Recommend close as NAD.

[ 2009-07 Frankfurt: ]

Need to look at again without concepts.

[ 2009-07 Frankfurt: ]

Move to Ready with original proposed resolution.

[Howard: Original proposed resolution restored.]

[ 2010-11 Batavia: ]

This issue was re-reviewed in relation to [another issue, number to follow], and the verdict was reversed. Explicit copy and move constructors are rare beasts, and the ripple effect of this fix was far more difficult to contain than simply saying such types do not satisfy the MoveConstructible and CopyConstructible requirements.

In 17.6.3.1 [utility.arg.requirements] change Table 33: MoveConstructible requirements [moveconstructible]:

expressionpost-condition
T t(rv) = rvt is equivalent to the value of rv before the construction
...

In 17.6.3.1 [utility.arg.requirements] change Table 34: CopyConstructible requirements [copyconstructible]:

expressionpost-condition
T t(u) = uthe value of u is unchanged and is equivalent to t
...

Proposed resolution:

Resolved by n3215.


826. Equivalent of %'d, or rather, lack thereof?

Section: 22.4.2.2 [locale.nm.put] Status: NAD Submitter: Peter Dimov Opened: 2008-04-07 Last modified: 2015-04-08

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Discussion:

In the spirit of printf vs iostream...

POSIX printf says that %'d should insert grouping characters (and the implication is that in the absence of ' no grouping characters are inserted). The num_put facet, on the other hand, seems to always insert grouping characters. Can this be considered a defect worth fixing for C++0x? Maybe ios_base needs an additional flag?

[ Pablo Halpern: ]

I'm not sure it constitutes a defect, but I would be in favor of adding another flag (and corresponding manipulator).

[ Martin Sebor: ]

I don't know if it qualifies as a defect but I agree that there should be an easy way to control whether the thousands separator should or shouldn't be inserted. A new flag would be in line with the current design of iostreams (like boolalpha, showpos, or showbase).

[ Sophia Antipolis: ]

This is not a part of C99. LWG suggests submitting a paper may be appropriate.

Proposed resolution:


830. Incomplete list of char_traits specializations

Section: 21.2 [char.traits] Status: NAD Editorial Submitter: Dietmar Kühl Opened: 2008-04-23 Last modified: 2015-04-08

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Discussion:

Paragraph 4 of 21.2 [char.traits] mentions that this section specifies two specializations (char_traits<char> and (char_traits<wchar_t>). However, there are actually four specializations provided, i.e. in addition to the two above also char_traits<char16_t> and char_traits<char32_t>). I guess this was just an oversight and there is nothing wrong with just fixing this.

[ Alisdair adds: ]

char_traits< char16/32_t > should also be added to <ios_fwd> in 27.3 [iostream.forward], and all the specializations taking a char_traits parameter in that header.

[ Sophia Antipolis: ]

Idea of the issue is ok.

Alisdair to provide wording, once that wording arrives, move to review.

[ 2009-05-04 Alisdair adds: ]

The main point of the issue was resolved editorially in N2723, so we are close to NAD Editorial. However, exploring the issue we found a second tweak was necessary for <iosfwd> and that is still outstanding, so here are the words I am long overdue delivering:

[ Howard: I've put Alisdair's words into the proposed wording section and moved the issue to Review. ]

[ Original proposed wording. ]

Replace paragraph 4 of 21.2 [char.traits] by:

This subclause specifies a struct template, char_traits<charT>, and four explicit specializations of it, char_traits<char>, char_traits<char16_t>, char_traits<char32_t>, and char_traits<wchar_t>, all of which appear in the header <string> and satisfy the requirements below.

[ Batavia (2009-05): ]

We agree. Move to NAD Editorial.

Proposed resolution:

Change Forward declarations 27.3 [iostream.forward]:

Header <iosfwd> synopsis

namespace std {
   template<class charT> class char_traits;
   template<> class char_traits<char>;
   template<> class char_traits<char16_t>;
   template<> class char_traits<char32_t>;
   template<> class char_traits<wchar_t>;
...
}

831. wrong type for not_eof()

Section: 21.2.3 [char.traits.specializations] Status: NAD Editorial Submitter: Dietmar Kühl Opened: 2008-04-23 Last modified: 2015-04-08

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Discussion:

In Table 56 (Traits requirements) the not_eof() member function is using an argument of type e which denotes an object of type X::int_type. However, the specializations in 21.2.3 [char.traits.specializations] all use char_type. This would effectively mean that the argument type actually can't represent EOF in the first place. I'm pretty sure that the type used to be int_type which is quite obviously the only sensible argument.

This issue is close to being editorial. I suspect that the proposal changing this section to include the specializations for char16_t and char32_t accidentally used the wrong type.

Proposed resolution:

In 21.2.3.1 [char.traits.specializations.char], 21.2.3.2 [char.traits.specializations.char16_t], 21.2.3.3 [char.traits.specializations.char32_t], and [char.traits.specializations.wchar_t] correct the argument type from char_type to int_type.

Rationale:

Already fixed in WP.


832. Applying constexpr to System error support

Section: 19.5 [syserr] Status: NAD Submitter: Beman Dawes Opened: 2008-05-14 Last modified: 2015-04-08

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Discussion:

Initialization of objects of class error_code (19.5.2 [syserr.errcode]) and class error_condition (19.5.3 [syserr.errcondition]) can be made simpler and more reliable by use of the new constexpr feature [N2349] of C++0x. Less code will need to be generated for both library implementations and user programs when manipulating constant objects of these types.

This was not proposed originally because the constant expressions proposal was moving into the standard at about the same time as the Diagnostics Enhancements proposal [N2241], and it wasn't desirable to make the later depend on the former. There were also technical concerns as to how constexpr would apply to references. Those concerns are now resolved; constexpr can't be used for references, and that fact is reflected in the proposed resolution.

Thanks to Jens Maurer, Gabriel Dos Reis, and Bjarne Stroustrup for clarification of constexpr requirements.

LWG issue 804 is related in that it raises the question of whether the exposition only member cat_ of class error_code (19.5.2 [syserr.errcode]) and class error_condition (19.5.3 [syserr.errcondition]) should be presented as a reference or pointer. While in the context of 804 that is arguably an editorial question, presenting it as a pointer becomes more or less required with this proposal, given constexpr does not play well with references. The proposed resolution thus changes the private member to a pointer, which also brings it in sync with real implementations.

[ Sophia Antipolis: ]

On going question of extern pointer vs. inline functions for interface.

[ Pre-San Francisco: ]

Beman Dawes reports that this proposal is unimplementable, and thus NAD.

Implementation would require constexpr objects of classes derived from class error_category, which has virtual functions, and that is not allowed by the core language. This was determined when trying to implement the proposal using a constexpr enabled compiler provided by Gabriel Dos Reis, and subsequently verified in discussions with Gabriel and Jens Maurer.

Proposed resolution:

The proposed wording assumes the LWG 805 proposed wording has been applied to the WP, resulting in the former posix_category being renamed generic_category. If 805 has not been applied, the names in this proposal must be adjusted accordingly.

Change 19.5.1.1 [syserr.errcat.overview] Class error_category overview error_category synopsis as indicated:

const error_category& get_generic_category();
const error_category& get_system_category();

static extern const error_category&* const generic_category = get_generic_category();
static extern const error_category&* const native_category system_category = get_system_category();

Change 19.5.1.5 [syserr.errcat.objects] Error category objects as indicated:

extern const error_category&* const get_generic_category();

Returns: A reference generic_category shall point to an a statically initialized object of a type derived from class error_category.

Remarks: The object's default_error_condition and equivalent virtual functions shall behave as specified for the class error_category. The object's name virtual function shall return a pointer to the string "GENERIC".

extern const error_category&* const get_system_category();

Returns: A reference system_category shall point to an a statically initialized object of a type derived from class error_category.

Remarks: The object's equivalent virtual functions shall behave as specified for class error_category. The object's name virtual function shall return a pointer to the string "system". The object's default_error_condition virtual function shall behave as follows:

If the argument ev corresponds to a POSIX errno value posv, the function shall return error_condition(posv, generic_category). Otherwise, the function shall return error_condition(ev, system_category). What constitutes correspondence for any given operating system is unspecified. [Note: The number of potential system error codes is large and unbounded, and some may not correspond to any POSIX errno value. Thus implementations are given latitude in determining correspondence. -- end note]

Change 19.5.2.1 [syserr.errcode.overview] Class error_code overview as indicated:

class error_code {
public:
  ...;
  constexpr error_code(int val, const error_category&* cat);
  ...
  void assign(int val, const error_category&* cat);
  ...
  const error_category&* category() const;
  ...
private:
  int val_;                    // exposition only
  const error_category&* cat_; // exposition only

Change 19.5.2.2 [syserr.errcode.constructors] Class error_code constructors as indicated:

constexpr error_code(int val, const error_category&* cat);

Effects: Constructs an object of type error_code.

Postconditions: val_ == val and cat_ == cat.

Throws: Nothing.

Change 19.5.2.3 [syserr.errcode.modifiers] Class error_code modifiers as indicated:

void assign(int val, const error_category&* cat);

Postconditions: val_ == val and cat_ == cat.

Throws: Nothing.

Change 19.5.2.4 [syserr.errcode.observers] Class error_code observers as indicated:

const error_category&* category() const;

Returns: cat_.

Throws: Nothing.

Change 19.5.3.1 [syserr.errcondition.overview] Class error_condition overview as indicated:

class error_condition {
public:
  ...;
  constexpr error_condition(int val, const error_category&* cat);
  ...
  void assign(int val, const error_category&* cat);
  ...
  const error_category&* category() const;
  ...
private:
  int val_;                    // exposition only
  const error_category&* cat_; // exposition only

Change 19.5.3.2 [syserr.errcondition.constructors] Class error_condition constructors as indicated:

constexpr error_condition(int val, const error_category&* cat);

Effects: Constructs an object of type error_condition.

Postconditions: val_ == val and cat_ == cat.

Throws: Nothing.

Change 19.5.3.3 [syserr.errcondition.modifiers] Class error_condition modifiers as indicated:

void assign(int val, const error_category&* cat);

Postconditions: val_ == val and cat_ == cat.

Throws: Nothing.

Change 19.5.3.4 [syserr.errcondition.observers] Class error_condition observers as indicated:

const error_category&* category() const;

Returns: cat_.

Throws: Nothing.

Throughout 19.5 [syserr] System error support, change "category()." to "category()->". Appears approximately six times.

[Partially Editorial] In 19.5.4 [syserr.compare] Comparison operators, paragraphs 2 and 4, change "category.equivalent(" to "category()->equivalent(".

Change 19.5.6.1 [syserr.syserr.overview] Class system_error overview as indicated:

public:
  system_error(error_code ec, const string& what_arg);
  system_error(error_code ec);
  system_error(int ev, const error_category&* ecat,
      const string& what_arg);
  system_error(int ev, const error_category&* ecat);

Change 19.5.6.2 [syserr.syserr.members] Class system_error members as indicated:

system_error(int ev, const error_category&* ecat, const string& what_arg);

Effects: Constructs an object of class system_error.

Postconditions: code() == error_code(ev, ecat) and strcmp(runtime_error::what(), what_arg.c_str()) == 0.

system_error(int ev, const error_category&* ecat);

Effects: Constructs an object of class system_error.

Postconditions: code() == error_code(ev, ecat) and strcmp(runtime_error::what(), "") == 0.

Rationale:

[ San Francisco: ]

NAD because Beman said so.


833. Freestanding implementations header list needs review for C++0x

Section: 17.6.1.3 [compliance] Status: NAD Submitter: Beman Dawes Opened: 2008-05-14 Last modified: 2015-04-08

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Discussion:

Once the C++0x standard library is feature complete, the LWG needs to review 17.6.1.3 [compliance] Freestanding implementations header list to ensure it reflects LWG consensus.

[ San Francisco: ]

This is a placeholder defect to remind us to review the table once we've stopped adding headers to the library.

Three new headers that need to be added to the list:

<initializer_list> <concept> <iterator_concepts>

<iterator_concepts>, in particular, has lots of stuff that isn't needed, so maybe the stuff that is needed should be broken out into a separate header.

Robert: What about reference_closure? It's currently in <functional>.

[ Post Summit Daniel adds: ]

  1. The comment regarding reference_closure seems moot since it was just recently decided to remove that.
  2. A reference to proposal N2814 ("Fixing freestanding") should be added. This paper e.g. proposes to add only <initializer_list> to the include list of freestanding.

[ 2009-07 Frankfurt: ]

Addressed by paper N2814.

Move to NAD.

Proposed resolution:


837. basic_ios::copyfmt() overly loosely specified

Section: 27.5.5.3 [basic.ios.members] Status: NAD Editorial Submitter: Martin Sebor Opened: 2008-05-17 Last modified: 2015-04-08

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Discussion:

The basic_ios::copyfmt() member function is specified in 27.5.5.3 [basic.ios.members] to have the following effects:

Effects: If (this == &rhs) does nothing. Otherwise assigns to the member objects of *this the corresponding member objects of rhs, except that

Since the rest of the text doesn't specify what the member objects of basic_ios are this seems a little too loose.

[ Batavia (2009-05): ]

We agree with the proposed resolution. Move to NAD Editorial.

Proposed resolution:

I propose to tighten things up by adding a Postcondition clause to the function like so:

Postconditions:

copyfmt() postconditions
Element Value
rdbuf() unchanged
tie() rhs.tie()
rdstate() unchanged
exceptions() rhs.exceptions()
flags() rhs.flags()
width() rhs.width()
precision() rhs.precision()
fill() rhs.fill()
getloc() rhs.getloc()

The format of the table follows Table 117 (as of N2588): basic_ios::init() effects.

The intent of the new table is not to impose any new requirements or change existing ones, just to be more explicit about what I believe is already there.


840. pair default template argument

Section: 20.3 [pairs] Status: NAD Submitter: Thorsten Ottosen Opened: 2008-05-23 Last modified: 2015-04-08

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Discussion:

I have one issue with std::pair. Well, it might just be a very annoying historical accident, but why is there no default template argument for the second template argument? This is so annoying when the type in question is looong and hard to write (type deduction with auto won't help those cases where we use it as a return or argument type).

Proposed resolution:

Change the synopsis in 20.2 [utility] to read:

template <class T1, class T2 = T1> struct pair;

Change 20.3 [pairs] to read:

namespace std {
 template <class T1, class T2 = T1>
 struct pair {
   typedef T1 first_type;
   typedef T2 second_type;
   ...

Rationale:

std::pair is a heterogeneous container.


841. cstdint.syn inconsistent with C99

Section: 18.4.1 [cstdint.syn] Status: NAD Editorial Submitter: Martin Sebor Opened: 2008-05-17 Last modified: 2015-04-08

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Discussion:

In specifying the names of macros and types defined in header <stdint.h>, C99 makes use of the symbol N to accommodate unusual platforms with word sizes that aren't powers of two. C99 permits N to take on any positive integer value (including, for example, 24).

In cstdint.syn Header <cstdint> synopsis, C++ on the other hand, fixes the value of N to 8, 16, 32, and 64, and specifies only types with these exact widths.

In addition, paragraph 1 of the same section makes use of a rather informal shorthand notation to specify sets of macros. When interpreted strictly, the notation specifies macros such as INT_8_MIN that are not intended to be specified.

Finally, the section is missing the usual table of symbols defined in that header, making it inconsistent with the rest of the specification.

Proposed resolution:

I propose to use the same approach in the C++ spec as C99 uses, that is, to specify the header synopsis in terms of "exposition only" types that make use of the symbol N to denote one or more of a theoretically unbounded set of widths.

Further, I propose to add a new table to section listing the symbols defined in the header using a more formal notation that avoids introducing inconsistencies.

To this effect, in cstdint.syn Header <cstdint> synopsis, replace both the synopsis and paragraph 1 with the following text:

  1. In the names defined in the <cstdint> header, the symbol N represents a positive decimal integer with no leading zeros (e.g., 8 or 24, but not 0, 04, or 048). With the exception of exact-width types, macros and types for values of N in the set of 8, 16, 32, and 64 are required. Exact-width types, and any macros and types for values of N other than 8, 16, 32, and 64 are optional. However, if an implementation provides integer types with widths of 8, 16, 32, or 64 bits, the corresponding exact-width types and macros are required.
namespace std {

   // required types

   // Fastest minimum-width integer types
   typedef signed integer type   int_fast8_t;
   typedef signed integer type   int_fast16_t;
   typedef signed integer type   int_fast32_t;
   typedef signed integer type   int_fast64_t;

   typedef unsigned integer type uint_fast8_t;
   typedef unsigned integer type uint_fast16_t;
   typedef unsigned integer type uint_fast32_t;
   typedef unsigned integer type uint_fast64_t;

   // Minimum-width integer types
   typedef signed integer type   int_least8_t;
   typedef signed integer type   int_least16_t;
   typedef signed integer type   int_least32_t;
   typedef signed integer type   int_least64_t;

   typedef unsigned integer type uint_least8_t;
   typedef unsigned integer type uint_least16_t;
   typedef unsigned integer type uint_least32_t;
   typedef unsigned integer type uint_least64_t;

   // Greatest-width integer types
   typedef signed integer type   intmax_t;
   typedef unsigned integer type uintmax_t;

   // optionally defined types

   // Exact-width integer types
   typedef signed integer type   intN_t;
   typedef unsigned integer type uintN_t;

   // Fastest minimum-width integer types for values
   // of N other than 8, 16, 32, and 64
   typedef signed integer type   uint_fastN_t;
   typedef unsigned integer type uint_fastN_t;

   // Minimum-width integer types for values
   // of N other than 8, 16, 32, and 64
   typedef signed integer type   uint_leastN_t;
   typedef unsigned integer type uint_leastN_t;

   // Integer types capable of holding object pointers
   typedef signed integer type   intptr_t;
   typedef signed integer type   intptr_t;

}

[Note to editor: Remove all of the existing paragraph 1 from cstdint.syn.]

Table ??: Header <cstdint> synopsis

Type Name(s)
Macros: INTN_MIN INTN_MAX UINTN_MAX
INT_FASTN_MIN INT_FASTN_MAX UINT_FASTN_MAX
INT_LEASTN_MIN INT_LEASTN_MAX UINT_LEASTN_MAX
INTPTR_MIN INTPTR_MAX UINTPTR_MAX
INTMAX_MIN INTMAX_MAX UINTMAX_MAX
PTRDIFF_MIN PTRDIFF_MAX PTRDIFF_MAX
SIG_ATOMIC_MIN SIG_ATOMIC_MAX SIZE_MAX
WCHAR_MIN WCHAR_MAX
WINT_MIN WINT_MAX
INTN_C() UINTN_C()
INTMAX_C() UINTMAX_C()
Types: intN_t uintN_t
int_fastN_t uint_fastN_t
int_leastN_t uint_leastN_t
intptr_t uintptr_t
intmax_t uintmax_t

849. missing type traits to compute root class and derived class of types in a class hierachy

Section: 20.10.7.6 [meta.trans.other] Status: NAD Submitter: Thorsten Ottosen Opened: 2008-06-05 Last modified: 2015-04-08

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Discussion:

The type traits library contains various traits to dealt with polymorphic types, e.g. std::has_virtual_destructor, std::is_polymorphic and std::is_base_of. However, there is no way to compute the unique public base class of a type if such one exists. Such a trait could be very useful if one needs to instantiate a specialization made for the root class whenever a derived class is passed as parameter. For example, imagine that you wanted to specialize std::hash for a class hierarchy---instead of specializing each class, you could specialize the std::hash<root_class> and provide a partial specialization that worked for all derived classes.

This ability---to specify operations in terms of their equivalent in the root class---can be done with e.g. normal functions, but there is, AFAIK, no way to do it for class templates. Being able to access compile-time information about the type-hierachy can be very powerful, and I therefore also suggest traits that computes the directly derived class whenever that is possible.

If the computation can not be done, the traits should fall back on an identity transformation. I expect this gives the best overall usability.

Proposed resolution:

Add the following to the synopsis in 20.10.2 [meta.type.synop] under "other transformations":

template< class T > struct direct_base_class;
template< class T > struct direct_derived_class;
template< class T > struct root_base_class;

Add three new entries to table 51 (20.10.7.6 [meta.trans.other]) with the following content

TemplateConditionComments
template< class T > struct direct_base_class; T shall be a complete type. The member typedef type shall equal the accessible unambiguous direct base class of T. If no such type exists, the member typedef type shall equal T.
template< class T > struct direct_derived_class; T shall be a complete type. The member typedef type shall equal the unambiguous type which has T as an accessible unambiguous direct base class. If no such type exists, the member typedef type shall equal T.
template< class T > struct root_base_class; T shall be a complete type. The member typedef type shall equal the accessible unambiguous most indirect base class of T. If no such type exists, the member typedef type shall equal T.

Rationale:

2008-9-16 San Francisco: Issue pulled by author prior to being reviewed by the LWG.


855. capacity() and reserve() for deque?

Section: 23.3.3.3 [deque.capacity] Status: NAD Submitter: Hervé Brönnimann Opened: 2008-06-11 Last modified: 2015-04-08

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Discussion:

The main point is that capacity can be viewed as a mechanism to guarantee the validity of iterators when only push_back/pop_back operations are used. For vector, this goes with reallocation. For deque, this is a bit more subtle: capacity() of a deque may shrink, whereas that of vector doesn't. In a circular buffer impl. of the map, as Howard did, there is very similar notion of capacity: as long as size() is less than B * (total size of the map - 2), it is guaranteed that no iterator is invalidated after any number of push_front/back and pop_front/back operations. But this does not hold for other implementations.

Still, I believe, capacity() can be defined by size() + how many push_front/back minus pop_front/back that can be performed before terators are invalidated. In a classical impl., capacity() = size() + the min distance to either "physical" end of the deque (i.e., counting the empty space in the last block plus all the blocks until the end of the map of block pointers). In Howard's circular buffer impl., capacity() = B * (total size of the map - 2) still works with this definition, even though the guarantee could be made stronger.

A simple picture of a deque:

A-----|----|-----|---F+|++++|++B--|-----|-----Z

(A,Z mark the beginning/end, | the block boundaries, F=front, B=back, and - are uninitialized, + are initialized) In that picture: capacity = size() + min(dist(A,F),dist(B,Z)) = min (dist(A,B),dist(F,Z)).

Reserve(n) can grow the map of pointers and add possibly a number of empty blocks to it, in order to guarantee that the next n-size() push_back/push_front operations will not invalidate iterators, and also will not allocate (i.e. cannot throw). The second guarantee is not essential and can be left as a QoI. I know well enough existing implementations of deque (sgi/stl, roguewave, stlport, and dinkumware) to know that either can be implemented with no change to the existing class layout and code, and only a few modifications if blocks are pre-allocated (instead of always allocating a new block, check if the next entry in the map of block pointers is not zero).

Due to the difference with vector, wording is crucial. Here's a proposed wording to make things concrete; I tried to be reasonably careful but please double-check me:

[ San Francisco: ]

Hans: should the Returns clause for capacity read "1 Returns: A lower bound..." rather than "1 Returns: An upper bound..."

Howard: maybe what's needed is capacity_front and capacity_back. In fact, I think I implemented a deque that had these members as implementation details.

Proposed resolution:

Add new signatures to synopsis in 23.3.3 [deque]:

size_type capacity() const;
bool reserve(size_type n);

Add new signatures to 23.3.3.3 [deque.capacity]:

size_type capacity() const;

1 Returns: An upper bound on n + max(n_f - m_f, n_b - m_b) such that, for any sequence of n_f push_front, m_f pop_front, n_b push_back, and m_b pop_back operations, interleaved in any order, starting with the current deque of size n, the deque does not invalidate any of its iterators except to the erased elements.

2 Remarks: Unlike a vector's capacity, the capacity of a deque can decrease after a sequence of insertions at both ends, even if none of the operations caused the deque to invalidate any of its iterators except to the erased elements.

bool reserve(size_type n);

2 Effects: A directive that informs a deque of a planned sequence of push_front, pop_front, push_back, and pop_back operations, so that it can manage iterator invalidation accordingly. After reserve(), capacity() is greater or equal to the argument of reserve if this operation returns true; and equal to the previous value of capacity() otherwise. If an exception is thrown, there are no effects.

3 Returns: true if iterators are invalidated as a result of this operation, and false otherwise.

4 Complexity: It does not change the size of the sequence and takes at most linear time in n.

5 Throws: length_error if n > max_size().

6 Remarks: It is guaranteed that no invalidation takes place during a sequence of insert or erase operations at either end that happens after a call to reserve() except to the erased elements, until the time when an insertion would make max(n_f-m_f, n_b-m_b) larger than capacity(), where n_f is the number of push_front, m_f of pop_front, n_b of push_back, and m_b of pop_back operations since the call to reserve().

7 An implementation is free to pre-allocate buffers so as to offer the additional guarantee that no exception will be thrown during such a sequence other than by the element constructors.

And 23.3.3.4 [deque.modifiers] para 1, can be enhanced:

1 Effects: An insertion in the middle of the deque invalidates all the iterators and references to elements of the deque. An insertion at either end of the deque invalidates all the iterators to the deque, unless provisions have been made with reserve, but has no effect on the validity of references to elements of the deque.

Rationale:

Complication outweighs the benefit.


862. Impossible complexity for 'includes'

Section: 25.4.5.1 [includes] Status: NAD Editorial Submitter: Alisdair Meredith Opened: 2008-07-02 Last modified: 2015-04-08

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Discussion:

In 25.4.5.1 [includes] the complexity is "at most -1 comparisons" if passed two empty ranges. I don't know how to perform a negative number of comparisions!

This same issue also applies to:

[ 2009-03-30 Beman adds: ]

Suggest NAD. The complexity of empty ranges is -1 in other places in the standard. See 25.4.4 [alg.merge] merge and inplace_merge, and forward_list merge, for example. The time and effort to find and fix all places in the standard where empty range[s] result in negative complexity isn't worth the very limited benefit.

[ 2009-05-09 Alisdair adds: ]

I'm not happy with NAD if we can find a simple solution.

How about adding a rider somewhere in clause 17 suggesting that complexities that specify a negative number of operations are treated as specifying zero operations? That should generically solve the issue without looking for further cases.

[ Batavia (2009-05): ]

Pete to provide "straightforward" wording. Move to NAD Editorial.

Proposed resolution:

Recommend NAD.


863. What is the state of a stream after close() succeeds

Section: 27.9.1 [fstreams] Status: NAD Submitter: Steve Clamage Opened: 2008-07-08 Last modified: 2015-04-08

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Discussion:

Suppose writing to an [o]fstream fails and you later close the stream. The overflow() function is called to flush the buffer (if it exists). Then the file is unconditionally closed, as if by calling flcose.

If either overflow or fclose fails, close() reports failure, and clearly the stream should be in a failed or bad state.

Suppose the buffer is empty or non-existent (so that overflow() does not fail), and fclose succeeds. The close() function reports success, but what is the state of the stream?

[ Batavia (2009-05): ]

Tom's impression is that the issue is about the failbit, etc.

Bill responds that the stream is now closed, and any status bits remain unchanged.

See the description of close() in 27.9.1.17 [fstream.members].

We prefer not to add wording to say that nothing changes. Move to NAD.

Proposed resolution:


864. Defect in atomic wording

Section: 29.6 [atomics.types.operations] Status: NAD Editorial Submitter: Anthony Williams Opened: 2008-07-10 Last modified: 2015-04-08

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Discussion:

There's an error in 29.6 [atomics.types.operations]/p9:

C atomic_load(const volatile A * object);
C atomic_load_explicit(const volatile A * object, memory_order);
C A ::load(memory_order order = memory_order_seq_cst) const volatile;

Requires: The order argument shall not be memory_order_acquire nor memory_order_acq_rel.

I believe that this should state

shall not be memory_order_release.

There's also an error in 29.6 [atomics.types.operations]/p17:

... When only one memory_order argument is supplied, the value of success is order, and the value of failure is order except that a value of memory_order_acq_rel shall be replaced by the value memory_order_require ...

I believe this should state

shall be replaced by the value memory_order_acquire ...

Proposed resolution:

Change 29.6 [atomics.types.operations]/p9:

C atomic_load(const volatile A * object);
C atomic_load_explicit(const volatile A * object, memory_order);
C A ::load(memory_order order = memory_order_seq_cst) const volatile;

Requires: The order argument shall not be memory_order_acquire memory_order_release nor memory_order_acq_rel.

Change 29.6 [atomics.types.operations]/p17:

... When only one memory_order argument is supplied, the value of success is order, and the value of failure is order except that a value of memory_order_acq_rel shall be replaced by the value memory_order_require memory_order_acquire ...

Rationale:

Already fixed by the time the LWG processed it.


867. Valarray and value-initialization

Section: 26.6.2.2 [valarray.cons] Status: NAD Editorial Submitter: Alberto Ganesh Barbati Opened: 2008-07-20 Last modified: 2015-04-08

View all other issues in [valarray.cons].

View all issues with NAD Editorial status.

Discussion:

From 26.6.2.2 [valarray.cons], paragraph 2:

explicit  valarray(size_t);

The array created by this constructor has a length equal to the value of the argument. The elements of the array are constructed using the default constructor for the instantiating type T.

The problem is that the most obvious Ts for valarray are float and double, they don't have a default constructor. I guess the intent is to value-initialize the elements, so I suggest replacing:

The elements of the array are constructed using the default constructor for the instantiating type T.

with

The elements of the array are value-initialized.

