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Difference between revisions of "cpp/named req/Container"

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< cpp‎ | named req
m (improved formatting)
(Added N3346 DR.)
 
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{{cpp/concept/title|Container}}
+
{{cpp/named req/title|Container}}
{{cpp/concept/navbar}}
+
{{cpp/named req/navbar}}
  
A {{tt|Container}} is an object used to store other objects and taking care of the management of the memory used by the objects it contains.
+
A {{named req/core|Container}} is an object used to store other objects and taking care of the management of the memory used by the objects it contains.
  
 
===Requirements===
 
===Requirements===
* {{ttb|C}} container type;
+
Given the following types and values:
* {{ttb|T}} element type;
+
{{dsc begin}}
* {{ttb|a}}, {{ttb|b}} objects of type {{ttb|C}}.
+
{{dsc hitem|Type|Definition}}
 +
{{dsc|{{tt|T}}|an object type}}
 +
{{dsc|{{tt|C}}|a container class containing objects of type {{tt|T}}}}
 +
{{dsc hitem|Value|Definition}}
 +
{{dsc|{{c|u}}, {{c|v}}|values of type {{tt|C}} or {{c/core|const C}}}}
 +
{{dsc|{{c|mv}}|a value of type {{tt|C}}}}
 +
{{dsc|{{c|cv}}|a value of type {{c/core|const C}}}}
 +
{{dsc|{{c|lhs}}, {{c|rhs}}|lvalues of type {{tt|C}}}}
 +
{{dsc|{{c|i}}, {{c|j}}|values of type {{tt|C::iterator}} or {{c/core|const C::iterator}}}}
 +
{{dsc end}}
 +
 
 +
{{tt|C}} satisfies the requirements of {{named req/core|Container}} if the following types, statements, and expressions are well-formed and have the specified semantics:
  
 
====Types====
 
====Types====
{|class=wikitable
+
{|class="wikitable"
!name||type||notes
+
!Type
 +
!Definition
 +
!Requirements
 
|-
 
|-
|{{tt|value_type}}||T||{{concept|Eraseable}}
+
|{{c/core|typename C::value_type}}
 +
|{{tt|T}}
 +
|{{tt|T}} is {{rev inl|until=c++11|{{named req|CopyConstructible}}}}{{rev inl|since=c++11|{{named req|Erasable}} from {{tt|C}}}}.
 
|-
 
|-
|{{tt|reference}}||T&||
+
|{{c/core|typename C::reference}}
 +
|{{tt|T&}}
 +
|rowspan=2 {{n/a|No explicit requirement}}
 
|-
 
|-
|{{tt|const_reference}}||const T&||
+
|{{c/core|typename C::const_reference}}
 +
|{{c/core|const T&}}
 
|-
 
|-
|{{tt|iterator}}||iterator pointing to T||{{concept|ForwardIterator}}<br/>convertible to {{ttb|const_iterator}}
+
|{{c/core|typename C::iterator}}
 +
|an iterator type
 +
|
 +
* {{tt|C::iterator}} is a {{named req|ForwardIterator}}, and its [[cpp/iterator#Types and writability|value type]] is {{tt|T}}.
 +
* {{tt|C::iterator}} is convertible to {{tt|C::const_iterator}}.
 
|-
 
|-
|{{tt|const_iterator}}||const iterator pointing to T||{{concept|ForwardIterator}}
+
|{{c/core|typename C::const_iterator}}
 +
|a constant iterator type
 +
|{{tt|C::const_iterator}} is a {{named req|ForwardIterator}}, and its [[cpp/iterator#Types and writability|value type]] is {{tt|T}}.
 
|-
 
|-
|{{tt|difference_type}}||signed integer
+
|{{c/core|typename C::difference_type}}
|must be the same as {{ttb|[[cpp/iterator/iterator_traits|iterator_traits]]::difference_type}} for {{ttb|iterator}} and {{ttb|const_iterator}}
+
|a signed integer type
 +
|{{tt|C::difference_type}} is the same as the [[cpp/iterator#Types and writability|difference type]] of {{tt|C::iterator}} and {{tt|C::const_iterator}}.
 
|-
 
|-
|{{tt|size_type}}||unsigned integer||large enough to represent all positive values of {{ttb|difference_type}}
+
|{{c/core|typename C::size_type}}
 +
|an unsigned integer type
 +
|{{tt|C::size_type}} is large enough to represent all non-negative values of {{tt|C::difference_type}}.
 
|}
 
|}
  
====Methods and operators====
+
====Statements====
{|class=wikitable
+
{|class="wikitable"
!expression||return type||semantics||conditions||complexity
+
!Statement
 +
!colspan=2|Semantics
 +
!{{nbsp}}Complexity{{nbsp}}
 
|-
 
|-
|{{c|C()}}||C||creates an empty container|| Post: C().empty() == true||Constant
+
|{{c|C c;}}
 +
 