There is another reference to the default constructor of T in the non-normative note in paragraph 9. That reference should also be replaced. (The normative wording in paragraph 8 refers to T() and so it doesn't need changes).

[ Batavia (2009-05): ]

We agree with the proposed resolution. Move to NAD Editorial.

Proposed resolution:

Change 26.6.2.2 [valarray.cons], paragraph 2:

explicit  valarray(size_t);

The array created by this constructor has a length equal to the value of the argument. The elements of the array are constructed using the default constructor for the instantiating type T value-initialized (8.5 [dcl.init]).

Change 26.6.2.8 [valarray.members], paragraph 9:

[Example: If the argument has the value -2, the first two elements of the result will be constructed using the default constructor value-initialized (8.5 [dcl.init]); the third element of the result will be assigned the value of the first element of the argument; etc. -- end example]


873. signed integral type and unsigned integral type are not clearly defined

Section: 3.9.1 [basic.fundamental] Status: NAD Editorial Submitter: Travis Vitek Opened: 2008-06-30 Last modified: 2015-04-08

View all issues with NAD Editorial status.

Discussion:

Neither the term "signed integral type" nor the term "unsigned integral type" is defined in the core language section of the standard, therefore the library section should avoid its use. The terms signed integer type and unsigned integer type are indeed defined (in 3.9.1 [basic.fundamental]), thus the usages should be replaced accordingly.

Note that the key issue here is that "signed" + "integral type" != "signed integral type". The types bool, char, char16_t, char32_t and wchar_t are all listed as integral types, but are neither of signed integer type or unsigned integer type. According to 3.9 [basic.types] p7, a synonym for integral type is integer type. Given this, one may choose to assume that an integral type that can represent values less than zero is a signed integral type. Unfortunately this can cause ambiguities. As an example, if T is unsigned char, the expression make_signed<T>::type, is supposed to name a signed integral type. There are potentially two types that satisfy this requirement, namely signed char and char (assuming CHAR_MIN < 0).

[ San Francisco: ]

Plum, Sebor to review.

[ Post Summit Daniel adds: ]

The proposed resolution needs to be "conceptualized". Currently we have in [concept.support] only concept IntegralType for all "integral types", thus indeed the current Container concept and Iterator concepts are sufficiently satisfied with "integral types". If the changes are applied, we might ask core for concept BilateralIntegerType and add proper restrictions to the library concepts.

Proposed resolution:

I propose to use the terms "signed integer type" and "unsigned integer type" in place of "signed integral type" and "unsigned integral type" to eliminate such ambiguities.

The proposed change makes it absolutely clear that the difference between two pointers cannot be char or wchar_t, but could be any of the signed integer types. 5.7 [expr.add] paragraph 6...

  1. When two pointers to elements of the same array object are subtracted, the result is the difference of the subscripts of the two array elements. The type of the result is an implementation-defined signed integral typesigned integer type; this type shall be the same type that is defined as std::ptrdiff_t in the <cstdint> header (18.1)...

The proposed change makes it clear that X::size_type and X::difference_type cannot be char or wchar_t, but could be one of the signed or unsigned integer types as appropriate. 17.6.3.5 [allocator.requirements] table 40...

Table 40: Allocator requirements

expression return type assertion/note/pre/post-condition
X::size_type unsigned integral type unsigned integer type a type that can represent the size of the largest object in the allocation model.
X::difference_type signed integral type signed integer type a type that can represent the difference between any two pointers in the allocation model.

The proposed change makes it clear that make_signed<T>::type must be one of the signed integer types as defined in 3.9.1. Ditto for make_unsigned<T>type and unsigned integer types. 20.10.7.3 [meta.trans.sign] table 48...

Table 48: Sign modifications

Template Comments
template <class T> struct make_signed; If T names a (possibly cv-qualified) signed integral typesigned integer type (3.9.1) then the member typedef type shall name the type T; otherwise, if T names a (possibly cv-qualified) unsigned integral typeunsigned integer type then type shall name the corresponding signed integral typesigned integer type, with the same cv-qualifiers as T; otherwise, type shall name the signed integral typesigned integer type with the smallest rank (4.13) for which sizeof(T) == sizeof(type), with the same cv-qualifiers as T. Requires: T shall be a (possibly cv-qualified) integral type or enumeration but not a bool type.
template <class T> struct make_unsigned; If T names a (possibly cv-qualified) unsigned integral typeunsigned integer type (3.9.1) then the member typedef type shall name the type T; otherwise, if T names a (possibly cv-qualified) signed integral typesigned integer type then type shall name the corresponding unsigned integral typeunsigned integer type, with the same cv-qualifiers as T; otherwise, type shall name the unsigned integral typeunsigned integer type with the smallest rank (4.13) for which sizeof(T) == sizeof(type), with the same cv-qualifiers as T. Requires: T shall be a (possibly cv-qualified) integral type or enumeration but not a bool type.

Note: I believe that the basefield values should probably be prefixed with ios_base:: as they are in 22.4.2.2.2 [facet.num.put.virtuals] The listed virtuals are all overloaded on signed and unsigned integer types, the new wording just maintains consistency. 22.4.2.1.2 [facet.num.get.virtuals] table 78...

Table 78: Integer Conversions

State stdio equivalent
basefield == oct %o
basefield == hex %X
basefield == 0 %i
signed integral typesigned integer type %d
unsigned integral typeunsigned integer type %u

Rationale is same as above. 22.4.2.2.2 [facet.num.put.virtuals] table 80...

Table 80: Integer Conversions

State stdio equivalent
basefield == ios_base::oct %o
(basefield == ios_base::hex) && !uppercase %x
(basefield == ios_base::hex) %X
basefield == 0 %i
for a signed integral typesigned integer type %d
for a unsigned integral typeunsigned integer type %u

23.2 [container.requirements] table 80...

Table 89: Container requirements

expression return type operational semantics assertion/note/pre/post-condition complexity
X::difference_type signed integral typesigned integer type   is identical to the difference type of X::iterator and X::const_iterator compile time
X::size_type unsigned integral typeunsigned integer type   size_type can represent any non-negative value of difference_type compile time

X [iterator.concepts] paragraph 1...

Iterators are a generalization of pointers that allow a C++ program to work with different data structures (containers) in a uniform manner. To be able to construct template algorithms that work correctly and efficiently on different types of data structures, the library formalizes not just the interfaces but also the semantics and complexity assumptions of iterators. All input iterators i support the expression *i, resulting in a value of some class, enumeration, or built-in type T, called the value type of the iterator. All output iterators support the expression *i = o where o is a value of some type that is in the set of types that are writable to the particular iterator type of i. All iterators i for which the expression (*i).m is well-defined, support the expression i->m with the same semantics as (*i).m. For every iterator type X for which equality is defined, there is a corresponding signed integral type signed integer type called the difference type of the iterator.

I'm a little unsure of this change. Previously this paragraph would allow instantiations of linear_congruential_engine on char, wchar_t, bool, and other types. The new wording prohibits this. 26.5.3.1 [rand.eng.lcong] paragraph 2...

The template parameter UIntType shall denote an unsigned integral typeunsigned integer type large enough to store values as large as m - 1. If the template parameter m is 0, the modulus m used throughout this section 26.4.3.1 is numeric_limits<result_type>::max() plus 1. [Note: The result need not be representable as a value of type result_type. --end note] Otherwise, the following relations shall hold: a < m and c < m.

Same rationale as the previous change. X [rand.adapt.xor] paragraph 6...

Both Engine1::result_type and Engine2::result_type shall denote (possibly different) unsigned integral typesunsigned integer types. The member result_type shall denote either the type Engine1::result_type or the type Engine2::result_type, whichever provides the most storage according to clause 3.9.1.

26.5.7.1 [rand.util.seedseq] paragraph 7...

Requires:RandomAccessIterator shall meet the requirements of a random access iterator (24.1.5) such that iterator_traits<RandomAccessIterator>::value_type shall denote an unsigned integral typeunsigned integer type capable of accomodating 32-bit quantities.

By making this change, integral types that happen to have a signed representation, but are not signed integer types, would no longer be required to use a two's complement representation. This may go against the original intent, and should be reviewed. 29.6 [atomics.types.operations] paragraph 24...

Remark: For signed integral typessigned integer types, arithmetic is defined using two's complement representation. There are no undefined results. For address types, the result may be an undefined address, but the operations otherwise have no undefined behavior.


879. Atomic load const qualification

Section: 29 [atomics] Status: NAD Editorial Submitter: Alexander Chemeris Opened: 2008-08-24 Last modified: 2015-04-08

View all other issues in [atomics].

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Discussion:

The atomic_address type and atomic<T*> specialization provide atomic updates to pointers. However, the current specification requires that the types pointer be to non-const objects. This restriction is unnecessary and unintended.

[ Summit: ]

Move to review. Lawrence will first check with Peter whether the current examples are sufficient, or whether they need to be expanded to include all cases.

[ 2009-07 Frankfurt ]

Lawrence will handle all issues relating to atomics in a single paper.

LWG will defer discussion on atomics until that paper appears.

Move to Open.

[ 2009-08-17 Handled by N2925. ]

[ 2009-10 Santa Cruz: ]

NAD Editorial. Solved by N2992.

Proposed resolution:

Add const qualification to the pointer values of the atomic_address and atomic<T*> specializations. E.g.

typedef struct atomic_address {
   void store(const void*, memory_order = memory_order_seq_cst) volatile;
   void* exchange( const void*, memory_order = memory_order_seq_cst) volatile;
   bool compare_exchange( const void*&, const void*,
                          memory_order, memory_order) volatile;
   bool compare_exchange( const void*&, const void*,
                          memory_order = memory_order_seq_cst ) volatile;
   void* operator=(const void*) volatile;
} atomic_address;

void atomic_store(volatile atomic_address*, const void*);
void atomic_store_explicit(volatile atomic_address*, const void*,
                          memory_order);
void* atomic_exchange(volatile atomic_address*, const void*);
void* atomic_exchange_explicit(volatile atomic_address*, const void*,
                              memory_order);
bool atomic_compare_exchange(volatile atomic_address*,
                            const void**, const void*);
bool atomic_compare_exchange_explicit(volatile atomic_address*,
                                     const void**, const void*,
                                     memory_order, memory_order);

887. issue with condition::wait_...

Section: 30.5.1 [thread.condition.condvar] Status: NAD Submitter: Lawrence Crowl Opened: 2008-09-15 Last modified: 2015-04-08

View all other issues in [thread.condition.condvar].

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Discussion:

The Posix/C++ working group has identified an inconsistency between Posix and the C++ working draft in that Posix requires the clock to be identified at creation, whereas C++ permits identifying the clock at the call to wait. The latter cannot be implemented with the former.

[ San Francisco: ]

Howard recommends NAD with the following explanation:

The intent of the current wording is for the condtion_variable::wait_until be able to handle user-defined clocks as well as clocks the system knows about. This can be done by providing overloads for the known clocks, and another overload for unknown clocks which synchs to a known clock before waiting. For example:

template <class Duration>
bool
condition_variable::wait_until(unique_lock<mutex>& lock,
                               const chrono::time_point<chrono::system_clock, Duration>& abs_time)
{
    using namespace chrono;
    nanoseconds d = __round_up<nanoseconds>(abs_time.time_since_epoch());
    __do_timed_wait(lock.mutex()->native_handle(), time_point<system_clock, nanoseconds>(d));
    return system_clock::now() < abs_time;
}

template <class Clock, class Duration>
bool
condition_variable::wait_until(unique_lock<mutex>& lock,
                               const chrono::time_point<Clock, Duration>& abs_time)
{
    using namespace chrono;
    system_clock::time_point    s_entry = system_clock::now();
    typename Clock::time_point  c_entry = Clock::now();
    nanoseconds dn = __round_up<nanoseconds>(abs_time.time_since_epoch() -
                                              c_entry.time_since_epoch());
    __do_timed_wait(lock.mutex()->native_handle(), s_entry + dn);
    return Clock::now() < abs_time;
}

In the above example, system_clock is the only clock which the underlying condition variable knows how to deal with. One overload just passes that clock through. The second overload (approximately) converts the unknown clock into a system_clock time_point prior to passing it down to the native condition variable.

On Posix systems vendors are free to add implementation defined constructors which take a clock. That clock can be stored in the condition_variable, and converted to (or not as necessary) as shown above.

If an implementation defined constructor takes a clock (for example), then part of the semantics for that implementation defined ctor might include that a wait_until using a clock other than the one constructed with results in an error (exceptional condition) instead of a conversion to the stored clock. Such a design is up to the vendor as once an implementation defined ctor is used, the vendor is free to specifiy the behavior of waits and/or notifies however he pleases (when the cv is constructed in an implementation defined manner).

[ Post Summit: ]

"POSIX people will review the proposed NAD resolution at their upcoming NY meeting.

See the minutes at: http://wiki.dinkumware.com/twiki/bin/view/Posix/POSIX-CppBindingWorkingGroupNewYork2009.

[ 2009-07 Frankfurt ]

Move to NAD.

[ 2009-07-18 Detlef reopens the issue: ]

On Friday afternoon in Frankfurt is was decided that 887 is NAD. This decision was mainly based on a sample implementation presented by Howard that implemented one clock on top of another. Unfortunately this implementation doesn't work for the probably most important case where a system has a monotonic clock and a real-time clock (or "wall time" clock):

If the underlying "system_clock" is a monotonic clock, and the program waits on the real-time clock, and the real-time clock is set forward, the wait will unblock too late.

If the underlying "system_clock" is a real-time clock, and the program waits on the monotonic clock, and the real-time clock is set back, the wait again will unblock too late.

Sorry that I didn't remember this on Friday, but it was Friday afternoon after a busy week...

So as the decision was made on a wrong asumption, I propose to re-open the issue.

[ 2009-07-26 Howard adds: ]

Detlef correctly argues that condition_variable::wait_until could return "too late" in the context of clocks being adjusted during the wait. I agree with his logic. But I disagree that this makes this interface unimplementable on POSIX.

The POSIX spec also does not guarantee that pthread_cond_timedwait does not return "too late" when clocks are readjusted during the wait. Indeed, the POSIX specification lacks any requirements at all concerning how soon pthread_cond_timedwait returns after a time out. This is evidently a QOI issue by the POSIX standard. Here is a quote of the most relevant normative text concerning pthread_cond_timedwait found here.

The pthread_cond_timedwait() function shall be equivalent to pthread_cond_wait(), except that an error is returned if the absolute time specified by abstime passes (that is, system time equals or exceeds abstime) before the condition cond is signaled or broadcasted, or if the absolute time specified by abstime has already been passed at the time of the call.

I.e. the POSIX specification speaks of the error code returned in case of a time out, but not on the timeliness of that return.

Might this simply be an oversight, or minor defect in the POSIX specification?

I do not believe so. This same section goes on to say in non-normative text:

For cases when the system clock is advanced discontinuously by an operator, it is expected that implementations process any timed wait expiring at an intervening time as if that time had actually occurred.

Here is non-normative wording encouraging the implementation to ignore an advancing underlying clock and subsequently causing an early (spurious) return. There is no wording at all which addresses Detlef's example of a "late return". With pthread_cond_timedwait this would be caused by setting the system clock backwards. It seems reasonable to assume, based on the wording that is already in the POSIX spec, that again, the discontinuously changed clock would be ignored by pthread_cond_timedwait.

A noteworthy difference between pthread_cond_timedwait and condition_variable::wait_until is that the POSIX spec appears to say that ETIMEDOUT should be returned if pthread_cond_timedwait returns because of timeout signal, whether or not the system clock was discontinuously advanced during the wait. In contrast condition_variable::wait_until always returns:

Clock::now() < abs_time

That is, the C++ spec requires that the clock be rechecked (detecting discontinuous adjustments during the wait) at the time of return. condition_variable::wait_until may indeed return early or late. But regardless it will return a value reflecting timeout status at the time of return (even if clocks have been adjusted). Of course the clock may be adjusted after the return value is computed but before the client has a chance to read the result of the return. Thus there are no iron-clad guarantees here.

condition_variable::wait_until (and pthread_cond_timedwait) is little more than a convenience function for making sure condition_variable::wait doesn't hang for an unreasonable amount of time (where the client gets to define "unreasonable"). I do not think it is in anyone's interest to try to make it into anything more than that.

I maintain that this is a useful and flexible specification in the spirit of C++, and is implementable on POSIX. The implementation technique described above is a reasonable approach. There may also be higher quality approaches. This specification, like the POSIX specification, gives a wide latitude for QOI.

I continue to recommend NAD, but would not object to a clarifying note regarding the behavior of condition_variable::wait_until. At the moment, I do not have good wording for such a note, but welcome suggestions.

[ 2009-09-30: See N2969. ]

[ 2009-10 Santa Cruz: ]

The LWG is in favor of Detlef to supply revision which adopts Option 2 from N2969 but is modified by saying that system_clock must be available for wait_until.

[ 2010-02-11 Anthony provided wording. ]

[ 2010-02-22 Anthony adds: ]

I am strongly against N2999.

Firstly, I think that the most appropriate use of a timed wait on a condition variable is with a monotonic clock, so it ought to be guaranteed to be available on systems that support such a clock. Also, making the set of supported clocks implementation defined essentially kills portability around the use of user-defined clocks.

I also think that wait_for is potentially useful, and trivially implementable given a working templated wait_until and a monotonic clock.

I also disagree with many of Detlef's points in the rationale. In a system with hard latency limits there is likely to be a monotonic clock, otherwise you have no way of measuring against these latency limits since the system_clock may change arbitrarily. In such systems, you want to be able to use wait_for, or wait_until with a monotonic clock.

I disagree that the wait_* functions cannot be implemented correctly on top of POSIX: I have done so. The only guarantee in the working draft is that when the function returns certain properties are true; there is no guarantee that the function will return immediately that the properties are true. My resolution to issue 887 makes this clear. How small the latency is is QoI.

On systems without a monotonic clock, you cannot measure the problem since the system clock can change arbitrarily so any timing calculations you make may be wrong due to clock changes.

On systems with a monotonic clock, you can choose to use it for your condition variables. If you are waiting against a system_clock::time_point then you can check the clock when waking, and either return as a timeout or spurious wake depending on whether system_clock::now() is before or after the specified time_point.

Windows does provide condition variables from Vista onwards. I choose not to use them, but they are there. If people are concerned about implementation difficulty, the Boost implementation can be used for most purposes; the Boost license is pretty liberal in that regard.

My preferred resolution to issue 887 is currently the PR in the issues list.

[ 2010 Pittsburgh: ]

There is no consensus for moving the related paper N2999 into the WP.

There was support for moving this issue as proposed to Ready, but the support was insufficient to call a consensus.

There was consensus for moving this issue to NAD as opposed to leaving it open. Rationale added.

Rationale:

The standard as written is sufficiently implementable and self consistent.

Proposed resolution:

Add a new paragraph after 30.2.4 [thread.req.timing]p3:

3 The resolution of timing provided by an implementation depends on both operating system and hardware. The finest resolution provided by an implementation is called the native resolution.

If a function in this clause takes a timeout argument, and the time point or elapsed time specified passes before the function returns, the latency between the timeout occurring and the function returning is unspecified [Note: Implementations should strive to keep such latency as small as possible, but portable code should not rely on any specific upper limits — end note]


892. Forward_list issues...

Section: 23.3.4.6 [forwardlist.ops] Status: NAD Editorial Submitter: Ed Smith-Rowland Opened: 2008-09-15 Last modified: 2015-04-08

View all other issues in [forwardlist.ops].

View all issues with NAD Editorial status.

Discussion:

I was looking at the latest draft on forward_list. Especially the splice methods.

The first one splices a whole list after a given iterator in this. The name is splice_after. I think in 23.3.4.6 [forwardlist.ops] paragraph 40 change:

Effect: Insert the contents of x before after position, ...

A deeper issue involves the complexity. forward_list has no size and we don't know when we've reached the end except to walk up to it. To splice we would need to hook the end of the source list to the item after position in this list. This would involve walking length of the source list until we got to the last dereference-able element in source. There's no way we could do this in O(1) unless we stored a bogus end in forward_list.

OTOH, the last version of splice_after with iterator ranges we could do in O(1) because we know how to hook the end of the source range to ...

Unless I'm misconceiving the whole thing. Which is possible. I'll look at it again.

I'm pretty sure about the first part though.

[ San Francisco: ]

This issue is more complicated than it looks.

paragraph 47: replace each (first, last) with (first, last]

add a statement after paragraph 48 that complexity is O(1)

remove the complexity statement from the first overload of splice_after

We may have the same problems with other modifiers, like erase_after. Should it require that all iterators in the range (position, last] be dereferenceable?

We do, however, like the proposed changes and consider them Editorial. Move to NAD Editorial, Pending. Howard to open a new issue to handle the problems with the complexity requirements.

Opened 897.

Proposed resolution:

In 23.3.4.6 [forwardlist.ops] paragraph 40 change:

Effect: Insert the contents of x before after position, ...


895. "Requires:" on std::string::at et al

Section: 17.5.1.4 [structure.specifications] Status: Dup Submitter: James Dennett Opened: 2008-09-16 Last modified: 2015-04-08

View all other issues in [structure.specifications].

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Duplicate of: 625

Discussion:

Per discussion, we need an issue open to cover looking at "Requires" clauses which are not constraints on user code, such as that on std::basic_string::at.

[ 2009-07 Frankfurt ]

Alan to address in paper.

Proposed resolution:


901. insert iterators can move from lvalues

Section: 24.5.2.5 [insert.iterator] Status: NAD Submitter: Alisdair Meredith Opened: 2008-09-24 Last modified: 2015-04-08

View all issues with NAD status.

Discussion:

Addresses UK 282

The requires clause on the const T & overloads in back_insert_iterator/front_insert_iterator/insert_iterator mean that the assignment operator will implicitly move from lvalues of a move-only type.

Suggested resolutions are:

  1. Add another overload with a negative constraint on copy-constructible and flag it "= delete".
  2. Drop the copy-constructible overload entirely and rely on perfect forwarding to catch move issues one level deeper.
  3. This is a fundamental problem in move-syntax that relies on the presence of two overloads, and we need to look more deeply into this area as a whole - do not solve this issue in isolation.

[ Post Summit, Alisdair adds: ]

Both comment and issue have been resolved by the adoption of N2844 (rvalue references safety fix) at the last meeting.

Suggest resolve as NAD Editorial with a reference to the paper.

[ Batavia (2009-05): ]

We agree that this has been resolved in the latest Working Draft. Move to NAD.

Proposed resolution:

Recommend NAD, addressed by N2844.


902. Regular is the wrong concept to constrain numeric_limits

Section: 18.3.2 [limits] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2008-09-24 Last modified: 2015-04-08

View all other issues in [limits].

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Discussion:

Addresses FR 32 and DE 16

numeric_limits has functions specifically designed to return NaNs, which break the model of Regular (via its axioms.) While floating point types will be acceptible in many algorithms taking Regular values, it is not appopriate for this specific API and we need a less refined constraint.

FR 32:

The definition of numeric_limits<> as requiring a regular type is both conceptually wrong and operationally illogical. As we pointed before, this mistake needs to be corrected. For example, the template can be left unconstrained. In fact this reflects a much more general problem with concept_maps/axioms and their interpretations. It appears that the current text heavily leans toward experimental academic type theory.

DE 16:

The class template numeric_limits should not specify the Regular concept requirement for its template parameter, because it contains functions returning NaN values for floating-point types; these values violate the semantics of EqualityComparable.

[ Summit: ]

Move to Open. Alisdair and Gaby will work on a solution, along with the new treatment of axioms in clause 14.

Proposed resolution:


903. back_insert_iterator issue

Section: 24.5.2.1 [back.insert.iterator] Status: NAD Submitter: Dave Abrahams Opened: 2008-09-19 Last modified: 2015-04-08

View all issues with NAD status.

Discussion:

I just noticed this; don't know how far the problem(?) extends or whether it's new or existing: back_insert_iterator's operator* is not const, so you can't dereference a const one.

[ Post Summit Daniel adds: ]

If done, this change should be applied for front_insert_iterator, insert_iterator, ostream_iterator, and ostreambuf_iterator as well.

[ Batavia (2009-05): ]

Alisdair notes that these all are output iterators. Howard points out that ++*i would no longer work if we made this change.

Move to NAD.

[ 2009-05-25 Daniel adds: ]

  1. If 1009 is accepted, OutputIterator does no longer support post increment.
  2. To support backward compatibility a second overload of operator* can be added. Note that the HasDereference concept (and the HasDereference part of concept Iterator) was specifically refactored to cope with optional const qualification and to properly reflect the dual nature of built-in operator* as of 13.5.8 [over.literal]/6.

Proposed resolution:


905. Mutex specification questions

Section: 30.4.1.2.1 [thread.mutex.class] Status: Dup Submitter: Herb Sutter Opened: 2008-09-18 Last modified: 2015-04-08

View all other issues in [thread.mutex.class].

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Duplicate of: 893

Discussion:

A few questions on the current WP, N2723:

30.4.1 [thread.mutex.requirements]/24 says an expression mut.unlock() "Throws: Nothing." I'm assuming that, per 17.6.4.11 [res.on.required], errors that violate the precondition "The calling thread shall own the mutex" opens the door for throwing an exception anyway, such as to report unbalanced unlock operations and unlocking from a thread that does not have ownership. Right?

30.4.1.2.1 [thread.mutex.class]/3 (actually numbered paragraph "27" in the WP; this is just a typo I think) says

The behavior of a program is undefined if:

As already discussed, I think the second bullet should be removed, and such a lock() or try_lock() should fail with an exception or returning false, respectively.

A potential addition to the list would be

but without that the status quo text endorses the technique of the program logically transferring ownership of a mutex to another thread with correctness enforced by programming discipline. Was that intended?

[ Summit: ]

Two resolutions: "not a defect" and "duplicate", as follows:

Proposed resolution:


906. ObjectType is the wrong concept to constrain initializer_list

Section: 18.9 [support.initlist] Status: NAD Concepts Submitter: Daniel Krügler Opened: 2008-09-26 Last modified: 2015-04-08

View other active issues in [support.initlist].

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Discussion:

The currently proposed constraint on initializer_list's element type E is that is has to meet ObjectType. This is an underspecification, because both core language and library part of initializer_list make clear, that it references an implicitly allocated array:

8.5.4 [dcl.init.list]/4:

When an initializer list is implicitly converted to a std::initializer_list<E>, the object passed is constructed as if the implementation allocated an array of N elements of type E, where N is the number of elements in the initializer list.[..]

18.9 [support.initlist]/2.

An object of type initializer_list<E> provides access to an array of objects of type const E.[..]

Therefore, E needs to fulfill concept ValueType (thus excluding abstract class types). This stricter requirement should be added to prevent deep instantiation errors known from the bad old times, as shown in the following example:

// Header A: (Should concept-check even in stand-alone modus)

template <DefaultConstructible T>
requires MoveConstructible<T>
void generate_and_do_3(T a) {
  std::initializer_list<T> list{T(), std::move(a), T()};
  ...
}

void do_more();
void do_more_or_less();

template <DefaultConstructible T>
requires MoveConstructible<T>
void more_generate_3() {
  do_more();
  generate_and_do_3(T());
}

template <DefaultConstructible T>
requires MoveConstructible<T>
void something_and_generate_3() {
  do_more_or_less();
  more_generate_3();
}

// Test.cpp

#include "A.h"

class Abstract {
public:
  virtual ~Abstract();
  virtual void foo() = 0; // abstract type
  Abstract(Abstract&&){} // MoveConstructible
  Abstract(){} // DefaultConstructible
};

int main() {
  // The restricted template *accepts* the argument, but
  // causes a deep instantiation error in the internal function
  // generate_and_do_3:
  something_and_generate_3<Abstract>();
}

The proposed stricter constraint does not minimize the aim to support more general containers for which ObjectType would be sufficient. If such an extended container (lets assume it's still a class template) provides a constructor that accepts an initializer_list only this constructor would need to be restricted on ValueType:

template<ObjectType T>
class ExtContainer {
public:
  requires ValueType<T>
  ExtContainer(std::initializer_list<T>);
  ...
};

[ Batavia (2009-05): ]

Move to Tentatively Ready.

[ 2009-07 Frankfurt: ]

Need to look at again without concepts.

Proposed resolution:

  1. In 18.9 [support.initlist]/p.1 replace in "header <initializer_list> synopsis" the constraint "ObjectType" in the template parameter list by the constraint "ValueType".

910. Effects of MoveAssignable

Section: 17.6.3.1 [utility.arg.requirements] Status: NAD Concepts Submitter: Alberto Ganesh Barbati Opened: 2008-09-29 Last modified: 2015-04-08

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Discussion:

Addresses UK 150

The description of the effect of operator= in the MoveAssignable concept, given in paragraph 7 is:

result_type  T::operator=(T&&  rv);  // inherited from HasAssign<T, T&&>

Postconditions: the constructed T object is equivalent to the value of rv before the assignment. [Note: there is no requirement on the value of rv after the assignment. --end note]

The sentence contains a typo (what is the "constructed T object"?) probably due to a cut&paste from MoveConstructible. Moreover, the discussion of LWG issue 675 shows that the postcondition is too generic and might not reflect the user expectations. An implementation of the move assignment that just calls swap() would always fulfill the postcondition as stated, but might have surprising side-effects in case the source rvalue refers to an object that is not going to be immediately destroyed. See LWG issue 900 for another example. Due to the sometimes intangible nature of the "user expectation", it seems difficult to have precise normative wording that could cover all cases without introducing unnecessary restrictions. However a non-normative clarification could be a very helpful warning sign that swapping is not always the correct thing to do.

[ 2009-05-09 Alisdair adds: ]

Issue 910 is exactly the reason BSI advanced the Editorial comment UK-150.

The post-conditions after assignment are at a minimum that the object referenced by rv must be safely destructible, and the transaction should not leak resources. Ideally it should be possible to simply assign rv a new valid state after the call without invoking undefined behaviour, but any other use of the referenced object would depend upon additional guarantees made by that type.

[ 2009-05-09 Howard adds: ]

The intent of the rvalue reference work is that the moved from rv is a valid object. Not one in a singular state. If, for example, the moved from object is a vector, one should be able to do anything on that moved-from vector that you can do with any other vector. However you would first have to query it to find out what its current state is. E.g. it might have capacity, it might not. It might have a non-zero size, it might not. But regardless, you can push_back on to it if you want.

That being said, most standard code is now conceptized. That is, the concepts list the only operations that can be done with templated types - whether or not the values have been moved from.

Here is user-written code which must be allowed to be legal:

#include <vector>
#include <cstdio>

template <class Allocator>
void
inspect(std::vector<double, Allocator>&& v)
{
    std::vector<double, Allocator> result(move(v));
    std::printf("moved from vector has %u size and %u capacity\n", v.size(), v.capacity());
    std::printf("The contents of the vector are:\n");
    typedef typename std::vector<double, Allocator>::iterator I;
    for (I i = v.begin(), e = v.end(); i != e; ++i)
        printf("%f\n", *i);
}

int main()
{
    std::vector<double> v1(100, 5.5);
    inspect(move(v1));
}

The above program does not treat the moved-from vector as singular. It only treats it as a vector with an unknown value.

I believe the current proposed wording is consistent with my view on this.

[ Batavia (2009-05): ]

We agree that the proposed resolution is an improvement over the current wording.

[ 2009-07 Frankfurt: ]

Need to look at again without concepts.

[ 2009-07 Frankfurt: ]

Walter will consult with Dave and Doug.

[ 2009-10 Santa Cruz: ]

We believe this is handled by the resolution to issue 1204, but there is to much going on in this area to be sure. Defer for now.

[ 2010-01-23 Moved to Tentatively NAD Concepts after 5 positive votes on c++std-lib. Rationale added below. ]

Rationale:

The current MoveAssignable requirements say everything that can be said in general. Each std-defined type has a more detailed specification of move assignment.

Proposed resolution:

In [concept.copymove], replace the postcondition in paragraph 7 with:

Postconditions: *this is equivalent to the value of rv before the assignment. [Note: there is no requirement on the value of rv after the assignment, but the effect should be unsurprising to the user even in case rv is not immediately destroyed. This may require that resources previously owned by *this are released instead of transferred to rv. -- end note]


912. Array swap needs to be conceptualized

Section: 25.3.3 [alg.swap] Status: NAD Concepts Submitter: Daniel Krügler Opened: 2008-10-01 Last modified: 2015-04-08

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Discussion:

With the adaption of 809 we have a new algorithm swap for C-arrays, which needs to be conceptualized.

[ Post Summit Daniel adds: ]

Recommend as NAD Editorial: The changes have already been applied to the WP N2800.

[ Batavia (2009-05): ]

Move to NAD; the changes have already been made.

Proposed resolution:

Replace in 25.3.3 [alg.swap] before p. 3 until p. 4 by

template <class ValueType T, size_t N>
requires Swappable<T>
void swap(T (&a)[N], T (&b)[N]);

Requires: T shall be Swappable.

Effects: swap_ranges(a, a + N, b);


913. Superfluous requirements for replace algorithms

Section: 25.3.5 [alg.replace] Status: NAD Concepts Submitter: Daniel Krügler Opened: 2008-10-03 Last modified: 2015-04-08

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Discussion:

(A) 25.3.5 [alg.replace]/1:

Requires: The expression *first = new_value shall be valid.

(B) 25.3.5 [alg.replace]/4:

Requires: The results of the expressions *first and new_value shall be writable to the result output iterator.[..]

Since conceptualization, the quoted content of these clauses is covered by the existing requirements

(A) OutputIterator<Iter, const T&>

and

(B) OutputIterator<OutIter, InIter::reference> && OutputIterator<OutIter, const T&>

resp, and thus should be removed.

[ Batavia (2009-05): ]

We agree with the proposed resolution.

Move to Tentatively Ready.

Proposed resolution:

  1. Remove 25.3.5 [alg.replace]/1.

    template<ForwardIterator Iter, class T> 
      requires OutputIterator<Iter, Iter::reference> 
            && OutputIterator<Iter, const T&> 
            && HasEqualTo<Iter::value_type, T> 
      void replace(Iter first, Iter last, 
                   const T& old_value, const T& new_value); 
    
    template<ForwardIterator Iter, Predicate<auto, Iter::value_type> Pred, class T> 
      requires OutputIterator<Iter, Iter::reference> 
            && OutputIterator<Iter, const T&> 
            && CopyConstructible<Pred> 
      void replace_if(Iter first, Iter last, 
                      Pred pred, const T& new_value);
    

    1 Requires: The expression *first = new_value shall be valid.

  2. 25.3.5 [alg.replace]/4: Remove the sentence "The results of the expressions *first and new_value shall be writable to the result output iterator.".

    template<InputIterator InIter, typename OutIter, class T> 
      requires OutputIterator<OutIter, InIter::reference> 
            && OutputIterator<OutIter, const T&> 
            && HasEqualTo<InIter::value_type, T> 
      OutIter replace_copy(InIter first, InIter last, 
                           OutIter result, 
                           const T& old_value, const T& new_value);
    
    template<InputIterator InIter, typename OutIter,
             Predicate<auto, InIter::value_type> Pred, class T> 
      requires OutputIterator<OutIter, InIter::reference> 
            && OutputIterator<OutIter, const T&> 
            && CopyConstructible<Pred> 
      OutIter replace_copy_if(InIter first, InIter last, 
                              OutIter result, 
                              Pred pred, const T& new_value);
    

    4 Requires: The results of the expressions *first and new_value shall be writable to the result output iterator. The ranges [first,last) and [result,result + (last - first)) shall not overlap.


914. Superfluous requirement for unique

Section: 25.3.9 [alg.unique] Status: NAD Concepts Submitter: Daniel Krügler Opened: 2008-10-03 Last modified: 2015-04-08

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Discussion:

25.3.9 [alg.unique]/2: "Requires: The comparison function shall be an equivalence relation."

The essence of this is already covered by the given requirement

EquivalenceRelation<auto, Iter::value_type> Pred

and should thus be removed.

[ Batavia (2009-05): ]

We agree with the proposed resolution. Move to Tentatively Ready.

Proposed resolution:

Remove 25.3.9 [alg.unique]/2

template<ForwardIterator Iter>
  requires OutputIterator<Iter, Iter::reference>
        && EqualityComparable<Iter::value_type>
  Iter unique(Iter first, Iter last);

template<ForwardIterator Iter, EquivalenceRelation<auto, Iter::value_type> Pred>
  requires OutputIterator<Iter, RvalueOf<Iter::reference>::type>
        && CopyConstructible<Pred>
  Iter unique(Iter first, Iter last,
               Pred pred);

1 Effects: ...

2 Requires: The comparison function shall be an equivalence relation.


915. minmax with initializer_list should return pair of T, not pair of const T&

Section: 25.4.7 [alg.min.max] Status: NAD Editorial Submitter: Daniel Krügler Opened: 2008-10-04 Last modified: 2015-04-08

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Discussion:

It seems that the proposed changes for N2772 were not clear enough in this point:

25.4.7 [alg.min.max], before p.23 + p.24 + before p. 27 + p. 28 say that the return type of the minmax overloads with an initializer_list is pair<const T&, const T&>, which is inconsistent with the decision for the other min/max overloads which take a initializer_list as argument and return a T, not a const T&. Doing otherwise for minmax would easily lead to unexpected life-time problems by using minmax instead of min and max separately.

[ Batavia (2009-05): ]

We agree with the proposed resolution. Move to Tentatively Ready.

[ 2009-07 Frankfurt ]

Moved from Tentatively Ready to Open only because the wording needs to be tweaked for concepts removal.

[ 2009-08-18 Daniel adds: ]

Recommend NAD since the proposed changes have already been performed as part of editorial work of N2914.

[ 2009-10 Santa Cruz: ]

Can't find initializer_list form of minmax anymore, only variadic version. Seems like we had an editing clash with concepts. Leave Open, at least until editorial issues resolved. Bring this to Editor's attention.

[ 2010 Pittsburgh: Pete to reapply N2772. ]

Rationale:

Solved by reapplying N2772.

Proposed resolution:

  1. In 25 [algorithms]/2, header <algorithm> synopsis change as indicated:

    template<classLessThanComparable T>
    requires CopyConstructible<T>
    pair<const T&, const T&>
    minmax(initializer_list<T> t);
    
    template<class T, classStrictWeakOrder<auto, T> Compare>
    requires CopyConstructible<T>
    pair<const T&, const T&>
    minmax(initializer_list<T> t, Compare comp);
    
  2. In 25.4.7 [alg.min.max] change as indicated (Begin: Just before p.20):

    template<classLessThanComparable T>
      requires CopyConstructible<T>
      pair<const T&, const T&>
      minmax(initializer_list<T> t);
    

    -20- Requires: T is LessThanComparable and CopyConstructible.

    -21- Returns: pair<const T&, const T&>(x, y) where x is the smallest value and y the largest value in the initializer_list.

    [..]

    template<class T, classStrictWeakOrder<auto, T> Compare>
      requires CopyConstructible<T>
      pair<const T&, const T&>
      minmax(initializer_list<T> t, Compare comp);
    

    -24- Requires: type T is LessThanComparable and CopyConstructible.

    -25- Returns: pair<const T&, const T&>(x, y) where x is the smallest value and y largest value in the initializer_list.


916. Redundant move-assignment operator of pair should be removed

Section: 20.3 [pairs] Status: NAD Submitter: Daniel Krügler Opened: 2008-10-04 Last modified: 2015-04-08

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Discussion:

see also 917.

The current WP provides the following assignment operators for pair in 20.3 [pairs]/1:

  1. template<class U , class V>
    requires HasAssign<T1, const U&> && HasAssign<T2, const V&>
    pair& operator=(const pair<U , V>& p);
    
  2. requires MoveAssignable<T1> && MoveAssignable<T2> pair& operator=(pair&& p );
    
  3. template<class U , class V>
    requires HasAssign<T1, RvalueOf<U>::type> && HasAssign<T2, RvalueOf<V>::type>
    pair& operator=(pair<U , V>&& p);
    

It seems that the functionality of (2) is completely covered by (3), therefore (2) should be removed.

[ Batavia (2009-05): ]

Bill believes the extra assignment operators are necessary for resolving ambiguities, but that does not mean it needs to be part of the specification.

Move to Open. We recommend this be looked at in the context of the ongoing work related to the pair templates.

[ 2009-07 Frankfurt: ]

Leave this open pending the removal of concepts from the WD.

[ 2009-10 Santa Cruz: ]

Mark as NAD, see issue 801.

Proposed resolution:

  1. In 20.3 [pairs] p. 1, class pair and just before p. 13 remove the declaration:

    requires MoveAssignable<T1> && MoveAssignable<T2> pair& operator=(pair&& p );
    
  2. Remove p.13+p.14

917. Redundant move-assignment operator of tuple should be removed

Section: 20.4.2.1 [tuple.cnstr] Status: NAD Submitter: Daniel Krügler Opened: 2008-10-04 Last modified: 2015-04-08

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Discussion:

see also 916.

N2770 (and thus now the WP) removed the non-template move-assignment operator from tuple's class definition, but the latter individual member description does still provide this operator. Is this (a) an oversight and can it (b) be solved as part of an editorial process?

[ Post Summit Daniel provided wording. ]

[ Batavia (2009-05): ]

We believe that the proposed resolution's part 1 is editorial.

Regarding part 2, we either remove the specification as proposed, or else add back the declaration to which the specification refers. Alisdair and Bill prefer the latter. It is not immediately obvious whether the function is intended to be present.

We recommend that the Project Editor restore the missing declaration and that we keep part 2 of the issue alive.

Move to Open.

[ 2009-07 Frankfurt: ]

Leave this open pending the removal of concepts from the WD.

[ 2009-10 Santa Cruz: ]

Mark as NAD, see issue 801.

Proposed resolution:

  1. In 20.4.2 [tuple.tuple], class tuple just before member swap please change as indicated:

    [ This fixes an editorial loss between N2798 to N2800 ]

    template <class... UTypes>
    requires HasAssign<Types, const UTypes&>...
    tuple& operator=(const pair<UTypes...>&);
    
    template <class... UTypes>
    requires HasAssign<Types, RvalueOf<UTypes>::type>...
    tuple& operator=(pair<UTypes...>&&);
    
  2. In 20.4.2.1 [tuple.cnstr], starting just before p. 11 please remove as indicated:

    requires MoveAssignable<Types>... tuple& operator=(tuple&& u);
    

    -11- Effects: Move-assigns each element of u to the corresponding element of *this.

    -12- Returns: *this.


918. Swap for tuple needs to be conceptualized

Section: 20.4.2.3 [tuple.swap] Status: NAD Concepts Submitter: Daniel Krügler Opened: 2008-10-04 Last modified: 2015-04-08

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Discussion:

Issue 522 was accepted after tuple had been conceptualized, therefore this step needs to be completed.

[ Post Summit Daniel adds ]

This is now NAD Editorial (addressed by N2844) except for item 3 in the proposed wording.

[ 2009-05-01 Daniel adds: ]

As of the recent WP (N2857), this issue is now completely covered by editorial changes (including the third bullet), therefore I unconditionally recommend NAD.

[ Batavia (2009-05): ]

We observed that all the proposed changes have already been applied to the Working Draft, rendering this issue moot.

Move to NAD.

Proposed resolution:

  1. In both 20.4.1 [tuple.general]/2 and 20.4.2.9 [tuple.special] change

    template <class Swappable... Types>
    void swap(tuple<Types...>& x, tuple<Types...>& y);
    
  2. In 20.4.2 [tuple.tuple], class tuple definition and in 20.4.2.3 [tuple.swap], change

    requires Swappable<Types>...void swap(tuple&);
    
  3. In 20.4.2.3 [tuple.swap] remove the current requires-clause, which says:

    Requires: Each type in Types shall be Swappable


919. (forward_)list specialized remove algorithms are over constrained

Section: 23.3.4.6 [forwardlist.ops], 23.3.5.5 [list.ops] Status: NAD Submitter: Daniel Krügler Opened: 2008-10-06 Last modified: 2015-04-08

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Discussion:

The signatures of forwardlist::remove and list::remove defined in 23.3.4.6 [forwardlist.ops] before 11 + 23.3.5.5 [list.ops] before 15:

requires EqualityComparable<T> void remove(const T& value);

are asymmetric to their predicate variants (which only require Predicate, not EquivalenceRelation) and with the free algorithm remove (which only require HasEqualTo). Also, nothing in the pre-concept WP N2723 implies that EqualityComparable should be the intended requirement.

[ Batavia (2009-05): ]

We agree with the proposed resolution, but would like additional input from concepts experts.

Move to Review.

[ 2009-07-21 Alisdair adds: ]

Current rationale and wording for this issue is built around concepts. I suggest the issue reverts to Open status. I believe there is enough of an issue to review after concepts are removed from the WP to re-examine the issue in Santa Cruz, rather than resolve as NAD Concepts.

[ 2009-10-10 Daniel adds: ]

Recommend NAD: The concept-free wording as of N2960 has no longer the over-specified requirement EqualityComparable for the remove function that uses ==. In fact, now the same test conditions exists as for the free algorithm remove (25.3.8 [alg.remove]). The error was introduced in the process of conceptifying.

[ 2009-10 Santa Cruz: ]

NAD, solved by the removal of concepts.

Proposed resolution:

  1. Replace in 23.3.4.6 [forwardlist.ops] before 11 and in 23.3.5.5 [list.ops] before 15

    requires EqualityComparable<T> HasEqualTo<T, T> void remove(const T& value);
    

926. Sequentially consistent fences, relaxed operations and modification order

Section: 29.3 [atomics.order] Status: NAD Editorial Submitter: Anthony Williams Opened: 2008-10-19 Last modified: 2015-04-08

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Discussion:

Addresses UK 313

There was an interesting issue raised over on comp.programming.threads today regarding the following example

// Thread 1:
x.store(1, memory_order_relaxed);           // SX
atomic_thread_fence(memory_order_seq_cst);  // F1
y.store(1, memory_order_relaxed);           // SY1
atomic_thread_fence(memory_order_seq_cst);  // F2
r1 = y.load(memory_order_relaxed);          // RY

// Thread 2:
y.store(0, memory_order_relaxed);          // SY2
atomic_thread_fence(memory_order_seq_cst); // F3
r2 = x.load(memory_order_relaxed);         // RX

is the outcome r1 == 0 and r2 == 0 possible?

I think the intent is that this is not possible, but I am not sure the wording guarantees that. Here is my analysis:

Since all the fences are SC, there must be a total order between them. F1 must be before F2 in that order since they are in the same thread. Therefore F3 is either before F1, between F1 and F2 or after F2.

If F3 is after F2, then we can apply 29.3 [atomics.order]p5 from N2798:

For atomic operations A and B on an atomic object M, where A modifies M and B takes its value, if there are memory_order_seq_cst fences X and Y such that A is sequenced before X, Y is sequenced before B, and X precedes Y in S, then B observes either the effects of A or a later modification of M in its modification order.

In this case, A is SX, B is RX, the fence X is F2 and the fence Y is F3, so RX must see 1.

If F3 is before F2, this doesn't apply, but F3 can therefore be before or after F1.

If F3 is after F1, the same logic applies, but this time the fence X is F1. Therefore again, RX must see 1.

Finally we have the case that F3 is before F1 in the SC ordering. There are now no guarantees about RX, and RX can see r2==0.

We can apply 29.3 [atomics.order]p5 again. This time, A is SY2, B is RY, X is F3 and Y is F1. Thus RY must observe the effects of SY2 or a later modification of y in its modification order.

Since SY1 is sequenced before RY, RY must observe the effects of SY1 or a later modification of y in its modification order.

In order to ensure that RY sees (r1==1), we must see that SY1 is later in the modification order of y than SY2.

We're now skating on thin ice. Conceptually, SY2 happens-before F3, F3 is SC-ordered before F1, F1 happens-before SY1, so SY1 is later in the modification order M of y, and RY must see the result of SY1 (r1==1). However, I don't think the words are clear on that.

[ Post Summit Hans adds: ]

In my (Hans') view, our definition of fences will always be weaker than what particular hardware will guarantee. Memory_order_seq_cst fences inherently don't guarantee sequential consistency anyway, for good reasons (e.g. because they can't enforce a total order on stores). Hence I don't think the issue demonstrates a gross failure to achieve what we intended to achieve. The example in question is a bit esoteric. Hence, in my view, living with the status quo certainly wouldn't be a disaster either.

In any case, we should probably add text along the lines of the following between p5 and p6 in 29.3 [atomics.order]:

[Note: Memory_order_seq_cst only ensures sequential consistency for a data-race-free program that uses exclusively memory_order_seq_cst operations. Any use of weaker ordering will invalidate this guarantee unless extreme care is used. In particular, memory_order_seq_cst fences only ensure a total order for the fences themselves. They cannot, in general, be used to restore sequential consistency for atomic operations with weaker ordering specifications.]

Also see thread beginning at c++std-lib-23271.

[ Herve's correction: ]

Minor point, and sorry for the knee jerk reaction: I admit to having no knowledge of Memory_order_seq_cst, but my former boss (John Lakos) has ingrained an automatic introspection on the use of "only". I think you meant:

[Note: Memory_order_seq_cst ensures sequential consistency only for . . . . In particular, memory_order_seq_cst fences ensure a total order only for . . .

Unless, of course, Memory_order_seq_cst really do nothing but ensure sequential consistency for a data-race-free program that uses exclusively memory_order_seq_cst operations.

[ 2009-10 Santa Cruz: ]

NAD Editorial. Solved by N2992.

Proposed resolution:

Add a new paragraph after 29.3 [atomics.order]p5 that says

For atomic operations A and B on an atomic object M, where A and B modify M, if there are memory_order_seq_cst fences X and Y such that A is sequenced before X, Y is sequenced before B, and X precedes Y in S, then B occurs later than A in the modifiction order of M.


927. Dereferenceable should be HasDereference

Section: X [allocator.concepts] Status: NAD Concepts Submitter: Pablo Halpern Opened: 2008-10-23 Last modified: 2015-04-08

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Discussion:

X [allocator.concepts] contains a reference to a concept named Dereferenceable. No such concept exists.

[ Daniel adds 2009-02-14: ]

The proposal given in the paper N2829 would automatically resolve this issue.

[ Batavia (2009-05): ]

This particular set of changes has already been made. There are two related changes later on (and possibly also an earlier Example); these can be handled editorially.

Move to NAD Editorial.

Proposed resolution:

Change all uses of the concept Dereferenceable to HasDereference in X [allocator.concepts].


928. Wrong concepts used for tuple's comparison operators

Section: 20.4.2.7 [tuple.rel] Status: NAD Concepts Submitter: Joe Gottman Opened: 2008-10-28 Last modified: 2015-04-08

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Discussion:

In the latest working draft for C++0x, tuple's operator== and operator< are declared as

template<class... TTypes, class... UTypes> 
  requires EqualityComparable<TTypes, UTypes>... 
  bool operator==(const tuple<TTypes...>& t, const tuple<UTypes...>& u);

and

template<class... TTypes, class... UTypes> 
  requires LessThanComparable<TTypes, UTypes>... 
  bool operator<(const tuple<TTypes...>& t, const tuple<UTypes...>& u);

But the concepts EqualityComparable and LessThanComparable only take one parameter, not two. Also, even if LessThanComparable could take two parameters, the definition of tuple::operator<() should also require

LessThanComparable<UTypes, TTypes>... // (note the order) 

since the algorithm for tuple::operator< is the following (pseudo-code)

for (size_t N = 0; N < sizeof...(TTypes); ++N) { 
    if (get<N>(t) < get<N>(u) return true; 
    else if ((get<N>(u) < get<N>(t)) return false; 
} 

return false; 

Similar problems hold for tuples's other comparison operators.

[ Post Summit: ]

Recommend Tentatively Ready.

Proposed resolution:

In 20.4.1 [tuple.general] and 20.4.2.7 [tuple.rel] change:

template<class... TTypes, class... UTypes>
  requires EqualityComparableHasEqualTo<TTypes, UTypes>...
  bool operator==(const tuple<TTypes...>&, const tuple<UTypes...>&);

template<class... TTypes, class... UTypes>
  requires LessThanComparableHasLess<TTypes, UTypes>... && HasLess<UTypes, TTypes>...
  bool operator<(const tuple<TTypes...>&, const tuple<UTypes...>&);

template<class... TTypes, class... UTypes>
  requires EqualityComparableHasEqualTo<TTypes, UTypes>...
  bool operator!=(const tuple<TTypes...>&, const tuple<UTypes...>&);

template<class... TTypes, class... UTypes>
  requires LessThanComparableHasLess<UTTypes, TUTypes>... && HasLess<UTypes, TTypes>...
  bool operator>(const tuple<TTypes...>&, const tuple<UTypes...>&);

template<class... TTypes, class... UTypes>
  requires LessThanComparableHasLess<UTTypes, TUTypes>... && HasLess<UTypes, TTypes>...
  bool operator<=(const tuple<TTypes...>&, const tuple<UTypes...>&);

template<class... TTypes, class... UTypes>
  requires LessThanComparableHasLess<TTypes, UTypes>... && HasLess<UTypes, TTypes>...
  bool operator>=(const tuple<TTypes...>&, const tuple<UTypes...>&);

930. Access to std::array data as built-in array type

Section: 23.3.2 [array] Status: NAD Submitter: Niels Dekker Opened: 2008-11-17 Last modified: 2015-04-08

View other active issues in [array].

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Discussion:

The Working Draft (N2798) allows access to the elements of std::array by its data() member function:

23.2.1.4 array::data [array.data]
 T *data();
 const T *data() const;
  1. Returns: elems.

Unfortunately, the result of std::array::data() cannot be bound to a reference to a built-in array of the type of array::elems. And std::array provides no other way to get a reference to array::elems. This hampers the use of std::array, for example when trying to pass its data to a C style API function:

 // Some C style API function. 
 void set_path( char (*)[MAX_PATH] );

 std::array<char,MAX_PATH> path;
 set_path( path.data() );  // error
 set_path( &(path.data()) );  // error

Another example, trying to pass the array data to an instance of another C++ class:

 // Represents a 3-D point in space.
 class three_d_point {
 public:
   explicit three_d_point(const double (&)[3]); 
 };

 const std::array<double,3> coordinates = { 0, 1, 2 };
 three_d_point point1( coordinates.data() );  // error.
 three_d_point point2( *(coordinates.data()) );  // error.

A user might be tempted to use std::array::elems instead, but doing so isn't recommended, because std::array::elems is "for exposition only". Note that Boost.Array users might already use boost::array::elems, as its documentation doesn't explicitly state that boost::array::elems is for exposition only: http://www.boost.org/doc/libs/1_36_0/doc/html/boost/array.html

I can think of three options to solve this issue:

  1. Remove the words "exposition only" from the definition of std::array::elems, as well as the note saying that "elems is shown for exposition only."
  2. Change the signature of std::array::data(), so that it would return a reference to the built-in array, instead of a pointer to its first element.
  3. Add extra member functions, returning a reference to the built-in array.

Lawrence Crowl wrote me that it might be better to leave std::array::elems "for exposition only", to allow alternate representations to allocate the array data dynamically. This might be of interest to the embedded community, having to deal with very limited stack sizes.

The second option, changing the return type of std::array::data(), would break backward compatible to current Boost and TR1 implementations, as well as to the other contiguous container (vector and string) in a very subtle way. For example, the following call to std::swap currently swap two locally declared pointers (data1, data2), for any container type T that has a data() member function. When std::array::data() is changed to return a reference, the std::swap call may swap the container elements instead.

 template <typename T>
 void func(T& container1, T& container2)
 {
   // Are data1 and data2 pointers or references?
   auto data1 = container1.data();
   auto data2 = container2.data();

   // Will this swap two local pointers, or all container elements?
   std::swap(data1, data2);
 }

The following concept is currently satisfied by all contiguous containers, but it no longer is for std::array, when array::data() is changed to return a reference (tested on ConceptGCC Alpha 7):

 auto concept ContiguousContainerConcept<typename T>
 {
   typename value_type = typename T::value_type;
   const value_type * T::data() const;
 }

Still it's worth considering having std::array::data() return a reference, because it might be the most intuitive option, from a user's point of view. Nicolai Josuttis (who wrote boost::array) mailed me that he very much prefers this option.

Note that for this option, the definition of data() would also need to be revised for zero-sized arrays, as its return type cannot be a reference to a zero-sized built-in array. Regarding zero-sized array, data() could throw an exception. Or there could be a partial specialization of std::array where data() returns T* or gets removed.

Personally I prefer the third option, adding a new member function to std::array, overloaded for const and non-const access, returning a reference to the built-in array, to avoid those compatible issues. I'd propose naming the function std::array::c_array(), which sounds intuitive to me. Note that boost::array already has a c_array() member, returning a pointer, but Nicolai told me that this one is only there for historical reasons. (Otherwise a name like std::array::native_array() or std::array::builtin_array() would also be fine with me.) According to my proposed resolution, a zero-sized std::array does not need to have c_array(), while it is still required to have data() functions.

[ Post Summit: ]

Alisdair: Don't like p4 suggesting implementation-defined behaviour.

Walter: What about an explicit conversion operator, instead of adding the new member function?

Alisdair: Noodling about:

template<size_t N, ValueType T>
struct array
{
  T elems[N];

// fantasy code starts here

// crazy decltype version for grins only
//requires True<(N>0)>
//explict operator decltype(elems) & () { return elems; }

// conversion to lvalue ref
requires True<(N>0)>
explict operator T(&)[N] () & { return elems; }

// conversion to const lvalue ref
requires True<(N>0)>
explict operator const T(&)[N] () const & { return elems; }

// conversion to rvalue ref using ref qualifiers
requires True<(N>0)>
explict operator T(&&)[N] () && { return elems; }

// fantasy code ends here

explicit operator bool() { return true; }
};

This seems legal but odd. Jason Merrill says currently a CWG issue 613 on the non-static data member that fixes the error that current G++ gives for the non-explicit, non-conceptualized version of this. Verdict from human compiler: seems legal.

Some grumbling about zero-sized arrays being allowed and supported.

Walter: Would this address the issue? Are we inclined to go this route?

Alan: What would usage look like?

// 3-d point in space
struct three_d_point
{
  explicit three_d_point(const double (&)[3]);
};

void sink(double*);

const std::array<double, 3> coordinates = { 0, 1, 2 };
three_d_point point1( coordinates.data() ); //error
three_d_point point2( *(coordinates.data()) ); // error
three_d_point point3( coordinates ); // yay!

sink(cooridinates); // error, no conversion

Recommended Open with new wording. Take the required clause and add the explicit conversion operators, not have a typedef. At issue still is use decltype or use T[N]. In favour of using T[N], even though use of decltype is specially clever.