 +
{{c|1=C c = C();}}
 +
|Postcondition{{nbsp}}
 +
|{{c|c.empty()}} is {{c|true}}.
 +
|constant
 
|-
 
|-
|{{c|C(a)}}||C||create a copy of {{ttb|a}}||Pre: T must be {{concept|CopyInsertable}}<br/>Post: a == C(a)||Linear
+
|rowspan=2|{{c|C c(v);}}
 +
 
 +
{{c|1=C c = C(v);}}
 +
|Precondition
 +
|{{rrev|since=c++11|If {{c|v}} is not an rvalue of type {{tt|C}}, {{tt|T}} is {{named req|CopyInsertable}} into {{tt|C}}.}}
 +
|rowspan=2|linear<ref>If {{c|v}} is an rvalue of type {{tt|C}}, and {{tt|C}} is not a specialization of {{lc|std::array}} or {{ltt std|cpp/container/inplace_vector}}, the complexity is constant.</ref>
 
|-
 
|-
|{{c|a {{=}} b}}||C&||all elements of {{ttb|a}} are destroyed or move assigned to elements of b||Post: a == b||Linear
+
|Postcondition
 +
|
 +
* If {{c|v}} is an lvalue, {{c|1=c == v}} is {{c|true}}.
 +
* If {{c|v}} is an rvalue{{rev inl|since=c++11|, and {{c|c}} and {{c|v}} do not refer to the same object}}, {{c|c}} is equal to the value that {{c|v}} had before this construction.
 
|-
 
|-
|{{c|(&a)->~C()}}||void||destroy all elements and free all memory||  ||Linear
+
!colspan=4|Notes
 
|-
 
|-
|{{c|a.begin()}}||(const_)iterator||Iterator to the first element|| ||Constant
+
|colspan=4|<references/>
 +
|}
 +
 
 +
====Expressions====
 +
<div style="max-height: 80vh; overflow-y: scroll;">
 +
{|class="wikitable"
 +
!Expression
 +
!Type
 +
!colspan=2 style="min-width: 480px;"|Semantics
 +
!{{nbsp}}Complexity{{nbsp}}
 
|-
 
|-
|{{c|a.end()}}||(const_)iterator||Iterator to one past the last element|| ||Constant
+
|{{c|C()}}
 +
|{{tt|C}}
 +
|Postcondition{{nbsp}}
 +
|{{c|C().empty()}} is {{c|true}}.
 +
|constant
 
|-
 
|-
|{{c|a.cbegin()}}{{mark since c++11}}||const_iterator||{{c|const_cast<const C&>(a).begin()}}|| ||Constant
+
|rowspan=2|{{c|C(v)}}
 +
|rowspan=2|{{tt|C}}
 +
|Precondition
 +
|{{rrev|since=c++11|If {{c|v}} is not an rvalue of type {{tt|C}}, {{tt|T}} is {{named req|CopyInsertable}} into {{tt|C}}.}}
 +
|rowspan=2|constant<ref>If {{c|v}} is an rvalue of type {{tt|C}}, and {{tt|C}} is a specialization of {{lc|std::array}} or {{ltt std|cpp/container/inplace_vector}}, the complexity is linear.</ref>
 
|-
 
|-
|{{c|a.cend()}}{{mark since c++11}}||const_iterator||{{c|const_cast<const C&>(a).end()}}|| ||Constant
+
|Postcondition
 +
|
 +
* If {{c|v}} is an lvalue, {{c|1=C(v) == v}} is {{c|true}}.
 +
* If {{c|v}} is an rvalue{{rev inl|since=c++11|, and {{c|C(v)}} and {{c|v}} do not refer to the same object}}, {{c|C(v)}} is equal to the value that {{c|v}} had before this construction.
 
|-
 
|-
|{{c|a {{==}} b}} || convertible to bool || {{c|std::equal(a.begin(), a.end(), b.begin(), b.end())}}{{mark since c++14}} ||Pre: T must be {{concept|EqualityComparable}} || Constant<ref>always linear for {{lc|std::forward_list}}</ref> if {{tt|a.size() !{{=}} b.size()}}, linear otherwise
+
|{{c|1=lhs = v}}
 +
|{{tt|C&}}
 +
|Postcondition
 +
|
 +
* If {{c|v}} is an lvalue, {{c|1=lhs == v}} is {{c|true}}.
 +
* If {{c|v}} is an rvalue{{rev inl|since=c++11|, and {{c|lv}} and {{c|v}} do not refer to the same object}}, {{c|lhs}} is equal to the value that {{c|v}} had before this assignment.
 +
|linear
 
|-
 
|-
|{{c|a !{{=}} b}} || convertible to bool || {{c|!(a {{==}} b)}} || || Linear
+
|{{c|v.~C()}}
 +
|{{c/core|void}}
 +
|Effect
 +
|Destroys all elements of {{c|v}} and deallocates all memory obtained.
 +
|linear
 