[ Post Summit, further discussion in the thread starting with c++std-lib-23215. ]

[ 2009-07 post-Frankfurt (Saturday afternoon group): ]

The idea to resolve the issue by adding explicit conversion operators was abandoned, because it would be inconvenient to use, especially when passing the array to a template function, as mentioned by Daniel. So we reconsidered the original proposed resolution, which appeared acceptable, except for its proposed changes to 23.3.2.8 [array.zero], which allowed c_array_type and c_array() to be absent for a zero-sized array. Alisdair argued that such wording would disallow certain generic use cases. New wording for 23.3.2.8 [array.zero] was agreed upon (Howard: and is reflected in the proposed resolution).

Move to Review

[ 2009-07-31 Alisdair adds: ]

I will be unhappy voting the proposed resolution for 930 past review until we have implementation experience with reference qualifiers. Specifically, I want to understand the impact of the missing overload for const && (if any.)

If we think the issue is important enough it might be worthwhile stripping the ref qualifiers for easy progress next meeting, and opening yet another issue to put them back with experience.

Recommend deferring any decision on splitting the issue until we get LWG feedback next meeting - I may be the lone dissenting voice if others are prepared to proceed without it.

[ 2009-10 Santa Cruz: ]

Mark as NAD. There was not enough consensus that this was sufficiently useful. There are known other ways to do this, such as small inline conversion functions.

Proposed resolution:

Add to the template definition of array, 23.3.2 [array]/3:


typedef T c_array_type[N];
c_array_type & c_array() &;
c_array_type && c_array() &&;
const c_array_type & c_array() const &;

Add the following subsection to 23.3.2 [array], after 23.3.2.5 [array.data]:

23.2.1.5 array::c_array [array.c_array]

c_array_type & c_array() &;
c_array_type && c_array() &&;
const c_array_type & c_array() const &;

Returns: elems.

Change Zero sized arrays 23.3.2.8 [array.zero]:

-2- ...

The type c_array_type is unspecified for a zero-sized array.

-3- The effect of calling c_array(), front(), or back() for a zero-sized array is implementation defined.


937. Atomics for standard typedef types

Section: 29 [atomics] Status: NAD Editorial Submitter: Clark Nelson Opened: 2008-12-05 Last modified: 2015-04-08

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Discussion:

Addresses US 89

The types in the table "Atomics for standard typedef types" should be typedefs, not classes. These semantics are necessary for compatibility with C.

Change the classes to typedefs.

N2427 specified different requirements for atomic analogs of fundamental integer types (such as atomic_int) and for atomic analogs of <cstdint> typedefs (such as atomic_size_t). Specifically, atomic_int et al. were specified to be distinct classes, whereas atomic_size_t et al. were specified to be typedefs. Unfortunately, in applying N2427 to the WD, that distinction was erased, and the atomic analog of every <cstdint> typedef is required to be a distinct class.

It shouldn't be required that the atomic analog of every <cstdint> typedef be a typedef for some fundamental integer type. After all, <cstdint> is supposed to provide standard names for extended integer types. So there was a problem in N2427, which certainly could have been interpreted to require that. But the status quo in the WD is even worse, because it's unambiguously wrong.

What is needed are words to require the existence of a bunch of type names, without specifying whether they are class names or typedef names.

[ Summit: ]

Change status to NAD, editorial. See US 89 comment notes above.

Direct the editor to turn the types into typedefs as proposed in the comment. Paper approved by committee used typedefs, this appears to have been introduced as an editorial change. Rationale: for compatibility with C.

Proposed resolution:


941. Ref-qualifiers for assignment operators

Section: 17 [library] Status: NAD Submitter: Niels Dekker Opened: 2008-12-18 Last modified: 2015-04-08

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Discussion:

The assignment and equality operators = and == are easily confused, just because of their visual similarity, and in this case a simple typo can cause a serious bug. When the left side of an operator= is an rvalue, it's highly unlikely that the assignment was intended by the programmer:

if ( func() = value )  // Typical typo: == intended!

Built-in types don't support assignment to an rvalue, but unfortunately, a lot of types provided by the Standard Library do.

Fortunately the language now offers a syntax to prevent a certain member function from having an rvalue as *this: by adding a ref-qualifier (&) to the member function declaration. Assignment operators are explicitly mentioned as a use case of ref-qualifiers, in "Extending Move Semantics To *this (Revision 1)", N1821 by Daveed Vandevoorde and Bronek Kozicki

Hereby I would like to propose adding ref-qualifiers to all appropriate assignment operators in the library.

[ Batavia (2009-05): ]

Move to Open. We recommend this be deferred until after the next Committee Draft.

[ Frankfurt 2009-07: ]

The LWG declined to move forward with N2819.

Moved to NAD.

Proposed resolution:

A proposed resolution is provided by the paper on this subject, N2819, Ref-qualifiers for assignment operators of the Standard Library


942. Atomics synopsis typo

Section: 29 [atomics] Status: Dup Submitter: Holger Grund Opened: 2008-12-19 Last modified: 2015-04-08

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Duplicate of: 880

Discussion:

I'm looking at 29 [atomics] and can't really make sense of a couple of things.

Firstly, there appears to be a typo in the <cstdatomic> synopsis:

The atomic_exchange overload taking an atomic_address is missing the second parameter:

void* atomic_exchange(volatile atomic_address*);

should be

void* atomic_exchange(volatile atomic_address*, void*);

Note, that this is not covered by 880 "Missing atomic exchange parameter", which only talks about the atomic_bool.

Proposed resolution:

Change the synopsis in 29 [atomics]/2:

void* atomic_exchange(volatile atomic_address*, void*);

945. system_clock::rep not specified

Section: 20.12.7.1 [time.clock.system] Status: NAD Editorial Submitter: Pete Becker Opened: 2008-12-19 Last modified: 2015-04-08

View all other issues in [time.clock.system].

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Discussion:

In 20.12.7.1 [time.clock.system], the declaration of system_clock::rep says "see below", but there is nothing below that describes it.

[ Howard adds: ]

This note refers to:

-2- system_clock::duration::min() < system_clock::duration::zero() shall be true.

I.e. this is standardeze for "system_clock::rep is signed". Perhaps an editorial note along the lines of:

-2- system_clock::duration::min() < system_clock::duration::zero() shall be true. [Note: system_clock::rep shall be signed. -- end note].

?

[ Batavia (2009-05): ]

We agree with the direction of the proposed resolution. Move to NAD Editorial.

Proposed resolution:

Add a note to 20.12.7.1 [time.clock.system], p2:

-2- system_clock::duration::min() < system_clock::duration::zero() shall be true. [Note: system_clock::rep shall be signed. -- end note].


946. duration_cast improperly specified

Section: 20.12.5.7 [time.duration.cast] Status: NAD Submitter: Pete Becker Opened: 2008-12-20 Last modified: 2015-04-08

View all other issues in [time.duration.cast].

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Discussion:

20.12.5.7 [time.duration.cast]/3:

.... All intermediate computations shall be carried out in the widest possible representation... .

So ignoring floating-point types for the moment, all this arithmetic has to be done using the implementation's largest integral type, even if both arguments use int for their representation. This seems excessive. And it's not at all clear what this means if we don't ignore floating-point types.

This issue is related to 952.

[ Howard adds: ]

The intent of this remark is that intermediate computations are carried out using:

common_type<typename ToDuration::rep, Rep, intmax_t>::type

The Remark was intended to be clarifying prose supporting the rather algorithmic description of the previous paragraph. I'm open to suggestions. Perhaps the entire paragraph 3 (Remarks) would be better dropped?

[ Batavia (2009-05): ]

We view this as a specific case of issue 952, and should be resolved when that issue is resolved.

Move to NAD.

Proposed resolution:


952. Various threading bugs #2

Section: 20.12.5.7 [time.duration.cast] Status: NAD Editorial Submitter: Pete Becker Opened: 2009-01-07 Last modified: 2015-04-08

View all other issues in [time.duration.cast].

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Discussion:

20.12.5.7 [time.duration.cast] specifies an implementation and imposes requirements in text (and the implementation doesn't satisfy all of the text requirements). Pick one.

This issue is related to 946.

[ 2009-05-10 Howard adds: ]

The Remarks paragraph is an English re-statement of the preceeding Returns clause. It was meant to be clarifying and motivating, not confusing. I'm not aware with how the Remarks contradicts the Returns clause but I'm ok with simply removing the Remarks.

[ Batavia (2009-05): ]

Pete suggests that this could be resolved by rephrasing the Remarks to Notes.

Move to NAD Editorial.

Proposed resolution:


955. Various threading bugs #5

Section: 20.12.3 [time.clock.req] Status: NAD Submitter: Pete Becker Opened: 2009-01-07 Last modified: 2015-04-08

View all other issues in [time.clock.req].

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Discussion:

20.12.3 [time.clock.req] requires that a clock type have a member typedef named time_point that names an instantiation of the template time_point, and a member named duration that names an instantiation of the template duration. This mixing of levels is confusing. The typedef names should be different from the template names.

[ Post Summit, Anthony provided proposed wording. ]

[ 2009-05-04 Howard adds: ]

The reason that the typedef names were given the same name as the class templates was so that clients would not have to stop and think about whether they were using the clock's native time_point / duration or the class template directly. In this case, one person's confusion is another person's encapsulation. The detail that sometimes one is referring to the clock's native types, and sometimes one is referring to an independent type is purposefully "hidden" because it is supposed to be an unimportant detail. It can be confusing to have to remember when to type duration and when to type duration_type, and there is no need to require the client to remember something like that.

For example, here is code that I once wrote in testing out the usability of this facility:

template <class Clock, class Duration>
void do_until(const std::chrono::time_point<Clock, Duration>& t)
{
    typename Clock::time_point now = Clock::now();
    if (t > now)
    {
        typedef typename std::common_type
        <
            Duration,
            typename std::chrono::system_clock::duration
        >::type CD;
        typedef std::chrono::duration<double, std::nano> ID;

        CD d = t - now;
        ID us = duration_cast<ID>(d);
        if (us < d)
            ++us;
        ...
    }
}

I see no rationale to require the client to append _type to some of those declarations. It seems overly burdensome on the author of do_until:

template <class Clock, class Duration>
void do_until(const std::chrono::time_point<Clock, Duration>& t)
{
    typename Clock::time_point_type now = Clock::now();
    if (t > now)
    {
        typedef typename std::common_type
        <
            Duration,
            typename std::chrono::system_clock::duration_type
        >::type CD;
        typedef std::chrono::duration<double, std::nano> ID;

        CD d = t - now;
        ID us = duration_cast<ID>(d);
        if (us < d)
            ++us;
        ...
    }
}

Additionally I'm fairly certain that this suggestion hasn't been implemented. If it had, it would have been discovered that it is incomplete. time_point also has a nested type (purposefully) named duration.

That is, the current proposed wording would put the WP into an inconsistent state.

In contrast, the current WP has been implemented and I've received very favorable feedback from people using this interface in real-world code.

[ Batavia (2009-05): ]

Bill agrees that distinct names should be used for distinct kinds of entities.

Walter would prefer not to suffix type names, especially for such well-understood terms as "duration".

Howard reminds us that the proposed resolution is incomplete, per his comment in the issue.

Move to Open.

[ 2009-06-07 Howard adds: ]

Not meaning to be argumentative, but we have a decade of positive experience with the precedent of using the same name for the nested type as an external class representing an identical concept.

template<class Category, class T, class Distance = ptrdiff_t,
         class Pointer = T*, class Reference = T&>
struct iterator
{
    ...
};

template <BidirectionalIterator Iter>
class reverse_iterator
{
    ...
};

template <ValueType T, Allocator Alloc = allocator<T> >
    requires NothrowDestructible<T>
class list
{
public:
    typedef implementation-defined     iterator;
    ...
    typedef reverse_iterator<iterator> reverse_iterator;
    ...
};

I am aware of zero complaints regarding the use of iterator and reverse_iterator as nested types of the containers despite these names also having related meaning at namespace std scope.

Would we really be doing programmers a favor by renaming these nested types?

template <ValueType T, Allocator Alloc = allocator<T> >
    requires NothrowDestructible<T>
class list
{
public:
    typedef implementation-defined     iterator_type;
    ...
    typedef reverse_iterator<iterator> reverse_iterator_type;
    ...
};

I submit that such design contributes to needless verbosity which ends up reducing readability.

[ 2009-10 Santa Cruz: ]

Mark as NAD. No concensus for changing the WP.

Proposed resolution:

Change 20.12 [time]:

...
template <class Clock, class Duration = typename Clock::duration_type> class time_point;
...

Change 20.12.3 [time.clock.req]:

Table 45 -- Clock requirements
Expression Return type Operational semantics
... ... ...
C1::duration_type chrono::duration<C1::rep, C1::period> The native duration type of the clock.
C1::time_point_type chrono::time_point<C1> or chrono::time_point<C2, C1::duration_type< The native time_point type of the clock. Different clocks may share a time_point_type definition if it is valid to compare their time_point_types by comparing their respective duration_types. C1 and C2 shall refer to the same epoch.
... ... ...
C1::now() C1::time_point_type Returns a time_point_type object representing the current point in time.

Change 20.12.7.1 [time.clock.system]:

-1- Objects of class system_clock represent wall clock time from the system-wide realtime clock.

class system_clock { 
public: 
  typedef see below rep; 
  typedef ratio<unspecified, unspecified> period; 
  typedef chrono::duration<rep, period> duration_type; 
  typedef chrono::time_point<system_clock> time_point_type; 
  static const bool is_monotonic = unspecified ; 

  static time_point_type now(); 

  // Map to C API 
  static time_t to_time_t (const time_point_type& t); 
  static time_point_type from_time_t(time_t t); 
};

-2- system_clock::duration_type::min() < system_clock::duration_type::zero() shall be true.

time_t to_time_t(const time_point_type& t);

-3- Returns: A time_t object that represents the same point in time as t when both values are truncated to the coarser of the precisions of time_t and time_point_type.

time_point_type from_time_t(time_t t);

-4- Returns: A time_point_type object that represents the same point in time as t when both values are truncated to the coarser of the precisions of time_t and time_point_type.

Change X [time.clock.monotonic]:

class monotonic_clock { 
public: 
  typedef unspecified                                rep; 
  typedef ratio<unspecified , unspecified>           period; 
  typedef chrono::duration<rep, period>              duration_type; 
  typedef chrono::time_point<unspecified , duration_type> time_point_type; 
  static const bool is_monotonic =                   true; 

  static time_point_type now();
};

Change 20.12.7.3 [time.clock.hires]:

class high_resolution_clock { 
public: 
  typedef unspecified                                rep; 
  typedef ratio<unspecified , unspecified>           period; 
  typedef chrono::duration<rep, period>              duration_type; 
  typedef chrono::time_point<unspecified , duration_type> time_point_type; 
  static const bool is_monotonic =                   true; 

  static time_point_type now();
};

959. Various threading bugs #9

Section: 30.5.1 [thread.condition.condvar] Status: NAD Submitter: Pete Becker Opened: 2009-01-07 Last modified: 2015-04-08

View all other issues in [thread.condition.condvar].

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Discussion:

30.5.1 [thread.condition.condvar]: condition_variable::wait_for is required to compute the absolute time by adding the duration value to chrono::monotonic_clock::now(), but monotonic_clock is not required to exist.

[ Summit: ]

Move to open. Associate with LWG 859 and any other monotonic-clock related issues.

[ 2009-08-01 Howard adds: ]

I believe that 859 (currently Ready) addresses this issue, and that this issue should be marked NAD, solved by 859 (assuming it moves to WP).

[ 2009-10 Santa Cruz: ]

Leave open, but expect to be fixed by N2969 revision that Detlef is writing.

[ 2009-11-18 Moved to Tentatively NAD after 5 positive votes on c++std-lib. Rationale added below. ]

Proposed resolution:

Rationale:

condition_variable::wait_for no longer refers to monotonic_clock, so this issue is moot.


969. What happened to Library Issue 475?

Section: 25.2.4 [alg.foreach] Status: NAD Editorial Submitter: Stephan T. Lavavej Opened: 2009-01-12 Last modified: 2015-04-08

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Discussion:

Library Issue 475 has CD1 status, but the non-normative note in N2723 was removed in N2798 (25.2.4 [alg.foreach] in both drafts).

[ Batavia (2009-05): ]

Move to NAD Editorial.

Proposed resolution:

Restore the non-normative note. It might need to be expressed in terms of concepts.


971. Spurious diagnostic conversion function

Section: 19.5.2.5 [syserr.errcode.nonmembers] Status: NAD Submitter: Beman Dawes Opened: 2009-01-19 Last modified: 2015-04-08

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Discussion:

Anthony Williams raised the question in c++std-lib-22987 "why is there std::make_error_code(std::errc)? What purpose does this serve?"

The function make_error_code(errc e) is not required, since make_error_condition(errc e) is the function that is needed for errc conversions. make_error_code(errc e) appears to be a holdover from my initial confusion over the distinction between POSIX and operating systems that conform to the POSIX spec.

[ Post Summit: ]

Recommend Review.

[ Batavia (2009-05): ]

The designer of the facility (Christopher Kohlhoff) strongly disagrees that there is an issue here, and especially disagrees with the proposed resolution. Bill would prefer to be conservative and not apply this proposed resolution. Move to Open, and recommend strong consideration for NAD status.

[ 2009-05-21 Beman adds: ]

My mistake. Christopher and Bill are correct and the issue should be NAD. The function is needed by users.

[ 2009-07-21 Christopher Kohlhoff adds rationale for make_error_code: ]

Users (and indeed library implementers) may need to use the errc codes in portable code. For example:

void do_foo(error_code& ec)
{
#if defined(_WIN32)
  // Windows implementation ...
#elif defined(linux)
  // Linux implementation ...
#else
  // do_foo not supported on this platform
  ec = make_error_code(errc::not_supported);
#endif
}

[ 2009 Santa Cruz: ]

Moved to NAD.

Proposed resolution:

Change System error support 19.5 [syserr], Header <system_error> synopsis, as indicated:

error_code make_error_code(errc e);
error_condition make_error_condition(errc e);

Delete from Class error_code non-member functions 19.5.2.5 [syserr.errcode.nonmembers]:

error_code make_error_code(errc e);

Returns: error_code(static_cast<int>(e), generic_category).


972. The term "Assignable" undefined but still in use

Section: 17 [library] Status: NAD Editorial Submitter: Niels Dekker Opened: 2009-01-07 Last modified: 2015-04-08

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Discussion:

Previous versions of the Draft had a table, defining the Assignable requirement. For example N2134 Table 79, "Assignable requirements". But I guess the term "Assignable" is outdated by now, because the current Committee Draft provides MoveAssignable, CopyAssignable, and TriviallyCopyAssignable concepts instead. And as far as I can see, it no longer has a definition of Assignable. (Please correct me if I'm wrong.) Still the word "Assignable" is used in eight places in the Draft, N2800.

Are all of those instances of "Assignable" to be replaced by "CopyAssignable"?

[ Batavia (2009-05): ]

Move to NAD Editorial.

Proposed resolution:

Change Exception Propagation 18.8.5 [propagation]:

exception_ptr shall be DefaultConstructible, CopyConstructible, CopyAssignable and EqualityComparable.

Change Class template reference_wrapper 20.9.4 [refwrap]:

reference_wrapper<T> is a CopyConstructible and CopyAssignable wrapper around a reference to an object of type T.

Change Placeholders 20.9.10.4 [func.bind.place]:

It is implementation defined whether placeholder types are CopyAssignable. CopyAssignable placeholders' copy assignment operators shall not throw exceptions.

Change Class template shared_ptr 20.8.2.2 [util.smartptr.shared]:

Specializations of shared_ptr shall be CopyConstructible, CopyAssignable, and LessThanComparable...

Change Class template weak_ptr 20.8.2.3 [util.smartptr.weak]:

Specializations of weak_ptr shall be CopyConstructible, CopyAssignable, and LessThanComparable...

Change traits typedefs 21.2.2 [char.traits.typedefs] (note: including deletion of reference to 23.1!):

Requires: state_type shall meet the requirements of CopyAssignable (23.1), CopyConstructible (20.1.8), and DefaultConstructible types.

Change Class seed_seq 26.5.7.1 [rand.util.seedseq] (note again: including deletion of reference to 23.1!):

In addition to the requirements set forth below, instances of seed_seq shall meet the requirements of CopyConstructible (20.1.8) and of CopyAssignable (23.1).

Note: The proposed resolution of this issue does not deal with the instance of the term "Assignable" in X [auto.ptr], as this is dealt with more specifically by LWG 973, "auto_ptr characteristics", submitted by Maarten Hilferink.


973. auto_ptr characteristics

Section: X [auto.ptr] Status: NAD Editorial Submitter: Maarten Hilferink Opened: 2009-01-21 Last modified: 2015-04-08

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Discussion:

I think that the Note of X [auto.ptr], paragraph 3 needs a rewrite since "Assignable" is no longer defined as a concept. The relationship of auto_ptr with the new CopyAssignable, MoveAssignable, and MoveConstructible concepts should be clarified. Furthermore, since the use of auto_ptr is depreciated anyway, we can also omit a description of its intended use.

[ Batavia (2009-05): ]

We agree with the intent of the proposed resolution. Move to NAD Editorial.

Proposed resolution:

Change X [auto.ptr], paragraph 3:

The auto_ptr provides a semantics of strict ownership. An auto_ptr owns the ob ject it holds a pointer to. Copying an auto_ptr copies the pointer and transfers ownership to the destination. If more than one auto_ptr owns the same ob ject at the same time the behavior of the program is undefined. [Note: The uses of auto_ptr include providing temporary exception-safety for dynamically allocated memory, passing ownership of dynamically allocated memory to a function, and returning dynamically allocated memory from a function. auto_ptr does not meet the CopyConstructible and Assignable requirements for standard library container elements and thus instantiating a standard library container with an auto_ptr results in undefined behavior.

Instances of auto_ptr shall meet the MoveConstructible and MoveAssignable requirements, but do not meet the CopyConstructible and CopyAssignable requirements. -- end note]


977. insert iterators inefficient for expensive to move types

Section: 24.5.2 [insert.iterators] Status: NAD Submitter: Howard Hinnant Opened: 2009-02-02 Last modified: 2015-04-08

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Discussion:

The new concepts for the insert iterators mandate an extra copy when inserting an lvalue:

requires CopyConstructible<Cont::value_type>
  back_insert_iterator<Cont>& 
  operator=(const Cont::value_type& value);

-1- Effects: push_back(*container, Cont::value_type(value));

The reason is to convert value into an rvalue because the current BackInsertionContainer concept only handles push_back-ing rvalues:

concept BackInsertionContainer<typename C> : Container<C> { 
  void push_back(C&, value_type&&); 
}

Without the conversion of value to an rvalue, the assignment operator fails to concept check.

A solution is to modify the BackInsertionContainer concept so that the client can pass in the parameter type for push_back similar to what is already done for the OutputIterator concept:

concept BackInsertionContainer<typename C, typename Value = C::value_type&&>
  : Container<C> { 
     void push_back(C&, Value); 
}

This allows the assignment operator to be adjusted appropriately:

requires BackInsertionContainer<Cont, Cont::value_type const&> &&
         CopyConstructible<Cont::value_type>
  back_insert_iterator<Cont>& 
  operator=(const Cont::value_type& value);

-1- Effects: push_back(*container, value);

[ We may want to propagate this fix to other concepts such as StackLikeContainer. ]

[ Solution and wording collaborated on by Doug and Howard. ]

[ Batavia (2009-05): ]

Howard notes that "these operations behaved efficiently until concepts were added."

Alisdair is uncertain that the proposed resolution is syntactically correct.

Move to Open, and recommend the issue be deferred until after the next Committee Draft is issued.

[ 2009-10 Santa Cruz: ]

NAD, solved by the removal of concepts.

Proposed resolution:

Change [container.concepts.free]:

concept FrontInsertionContainer<typename C, typename Value = C::value_type&&>
    : Container<C> { 
  void push_front(C&, value_type&& Value); 

  axiom FrontInsertion(C c, value_type Value x) { 
    x == (push_front(c, x), front(c)); 
  } 
}

...

concept BackInsertionContainer<typename C, typename Value = C::value_type&&>
    : Container<C> { 
  void push_back(C&, value_type&& Value); 
}

...

concept InsertionContainer<typename C, typename Value = C::value_type&&>
    : Container<C> { 
  iterator insert(C&, const_iterator, value_type&& Value); 

  axiom Insertion(C c, const_iterator position, value_type Value v) { 
    v == *insert(c, position, v); 
  } 
}

Change [container.concepts.member]:

auto concept MemberFrontInsertionContainer<typename C, typename Value = C::value_type&&>
    : MemberContainer<C> { 
  void C::push_front(value_type&& Value); 

  axiom MemberFrontInsertion(C c, value_type Value x) { 
    x == (c.push_front(x), c.front()); 
  } 
}

...

auto concept MemberBackInsertionContainer<typename C, typename Value = C::value_type&&>
    : MemberContainer<C> { 
  void C::push_back(value_type&& Value); 
}

...

auto concept MemberInsertionContainer<typename C, typename Value = C::value_type&&>
    : MemberContainer<C> { 
  iterator C::insert(const_iterator, value_type&& Value); 

  axiom MemberInsertion(C c, const_iterator position, value_type Value v) { 
    v == *c.insert(position, v); 
  } 
}

Change [container.concepts.maps]:

template <MemberFrontInsertionContainer C, typename Value = C::value_type&&> 
concept_map FrontInsertionContainer<C, Value> { 
  typedef Container<C>::value_type value_type;

  void push_front(C& c, value_type&& Value v) { c.push_front(static_cast<value_type&& Value>(v)); } 
}

...

template <MemberBackInsertionContainer C, typename Value = C::value_type&&> 
concept_map BackInsertionContainer<C, Value> { 
  typedef Container<C>::value_type value_type;

  void push_back(C& c, value_type&& Value v) { c.push_back(static_cast<value_type&& Value>(v)); } 
}

...

template <MemberInsertionContainer C, typename Value = C::value_type&&> 
concept_map InsertionContainer<C, Value> { 
  typedef Container<C>::value_type value_type;
  Container<C>::iterator insert(C& c, Container<C>::const_iterator i, value_type&& Value v) 
  { return c.insert(i, static_cast<value_type&& Value>(v)); } 
}

Change 24.5.2.1 [back.insert.iterator]:

template <BackInsertionContainer Cont> 
class back_insert_iterator {
  ...
  requires BackInsertionContainer<Cont, const Cont::value_type&>
           CopyConstructible<Cont::value_type>
    back_insert_iterator<Cont>& 
      operator=(const Cont::value_type& value);
  ...

Change 24.5.2.2.2 [back.insert.iter.op=]:

requires BackInsertionContainer<Cont, const Cont::value_type&>
         CopyConstructible<Cont::value_type>
  back_insert_iterator<Cont>& 
    operator=(const Cont::value_type& value);

-1- Effects: push_back(*container, Cont::value_type(value));

Change 24.5.2.3 [front.insert.iterator]:

template <FrontInsertionContainer Cont> 
class front_insert_iterator {
  ...
  requires FrontInsertionContainer<Cont, const Cont::value_type&>
           CopyConstructible<Cont::value_type>
    front_insert_iterator<Cont>& 
      operator=(const Cont::value_type& value);
  ...

Change 24.5.2.4.2 [front.insert.iter.op=]:

requires FrontInsertionContainer<Cont, const Cont::value_type&>
         CopyConstructible<Cont::value_type>
  front_insert_iterator<Cont>& 
    operator=(const Cont::value_type& value);

-1- Effects: push_front(*container, Cont::value_type(value));

Change 24.5.2.5 [insert.iterator]:

template <InsertionContainer Cont> 
class insert_iterator {
  ...
  requires InsertionContainer<Cont, const Cont::value_type&>
           CopyConstructible<Cont::value_type>
    insert_iterator<Cont>& 
      operator=(const Cont::value_type& value);
  ...

Change 24.5.2.6.2 [insert.iter.op=]:

requires InsertionContainer<Cont, const Cont::value_type&>
         CopyConstructible<Cont::value_type>
  insert_iterator<Cont>& 
    operator=(const Cont::value_type& value);

-1- Effects:

iter = insert(*container, iter, Cont::value_type(value)); 
++iter;

979. Bad example

Section: 24.5.3 [move.iterators] Status: NAD Editorial Submitter: Howard Hinnant Opened: 2009-02-03 Last modified: 2015-04-08

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Discussion:

24.5.3 [move.iterators] has an incorrect example:

-2- [Example:

set<string> s; 
// populate the set s 
vector<string> v1(s.begin(), s.end());          // copies strings into v1 
vector<string> v2(make_move_iterator(s.begin()), 
                  make_move_iterator(s.end())); // moves strings into v2

-- end example]

One can not move from a set because the iterators return const references.

[ Batavia (2009-05): ]

We agree with the proposed resolution. Move to NAD Editorial.

Proposed resolution:

Change 24.5.3 [move.iterators]/2:

-2- [Example:

setlist<string> s; 
// populate the setlist s 
vector<string> v1(s.begin(), s.end());          // copies strings into v1 
vector<string> v2(make_move_iterator(s.begin()), 
                  make_move_iterator(s.end())); // moves strings into v2

-- end example]


980. mutex lock() missing error conditions

Section: 30.4.1 [thread.mutex.requirements] Status: NAD Submitter: Ion Gaztañaga Opened: 2009-02-07 Last modified: 2015-04-08

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Discussion:

POSIX 2008 adds two return values for pthread_mutex_xxxlock(): EOWNERDEAD (owner_dead) and ENOTRECOVERABLE (state_not_recoverable). In the first case the mutex is locked, in the second case the mutex is not locked.

Throwing an exception in the first case can be incompatible with the use of Locks, since the Lock::owns_lock() will be false when the lock is being destroyed.

Consider:

//Suppose mutex.lock() throws "owner_dead"
unique_lock ul(&mutex);
//mutex left locked if "owner_dead" is thrown

Throwing an exception with owner_dead might be also undesirable if robust-mutex support is added to C++ and the user has the equivalent of pthread_mutex_consistent() to notify the user has fixed the corrupted data and the mutex state should be marked consistent.

  1. For state_not_recoverable add it to the list of Error conditions:
  2. For owner_dead, no proposed resolution.

[ Summit: ]

Not a defect. Handling these error conditions is an implementation detail and must be handled below the C++ interface.

Proposed resolution:

Add to 30.4.1 [thread.mutex.requirements], p12:

-12- Error conditions:


988. Reflexivity meaningless?

Section: X [concept.comparison] Status: NAD Submitter: Alisdair Meredith Opened: 2009-02-24 Last modified: 2015-04-08

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Discussion:

X [concept.comparison] p2:

Due to the subtle meaning of == inside axioms, the Reflexivity axiom does not do anything as written. It merely states that a value is substitutable with itself, rather than asserting a property of the == operator.

Original proposed resolution:

Change the definition of Reflexivity in X [concept.comparison]:

axiom Reflexivity(T a) { (a == a) == true; }

[ Post Summit: ]

Alisdair: I was wrong.

Recommend NAD.

Proposed resolution:

NAD.


989. late_check and library

Section: 17 [library] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-02-24 Last modified: 2015-04-08

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Discussion:

The example in 6.9p2 shows how late_check blocks inhibit concept_map lookup inside a constrained context, and so inhibit concept map adaption by users to meet template requirements.

Do we need some text in clause 17 prohibitting use of late_check in library template definitions unless otherwise documented?

[ Doug adds: ]

We need something like this, but it should be a more general statement about implementations respecting the concept maps provided by the user. Use of late_check is one way in which implementations can subvert the concept maps provided by the user, but there are other ways as well ("pattern-based" overloading, tricks with "auto" concept maps and defaulted associated type arguments).

[ Batavia (2009-05): ]

Move to Open, pending proposed wording from Alisdair and/or Doug for further review.

Proposed resolution:


992. Allow implementations to implement C library in the global namespace

Section: 17.6.1.1 [contents] Status: NAD Submitter: P.J. Plauger Opened: 2009-03-03 Last modified: 2015-04-08

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Discussion:

Addresses UK-169 [CD1]

This phrasing contradicts later freedom to implement the C standard library portions in the global namespace as well as std. (17.6.2.3p4)

[ Batavia (2009-05): ]

The proposed wording seems to go too far. Move back to Open.

[ 2009-07 Frankfurt: ]

Howard to add NB reference to the description of this issue.

Move to NAD. This comment is informative and not normative by the use of the word "are" instead of the word "shall."

A note linking to Annex D would help clarify the intention, here.

Robert to Open a separate issue proposing that the standard C headers be undeprecated, for the purpose of clarifying the standard.

[ 2009-07-22 Bill modified the proposed wording with a clarifying footnote. ]

Proposed resolution:

Add a footnote to 17.6.1.1 [contents], p2:

-2- All library entities except macros, operator new and operator delete are defined within the namespace std or namespaces nested within namespace std*.

*The C standard library headers D.5 [depr.c.headers] also define names within the global namespace, while the C++ headers for C library facilities 17.6.1.2 [headers] may also define names within the global namespace.


995. Operational Semantics Unclear

Section: 17.5.1.3 [structure.requirements] Status: NAD Submitter: David Abrahams Opened: 2009-03-06 Last modified: 2015-04-08

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Discussion:

As a practical matter there's disagreement on the meaning of operational semantics. If the text in 17.5.1.3 [structure.requirements]p4 isn't clear, it should be clarified. However, it's not clear whether the disagreement is merely due to people not being aware of the text.

[ Batavia (2009-05): ]

Agree with the recommended NAD resolution.

Proposed resolution:

Recommend NAD. The text in 17.5.1.3 [structure.requirements] is perfectly clear.


996. Move operation not well specified

Section: 17 [library] Status: NAD Submitter: David Abrahams Opened: 2009-03-06 Last modified: 2015-04-08

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Discussion:

There are lots of places in the standard where we talk about "the move constructor" but where we mean "the move operation," i.e. T( move( x ) ).

We also don't account for whether that operation modifies x or not, and we need to.

[ Batavia (2009-05): ]

Move to Open, pending proposed wording from Dave for further review.

[ 2010 Rapperswil: ]

Move to NAD. We define what we expect from a moved-from object in Table 34 [movesconstructible].

Proposed resolution:


1000. adjacent_find is over-constrained

Section: 25.2.8 [alg.adjacent.find] Status: NAD Concepts Submitter: Chris Jefferson Opened: 2009-03-09 Last modified: 2015-04-08

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Discussion:

Addresses UK 296

adjacent_find in C++03 allows an arbitrary predicate, but in C++0x EqualityComparable/EquivalenceRelation is required. This forbids a number of use cases, including:

adjacent_find(begin, end, less<double>) Find the first place where a range is not ordered in decreasing order - in use to check for sorted ranges.
adjacent_find(begin, end, DistanceBiggerThan(6) ) ) Find the first place in a range where values differ by more than a given value - in use to check an algorithm which produces points in space does not generate points too far apart.

A number of books use predicate which are not equivalence relations in examples, including "Thinking in C++" and "C++ Primer".

Adding the requirement that the predicate is an EquivalenceRelation does not appear to open up any possibility for a more optimised algorithm.

Proposed resolution:

Change the definition of adjacent_find in the synopsis of 25 [algorithms] and 25.2.8 [alg.adjacent.find] to:

template<ForwardIterator Iter> 
  requires EqualityComparableHasEqualTo<Iter::value_type, Iter::value_type>
  Iter adjacent_find(Iter first, Iter last);

template<ForwardIterator Iter, EquivalenceRelationPredicate<auto, Iter::value_type, Iter::value_type> Pred> 
  requires CopyConstructible<Pred> 
  Iter adjacent_find(Iter first, Iter last, Pred pred);

1001. Pointers, concepts and headers

Section: 17 [library] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-10 Last modified: 2015-04-08

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Discussion:

Addresses UK 78

Related to 1063.

This is effectively an extension of LWG issue 343.

We know there is an increasing trend (encouraged by conformance testers and some users) that each library header should supply no more than required to satisfy the synopsis in the standard. This is typically achieved by breaking larger headers into smaller subsets, and judicious use of forward declarations.

If we apply this policy to C++0x (per N2800) it will be very surprising for people using library algorithms over ranges defined by pointers that they must #include <iterator_concepts> for their code to compile again. That is because pointers do not satisfy any of the iterator concepts without the concept_map supplied in this header.

Therefore, I suggest we should require all library headers that make use of iterator concepts are specifically required to #include <iterator_concepts>.

At a minimum, the list of headers would be: (assuming all are constrained by concepts)

algorithm
array
deque
forward_list
initializer_list
iterator
locale
list
map
memory          // if 1029 is adopted
memory_concepts
numeric
random
regex
set
string
tuple
unordered_map
unordered_set
utility
vector

[ Ganesh adds: ]

The same problems exists for <memory_concepts> and <container_concepts>.

In order to compile <vector> you just need the definitions of the concepts in <memory_concepts>, the concept maps defined there are not necessary. Yet, from the user point of view, if the concept map template for AllocatableElement are not in scope, <vector> is pretty useless. Same for <tuple> and ConstructibleWithAllocator.

Similarly, <queue> is not very useful if the concept map template for QueueLikeContainer is not in scope, although the definition of concept alone is theoretically sufficient.

There's a pattern here: if a concept has concept maps "attached", they should never be separated.

[ Beman provided the proposed resolution for the May 2009 mailing. He comments: ]

Initially I tried to specify exactly what header should include what other headers. This was verbose, error prone, hard to maintain, and appeared to add little value compared to just stating the general rule.

[ Batavia (2009-05): ]

Pete believes the proposed wording overconstrains implementers. Instead of specifying the mechanism, he prefers a solution that spells out what needs to be declared, rather than how those declarations are to be provided, e.g.,

A C++ header shall provide the names that are required to be defined in that header.

Bill suggests approaching the wording from a programmer's perspective. We may want to consider promising that certain widely-used headers (e.g., the concept headers) are included when needed by other headers. He feels, however, there is nothing broken now, although we may want to consider "something nicer."

Move to Open status.

[ 2009-06-16 Beman updated the proposed resolution: ]

[ 2009-07-15 Beman updated the proposed resolution: ]

[ 2009-07-17 Beman updated the proposed resolution based on feedback from the LWG in Frankfurt: ]

[ 2009-07 Frankfurt: ]

Revised Proposed Resolution:

A C++ header may include other C++ headers. A C++ header shall provide the declarations and definitions that appear in its synopsis (3.2 [basic.def.odr]). A C++ header shown in its synopsis as including other C++ headers shall provide the declarations and definitions that appear in the synopses of those other headers.

Alisdair: Does this address the BSI comment?

Beman: There were several overlapping comments. I tried to handle them all with one resolution.

Alisdair: I'd prefer to see this closed as NAD and have this resolution be the subject of some other, new issue.

Move to NAD Concepts. Howard to open a new issue (1178) in Ready state with the Proposed Resolution above. Beman will write up a discussion for the new issue.

Proposed resolution:

Change 17.6.5.2 [res.on.headers], Headers, paragraph 1, as indicated:

A C++ header may include other C++ headers.[footnote] A C++ header shall provide the declarations and definitions that appear in its synopsis (3.2 [basic.def.odr]). A C++ header shown in its synopsis as including other C++ headers shall provide the same declarations and definitions as if those other headers were included.

[footnote] C++ headers must include a C++ header that contains any needed definition (3.2).


1002. Provide bulk include headers

Section: 17.6.1.2 [headers] Status: NAD Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses UK-170 [CD1]

One of goals of C++0x is to make language easier to teach and for 'incidental' programmers. The fine-grained headers of the C++ library are valuable in large scale systems for managing dependencies and optimising build times, but overcomplicated for simple development and tutorials. Add additional headers to support the whole library through a single include statement.

[ Batavia (2009-05): ]

We do not all agree that this is an issue, but we agree that if it needs solving this is the right way to do it. Move to Tentatively Ready.

[ 2009-07-06 Beman notes: ]

This issue adds a header <std>.

There is a paper to be looked at, N2905 Aggregation headers, that adds a header <std-all> that is the same thing except it excludes deprecated headers. N2905 also proposes a second aggregation header.

Seems like this issue should be held in abeyance until the LWG has had a chance to look at N2905.

[ 2009-07-06 Howard: I've pulled this issue back to Review. ]

[ 2009-07 Frankfurt ]

No consensus for change.

Proposed resolution:

Insert a new paragraph in 17.6.1.2 [headers] between p4 and p5

An additional header <std> shall have the effect of supplying the entire standard library. [Note: for example, it might be implemented as a file with an #include statement for each of the headers listed in tables 13 and 14. -- end note]


1003. Require more useful headers for freestanding implementations

Section: 17.6.1.3 [compliance] Status: NAD Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses JP 23 [CD1]

There is a freestanding implementation including <type_traits>, <array>, <ratio>, lately added to Table 13, C++ library headers. Programmers think them useful and hope that these headers are also added to Table 15, C++ headers for freestanding implementations, that shows the set of headers which a freestanding implementation shall include at least.

Original proposed resolution

Add <type_traits>, <array>, <ratio> to Table 15.

[ Summit: ]

The <array> header has far too many dependencies to require for a free-standing implementation.

The <ratio> header would be useful, has no dependencies, but is not strictly necessary.

The <type_traits> header is fundamentally a core language facility with a library interface, so should be supported.

(it is anticipated the resolution will come via an update to paper N2814) (see also LWG 833)

[ Batavia (2009-05): ]

Leave in Review status pending a paper on freestanding implementations by Martin Tasker.

[ 2009-07 Frankfurt: ]

Move this to NAD.

We considered all of the listed headers, and found a compelling case only for the inclusion of <type_traits> in the list of headers required of a freestanding implementation.

See Martin Tasker's paper Fixing Freestanding which provides the wording to include <type_traits> into freestanding implementations.

Proposed resolution:

Add <type_traits> to Table 15.


1005. numeric_limits partial specializations not concept enabled

Section: 18.3.2.3 [numeric.limits] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses JP 26

numeric_limits [partial specializations] does not use concept.

[ Summit: ]

Alisdair will provide a solution as part of treatment of axioms and LWG 902.

[ Post Summit: ]

Alisdair recommends NAD as the partial specializations are already constrained by requirements on the primary template.

[ Batavia (2009-05): ]

The Working Draft does not in general repeat a primary template's constraints in any specializations. Move to NAD.

[ 2009-05-25 Howard adds: ]

A c++std-lib thread starting at c++std-lib-23880 has cast doubt that NAD is the correct resolution of this issue. Indeed the discussion also casts doubt that the current proposed wording is the correct resolution as well. Personally I'm inclined to reset the status to Open. However I'm reverting the status to that which it had prior to the Batavia recommendation. I'm setting back to Review.

Proposed resolution:

Change 18.3.2.3 [numeric.limits]:

template<class Regular T> class numeric_limits<const T>;
template<class Regular T> class numeric_limits<volatile T>;
template<class Regular T> class numeric_limits<const volatile T>;

1007. throw_with_nested not concept enabled

Section: 18.8.6 [except.nested] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses JP 29

throw_with_nested does not use concept.

[ Summit: ]

Agreed.

Proposed resolution:

Alisdair initially proposed wording in N2619.

We are awaiting an updated paper based on feedback from the San Francisco review.


1008. nested_exception wording unclear

Section: 18.8.6 [except.nested] Status: NAD Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses JP 31

It is difficult to understand in which case nested_exception is applied.

[ Summit: ]

Alisdair will add an example in an update to N2619.

[ 2009-10 Santa Cruz: ]

It doesn't appear that N2619 really addresses this. Alisdair to propose wording.

[ 2010 Pittsburgh: ]

Mark issue 1008 as NAD, the type is adequately described.

Rationale:

nested_exception is intended to be inherited from by exception classes that are to be thrown during the handling of another exception, i.e. when translating from one exception type to another. nested_exception allows the originally thrown exception to be easily retained in that scenario.

Proposed resolution:


1009. InputIterator post-increment dangerous

Section: 24.2.2 [iterator.iterators] Status: NAD Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses UK 251

The post-increment operator is dangerous for a general InputIterator. The multi-pass guarantees that make it meaningful are defined as part of the ForwardIterator refinement. Any change will affect only constrained templates that have not yet been written, so should not break existing user iterators which remain free to add these operations. This change will also affect the generalised OutputIterator, although there is no percieved need for the post-increment operator in this case either.

[ 2009-07-28 Alisdair adds: ]

We still think the issue is relevant, but needs totally rewording in non-concept language. We would like to see the issue retained as Open, rather than deferred as NAD Concepts. Review status is no longer appropriate.

[ 2009-10 Santa Cruz: ]

NAD. Without concepts we do not feel that input iterator post increment is broken.

Proposed resolution:

Change 24.2.2 [iterator.iterators]:

concept Iterator<typename X> : Semiregular<X> { 
  MoveConstructible reference = typename X::reference; 
  MoveConstructible postincrement_result;

  requires HasDereference<postincrement_result>;

  reference operator*(X&&); 
  X& operator++(X&); 
  postincrement_result operator++(X&, int);
}

...

postincrement_result operator++(X& r, int);

-3- Effects: equivalent to { X tmp = r; ++r; return tmp; }.

Change 24.2.3 [input.iterators]:

concept InputIterator<typename X> : Iterator<X>, EqualityComparable<X> { 
  ObjectType value_type = typename X::value_type; 
  MoveConstructible pointer = typename X::pointer; 

  SignedIntegralLike difference_type = typename X::difference_type; 

  requires IntegralType<difference_type> 
        && Convertible<reference, const value_type &>; 
        && Convertible<pointer, const value_type*>; 

  requires Convertible<HasDereference<postincrement_result>::result_type, const value_type&>;

  pointer operator->(const X&); 
}

Change 24.2.4 [output.iterators]:

auto concept OutputIterator<typename X, typename Value> { 
  requires Iterator<X>; 

  typename reference = Iterator<X>::reference; 
  typename postincrement_result = Iterator<X>::postincrement_result;
  requires SameType<reference, Iterator<X>::reference> 
        && SameType<postincrement_result, Iterator<X>::postincrement_result>
        && Convertible<postincrement_result, const X&>
        && HasAssign<reference, Value> 
        && HasAssign<HasDereference<postincrement_result>::result_type, Value>;
}

Change 24.2.5 [forward.iterators]:

[ See 1084 which is attempting to change this same area in a compatible way. ]

concept ForwardIterator<typename X> : InputIterator<X>, Regular<X> { 
  requires Convertible<postincrement_result, const X&>;

  MoveConstructible postincrement_result;
  requires HasDereference<postincrement_result>
        && Convertible<HasDereference<postincrement_result>::result_type, const value_type&>;

  postincrement_result operator++(X&, int);

  axiom MultiPass(X a, X b) { 
    if (a == b) *a == *b; 
    if (a == b) ++a == ++b; 
  } 
}

-4- ...

postincrement_result operator++(X& r, int);

-5- Effects: equivalent to { X tmp = r; ++r; return tmp; }.


1010. operator-= should use default in concept

Section: 24.2.7 [random.access.iterators] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses UK 263

This requirement on operator-= would be better expressed as a default implementation in the concept, with a matching axiom.

[ Batavia (2009-05): ]

The proposed resolution should also remove paragraph 5 and the declaration that precedes it. Further, we should provide an axiom that captures the desired semantics. This may be a broader policy to be applied. Move to Open.

Proposed resolution:

Change 24.2.7 [random.access.iterators]:

concept RandomAccessIterator<typename X> : BidirectionalIterator<X>, LessThanComparable<X> {
  ...
  X& operator-=(X& x, difference_type n) { return x += -n; }
  ...
}

1013. Remove IsSameType hold-over constraints

Section: 25.4.7 [alg.min.max] Status: NAD Editorial Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses UK 305

The negative requirement on IsSameType is a hold-over from an earlier draught with a variadic template form of min/max algorith. It is no longer necessary.

[ Batavia (2009-05): ]

We agree with the proposed resolution. Move to Tentatively Ready.

[ 2009-07 Frankfurt ]

We believe this is NAD, but this needs to be reviewed against the post-remove-concepts draft.

Proposed resolution:

Change 25 [algorithms]:

template<class T, StrictWeakOrder<auto, T> Compare>
  requires !SameType<T, Compare> && CopyConstructible<Compare>
  const T& min(const T& a, const T& b, Compare comp);
...
template<class T, StrictWeakOrder<auto, T> Compare>
  requires !SameType<T, Compare> && CopyConstructible<Compare>
  const T& max(const T& a, const T& b, Compare comp);
...
template<class T, StrictWeakOrder<auto, T> Compare>
  requires !SameType<T, Compare> && CopyConstructible<Compare>
  pair<const T&, const T&> minmax(const T& a, const T& b, Compare comp);

Change 25.4.7 [alg.min.max], p1, p9 and p17:

template<class T, StrictWeakOrder<auto, T> Compare>
  requires !SameType<T, Compare> && CopyConstructible<Compare>
  const T& min(const T& a, const T& b, Compare comp);
...
template<class T, StrictWeakOrder<auto, T> Compare>
  requires !SameType<T, Compare> && CopyConstructible<Compare>
  const T& max(const T& a, const T& b, Compare comp);
...
template<class T, StrictWeakOrder<auto, T> Compare>
  requires !SameType<T, Compare> && CopyConstructible<Compare>
  pair<const T&, const T&> minmax(const T& a, const T& b, Compare comp);

1015. C++ programs - but not users - need to provide support concept_maps

Section: X [concept.transform] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses UK 199

The requirement that programs do not supply concept_maps should probably be users do not supply their own concept_map specializations. The program will almost certainly supply concept_maps - the standard itself supplies a specialization for RvalueOf references. Note that the term program is defined in 3.5 [basic.link]p1 and makes no account of the standard library being treated differently to user written code.

[ 2009-05-09 Alisdair adds: ]

The same problem is present in the words added for the LvalueReference/RvalueReference concepts last meeting.

With three subsections requiring the same constraint, I'm wondering if there is a better way to organise this section. Possible 20.2.1 -> 20.2.3 belong in the fundamental concepts clause in [concept.support]? While they can be implemented purely as a library feature without additional compiler support, they are pretty fundamental and we want the same restriction on user-concept maps as is mandated there.

[ Batavia (2009-05): ]

We agree with the issue, but believe the wording needs further improvement. We want to investigate current definitions for nomenclature such as "user" and "program." Move to Open pending the recommended investigation.

Proposed resolution:

Change X [concept.transform] p2:

-2- A program user shall not provide concept maps for any concept in 20.1.1.

Change [concept.true] p2:

-2- Requires: a program user shall not provide a concept map for the True concept.

Change [concept.classify] p2:

-2- Requires: a programuser shall not provide concept maps for any concept in this section.


1016. Provide LessThanComparable and EqualityComparable for FloatingPointType

Section: X [concept.comparison] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses JP 33

LessThanComparable and EqualityComparable don't correspond to NaN.

Original proposed resolution:

Apply concept_map to these concepts at FloatingPointType.

[ Post Summit, Alisdair adds: ]

I don't understand the proposed resolution - there is no such thing as a 'negative' concept_map, and these concepts are auto concepts that match float/double etc. Also not clear how we are supposed to match values to concepts.

Recommend NAD and treat as a subset of issue 902.

Proposed resolution:

Recommend NAD.


1017. Floating-point types should not satisfy Regular

Section: X [concept.regular] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses US 66

Application of the Regular concept to floating-point types appears to be controversial (see long discussion on std-lib reflector).

Original proposed resolution:

State that the Regular concept does not apply to floating-point types.

[ Summit: ]

Recommend that we handle the same as JP 33 / 1016.

[ Post Summit, Alisdair adds: ]

Recommend Open, and review after resolution of 902 and revised axiom feature.

Proposed resolution:


1018. Trait specifications should be expressed in terms of concepts

Section: 20.10 [meta] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses US 70 [CD1]

Specifications now expressed via narrative text are more accurately and clearly expressed via executable code.

Wherever concepts are available that directly match this section's type traits, express the traits in terms of the concepts instead of via narrative text. Where the type traits do not quite match the corresponding concepts, bring the two into alignment so as to avoid two nearly-identical notions.

[ Summit: ]

We think that this is a good idea, but it requires a lot of work. If someone submits a paper proposing specific changes, we would be happy to review it at the next meeting.

Proposed resolution:


1020. Restore aligned_union

Section: 20.10.7.6 [meta.trans.other] Status: NAD Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses UK 204 [CD1]

It is not possible to create a variant union based on a parameter pack expansion, e.g. to implement a classic discriminated union template.

Original proposed resolutuion:

Restore aligned_union template that was removed by LWG issue 856.

[ Summit: ]

Agree. The need for aligned_union is compelling enough to reinstate.

[ Post Summit, Alisdair adds: ]

Paper N2843 proposes an extension to the [[align]] attribute that further diminishes the need for this template. Recommend NAD.

[ 2009-10 Santa Cruz: ]

Mark NAD as suggested.

Proposed resolution:


1022. Pointer-safety API has nothing to do with smart pointers

Section: 20.7.4 [util.dynamic.safety] Status: NAD Editorial Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses UK 212 [CD1]

The pointer-safety API is nothing to do with smart pointers, so does not belong in 20.8.2 [util.smartptr]. In fact it is a set of language support features are really belongs in clause 18 [language.support], with the contents declared in a header that deals with language-support of memory management.

[ Summit: ]

Agree in principle, but not with the proposed resolution. We believe it belongs either a subsection of either 20 [utilities] or 20.7 [memory] as part of the general reorganization of 20 [utilities]. The declaration should stay in <memory>.

Proposed resolution:


1023. Unclear inheritance relation for std::function

Section: 20.9.12.2 [func.wrap.func] Status: NAD Editorial Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses DE 22 [CD1]

Related to issue 1114.

The conditions for deriving from std::unary_function and std::binary_function are unclear: The condition would also be satisfied if ArgTypes were std::vector<T1>, because it (arguably) "contains" T1.

[ Summit: ]

Agree. std::reference_wrapper has the same structure, and we suggest that std::function be presented in the same way as std::reference_wrapper.

[ 2009-05-09 Alisdair adds: ]

Phrasing should be "publicly and unambiguously derived from" and probably back in reference_wrapper too. Updated wording supplied.

[ Batavia (2009-05): ]

We agree with the proposed wording. Move to NAD Editorial.

Proposed resolution:

(no changes to <functional> synopsis required)

Change synopsis in Class template function 20.9.12.2 [func.wrap.func]:

template<Returnable R, CopyConstructible... ArgTypes> 
class function<R(ArgTypes...)> 
  : public unary_function<T1, R>      // iff sizeof...(ArgTypes) == 1 and see below
                                      // ArgTypes contains T1
  : public binary_function<T1, T2, R> // iff sizeof...(ArgTypes) == 2 and see below
                                      // ArgTypes contains T1 and T2
{
   ...

Add new p1/p2 before 20.9.12.2.1 [func.wrap.func.con]:

The template instantiation function<R(T1)> shall be publicly and unambiguously derived from std::unary_function<T1,R> if and only if the template type parameter is a function type taking one argument of type T1 and returning R.

The template instantiation function<R(T1,T2)> shall be publicly and unambiguously derived from std::binary_function<T1,T2,R> if and only if the template type parameter is a function type taking two arguments of type T1 and T2 and returning R.

explicit function();

1024. std::function constructors overly generous

Section: 20.9.12.2 [func.wrap.func] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses JP 39 [CD1]

There are no requires corresponding to F of std::function.

[ 2009-05-01 Daniel adds: ]

1070 removes the second constructor.

[ Batavia (2009-05): ]

We agree with the proposed resolution. Move to Tentatively Ready. If issue 1070 is accepted, the changes to the second constructor in this issue are moot.

[ 2009-07 Frankfurt: ]

Constructors have no definition.

Proposed resolution:

Correct as follows in 20.9.12.2 [func.wrap.func] (class definition)

 template<class F, Allocator Alloc>
   requires ConstructibleWithAllocator<F, Alloc>
     && call=Callable<F, ArgTypes...>
     && Convertible<call::result_type, R>
   function(allocator_arg_t, const Alloc&, F);
 template<class F, Allocator Alloc>
   requires ConstructibleWithAllocator<F,Alloc>
     && call=Callable<F, ArgTypes...>
     && Convertible<call::result_type, R>
   function(allocator_arg_t, const Alloc&, F&&);

1026. Smart pointers need to be concept-constrained templates

Section: 20.7 [memory] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses UK 209 [CD1]

Smart pointers cannot be used in constrained templates.

[ Summit: ]

We look forward to a paper on this topic. We recommend no action until a paper is available. We understand that a paper is forthcoming.

[ Peter Dimov adds: ]

shared_ptr<T> and weak_ptr<T> support all types T for which T* is valid. In other words, a possible (partial) resolution is to change class T to PointeeType T for shared_ptr, weak_ptr and possibly enable_shared_from_this.

Proposed resolution:


1027. std::allocator needs to be a concept-constrained template

Section: 20.7.9 [default.allocator] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses UK 213 [CD1]

std::allocator should be constrained to simplify its use on constrained contexts. This library component models allocation from free store via the new operator so choose constraints to match. The Allocator concept allows for a wider variety of allocators that users may choose to supply if their allocation model does not require operator new, without impacting the requirements of this template.

Suggested direction:

The primary allocator template should be constrained to require ObjectType<T> and FreeStoreAllocatable<T>. Further operations to be constrained as required.

[ Summit: ]

Agree as stated. A future paper will address additional related issues.

Proposed resolution:


1028. raw_storage_iterator needs to be a concept-constrained template

Section: 20.7.10 [storage.iterator] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses UK 214 [CD1]

raw_storage_iterator needs constraining as an iterator adaptor to be safely used in constrained templates

[ Summit: ]

We look forward to a paper on this topic. We recommend no action until a paper is available.

[ Post Summit Alisdair provided wording and rationale. ]

Proposed resolution:

20.7 [memory] p2

Update the synopsis for <memory>

// 20.7.8, raw storage iterator:
template <class ForwardIterator OutputIterator, class ObjectType T> 
  requires OutputIterator< OutIter, T >
    class raw_storage_iterator;

template <ForwardIterator OutIter, ObjectType T> 
  requires OutputIterator< OutIter, T >
  concept_map Iterator<raw_storage_iterator< OutIter, T > > { }

20.7.10 [storage.iterator] p1

Replace class template definition with:

namespace std { 
  template <class ForwardIterator OutputIterator, class ObjectType T> 
    requires OutputIterator< OutIter, T >
  class raw_storage_iterator 
    : public iterator<output_iterator_tag,void,void,void,void> { 
  public: 
    explicit raw_storage_iterator(OutputIterator x); 

    raw_storage_iterator<OutputIterator,T>& operator*(); 
    raw_storage_iterator<OutputIterator,T>& operator=(const T& element); 
    raw_storage_iterator<OutputIterator,T>& operator++(); 
    raw_storage_iterator<OutputIterator,T> operator++(int); 
  }; 

  template <ForwardIterator OutIter, ObjectType T> 
    requires OutputIterator< OutIter, T >
    concept_map Iterator<raw_storage_iterator< OutIter, T > > { }
}

Rationale:

raw_storage_iterator has to adapt a ForwardIterator, rather than just an InputIterator for two reasons:

  1. The initial iterator passed by value is expected to remain valid, pointing to the initialized region of memory.
  2. to avoid breaking the declaration of post-increment operator which would require some kind of proxy formulation to support generalised InputIterators.

1029. Specialized algorithms for memory management need to be concept-constrained templates

Section: 20.7.12 [specialized.algorithms] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses UK 210 [CD1]

Related to 582

Specialized algorithms for memory management need requirements to be easily usable in constrained templates.

[ Summit: ]

We look forward to a paper on this topic. We recommend no action until a paper is available.

[ Post Summit Alisdair provided wording. ]

[ Post Summit: ]

Daniel adds:

  1. I suggest Size should require IntegralLike and not UnsignedIntegralLike, because otherwise simple int-literals could not be provided as arguments and it would conflict with other algorithms that only require IntegralLike.
  2. The current for-loop-test relies on evaluation in boolean context which is not provided by ArithmeticLike and it's refinements. I propose to change the corresponding for-loop-headers to:

    1. for uninitialized_copy_n: for ( ; n > Size(0); ++result, ++first, --n) {
    2. for uninitialized_fill_n: for (; n > Size(0); ++first, --n) {

Alisdair adds:

For the record I agree with Daniel's suggestion.

Proposed resolution:

20.7 [memory] p2

Update the synopsis for <memory>

template <class InputIterator InIter,
         class ForwardIterator OutputIterator<auto, InIter::reference> OutIter> 
   requires ForwardIterator<OutIter>
   ForwardIterator OutIter
   uninitialized_copy(InputIterator InIter first, InputIterator InIter last, 
                      ForwardIterator OutIter result);

template <class InputIterator InIter,
          class IntegralLike Size,
          class ForwardIterator OutputIterator<auto, InIter::reference> OutIter> 
  requires ForwardIterator<OutIter>
  ForwardIterator OutIter
  uninitialized_copy_n(InputIterator InIter first, Size n, 
                       ForwardIterator OutIter result);

template <class ForwardIterator Iter, class ObjectType T>
  requires Constructible< Iter::value_type, const T& >
  void uninitialized_fill(ForwardIterator Iter first, ForwardIterator Iter last, 
                          const T& x);

template <class ForwardIterator Iter, class IntegralLike Size, class ObjectType T> 
  requires Constructible< Iter::value_type, const T& >
  void
  uninitialized_fill_n(ForwardIterator Iter first, Size n, const T& x);

Update as follows:

uninitialized_copy 20.7.12.2 [uninitialized.copy]

template <class InputIterator InIter,
         class ForwardIterator OutputIterator<auto, InIter::reference> OutIter> 
   requires ForwardIterator<OutIter>
   ForwardIterator OutIter
   uninitialized_copy(InputIterator InIter first, InputIterator InIter last, 
                      ForwardIterator OutIter result);

-1- Effects:

for (; first != last; ++result, ++first)  {
   new (static_cast<void*>(&*result))
       typename iterator_traits<ForwardIterator> OutIter::value_type(*first);
}

-2- Returns: result

template <class InputIterator InIter,
          class IntegralLike Size,
          class ForwardIterator OutputIterator<auto, InIter::reference> OutIter> 
  requires ForwardIterator<OutIter>
  ForwardIterator OutIter
  uninitialized_copy_n(InputIterator InIter first, Size n, 
                       ForwardIterator OutIter result);

-3- Effects:

for ( ; n > Size(0); ++result, ++first, --n) {
   new (static_cast<void*>(&*result))
       typename iterator_traits<ForwardIterator> OutIter::value_type(*first);
}

-4- Returns: result

uninitialized_fill 20.7.12.3 [uninitialized.fill]

template <class ForwardIterator Iter, class ObjectType T>
  requires Constructible< Iter::value_type, const T& >
  void uninitialized_fill(ForwardIterator Iter first, ForwardIterator Iter last, 
                          const T& x);

-1- Effects:

for (; first != last; ++first) {
   new ( static_cast<void*>( &*first) ) 
       typename iterator_traits<ForwardIterator> Iter::value_type(x);
}

uninitialized_fill_n 20.7.12.4 [uninitialized.fill.n]

template <class ForwardIterator Iter, class IntegralLike Size, class ObjectType T> 
  requires Constructible< Iter::value_type, const T& >
  void
  uninitialized_fill_n(ForwardIterator Iter first, Size n, const T& x);

-1- Effects:

for (; n-- > Size(0); ++first, --n) {
   new ( static_cast<void*>( &*first) ) 
       typename iterator_traits<ForwardIterator> Iter::value_type(x);
}

1032. Tome utility templates need to be concept-constrained

Section: 20.12 [time] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-11 Last modified: 2015-04-08

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Discussion:

Addresses JP 45 [CD1]

Rep, Period, Clock and Duration don't correspond to concept.

template <class Rep, class Period = ratio<1>> class duration; 
template <class Clock, class Duration = typename Clock::duration> class time_point; 

Make concept for Rep, Period, Clock and Duration. Fix 20.12 [time] and wait_until and wait_for's template parameter at 30 [thread].

[ Summit: ]

We agree that this section needs concepts. We look forward to a paper on this topic. We recommend no action until a paper is available.

Proposed resolution:


1035. <array>::swap can invalidate references, pointers, and iterators

Section: 23.2.1 [container.requirements.general] Status: NAD Submitter: Alisdair Meredith Opened: 2009-03-12 Last modified: 2015-04-08

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Discussion:

Addresses UK 226 [CD1]

<array> must be added to this list. In particular it doesn't satisfy: - no swap() function invalidates any references, pointers, or iterators referring to the elements of the containers being swapped. and probably doesn't satisfy: - no swap() function throws an exception.

If <array> remains a container, this will have to also reference array, which will then have to say which of these points it satisfies.

[ Summit: ]

Agree. The proposed resolution is incomplete. Further work required.

[ 2009-05-01 Daniel adds: ]

Issue 1099 also suggests adding move constructor to this.

[ 2009-07 post-Frankfurt: ]

Howard is to draft a note that explains what happens to references.

[ 2009-10 Santa Cruz: ]

Mark as NAD. No consensus for change.

[ 2009-08-01 Howard provided wording. ]

Proposed resolution:

Add a paragraph to 23.3.2.3 [array.special]:

template <Swappable T, size_t N> void swap(array<T,N>& x, array<T,N>& y);

Effects:

swap_ranges(x.begin(), x.end(), y.begin());

[Note: Outstanding iterators, references and pointers may be invalidated. — end note]


1036. Remove iterator specification that is redundant due to concept constraints

Section: 23.2.3 [sequence.reqmts] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-12 Last modified: 2015-04-08

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Discussion:

Addresses UK 231 [CD1]

p9-p11 are redundant now that Concepts define what it means to be an Iterator and guide overload resolution accordingly.

[ Summit: ]

Agree with issue and change to 23.2.3 [sequence.reqmts]. The changes required to 21 [strings] will be part of the general concept support for that clause.

Proposed resolution:

Strike 23.2.3 [sequence.reqmts]p9-11. Make sure std::basic_string has constraints similar to std::vector to meet this old guarantee.


1042. Provide ContiguousStorage concept and apply it to corresponding containers

Section: 23.3 [sequences] Status: NAD Submitter: Alisdair Meredith Opened: 2009-03-12 Last modified: 2015-04-08

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Discussion:

Addresses UK 244 [CD1]

The validity of the expression &a[n] == &a[0] + n is contingent on operator& doing the "right thing" (as captured by the CopyConstructible requirements in table 30 in C++2003). However this constraint has been lost in the Concepts of C++0x. This applies to vector and array (it actually applies to string also, but that's a different chapter, so I'll file a separate comment there and cross-reference).

Suggested solution:

Define a ContiguousStorage and apply it to vector, array and string.

[ Summit: ]

Agree with the issue but not the details of the proposed solution. Walter to provide wording for the new concept.

[ Post Summit Alisdair adds: ]

Another LWG subgroup wondered if this concept should extend to complex<T>, and so not be built on the container concept at all?

[ 2009-07 post-Frankfurt: ]

Leave Open, pending a post-Concepts Working Draft.

[ 2009-10 Santa Cruz: ]

Mark issue 1042 as NAD, in rationale state that this was solved by removal of concepts.

Proposed resolution:

Add to <container_concepts> synopsis in [container.concepts]

concept< typename C > ContiguousStorageContainer see below;

Add a new section to the end of [container.concepts]

23.1.6.x ContiguousStorageContainer concept [container.concepts.contiguous]

concept ContiguousStorageContainer< typename C >
  : Container<C>
{
  value_type* data(C&);

  axiom Contiguity(C& c, size_type i) {
    if( i < size(c) ) {
         addressof( * (data(c) + i) )
      == addressof( * advance(data(c), i) );
    }
  }
}

The ContiguousStorageContainer concept describes a container whose elements are allocated in a single region of memory, and are stored sequentially without intervening padding other than to meet alignment requirements. For example, the elements may be stored in a single array of suitable length.

value_type * data( C& );

Returns: a pointer to the first element in the region of storage. Result is unspecified for an empty container.

Change 23.3.2 [array] p1:

-1- The header <array> defines a class template for storing fixed-size sequences of objects. An array supports random access iterators. An instance of array<T, N> stores N elements of type T, so that size() == N is an invariant. The elements of an array are stored contiguously, meaning that if a is an array<T, N> then it obeys the identity &a[n] == &a[0] + n for all 0 <= n < N satisfies the concept ContiguousStorageContainer< array<T, N>>.

Add to the synopsis in 23.3.2 [array]:

    ...
    T * data(); 
    const T * data() const; 
  };

  template< typename T, size_t N >
    concept_map ContiguousStorageContainer< array<T, N>> {};
} 

Change 23.3.6 [vector] p1:

A vector is a sequence container that supports random access iterators. In addition, it supports (amortized) constant time insert and erase operations at the end; insert and erase in the middle take linear time. Storage management is handled automatically, though hints can be given to improve efficiency. The elements of a vector are stored contiguously, meaning that if v is a vector<T, Alloc> (where T is some type other than bool), then it obeys the identity &v[n] == &v[0] + n for all 0 <= n < v.size() satisfies the concept ContiguousStorageContainer< vector< T, Alloc>>.

Add at the end of the synopsis in 23.3.6 [vector] p2:

template< typename T, typename A >
  requires !SameType< T, bool >
  concept_map ContiguousStorageContainer< vector<T, A>> {};

Rationale:

Solved by removal of concepts.


1051. Specify subscript operation return types of reverse_iterator and move_iterator

Section: 24.5.1.3.12 [reverse.iter.opindex], 24.5.3.3.12 [move.iter.op.index] Status: NAD Submitter: Alisdair Meredith Opened: 2009-03-12 Last modified: 2015-04-08

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Discussion:

Addresses UK 279 [CD1]

The reason the return type became unspecified is LWG issue 386. This reasoning no longer applies as there are at least two ways to get the right return type with the new language facilities added since the previous standard.

Proposal: Specify the return type using either decltype or the Iter concept_map.

[ Summit: ]

Under discussion. This is a general question about all iterator adapters.

[ Howard adds post Summit: ]

I am requesting test cases to demonstrate a position.

[ 2009-07-24 Daniel adds: ]

I recommend NAD. Without concepts we can no longer restrict this member in a trivial way. Using decltype the declaration would be along the lines of

static const Iter& __base(); // not defined
auto operator[](difference_type n) const -> decltype(__base()[-n-1]);

but once reverse_iterator is instantiated for some given type Iter which cannot form a well-formed expression __base()[-n-1] this would cause an ill-formed function declaration, diagnostic required, and no silent SFINAE elimination.

[ 2009-10 Santa Cruz: ]

Moved to NAD.

[ 2009-10-22 Daniel adds: ]

IMO, my original comment regarding ill-formedness of the described construction is still correct, but I must add that I should weaken my assertion "Without concepts we can no longer restrict this member in a trivial way".

In fact with the existence of default template arguments for function templates it is not too hard to implement this like as follows, which shows that we can indeed simulate to some sense constrained member functions in C++0x.

My example does not really proof that the specification is easy, but it should be possible. I assume that the implementation would not be ABI compatible, though.

It is now your own decision how to proceed ;-)

#include <type_traits>
#include <cstddef>

template<class T>
typename std::add_rvalue_reference<T>::type declval();

template<class It>
struct reverse_iterator {
    It base;
    
    typedef std::ptrdiff_t difference_type;
    
    template<class U = It, class Res =
     decltype(declval<const U&>()[declval<difference_type>()])
    >
    Res operator[](difference_type n) const  {
        return base[-n-1];
    }    
};

struct MyIter {
};

int main() {
    reverse_iterator<int*> ri;
    ri[0] = 2;
    reverse_iterator<MyIter> ri2;
}

The above declaration could be simplified, but the ideal solution

template<class U = It>
  decltype(declval<const U&>()[declval<difference_type>()])
     operator[](difference_type n) const;

does not work yet on gcc 4.4.1.

Proposed resolution:


1056. Must all Engines and Distributions be Streamable?

Section: 26.5 [rand] Status: NAD Submitter: Alisdair Meredith Opened: 2009-03-12 Last modified: 2015-04-08

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Discussion:

Both the concepts RandomNumberEngine and RandomNumberDistribution have requirements to be InputStreamable and OutputStreamable.

I have no problems leaving the WP in an inconsistent state on the best-faith assumption these concepts will be provided later, however disagree with the proposers that these constraints are not separable, orthogonal to the basic concepts of generating random number distributions.

These constraints should be dropped, and applied to specific algorithms as needed.

If a more refined concept (certainly deemed useful by the proposers) is proposed there is no objection, but the basic concept should not require persistence via streaming.

[ Batavia (2009-05): ]

Move to Open.

[ 2009-05-31 Alisdair adds: ]

Working on constraining the stream iterators, I have a few more observations to make on the concepts proposed while constraining the random number facility.

While I still believe the concerns are orthogonal, I don't believe the existing constraints go far enough either! The goal we want to achieve is not that a RandomNumberEngine / RandomNumberDistribution supports the stream operators, but that it is Serializable. I.e. there is a relationship between the insert and extract operations that guarantees to restore the state of the original object. This implies a coupling of the concepts together in a broader concept (Serializable) with at least one axiom to assert the semantics.

One problem is that istream and ostream may be fundamentally different types, although we can hook a relation if we are prepared to drop down to the char type and char_traits template parameters. Doing so ties us to a form of serialization that demands implementation via the std iostreams framework, which seems overly prescriptive. I believe the goal is generally to support serialization without regard to how it is expressed - although this is getting even more inventive in terms of concepts we do not have today.

[ 2009-11-03 Alisdair adds: ]

I can't find the record in the wiki minutes, but it was agreed at both Frankfurt and Santa Cruz that this issue is NAD.

The agreement in SC was that I would provide you with the rationale (see below) to include when moving to NAD.

[ 2009-11-03 Howard adds: ]

Moved to Tentatively NAD after 5 positive votes on c++std-lib.

Proposed resolution:

Rationale:

The issue suggests a more refined concept should be used if we want to require streaming, to separate concerns from the basic RandomNumberEngine behaviour. In Frankfurt it was observed that RandomNumberEngine is that more refined concept, and the basic concept used in the framework is UniformRandomNumberGenerator, which it refines.

We concur, and expect this to have no repurcussions re-writing this clause now concepts are removed.


1057. RandomNumberEngineAdaptor

Section: 26.5 [rand] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-12 Last modified: 2015-04-08

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Discussion:

The RandomNumberEngineAdaptor concept breaks precedent in the way the library has been specified by grouping requirements into a concept that is never actually used in the library.

This is undoubtedly a very helpful device for documentation, but we are not comfortable with the precedent - especially as we have rejected national body comments on the same grounds.

Suggest either removing the concept, or providing an algorithm/type that requires this concept in their definition (such as a factory function to create new engines).

The preference is to create a single new algorithm and retain the value of the existing documentation.

[ Batavia (2009-05): ]

Walter points out that it is unlikely that any algorithm would ever require this concept, but that the concept nonetheless is useful as documentation, and (via concept maps) as a means of checking specific adapters.

Alisdair disagrees as to the concept's value as documentation.

Marc points out that the RandomNumberDistribution is also a concept not used elsewhere in the Standard.

Pete agrees that a policy of not inventing concepts that aren't used in the Standard is a good starting point, but should not be used as a criterion for rejecting a concept.

Move to Open.

Proposed resolution:


1058. New container issue

Section: 23.2.3 [sequence.reqmts] Status: NAD Editorial Submitter: Alisdair Meredith Opened: 2009-03-12 Last modified: 2015-04-08

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Discussion:

Sequence containers 23.2.3 [sequence.reqmts]:

The return value of new calls added to table 83 are not specified.

[ Batavia (2009-05): ]

We agree with the proposed resolution.

Move to NAD Editorial.

Proposed resolution:

Add after p6 23.2.3 [sequence.reqmts]:

-6- ...

The iterator returned from a.insert(p,rv) points to the copy of rv inserted into a.

The iterator returned from a.emplace(p, args) points to the new element constructed from args inserted into a.


1059. Usage of no longer existing FunctionType concept

Section: 20.9.12.2 [func.wrap.func] Status: NAD Concepts Submitter: Daniel Krügler Opened: 2009-03-13 Last modified: 2015-04-08

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Discussion:

Due to a deliberate core language decision, the earlier called "foundation" concept std::FunctionType had been removed in N2773 shortly before the first "conceptualized" version of the WP (N2798) had been prepared. This caused a break of the library, which already used this concept in the adapted definition of std::function (20.9 [function.objects]/2, header <functional> synopsis and 20.9.12.2 [func.wrap.func]).

A simple fix would be to either (a) make std::function's primary template unconstrained or to (b) add constraints based on existing (support) concepts. A more advanced fix would (c) introduce a new library concept.

The big disadvantage of (a) is, that users can define templates which cause compiler errors during instantiation time because of under-constrainedness and would thus violate the basic advantage of constrained code.

For (b), the ideal constraints for std::function's template parameter would be one which excludes everything else but the single provided partial specialization that matches every "free function" type (i.e. any function type w/o cv-qualifier-seq and w/o ref-qualifier). Expressing such a type as as single requirement would be written as

template<typename T>
requires ReferentType<T> // Eliminate cv void and function types with cv-qual-seq
                         //   or ref-qual (depending on core issue #749)
      && PointeeType<T>  // Eliminate reference types
      && !ObjectType<T>  // Eliminate object types

Just for completeness approach (c), which would make sense, if the library has more reasons to constrain for free function types:

auto concept FreeFunctionType<typename T>
  : ReferentType<T>, PointeeType<T>, MemberPointeeType<T>
{
  requires !ObjectType<T>;
}

I mention that approach because I expect that free function types belong to the most natural type categories for every days coders. Potential candidates in the library are addressof and class template packaged_task.

[ Batavia (2009-05): ]

Alisdair would prefer to have a core-supported FunctionType concept in order that any future changes be automatically correct without need for a library solution to catch up; he points to type traits as a precedent. Further, he believes that a published concept can't in the future be changed.

Bill feels this category of entity would change sufficiently slowly that he would be willing to take the risk.

Of the discussed solutions, we tend toward option (c). We like the idea of having a complete taxonomy of native types, and perhaps erred in trimming the set.

We would like to have this issue reviewed by Core and would like their feedback. Move to Open.

Proposed resolution:

  1. Change in 20.9 [function.objects]/2, Header <functional> synopsis:

    // 20.6.16 polymorphic function wrappers:
    class bad_function_call;
    template<FunctionTypeReferentType F>
    requires PointeeType<F> && !ObjectType<F>
    class function; // undefined
    
  2. Change in 20.9.12.2 [func.wrap.func]:

    namespace std {
    template<FunctionTypeReferentType F>
    requires PointeeType<F> && !ObjectType<F>
    class function; // undefined
    

1060. Embedded nulls in NTBS

Section: 17.5.2.1.4.1 [byte.strings] Status: NAD Editorial Submitter: Alisdair Meredith Opened: 2009-03-13 Last modified: 2015-04-08

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Discussion:

Definition of null-terminated sequences allow for embedded nulls. This is surprising, and probably not supportable with the intended use cases.

[ Batavia (2009-05): ]

We agree with the issue, but believe this can be handled editorially. Move to NAD Editorial.

Proposed resolution:


1061. Bad indexing for tuple access to pair (Editorial?)

Section: 20.3.4 [pair.astuple] Status: NAD Editorial Submitter: Alisdair Meredith Opened: 2009-03-13 Last modified: 2015-04-08

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Discussion:

The definition of get implies that get must return the second element if given a negative integer.

[ Batavia (2009-05): ]

Move to NAD Editorial.

Proposed resolution:

20.3.4 [pair.astuple] p5:

template<int size_t I, class T1, class T2> 
  requires True<(I < 2)> 
  const P& get(const pair<T1, T2>&);

1062. Missing insert_iterator for stacks/queues

Section: 24.5.2 [insert.iterators] Status: NAD Submitter: Alisdair Meredith Opened: 2009-03-13 Last modified: 2015-04-08

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Discussion:

It is odd that we have an iterator to insert into a vector, but not an iterator to insert into a vector that is adapted as a stack. The standard container adapters all have a common interface to push and pop so it should be simple to create an iterator adapter to complete the library support.

We should provide an AdaptedContainer concept supporting push and pop operations. Create a new insert iterator and factory function that inserts values into the container by calling push.

[ Batavia (2009-05): ]

Walter recommends NAD Future.

Move to Open, and recommend deferring the issue until after the next Committee Draft is issued.

[ 2009-07-29 Howard moves to Tentatively NAD Future. ]

A poll on the LWG reflector voted unanimously to move this issue to Tentatively NAD Future.

[ 2009 Santa Cruz: ]

Moved to NAD. The intent of these adapters are to restrict the interfaces.

Proposed resolution:


1063. 03 iterator compatibilty

Section: X [iterator.backward] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-15 Last modified: 2015-04-08

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Discussion:

Which header must a user #include to obtain the library-supplied concept_maps declared in this paragraph?

This is important information, as existing user code will break if this header is not included, and we should make a point of mandating this header is #include-d by library headers likely to make use of it, notably <algorithm>. See issue 1001 for more details.

[ Batavia (2009-05): ]

We agree with the direction of the proposed resolution. Move to Tentatively Ready.

[ 2009-07 Frankfurt ]

We believe this is NAD Concepts, but this needs to be reviewed against the post-remove-concepts draft.

Proposed resolution:

Change [depr.lib.iterator.primitives], Iterator primitives, as indicated:

To simplify the use of iterators and provide backward compatibility with previous C++ Standard Libraries, the library provides several classes and functions. Unless otherwise specified, these classes and functions shall be defined in header <iterator>.

Change X [iterator.backward], Iterator backward compatibility, as indicated:

The library provides concept maps that allow iterators specified with iterator_traits to interoperate with algorithms that require iterator concepts. These concept maps shall be defined in the same header that defines the iterator. [Example:


1064. Term "object state" should not refer to classes

Section: 17.3 [defns.obj.state] Status: NAD Submitter: Howard Hinnant Opened: 2009-03-15 Last modified: 2015-04-08

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Discussion:

Addresses UK 152 [CD1]

Object state is using a definition of object (instance of a class) from outside the standard, rather than the 'region of storage' definiton in 1.8 [intro.object]p1

[ Summit: ]

We think we're removing this; See X [func.referenceclosure.cons].

[ 2009-10 Santa Cruz: ]

Mark as NAD. This will not affect user or implementer code

Proposed resolution:


1067. simplified wording for inner_product

Section: 26.7 [numeric.ops] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-17 Last modified: 2015-04-08

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Discussion:

One of the motivating examples for introducing requirements-aliases was to simplify the wording of the inner_product requirements. As the paper adopting the feature and constrained wording for the library went through in the same meeting, it was not possible to make the change at the time. The simpler form should be adopted now though. Similarly, most the other numerical algorithms can benefit from a minor cleanup.

Note that in each case, the second more generalised form of the algorithm does not benefit, as there are already named constraints supplied by the template type parameters.

[ 2009-05-02 Daniel adds: ]

one part of the suggested resolution suggests the removal of the MoveConstructible<T> requirement from inner_product. According to 26.7.3 [inner.product]

Computes its result by initializing the accumulator acc with the initial value init

this step requires at least MoveConstructible.

Therefore I strongly suggest to take this removal back (Note also that the corresponding overload with a functor argument still has the same MoveConstructible<T> requirement).

[ Batavia (2009-05): ]

We agree with the proposed resolution as amended by Daniel's suggestion to restore MoveConstructible, reflected in the updated proposed resolution below.

Move to Tentatively Ready.

Proposed resolution:

Change in 26.7 [numeric.ops] and 26.7.2 [accumulate]:

template <InputIterator Iter, MoveConstructible T>
 requires add = HasPlus<T, Iter::reference>
       && HasAssign<T, HasPlus<T, Iter::reference> add::result_type>
 T accumulate(Iter first, Iter last, T init);

Change in 26.7 [numeric.ops] and 26.7.3 [inner.product]:

template <InputIterator Iter1, InputIterator Iter2, MoveConstructible T>
  requires mult = HasMultiply<Iter1::reference, Iter2::reference>
        && add = HasPlus<T, HasMultiply<Iter1::reference, Iter2::reference> mult::result_type>
        && HasAssign< 
             T,
             HasPlus<T,
                     HasMultiply<Iter1::reference, Iter2::reference>::result_type> add::result_type>
  T inner_product(Iter1 first1, Iter1 last1, Iter2 first2, T init);

Change in 26.7 [numeric.ops] and 26.7.4 [partial.sum]:

template <InputIterator InIter, OutputIterator<auto, const InIter::value_type&> OutIter>
  requires add = HasPlus<InIter::value_type, InIter::reference>
        && HasAssign<InIter::value_type,
                     HasPlus<InIter::value_type, InIter::reference> add::result_type>
        && Constructible<InIter::value_type, InIter::reference>
  OutIter partial_sum(InIter first, InIter last, OutIter result);

Change in 26.7 [numeric.ops] and 26.7.5 [adjacent.difference]:

template <InputIterator InIter, OutputIterator<auto, const InIter::value_type&> OutIter>
  requires sub = HasMinus<InIter::value_type, InIter::value_type>
        && Constructible<InIter::value_type, InIter::reference>
        && OutputIterator<OutIter, HasMinus<InIter::value_type, InIter::value_type> sub::result_type>
        && MoveAssignable<InIter::value_type>
  OutIter adjacent_difference(InIter first, InIter last, OutIter result);

1068. class random_device should be movable

Section: 26.5.6 [rand.device] Status: NAD Submitter: Alisdair Meredith Opened: 2009-03-18 Last modified: 2015-04-08

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Discussion:

class random_device should be movable.

[ Batavia (2009-05): ]

Move to Open, and recommend this issue be deferred until after the next Committee Draft is issued.

[ 2009-10 post-Santa Cruz: ]

Leave open. Walter to provide drafting as part of his planned paper.

[ 2010 Pittsburgh: Moved to NAD. ]

Rationale:

WP is correct as written.

Proposed resolution:


1069. class seed_seq should support efficient move operations

Section: 26.5.7.1 [rand.util.seedseq] Status: NAD Submitter: Alisdair Meredith Opened: 2009-03-18 Last modified: 2015-04-08

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Discussion:

class seed_seq should support efficient move operations.

[ Batavia (2009-05): ]

Move to Open, and recommend this issue be deferred until after the next Committee Draft is issued.

[ 2009-10 post-Santa Cruz: ]

Leave open. Walter to provide drafting as part of his planned paper.

[ 2010 Pittsburgh: ]

seed_seq is explicitly not copyable, so, much like LWG issue 1068, LWG issue 1069 could be marked NAD to be consistent with this.

Proposed resolution:


1072. Is std::hash a constrained template or not?

Section: 20.9.13 [unord.hash] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-19 Last modified: 2015-04-08

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Discussion:

Is std::hash a constrained template or not?

According to class template hash 20.9.13 [unord.hash], the definition is:

template <class T>
struct hash : public std::unary_function<T, std::size_t> {
  std::size_t operator()(T val) const;
};

And so unconstrained.

According to the <functional> synopsis in p2 Function objects 20.9 [function.objects] the template is declared as:

template <ReferentType T> struct hash;

which would make hash a constrained template.

[ 2009-03-22 Daniel provided wording. ]

[ Batavia (2009-05): ]

Alisdair is not certain that Daniel's proposed resolution is sufficient, and recommends we leave the hash template unconstrained for now.

Recommend that the Project Editor make the constrained declaration consistent with the definition in order to make the Working Paper internally consistent, and that the issue then be revisited.

Move to Open.

Proposed resolution:

[To the editor: This resolution is merge-compatible to the resolution of 1078]

  1. In 20.9 [function.objects]/2, header <functional> synopsis, change as indicated:

    // 20.6.17, hash function base template:
    template <ReferentType T> struct hash; // undefined
    
  2. In 20.9.13 [unord.hash]/1 change as indicated:

    namespace std {
     template <class T>
     struct hash : public std::unary_function<T, std::size_t> {
     std::size_t operator()(T val) const;
     };
     template <ReferentType T> struct hash; // undefined
    }
    
  3. In 20.9.13 [unord.hash]/2 change as indicated:

    -2- For all library-provided specializations, the template instantiation hash<T> shall provide a public operator() with return type std::size_t to satisfy the concept requirement Callable<const hash<T>, const T&>. If T is an object type or reference to object, hash<T> shall be publicly derived from std::unary_function<T, std::size_t>. The return value of operator() is unspecified, except that equal arguments shall yield the same result. operator() shall not throw exceptions.

  4. In 18.7 [support.rtti]/1, header <typeinfo> synopsis change as indicated:

    namespace std {
      class type_info;
      class type_index;
      template <classReferentType T> struct hash;
    

1074. concept map broken by N2840

Section: X [allocator.element.concepts] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-19 Last modified: 2015-04-08

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Discussion:

p7 Allocator-related element concepts X [allocator.element.concepts]

The changes to the AllocatableElement concept mean this concept_map specialization no longer matches the original concept:

template <Allocator Alloc, class T, class ... Args>
  requires HasConstructor<T, Args...>
    concept_map AllocatableElement<Alloc, T, Args&&...> {
      void construct_element(Alloc& a, T* t, Args&&... args) {
        Alloc::rebind<T>(a).construct(t, forward(args)...);
      }
    }

[ 2009-03-23 Pablo adds: ]

Actually, this is incorrect, N2840 says. "In section X [allocator.element.concepts] paragraph 8, modify the definition of the AllocatableElement concept and eliminate the related concept map:" but then neglects to include the red-lined text of the concept map that was to be eliminated. Pete also missed this, but I caught it he asked me to review his edits. Pete's updated WP removes the concept map entirely, which was the original intent. The issue is, therefore, moot. Note, as per my presentation of N2840 in summit, construct() no longer has a default implementation. This regrettable fact was deemed (by David Abrahams, Doug, and myself) to be preferable to the complexity of providing a default implementation that would not under-constrain a more restrictive allocator (like the scoped allocators).

[ 2009-05-01 Daniel adds: ]

it seems to me that #1074 should be resolved as a NAD, because the current WP has already removed the previous AllocatableElement concept map. It introduced auto concept AllocatableElement instead, but as of X [allocator.element.concepts]/7 this guy contains now

requires FreeStoreAllocatable<T>;
void Alloc::construct(T*, Args&&...);

[ Batavia (2009-05): ]

The affected code is no longer part of the Working Draft.

Move to NAD.

Proposed resolution:

Change X [allocator.element.concepts]:

template <Allocator Alloc, class T, class ... Args>
  requires HasConstructor<T, Args...>
    concept_map AllocatableElement<Alloc, T, Args&&...> {
      void construct_element(Alloc& a, T* t, Args&&... args) {
        Alloc::rebind<T>(a).construct(t, forward(args)...);
      }
    }

1076. unary/binary_negate need constraining and move support

Section: 20.9.9 [negators] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-03-20 Last modified: 2015-04-08

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Discussion:

The class templates unary/binary_negate need constraining and move support.

Ideally these classes would be deprecated, allowing unary/binary_function to also be deprecated. However, until a generic negate adaptor is introduced that can negate any Callable type, they must be supported so should be constrained. Likewise, they should be movable, and support adopting a move-only predicate type.

In order to preserve ABI compatibility, new rvalue overloads are supplied in preference to changing the existing pass-by-const-ref to pass-by-value.

Do not consider the issue of forwarding mutable lvalues at this point, although remain open to another issue on the topic.

[ 2009-05-01 Daniel adds: ]

IMO the currently proposed resolution needs some updates because it is ill-formed at several places:

  1. In concept AdaptableUnaryFunction change

    typename X::result_type;
    typename X::argument_type;
    

    to

    Returnable result_type = typename X::result_type;
    typename argument_type = typename X::argument_type;
    

    [The replacement "Returnable result_type" instead of "typename result_type" is non-editorial, but maybe you prefer that as well]

  2. In concept AdaptableBinaryFunction change

    typename X::result_type;
    typename X::first_argument_type;
    typename X::second_argument_type;
    

    to

    Returnable result_type = typename X::result_type;
    typename first_argument_type = typename X::first_argument_type;
    typename second_argument_type = typename X::second_argument_type;
    

    [The replacement "Returnable result_type" instead of "typename result_type" is non-editorial, but maybe you prefer that as well.]

  3. In class unary/binary_function

    1. I suggest to change "ReturnType" to "Returnable" in both cases.
    2. I think you want to replace the remaining occurrences of "Predicate" by "P" (in both classes in copy/move from a predicate)
  4. I think you need to change the proposed signatures of not1 and not2, because they would still remain unconstrained: To make them constrained at least a single requirement needs to be added to enable requirement implication. This could be done via a dummy ("requires True<true>") or just explicit as follows:

    1. template <AdaptableUnaryFunction P>
      requires Predicate< P, P::argument_type>
      unary_negate<P> not1(const P&& pred);
      template <AdaptableUnaryFunction P>
      requires Predicate< P, P::argument_type >
      unary_negate<P> not1(P&& pred);
      

      -3- Returns: unary_negate<P>(pred).

      [Don't we want a move call for the second overload as in

      unary_negate<P>(std::move(pred))
      

      in the Returns clause ?]

    2. template <AdaptableBinaryFunction P>
      requires Predicate< P, P::first_argument_type, P::second_argument_type >
      binary_negate<P> not2(const P& pred);
      template <AdaptableBinaryFunction P>
      requires Predicate< P, P::first_argument_type, P::second_argument_type >
      binary_negate<P> not2(P&& pred);
      

      -5- Returns: binary_negate<P>(pred).

      [Don't we want a move call for the second overload as in

      binary_negate<P>(std::move(pred))
      

      in the Returns clause ?]

[ Batavia (2009-05): ]

There is concern that complicating the solution to preserve the ABI seems unnecessary, since we're not in general preserving the ABI.

We would prefer a separate paper consolidating all Clause 20 issues that are for the purpose of providing constrained versions of the existing facilities.

Move to Open.

[ 2009-10 post-Santa Cruz: ]

Leave open pending the potential move constructor paper. Note that we consider the "constraining" part NAD Concepts.

[ 2010-01-31 Alisdair removes the current proposed wording from the proposed wording section because it is based on concepts. That wording is proposed here: ]

Add new concepts where appropriate::

auto concept AdaptableUnaryFunction< typename X > {
  typename X::result_type;
  typename X::argument_type;
}

auto concept AdaptableBinaryFunction< typename X > {
  typename X::result_type;
  typename X::first_argument_type;
  typename X::second_argument_type;
}

Revise as follows:

Base [base] (Only change is constrained Result)

-1- The following classes are provided to simplify the typedefs of the argument and result types:

namespace std {
  template <class Arg, class ReturnType Result>
  struct unary_function {
     typedef Arg    argument_type;
     typedef Result result_type;
  };

  template <class Arg1, class Arg2, class ReturnType Result>
  struct binary_function {
     typedef Arg1   first_argument_type;
     typedef Arg2   second_argument_type;
     typedef Result result_type;
  };
}

Negators 20.9.9 [negators]:

-1- Negators not1 and not2 take a unary and a binary predicate, respectively, and return their complements (5.3.1).

template <class AdaptableUnaryFunction Predicate>
  requires Predicate< P, P::argument_type >
  class unary_negate
    : public unary_function<typename Predicate::argument_type,bool> {
  public:
    unary_negate(const unary_negate & ) = default;
    unary_negate(unary_negate && );

    requires CopyConstructible< P >
       explicit unary_negate(const Predicate& pred); 
    requires MoveConstructible< P >
       explicit unary_negate(Predicate && pred);

    bool operator()(const typename Predicate::argument_type& x) const;
  };

-2 operator() returns !pred(x).

template <class Predicate>
  unary_negate<Predicate> not1(const Predicate&amp; pred);
template <class Predicate>
  unary_negate<Predicate> not1(Predicate&& pred);

-3- Returns: unary_negate<Predicate>(pred).

template <class AdaptableBinaryFunction Predicate >
  requires Predicate< P, P::first_argument_type, P::second_argument_type >
  class binary_negate
    : public binary_function<typename Predicate::first_argument_type,
                              typename Predicate::second_argument_type, bool> {
  public:
    biary_negate(const binary_negate & ) = default;
    binary_negate(binary_negate && );

    requires CopyConstructible< P >
       explicit binary_negate(const Predicate& pred);
    requires MoveConstructible< P >
       explicit binary_negate(const Predicate& pred);

    bool operator()(const typename Predicate::first_argument_type& x,
                    const typename Predicate::second_argument_type& y) const;
  };

-4- operator() returns !pred(x,y).

template <class Predicate>
  binary_negate<Predicate> not2(const Predicate& pred);
template <class Predicate>
  binary_negate<Predicate> not2(Predicate&& pred);

-5- Returns: binary_negate<Predicate>(pred).

[ 2010 Rapperswil: ]

Move to NAD Concepts. The move-semantic part has been addressed by a core language change, which implicitly generates appropriate move constructors and move-assignment operators.

Proposed resolution:


1077. Nonesense tuple declarations

Section: 20.4.2 [tuple.tuple] Status: NAD Editorial Submitter: Pete Becker Opened: 2009-03-20 Last modified: 2015-04-08

View all other issues in [tuple.tuple].

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Discussion:

Class template tuple 20.4.2 [tuple.tuple]:

template <class... UTypes>
  requires Constructible<Types, const UTypes&>...
template <class... UTypes>
  requires Constructible<Types, RvalueOf<UTypes>::type>...

Somebody needs to look at this and say what it should be.

[ 2009-03-21 Daniel provided wording. ]

[ Batavia (2009-05): ]

The resolution looks correct; move to NAD Editorial.

Proposed resolution:

In 20.4.2 [tuple.tuple], class tuple, change as indicated:

template <class... UTypes>
  requires Constructible<Types, const UTypes&>...
  tuple(const pair<UTypes...>&);
template <class... UTypes>
  requires Constructible<Types, RvalueOf<UTypes>::type>...
  tuple(pair<UTypes...>&&);

[NB.: The corresponding prototypes do already exist in 20.4.2.1 [tuple.cnstr]/7+8]


1078. DE-17: Remove class type_index

Section: 20.14 [type.index] Status: NAD Concepts Submitter: Doug Gregor Opened: 2009-03-20 Last modified: 2015-04-08

View all other issues in [type.index].

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Discussion:

Addresses DE 17

DE-17:

The class type_index should be removed; it provides no additional functionality beyond providing appropriate concept maps.

[ 2009-03-31 Peter adds: ]

It is not true, in principle, that std::type_index provides no utility compared to bare std::type_info*.

std::type_index can avoid the lifetime issues with type_info when the DLL that has produced the type_info object is unloaded. A raw type_info* does not, and cannot, provide any protection in this case. A type_index can (if the implementor so chooses) because it can wrap a smart (counted or even cloning) pointer to the type_info data that is needed for name() and before() to work.

Proposed resolution:

Modify the header <typeinfo> synopsis in 18.7 [support.rtti]p1 as follows:

namespace std { 
  class type_info; 
  class type_index;
  template <class T> struct hash;
  template<> struct hash<type_indexconst type_info *> : public std::unary_function<type_indexconst type_info *, size_t> {
    size_t operator()(type_indexconst type_info * indext) const;
  };
  concept_map LessThanComparable<const type_info *> see below
  class bad_cast; 
  class bad_typeid;
}

Add the following new subsection

18.7.1.1 Template specialization hash<const type_info *> [type.info.hash]

size_t operator()(const type_info *x) const;
  1. Returns: x->hash_code()

Add the following new subsection

18.7.1.2 type_info concept map [type.info.concepts]

concept_map LessThanComparable<const type_info *> {
  bool operator<(const type_info *x, const type_info *y) { return x->before(*y); }
  bool operator<=(const type_info *x, const type_info *y) { return !y->before(*x); }
  bool operator>(const type_info *x, const type_info *y) { return y->before(*x); }
  bool operator>=(const type_info *x, const type_info *y) { return !x->before(*y); }
}
  1. Note: provides a well-defined ordering among type_info const pointers, which makes such pointers usable in associative containers (23.4).

Remove section 20.14 [type.index]


1080. Concept ArithmeticLike should provide explicit boolean conversion

Section: X [concept.arithmetic] Status: NAD Concepts Submitter: Daniel Krügler Opened: 2009-03-21 Last modified: 2015-04-08

View all issues with NAD Concepts status.

Discussion:

Astonishingly, the current concept ArithmeticLike as specified in X [concept.arithmetic] does not provide explicit conversion to bool although this is a common property of arithmetic types (4.12 [conv.bool]). Recent proposals that introduced such types (integers of arbitrary precision, n2143, decimals n2732 indirectly via conversion to long long) also took care of such a feature.

Adding such an explicit conversion associated function would also partly solve a currently invalid effects clause in library, which bases on this property, 24.2.7 [random.access.iterators]/2:

{ difference_type m = n;
 if (m >= 0) while (m--) ++r;
 else while (m++) --r;
 return r; }

Both while-loops take advantage of a contextual conversion to bool (Another problem is that the >= comparison uses the no longer supported existing implicit conversion from int to IntegralLike).

Original proposed resolution:

  1. In X [concept.arithmetic], add to the list of less refined concepts one further concept:

    concept ArithmeticLike<typename T>
      : Regular<T>, LessThanComparable<T>, HasUnaryPlus<T>, HasNegate<T>,
        HasPlus<T, T>, HasMinus<T, T>, HasMultiply<T, T>, HasDivide<T, T>,
        HasPreincrement<T>, HasPostincrement<T>, HasPredecrement<T>,
        HasPostdecrement<T>,
        HasPlusAssign<T, const T&>, HasMinusAssign<T, const T&>,
        HasMultiplyAssign<T, const T&>,
        HasDivideAssign<T, const T&>, ExplicitlyConvertible<T, bool> {
    
  2. In 24.2.7 [random.access.iterators]/2 change the current effects clause as indicated [The proposed insertion fixes the problem that the previous implicit construction from integrals has been changed to an explicit constructor]:

    { difference_type m = n;
     if (m >= difference_type(0)) while (m--) ++r;
     else while (m++) --r;
     return r; }
    

[ Batavia (2009-05): ]

We agree that arithmetic types ought be convertible to bool, and we therefore agree with the proposed resolution's paragraph 1.

We do not agree that the cited effects clause is invalid, as it expresses intent rather than specific code.

Move to Review, pending input from concepts experts.

Proposed resolution:

In X [concept.arithmetic], add to the list of less refined concepts one further concept:

concept ArithmeticLike<typename T>
  : Regular<T>, LessThanComparable<T>, HasUnaryPlus<T>, HasNegate<T>,
    HasPlus<T, T>, HasMinus<T, T>, HasMultiply<T, T>, HasDivide<T, T>,
    HasPreincrement<T>, HasPostincrement<T>, HasPredecrement<T>,
    HasPostdecrement<T>,
    HasPlusAssign<T, const T&>, HasMinusAssign<T, const T&>,
    HasMultiplyAssign<T, const T&>,
    HasDivideAssign<T, const T&>, ExplicitlyConvertible<T, bool> {

1081. basic_string needs to be a concept-constrained template

Section: 21 [strings] Status: NAD Concepts Submitter: Howard Hinnant Opened: 2009-03-22 Last modified: 2015-04-08

View all other issues in [strings].

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Discussion:

Addresses UK 216, JP 46, JP 48 [CD1]

All the containers use concepts for their iterator usage, exect for basic_string. This needs fixing.

Use concepts for iterator template parameters throughout the chapter.

[ Summit: ]

NB comments to be handled by Dave Abrahams and Howard Hinnant with advice from PJP: UK216 (which duplicates) JP46, JP48. JP46 supplies extensive proposed wording; start there.

Proposed resolution:


1082. codecvt needs to be a concept-constrained template

Section: 22 [localization] Status: NAD Concepts Submitter: Howard Hinnant Opened: 2009-03-22 Last modified: 2015-04-08

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Discussion:

Addresses JP 49 [CD1]

codecvt does not use concept. For example, create CodeConvert concept and change as follows.

template<CodeConvert Codecvt, class Elem = wchar_t>
  class wstring_convert {

[ Summit: ]

To be handled by Howard Hinnant, Dave Abrahams, Martin Sebor, PJ Plauger.

Proposed resolution:


1083. InputIterator and OutputIterator template parameters need to be concept constraints

Section: 22 [localization] Status: NAD Concepts Submitter: Howard Hinnant Opened: 2009-03-22 Last modified: 2015-04-08

View all other issues in [localization].

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Discussion:

Addresses JP 52, JP 53 [CD1]

InputIterator does not use concept.

OutputIterator does not use concept.

Comments include proposed wording.

[ Summit: ]

To be handled by Howard Hinnant, Dave Abrahams, Martin Sebor, PJ Plauger.

Proposed resolution:


1084. Concept ForwardIterator should provide default implementation for post-increment

Section: 24.2.5 [forward.iterators] Status: NAD Concepts Submitter: Howard Hinnant Opened: 2009-03-22 Last modified: 2015-04-08

View all other issues in [forward.iterators].

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Discussion:

Addresses UK 250 [CD1]

A default implementation should be supplied for the post-increment operator to simplify implementation of iterators by users.

Copy the Effects clause into the concept description as the default implementation. Assumes a default value for postincrement_result.

[ Summit: ]

Howard will open an issue.

[ 2009-06-07 Daniel adds: ]

This issue cannot currently be resolved as suggested, because that would render auto-detection of the return type postincrement_result invalid, see [concept.map.assoc]/4+5. The best fix would be to add a default type to that associated type, but unfortunately any default type will prevent auto-deduction of types of associated functions as quoted above. A corresponding core issue is in preparation.

Proposed resolution:

[ This wording assumes the acceptance of UK 251 / 1009. Both wordings change the same paragraphs. ]

Change 24.2.5 [forward.iterators]:

concept ForwardIterator<typename X> : InputIterator<X>, Regular<X> { 

  MoveConstructible postincrement_result;
  requires HasDereference<postincrement_result>
        && Convertible<HasDereference<postincrement_result>::result_type, const value_type&>;

  postincrement_result operator++(X& r, int); {
     X tmp = r;
     ++r;
     return tmp;
  }

  axiom MultiPass(X a, X b) { 
    if (a == b) *a == *b; 
    if (a == b) ++a == ++b; 
  } 
}

1085. BidirectionalIterator concept should provide default implementation for post-decrement

Section: 24.2.6 [bidirectional.iterators] Status: NAD Concepts Submitter: Howard Hinnant Opened: 2009-03-22 Last modified: 2015-04-08

View all other issues in [bidirectional.iterators].

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Discussion:

Addresses UK 258 [CD1]

A default implementation should be supplied for the post-decrement operator to simplify implementation of iterators by users.

Copy the Effects clause into the concept description as the default implementation. Assumes a default value for postincrement_result.

[ Summit: ]

Howard will open an issue.

[ 2009-06-07 Daniel adds: ]

This issue cannot currently be resolved as suggested, because that would render auto-detection of the return type postdecrement_result invalid, see 1084.

Proposed resolution:

Change 24.2.6 [bidirectional.iterators]:

concept BidirectionalIterator<typename X> : ForwardIterator<X> { 
  MoveConstructible postdecrement_result; 
  requires HasDereference<postdecrement_result> 
        && Convertible<HasDereference<postdecrement_result>::result_type, const value_type&> 
        && Convertible<postdecrement_result, const X&>; 
  X& operator--(X&); 
  postdecrement_result operator--(X& r, int); {
     X tmp = r;
     --r;
     return tmp;
  }
}

1086. Stream iterators need to be concept-constrained templates

Section: 24.6 [stream.iterators] Status: NAD Concepts Submitter: Howard Hinnant Opened: 2009-03-22 Last modified: 2015-04-08

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Discussion:

Addresses UK 284 [CD1]

The stream iterators need constraining with concepts/requrires clauses.

[ Summit: ]

We agree. To be handled by Howard, Martin and PJ.

Proposed resolution:


1087. Incorrect OutputIterator concept requirements for replace algorithms

Section: 25.3.5 [alg.replace] Status: NAD Concepts Submitter: Howard Hinnant Opened: 2009-03-22 Last modified: 2015-04-08

View all other issues in [alg.replace].

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Discussion:

Addresses UK 301 [CD1]

replace and replace_if have the requirement: OutputIterator<Iter, Iter::reference> Which implies they need to copy some values in the range the algorithm is iterating over. This is not however the case, the only thing that happens is const T&s might be copied over existing elements (hence the OutputIterator<Iter, const T&>.

Remove OutputIterator<Iter, Iter::reference> from replace and replace_if.

[ Summit: ]

We agree. To be handled by Howard.

Proposed resolution:

Change in [algorithms.syn] and 25.3.5 [alg.replace]:

template<ForwardIterator Iter, class T> 
  requires OutputIterator<Iter, Iter::reference> 
        && OutputIterator<Iter, const T&> 
        && HasEqualTo<Iter::value_type, T> 
  void replace(Iter first, Iter last, 
               const T& old_value, const T& new_value); 

template<ForwardIterator Iter, Predicate<auto, Iter::value_type> Pred, class T> 
  requires OutputIterator<Iter, Iter::reference> 
        && OutputIterator<Iter, const T&> 
        && CopyConstructible<Pred> 
  void replace_if(Iter first, Iter last,
                  Pred pred, const T& new_value);

1091. Multimap description confusing

Section: 23.4.5.3 [multimap.modifiers] Status: NAD Submitter: LWG Opened: 2009-03-22 Last modified: 2015-04-08

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Discussion:

Addresses UK 246

The content of this sub-clause is purely trying to describe in words the effect of the requires clauses on these operations, now that we have Concepts. As such, the description is more confusing than the signature itself. The semantic for these functions is adequately covered in the requirements tables in 23.2.4 [associative.reqmts].

[ Beman adds: ]

Pete is clearly right that this one is technical rather than editorial.

[ Batavia (2009-05): ]

We agree with the proposed resolution.

Move to Review.

[ 2009-10 Santa Cruz: ]

Mark as NAD, solved by removing concepts.

Proposed resolution:

Strike 23.4.5.3 [multimap.modifiers] entirely (but do NOT strike these signatures from the class template definition!).


1092. Class template integral_constant should be a constrained template

Section: 20.10.3 [meta.help] Status: NAD Concepts Submitter: Daniel Krügler Opened: 2009-03-22 Last modified: 2015-04-08

View all other issues in [meta.help].

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Discussion:

A first step to change the type traits predicates to constrained templates is to constrain their common base template integral_constant. This can be done, without enforcing depending classes to be constrained as well, but not vice versa without brute force late_check usages. The following proposed resolution depends on the resolution of LWG issue 1019.

[ Batavia (2009-05): ]

Move to Open, pending a paper that looks at constraints for the entirety of the type traits and their relationship to the foundation concepts. We recommend this be deferred until after the next Committee Draft is issued.

Proposed resolution:

  1. In 20.10.2 [meta.type.synop], Header <type_traits> synopsis change as indicated:

    namespace std {
    // 20.5.3, helper class:
    template <classIntegralConstantExpressionType T, T v> struct integral_constant;
    
  2. In 20.10.3 [meta.help] change as indicated:

    template <classIntegralConstantExpressionType T, T v>
    struct integral_constant {
      static constexpr T value = v;
      typedef T value_type;
      typedef integral_constant<T,v> type;
      constexpr operator value_type() { return value; }
    };
    

1096. unconstrained rvalue ref parameters

Section: 17 [library] Status: NAD Concepts Submitter: David Abrahams Opened: 2009-03-21 Last modified: 2015-04-08

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Discussion:

TODO: Look at all cases of unconstrained rvalue ref parameters and check that concept req'ts work when T deduced as reference.

We found some instances where that was not done correctly and we figure the possibility of deducing T to be an lvalue reference was probably overlooked elsewhere.

[ Batavia (2009-05): ]

Move to Open, pending proposed wording from Dave for further review.

Proposed resolution:


1099. Various issues

Section: 17 [library] Status: NAD Submitter: David Abrahams Opened: 2009-03-21 Last modified: 2015-04-08

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Discussion:

Notes

[2009-03-21 Sat] p. 535 at the top we need MoveConstructible V1, MoveConstructible V2 (where V1,V2 are defined on 539). Also make_tuple on 550

CD-1 reads:

template <MoveConstructible T1, MoveConstructible T2> 
pair<V1, V2> make_pair(T1&&, T2&&); 

Actually I'm guessing we need something like MoveConstructible<V1,T1>, i.e. "V1 can be constructed from an rvalue of type T1."

Ditto for make_tuple

[2009-03-21 Sat] p1183 thread ctor, and in general, we need a way to talk about "copiable from generalized rvalue ref argument" for cases where we're going to forward and copy.

This issue may well be quite large. Language in para 4 about "if an lvalue" is wrong because types aren't expressions.

Maybe we should define the term "move" so we can just say in the effects, "f is moved into the newly-created thread" or something, and agree (and ideally document) that saying "f is moved" implies

F x(move(f))

is required to work. That would cover both ctors at once.

p1199, call_once has all the same issues.

[2009-03-21 Sat] p869 InputIterator pointer type should not be required to be convertible to const value_type*, rather it needs to have a operator-> of its own that can be used for the value type.

This one is serious and unrelated to the move issue.

[2009-03-21 Sat] p818 stack has the same problem with default ctor.

[2009-03-21 Sat] p816 priority_queue has the same sorts of problems as queue, only more so

   requires MoveConstructible<Cont> 
     explicit priority_queue(const Compare& x = Compare(), Cont&& = Cont()); 

Don't require MoveConstructible when default constructing Cont. Also missing semantics for move ctor.

[2009-03-21 Sat] Why are Allocators required to be CopyConstructible as opposed to MoveConstructible?

[2009-03-21 Sat] p813 queue needs a separate default ctor (Cont needn't be MoveConstructible). No documented semantics for move c'tor. Or *any* of its 7 ctors!

[2009-03-21 Sat] std::array should have constructors for C++0x, consequently must consider move construction.

[ 2009-05-01 Daniel adds: ]

This could be done as part of 1035, which already handles deviation of std::array from container tables.

[2009-03-21 Sat] p622 all messed up.

para 8 "implementation-defined" is the wrong term; should be "see below" or something.

para 12 "will be selected" doesn't make any sense because we're not talking about actual arg types.

paras 9-13 need to be totally rewritten for concepts.

[2009-03-21 Sat] Null pointer comparisons (p587) have all become unconstrained. Need to fix that

[2009-03-21 Sat] mem_fun_t etc. definition doesn't match declaration. We think CopyConstructible is the right reqt.

make_pair needs Constructible<V1, T1&&> requirements!

make_tuple needs something similar

tuple bug in synopsis:

   template <class... UTypes>
   requires Constructible<Types, const UTypes&>...
   template <class... UTypes>
   requires Constructible<Types, RvalueOf<UTypes>::type>...

Note: removal of MoveConstructible requirements in std::function makes these routines unconstrained!

[ 2009-05-02 Daniel adds: ]

This part of the issue is already covered by 1077.

these unique_ptr constructors are broken [ I think this is covered in "p622 all messed up" ]

 unique_ptr(pointer p, implementation-defined d);
 unique_ptr(pointer p, implementation-defined d);

multimap range constructor should not have MoveConstructible<value_type> requirement.

same with insert(..., P&&); multiset has the same issue, as do unordered_multiset and unordered_multimap. Review these!

[ Batavia (2009-05): ]

Move to Open, pending proposed wording from Dave for further review.

[ 2009-10 post-Santa Cruz: ]

Tentatively NAD. We are not sure what has been addressed and what hasn't. Recommend closing unless someone sorts this out into something more readable.

Rationale:

The issue(s) at hand not adequately communicated.

Proposed resolution:


1101. unique requirements

Section: 25.3.9 [alg.unique] Status: NAD Editorial Submitter: Howard Hinnant Opened: 2009-04-25 Last modified: 2015-04-08

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Discussion:

From Message c++std-core-14160 Howard wrote:

It was the intent of the rvalue reference proposal for unique to only require MoveAssignable: N1860.

And Pete replied:

That was overridden by the subsequent changes made for concepts in N2573, which reimposed the C++03 requirements.

My impression is that this overwrite was a simple (unintentional) mistake. Wording below to correct it.

[ Batavia (2009-05): ]

Howard notes this issue resolves a discrepancy between the synopsis and the description.

Move to NAD Editorial.

Proposed resolution:

Change 25.3.9 [alg.unique]:

template<ForwardIterator Iter> 
  requires OutputIterator<Iter, RvalueOf<Iter::reference>::type> 
        && EqualityComparable<Iter::value_type> 
  Iter unique(Iter first, Iter last); 

template<ForwardIterator Iter, EquivalenceRelation<auto, Iter::value_type> Pred> 
  requires OutputIterator<Iter, RvalueOf<Iter::reference>::type> 
        && CopyConstructible<Pred> 
  Iter unique(Iter first, Iter last, Pred pred);

Note that the synopsis in [algorithms.syn] is already correct.


1102. std::vector's reallocation policy still unclear

Section: 23.3.6.3 [vector.capacity] Status: NAD Submitter: Daniel Krügler Opened: 2009-04-20 Last modified: 2015-04-08

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Discussion:

I have the impression that even the wording of current draft N2857 does insufficiently express the intent of vector's reallocation strategy. This has produced not too old library implementations which release memory in the clear() function and even modern articles about C++ programming cultivate the belief that clear is allowed to do exactly this. A typical example is something like this:

const int buf_size = ...;
std::vector<T> buf(buf_size);
for (int i = 0; i < some_condition; ++i) {
  buf.resize(buf_size);
  write_or_read_data(buf.data());
  buf.clear(); // Ensure that the next round get's 'zeroed' elements
}

where still the myth is ubiquitous that buf might be allowed to reallocate it's memory *inside* the for loop.

IMO the problem is due to the fact, that

  1. the actual memory-reallocation stability of std::vector is explained in 23.3.6.3 [vector.capacity]/3 and /6 which are describing just the effects of the reserve function, but in many examples (like above) there is no explicit call to reserve involved. Further-more 23.3.6.3 [vector.capacity]/6 does only mention insertions and never mentions the consequences of erasing elements.
  2. the effects clause of std::vector's erase overloads in 23.3.6.5 [vector.modifiers]/4 is silent about capacity changes. This easily causes a misunderstanding, because the counter parting insert functions described in 23.3.6.5 [vector.modifiers]/2 explicitly say, that

    Causes reallocation if the new size is greater than the old capacity. If no reallocation happens, all the iterators and references before the insertion point remain valid.

    It requires a complex argumentation chain about four different places in the standard to provide the - possibly weak - proof that calling clear() also does never change the capacity of the std::vector container. Since std::vector is the de-facto replacement of C99's dynamic arrays this type is near to a built-in type and it's specification should be clear enough that usual programmers can trust their own reading.

[ Batavia (2009-05): ]

Bill believes paragraph 1 of the proposed resolution is unnecessary because it is already implied (even if tortuously) by the current wording.

Move to Review.

[ 2009-10 Santa Cruz: ]

Mark as NAD. Rationale: there is no consensus to clarify the standard, general consensus that the standard is correct as written.

Proposed resolution:

[ This is a minimum version. I also suggest that the wording explaining the allocation strategy of std::vector in 23.3.6.3 [vector.capacity]/3 and /6 is moved into a separate sub paragraph of 23.3.6.3 [vector.capacity] before any of the prototype's are discussed, but I cannot provide reasonable wording changes now ]

  1. Change 23.3.6.3 [vector.capacity]/6 as follows:

    It is guaranteed that no reallocation takes place during insertions or erasures that happen after a call to reserve() until the time when an insertion would make the size of the vector greater than the value of capacity().

  2. Change 23.3.6.5 [vector.modifiers]/4 as follows:

    Effects: The capacity shall remain unchanged and no reallocation shall happen. Invalidates iterators and references at or after the point of the erase.


1105. Shouldn't Range be an auto concept

Section: X [iterator.concepts.range] Status: NAD Concepts Submitter: David Abrahams Opened: 2009-04-23 Last modified: 2015-04-08

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Discussion:

[ 2009-04-26 Herb adds: ]

Here's a common example: We have many ISV customers who have built lots of in-house STL-like containers. Imagine that, for the past ten years, the user has been happily using his XYZCorpContainer<T> that has begin() and end() and an iterator typedef, and indeed satisfies nearly all of Container, though maybe not quite all just like valarray. The user upgrades to a range-enabled version of a library, and now lib_algo( xyz.begin(), xyz.end()); no longer works -- compiler error.

Even though XYZCorpContainer matches the pre-conceptized version of the algorithm, and has been working for years, it appears the user has to write at least this:

template<class T> concept_map Range<XYZCorpContainer<T>> {};

template<class T> concept_map Range<const XYZCorpContainer<T>> {};

Is that correct?

But he may actually have to write this as we do for initializer list:

template<class T>
concept_map Range<XYZCorpContainer<T>> {
   typedef T* iterator;
   iterator begin(XYZCorpContainer<T> c) { return c.begin(); }
   iterator end(XYZCorpContainer<T> c) { return c.end(); }
};

template<class T>
concept_map Range<const XYZCorpContainer<T>> {
   typedef T* iterator;
   iterator begin(XYZCorpContainer<T> c) { return c.begin(); }
   iterator end(XYZCorpContainer<T> c) { return c.end(); }
};

[ 2009-04-28 Alisdair adds: ]

I recommend NAD, although remain concerned about header organisation.

A user container will satisfy the MemberContainer concept, which IS auto. There is a concept_map for all MemberContainers to Container, and then a further concept_map for all Container to Range, so the stated problem is not actually true. User defined containers will automatically match the Range concept without explicitly declaring a concept_map.

The problem is that they should now provide an additional two headers, <iterator_concepts> and <container_concepts>. The only difference from making Range an auto concept would be this reduces to a single header, <iterator_concepts>.

I am strongly in favour of any resolution that tackles the issue of explicitly requiring concept headers to make these concept maps available.

[ Batavia (2009-05): ]

We observe there is a recent paper by Bjarne that overlaps this issue.

Alisdair continues to recommend NAD.

Move to Open, and recommend the issue be deferred until after the next Committee Draft is issued.

Proposed resolution:


1107. constructor shared_future(unique_future) by value?

Section: 30.6.7 [futures.shared_future] Status: NAD Editorial Submitter: Thomas J. Gritzan Opened: 2009-04-03 Last modified: 2015-04-08

View all other issues in [futures.shared_future].

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Discussion:

In the shared_future class definition in 30.6.7 [futures.shared_future] the move constructor that constructs a shared_future from an unique_future receives the parameter by value. In paragraph 3, the same constructor receives it as const value.

I think that is a mistake and the constructor should take a r-value reference:

shared_future(unique_future<R>&& rhs);

[ Batavia (2009-05): ]

We agree with the proposed resolution.

Move to Tentatively Ready.

[ 2009-07-05 Daniel notes: ]

The proposed change has already been incorported into the current working draft N2914.

Proposed resolution:

Change the synopsis in 30.6.7 [futures.shared_future]:

shared_future(unique_future<R>&& rhs);

Change the definition of the constructor in 30.6.7 [futures.shared_future]:

shared_future(const unique_future<R>&& rhs);

1109. std::includes should require CopyConstructible predicate

Section: 25.4.5.1 [includes] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-04-28 Last modified: 2015-04-08

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Discussion:

All the set operation algorithms require a CopyConstructible predicate, with the exception of std::includes. This looks like a typo as much as anything, given the general library requirement that predicates are copy constructible, and wording style of other set-like operations.

[ Batavia (2009-05): ]

We agree with the proposed resolution. Move to NAD Editorial.

Proposed resolution:

Change [algorithms.syn] and 25.4.5.1 [includes]:

template<InputIterator Iter1, InputIterator Iter2,
         typename CopyConstructible Compare>
  requires Predicate<Compare, Iter1::value_type, Iter2::value_type>
        && Predicate<Compare, Iter2::value_type, Iter1::value_type>
  bool includes(Iter1 first1, Iter1 last1,
                Iter2 first2, Iter2 last2,
                Compare comp);

1111. associative containers underconstrained

Section: 23.4 [associative] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-04-29 Last modified: 2015-04-08

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Discussion:

According to table 87 (n2857) the expression X::key_equal for an unordered container shall return a value of type Pred, where Pred is an equivalence relation.

However, all 4 containers constrain Pred to be merely a Predicate, and not EquivalenceRelation.

[ Batavia (2009-05): ]

We agree with the proposed resolution.

Move to Review.

Proposed resolution:

For ordered containers, replace

Predicate<auto, Key, Key> Compare = less<Key>

with

StrictWeakOrder<auto, Key, Key> Compare = less<Key>

For unordered containers, replace

Predicate<auto, Key, Key> Compare = less<Key>

with

EquivalenceRelation<auto, Key, Key> Compare = less<Key>

As in the following declarations:

Associative containers 23.4 [associative]

1 Headers <map> and <set>:

Header <map> synopsis

   namespace std {
     template <ValueType Key, ValueType T,
               PredicateStrictWeakOrder<auto, Key, Key> Compare = less<Key>,
               Allocator Alloc = allocator<pair<const Key, T> > >
       requires NothrowDestructible<Key> && NothrowDestructible<T>
             && CopyConstructible<Compare>
             && AllocatableElement<Alloc, Compare, const Compare&>
             && AllocatableElement<Alloc, Compare, Compare&&>
     class map;

     ...

     template <ValueType Key, ValueType T,
               PredicateStrictWeakOrder<auto, Key, Key> Compare = less<Key>,
               Allocator Alloc = allocator<pair<const Key, T> > >
       requires NothrowDestructible<Key> && NothrowDestructible<T>
             && CopyConstructible<Compare>
             && AllocatableElement<Alloc, Compare, const Compare&>
             && AllocatableElement<Alloc, Compare, Compare&&>
     class multimap;

     ...

   }

Header <set> synopsis

   namespace std {
     template <ValueType Key, PredicateStrictWeakOrder<auto, Key, Key> Compare = less<Key>,
               Allocator Alloc = allocator<Key> >
       requires NothrowDestructible<Key> && CopyConstructible<Compare>
             && AllocatableElement<Alloc, Compare, const Compare&>
             && AllocatableElement<Alloc, Compare, Compare&&>
     class set;

     ...

     template <ValueType Key, PredicateStrictWeakOrder<auto, Key, Key> Compare = less<Key>,
               Allocator Alloc = allocator<Key> >
       requires NothrowDestructible<Key> && CopyConstructible<Compare>
             && AllocatableElement<Alloc, Compare, const Compare&>
             && AllocatableElement<Alloc, Compare, Compare&&>
     class multiset;

     ...

   }

23.4.1p2 Class template map [map]

 namespace std {
   template <ValueType Key, ValueType T,
             PredicateStrictWeakOrder<auto, Key, Key> Compare = less<Key>,
             Allocator Alloc = allocator<pair<const Key, T> > >
     requires NothrowDestructible<Key> && NothrowDestructible<T>
           && CopyConstructible<Compare>
           && AllocatableElement<Alloc, Compare, const Compare&>
           && AllocatableElement<Alloc, Compare, Compare&&>
   class map {
     ...
   };
 }

23.4.2p2 Class template multimap [multimap]

 namespace std {
   template <ValueType Key, ValueType T,
             PredicateStrictWeakOrder<auto, Key, Key> Compare = less<Key>,
             Allocator Alloc = allocator<pair<const Key, T> > >
     requires NothrowDestructible<Key> && NothrowDestructible<T>
           && CopyConstructible<Compare>
           && AllocatableElement<Alloc, Compare, const Compare&>
           && AllocatableElement<Alloc, Compare, Compare&&>
   class multimap {
     ...
   };
 }

23.4.3p2 Class template set [set]

 namespace std {
   template <ValueType Key, PredicateStrictWeakOrder<auto, Key, Key> Compare = less<Key>,
             Allocator Alloc = allocator<Key> >
     requires NothrowDestructible<Key> && CopyConstructible<Compare>
           && AllocatableElement<Alloc, Compare, const Compare&>
           && AllocatableElement<Alloc, Compare, Compare&&>
   class set {
     ...
   };
 }

23.4.4p2 Class template multiset [multiset]

 namespace std {
   template <ValueType Key, PredicateStrictWeakOrder<auto, Key, Key> Compare = less<Key>,
             Allocator Alloc = allocator<Key> >
     requires NothrowDestructible<Key> && CopyConstructible<Compare>
           && AllocatableElement<Alloc, Compare, const Compare&>
           && AllocatableElement<Alloc, Compare, Compare&&>
   class multiset {
     ...
   };
 }

23.5 Unordered associative containers [unord]

1 Headers <unordered_map> and <unordered_set>:

Header <unordered_map> synopsis

 namespace std {
   // 23.5.1, class template unordered_map:
   template <ValueType Key,
             ValueType T,
             Callable<auto, const Key&> Hash = hash<Key>,
             PredicateEquivalenceRelation<auto, Key, Key> Pred = equal_to<Key>,
             Allocator Alloc = allocator<pair<const Key, T> > >
     requires NothrowDestructible<Key> && NothrowDestructible<T>
           && SameType<Hash::result_type, size_t>
           && CopyConstructible<Hash> && CopyConstructible<Pred>
           && AllocatableElement<Alloc, Pred, const Pred&>
           && AllocatableElement<Alloc, Pred, Pred&&>
           && AllocatableElement<Alloc, Hash, const Hash&>
           && AllocatableElement<Alloc, Hash, Hash&&>
     class unordered_map;

   // 23.5.2, class template unordered_multimap:
   template <ValueType Key,
             ValueType T,
             Callable<auto, const Key&> Hash = hash<Key>,
             PredicateEquivalenceRelation<auto, Key, Key> Pred = equal_to<Key>,
             Allocator Alloc = allocator<pair<const Key, T> > >
     requires NothrowDestructible<Key> && NothrowDestructible<T>
           && SameType<Hash::result_type, size_t>
           && CopyConstructible<Hash> && CopyConstructible<Pred>
           && AllocatableElement<Alloc, Pred, const Pred&>
           && AllocatableElement<Alloc, Pred, Pred&&>
           && AllocatableElement<Alloc, Hash, const Hash&>
           && AllocatableElement<Alloc, Hash, Hash&&>
     class unordered_multimap;

   ...
 }

Header <unordered_set> synopsis

 namespace std {
   // 23.5.3, class template unordered_set:
   template <ValueType Value,
             Callable<auto, const Value&> Hash = hash<Value>,
             PredicateEquivalenceRelation<auto, Value, Value> class Pred = equal_to<Value>,
             Allocator Alloc = allocator<Value> >
     requires NothrowDestructible<Value>
           && SameType<Hash::result_type, size_t>
           && CopyConstructible<Hash> && CopyConstructible<Pred>
           && AllocatableElement<Alloc, Pred, const Pred&>
           && AllocatableElement<Alloc, Pred, Pred&&>
           && AllocatableElement<Alloc, Hash, const Hash&>
           && AllocatableElement<Alloc, Hash, Hash&&>
     class unordered_set;

   // 23.5.4, class template unordered_multiset:
   template <ValueType Value,
             Callable<auto, const Value&> Hash = hash<Value>,
             PredicateEquivalenceRelation<auto, Value, Value> class Pred = equal_to<Value>,
             Allocator Alloc = allocator<Value> >
     requires NothrowDestructible<Value>
           && SameType<Hash::result_type, size_t>
           && CopyConstructible<Hash> && CopyConstructible<Pred>
           && AllocatableElement<Alloc, Pred, const Pred&>
           && AllocatableElement<Alloc, Pred, Pred&&>
           && AllocatableElement<Alloc, Hash, const Hash&>
           && AllocatableElement<Alloc, Hash, Hash&&>
     class unordered_multiset;

   ...
 }

23.5.1p3 Class template unordered_map [unord.map]

 namespace std {
   template <ValueType Key,
             ValueType T,
             Callable<auto, const Key&> Hash = hash<Key>,
             PredicateEquivalenceRelation<auto, Key, Key> Pred = equal_to<Key>,
             Allocator Alloc = allocator<pair<const Key, T> > >
     requires NothrowDestructible<Key> && NothrowDestructible<T>
           && SameType<Hash::result_type, size_t>
           && CopyConstructible<Hash> && CopyConstructible<Pred>
           && AllocatableElement<Alloc, Pred, const Pred&>
           && AllocatableElement<Alloc, Pred, Pred&&>
           && AllocatableElement<Alloc, Hash, const Hash&>
           && AllocatableElement<Alloc, Hash, Hash&&>
   class unordered_map
   {
     ...
   };
 }

23.5.2p3 Class template unordered_multimap [unord.multimap]

 namespace std {
   template <ValueType Key,
             ValueType T,
             Callable<auto, const Key&> Hash = hash<Key>,
             PredicateEquivalenceRelation<auto, Key, Key> Pred = equal_to<Key>,
             Allocator Alloc = allocator<pair<const Key, T> > >
     requires NothrowDestructible<Key> && NothrowDestructible<T>
           && SameType<Hash::result_type, size_t>
           && CopyConstructible<Hash> && CopyConstructible<Pred>
           && AllocatableElement<Alloc, Pred, const Pred&>
           && AllocatableElement<Alloc, Pred, Pred&&>
           && AllocatableElement<Alloc, Hash, const Hash&>
           && AllocatableElement<Alloc, Hash, Hash&&>
   class unordered_multimap
   {
     ...
   };
 }

23.5.3p3 Class template unordered_set [unord.set]

 namespace std {
   template <ValueType Value,
             Callable<auto, const Value&> Hash = hash<Value>,
             PredicateEquivalenceRelation<auto, Value, Value> class Pred = equal_to<Value>,
             Allocator Alloc = allocator<Value> >
     requires NothrowDestructible<Value>
           && SameType<Hash::result_type, size_t>
           && CopyConstructible<Hash> && CopyConstructible<Pred>
           && AllocatableElement<Alloc, Pred, const Pred&>
           && AllocatableElement<Alloc, Pred, Pred&&>
           && AllocatableElement<Alloc, Hash, const Hash&>
           && AllocatableElement<Alloc, Hash, Hash&&>
   class unordered_set
   {
     ...
   };
 }

23.5.4p3 Class template unordered_multiset [unord.multiset]

 namespace std {
   template <ValueType Value,
             Callable<auto, const Value&> Hash = hash<Value>,
             PredicateEquivalenceRelation<auto, Value, Value> class Pred = equal_to<Value>,
             Allocator Alloc = allocator<Value> >
     requires NothrowDestructible<Value>
           && SameType<Hash::result_type, size_t>
           && CopyConstructible<Hash> && CopyConstructible<Pred>
           && AllocatableElement<Alloc, Pred, const Pred&>
           && AllocatableElement<Alloc, Pred, Pred&&>
           && AllocatableElement<Alloc, Hash, const Hash&>
           && AllocatableElement<Alloc, Hash, Hash&&>
   class unordered_multiset
   {
     ...
   };
 }

1115. va_copy missing from Standard macros table

Section: C.5 [diff.library] Status: NAD Editorial Submitter: Miles Zhao Opened: 2009-05-23 Last modified: 2015-04-08

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Discussion:

In "Table 122 — Standard macros" of C.5 [diff.library], which lists the 56 macros inherited from C library, va_copy seems to be missing. But in "Table 21 — Header <cstdarg> synopsis" (18.10 [support.runtime]), there is.

[ 2009-10 post-Santa Cruz: ]

Mark as Tentatively NAD Editorial, if Pete disagrees, Howard will move to Tentatively Ready

Proposed resolution:

Add va_copy to Table 122 -- Standard macros in C.5 [diff.library].


1119. tuple query APIs do not support references

Section: 20.4.2.5 [tuple.helper] Status: NAD Submitter: Alisdair Meredith Opened: 2009-05-23 Last modified: 2015-04-08

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Discussion:

The tuple query APIs tuple_size and tuple_element do not support references-to-tuples. This can be annoying when a template deduced a parameter type to be a reference, which must be explicitly stripped with remove_reference before calling these APIs.

I am not proposing a resolution at this point, as there is a combinatorial explosion with lvalue/rvalue references and cv-qualification (see previous issue) that suggests some higher refactoring is in order. This might be something to kick back over to Core/Evolution.

Note that we have the same problem in numeric_limits.

[ 2009-10 post-Santa Cruz: ]

Move to Open. Alisdair to provide wording.

[ 2010 Rapperswil: ]

Move to NAD. This is an extension after the FCD, without a clear motivation. May consider as NAD Future if motivating examples come forward.

Proposed resolution:


1124. Invalid definition of concept RvalueOf

Section: X [concept.transform] Status: NAD Concepts Submitter: Daniel Krügler Opened: 2009-05-28 Last modified: 2015-04-08

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Discussion:

A recent news group article points to several defects in the specification of reference-related concepts.

One problem of the concept RvalueOf as currently defined in X [concept.transform]:

concept RvalueOf<typename T> {
 typename type = T&&;
 requires ExplicitlyConvertible<T&,type> && Convertible<T&&,type>;
}

template<typename T> concept_map RvalueOf<T&> {
 typedef T&& type;
}

is that if T is an lvalue-reference, the requirement Convertible<T&&,type> isn't satisfied for lvalue-references, because after reference-collapsing in the concept definition we have Convertible<T&,type> in this case, which isn't satisfied in the concept map template and also is not the right constraint either. I think that the reporter is right that SameType requirements should do the job and that we also should use the new RvalueReference concept to specify a best matching type requirement.

Proposed resolution:

In X [concept.transform] before p. 4 change as indicated:

auto concept RvalueOf<typename T> {
  typenameRvalueReference type = T&&;
  requires ExplicitlyConvertible<T&, type> && Convertible<T&&, type>SameType<T&, type&>;
}

1125. ostream_iterator does not work with movable types

Section: 24.6.2.2 [ostream.iterator.ops] Status: NAD Submitter: Alisdair Meredith Opened: 2009-05-28 Last modified: 2015-04-08

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Discussion:

ostream_iterator has not been updated to support moveable types, in a similar manner to the insert iterators. Note that this is not a problem for ostreambuf_iterator, as the types it is restricted to dealing with do not support extra-efficient moving.

[ 2009-11-10 Howard adds: ]

Moved to Tentatively NAD after 5 positive votes on c++std-lib. Rationale added below.

Proposed resolution:

Add second operator= overload to class template ostream_iterator in 24.6.2 [ostream.iterator], para 2:

ostream_iterator<T,charT,traits>& operator=(const T& value);
ostream_iterator<T,charT,traits>& operator=(T&& value);

Add a new paragraph: in 24.6.2.2 [ostream.iterator.ops]:

ostream_iterator& operator=(T&& value);

-2- Effects:

*out_stream << std::move(value);
if(delim != 0)
  *out_stream << delim;
return (*this);

Rationale:

Several objections to move forward with this issue were voiced in the thread starting with c++std-lib-25438. Among them is that we know of no motivating use case to make streaming rvalues behave differently than streaming const lvalues.


1127. rvalue references and iterator traits

Section: 24.4.1 [iterator.traits] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-05-28 Last modified: 2015-04-08

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Discussion:

The deprecated support for iterator_traits and legacy (unconstrained) iterators features the (exposition only) concept:

concept IsReference<typename T> { } // exposition only
template<typename T> concept_map IsReference<T&> { }

Now this looks exactly like the LvalueReference concept recently added to clause 20, so I wonder if we should use that instead? Then I consider the lack of rvalue-reference support, which means that move_iterator would always flag as merely supporting the input_iterator_tag category. This suggests we retain the exposition concept, but add a second concept_map to support rvalue references.

I would suggest adding the extra concept_map is the right way forward, but still wonder if the two exposition-only concepts in this clause might be worth promoting to clause 20. That question might better be answered with a fuller investigation of type_trait/concept unification though.

Proposed resolution:

In Iterator traits 24.4.1 [iterator.traits] para 4 add:

concept IsReference<typename T> { } // exposition only
template<typename T> concept_map IsReference<T&> { }
template<typename T> concept_map IsReference<T&&> { }

1128. Missing definition of iterator_traits<T*>

Section: X [iterator.syn] Status: NAD Concepts Submitter: Alisdair Meredith Opened: 2009-05-28 Last modified: 2015-04-08

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Discussion:

The <iterator> header synopsis declares a partial specialization of iterator_traits to support pointers, X [iterator.syn]. The implication is that specialization will be described in D10, yet it did not follow the rest of the deprecated material into this clause.

However, this is not as bad as it first seems! There are partial specializations of iterator_traits for types that satisfy the various Iterator concepts, and there are concept_maps for pointers to explicitly support the RandomAccessIterator concept, so the required template will be present - just not in the manner advertised.

I can see two obvious solutions:

  1. Restore the iterator_traits<T*> partial specialization in D.10
  2. Remove the declaration of iterator_traits<T*> from 24.3 synopsis

I recommend option (ii) in the wording below

Option (ii) could be extended to strike all the declarations of deprecated material from the synopsis, as it is effectively duplicating D.10 anyway. This is the approach taken for deprecated library components in the 98/03 standards. This is probably a matter best left to the Editor though.

Proposed resolution:

In X [iterator.syn] strike:

template<class T> struct iterator_traits<T*>;

1132. JP-30: nested exceptions

Section: 18.8.6 [except.nested] Status: NAD Submitter: Seiji Hayashida Opened: 2009-06-01 Last modified: 2015-04-08

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Discussion:

Addresses JP 30

C++0x nested_exception cannot handle a structured exception well. The following codes show two types of tree structured exception handling.

The first one is based on nested_exception in C++0x, while the second one is based on my library trickerr.h (in Japanese). http://tricklib.com/cxx/dagger/trickerr.h

Assume that Function A() calls two sub functions A_a() and A_b(), both might throw tree structured exceptions, and A_b() must be called even if A_a() throws an exception.

List A (code of tree structured exception handling based on nested_exception in C++0x)

void A()
{
    try
    {
        std::vector<exception_ptr> exception_list;
        try
        {
            // A_a() does a similar processing as A().
            A_a();
        }
        catch(...)
        {
            exception_list.push_back(current_exception());
        }

        // ***The processing A() has to do even when A_a() fails. ***
        try
        {
            // A_b() does a similar processing as A().
            A_b();
        }
        catch(...)
        {
            exception_list.push_back(current_exception());
        }
        if (!exception_list.empty())
        {
            throw exception_list;
        }
    }
    catch(...)
    {
        throw_with_nested(A_exception("someone error"));
    }
}
void print_tree_exception(exception_ptr e, const std::string & indent ="")
{
    const char * indent_unit = " ";
    const char * mark = "- ";
    try
    {
        rethow_exception(e);
    }
    catch(const std::vector<exception_ptr> e)
    {
        for(std::vector<exception_ptr>::const_iterator i = e.begin(); i!=e.end(); ++i)
        {
            print_tree_exception(i, indent);
        }
    }
    catch(const std::nested_exception  e)
    {
        print_tree_exception(evil_i(e), indent +indent_unit);
    }
    catch(const std::exception e)
    {
        std::cout << indent << mark << e.what() << std::endl;
    }
    catch(...)
    {
        std::cout << indent << mark << "unknown exception" << std::endl;
    }
}
int main(int, char * [])
{
    try
    {
        A();
    }
    catch()
    {
        print_tree_exception(current_exception());
    }
    return EXIT_SUCCESS;
}

List B ( code of tree structured exception handling based on trickerr.h. ) "trickerr.h" (in Japanese), refer to: http://tricklib.com/cxx/dagger/trickerr.h.

void A()
{
    tricklib::error_listener_type error_listener;
    // A_a() is like A(). A_a() can throw tree structured exception.
    A_a();

    // *** It must do process so that A_a() throws exception in A(). ***
    // A_b() is like A(). A_b() can throw tree structured exception.
    A_b();

    if (error_listener.has_error()) // You can write this "if block" in destructor
                                    //  of class derived from error_listener_type.
    {
        throw_error(new A_error("someone error",error_listener.listener_off().extract_pending_error()));
    }
}
void print_tree_error(const tricklib::error_type &a_error, const std::string & indent = "")
{
    const char * indent_unit = " ";
    const char * mark = "- ";

    tricklib::error_type error = a_error;
    while(error)
    {
        std::cout << indent << mark << error->message << std::endl;
        if (error->children)
        {
            print_tree_error(error->children, indent +indent_unit);
        }
        error = error->next;
    }
}
int main(int, char * [])
{
    tricklib::error_thread_power error_thread_power_on; // This object is necessary per thread.

    try
    {
        A();
    }
    catch(error_type error)
    {
        print_tree_error(error);
    }
    catch(...)
    {
        std::cout << "- unknown exception" << std::endl;
    }
    return EXIT_SUCCESS;
}

Prospect

We will focus on the method A() since the other methods, also main(), occur only once respectively.

According to the above observation, we cannot help concluding that it is not so easy to use the nested_exception handling as a tree structured exception handling mechanism in a practical sense.

This text is based on the web page below (in Japanese). http://d.hatena.ne.jp/wraith13/20081231/1230715424

[ 2009-10 Santa Cruz: ]

Mark as NAD. The committee agrees that nested_exception is not a good match for this usage model. The committee did not see a way of improving this within the timeframe allowed.

Proposed resolution:


1139. Thread support library not concept enabled

Section: 30 [thread] Status: NAD Concepts Submitter: LWG Opened: 2009-06-15 Last modified: 2015-04-08

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Discussion:

Addresses US 93, JP 79, UK 333, JP 81

The thread chapter is not concept enabled.

Proposed resolution:


1140. Numerics library not concept enabled

Section: 26 [numerics] Status: NAD Concepts Submitter: LWG Opened: 2009-06-15 Last modified: 2015-04-08

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Discussion:

Addresses US 84

The numerics chapter is not concept enabled.

The portion of this comment dealing with random numbers was resolved by N2836, which was accepted in Summit.

Proposed resolution:


1141. Input/Output library not concept enabled

Section: 27 [input.output] Status: NAD Concepts Submitter: LWG Opened: 2009-06-15 Last modified: 2015-04-08

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Discussion:

Addresses US 85, JP 67, JP 68, JP 69, JP 72, UK 308

The input/output chapter is not concept enabled.

Proposed resolution:


1142. Regular expressions library not concept enabled

Section: 28 [re] Status: NAD Concepts Submitter: LWG Opened: 2009-06-15 Last modified: 2015-04-08

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Discussion:

Addresses US 86, UK 309, UK 310

The regular expressions chapter is not concept enabled.

Proposed resolution:


1148. Wrong argument type of I/O stream manipulators setprecision() and setw()

Section: 27.7 [iostream.format] Status: NAD Submitter: Marc Steinbach Opened: 2009-06-20 Last modified: 2015-04-08

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Discussion:

The header <iomanip> synopsis in 27.7 [iostream.format] specifies

T5 setprecision(int n);
T6 setw(int n);

The argument types should be streamsize, as in class ios_base (see 27.5.3 [ios.base]):

streamsize precision() const;
streamsize precision(streamsize prec);
streamsize width() const;
streamsize width(streamsize wide);

(Editorial: 'wide' should probably be renamed as 'width', or maybe just 'w'.)

[ 2009-07-29 Daniel clarified wording. ]

[ 2009 Santa Cruz: ]

No concensus for this change. There was some interest in doing the opposite fix: Change the streamsize in <ios> to