|-
 
|-
|{{c|a.swap(b)}} || void || exchanges the values of a and b ||
+
|{{c|mv.begin()}}
| Constant<ref name="array">{{mark since c++11}} Linear for {{lc|std::array}}</ref><ref name="should">{{mark until c++11}} Not strictly constant</ref>
+
|{{tt|C::iterator}}
 +
|Effect
 +
|Returns an iterator pointing to the first element of {{c|mv}}.
 +
|constant
 
|-
 
|-
|{{c|swap(a, b)}} || void || {{c|a.swap(b)}} || || Constant<ref name="array"/>
+
|{{c|cv.begin()}}
 +
|{{tt|C::const_iterator}}
 +
|Effect
 +
|Returns an iterator pointing to the first element of {{c|cv}}.
 +
|constant
 
|-
 
|-
|{{c|a.size()}} || size_type || {{c|distance(a.begin(), a.end())}} || || Constant<ref name="should" />
+
|{{c|mv.end()}}
 +
|{{tt|C::iterator}}
 +
|Effect
 +
|Returns the past-the-end iterator of {{c|mv}}.
 +
|constant
 
|-
 
|-
|{{c|a.max_size()}} || size_type || b.size() where b is the largest possible container || || Constant<ref name="should" />
+
|{{c|cv.end()}}
 +
|{{tt|C::const_iterator}}
 +
|Effect
 +
|Returns the past-the-end iterator of {{c|cv}}.
 +
|constant
 
|-
 
|-
|{{c|a.empty()}} || convertible to bool || {{c|a.begin() {{==}} a.end()}} || || Constant
+
|{{c|v.cbegin()}}<br>{{mark since c++11}}
 +
|{{tt|C::const_iterator}}
 +
|Effect
 +
|Returns {{c|const_cast<const C&>(v).begin()}}.
 +
|constant
 
|-
 
|-
!colspan=6|notes
+
|{{c|v.cend()}}<br>{{mark since c++11}}
 +
|{{tt|C::const_iterator}}
 +
|Effect
 +
|Returns {{c|const_cast<const C&>(v).end()}}.
 +
|constant
 
|-
 
|-
|colspan=6|<references/>
+
|{{c|1=i <=> j}}<br>{{mark since c++20}}
 +
|{{ltt std|cpp/utility/compare/strong_ordering}}{{nbsp|4}}
 +
|Constraint
 +
|This expression is only required to be well-formed if {{tt|C::iterator}} satisfies the random access iterator requirements.
 +
|constant
 +
|-
 +
|{{c|1=u == v}}
 +
|{{c/core|bool}}
 +
|Effect
 +
|Returns {{rev begin}}
 +
{{rev|until=c++14|{{c multi|u.size() {{==}} v.size() &&|    std::equal(u.begin(),|        u.end(), v.begin())}}}}
 +
{{rev|since=c++14|{{c multi|std::equal(u.begin(), u.end(),|          v.begin(), v.end())}}}}
 +
{{rev end}}.
 +
|linear<ref>If {{c|1=u.size() != v.size()}} is {{c|true}}, the complexity is constant.</ref>
 +
|-
 +
|{{c|1=u != v}}
 +
|
 +
|Effect
 +
|Equivalent to {{c|1=!(u == v)}}.
 +
|-
 +
|{{c|lhs.swap(rhs)}}
 +
 
 +
{{c|swap(lhs, rhs)}}
 +
|{{c/core|void}}
 +
|Effect
 +
|Exchanges the contents of {{c|lhs}} and {{c|rhs}}.
 +
|constant<ref>If {{tt|C}} is a specialization of {{lc|std::array}} or {{ltt std|cpp/container/inplace_vector}}, the complexity is linear.</ref>
 +
|-
 +
|{{c|v.size()}}
 +
|{{tt|C::size_type}}
 +
|Effect
 +
|Returns the number of elements<ref>The number of elements is defined by the rules of constructors, inserts, and erases. It is equal to the value of {{c|std::distance(v.begin(), v.end())}}.</ref> of {{c|v}}.
 +
|constant
 +
|-
 +
|{{c|v.max_size()}}
 +
|{{tt|C::size_type}}
 +
|Effect
 +
|Returns the number of elements of the largest possible container of type {{tt|C}}.
 +
|constant
 +
|-
 +
|{{c|v.empty()}}
 +
|{{c/core|bool}}
 +
|Effect
 +
|Returns {{c|1=v.begin() == v.end()}}.
 +
|constant
 +
|-
 +
!colspan=5|Optional container requirements{{anchor|Optional container requirements}}<br>{{normal|{{small|(only provided for some types of containers)}}}}
 +
|-
 +
|rowspan=2|{{c|1=u <=> v}}<br>{{mark since c++20}}
 +
|rowspan=2|{{lti|cpp/standard library/synth-three-way|synth-three-way-result}}<br>{{nbspt|4}}{{c/core|<C::value_type>}}
 +
|Precondition
 +
|Either {{tt|T}} models {{lconcept|three_way_comparable}}, or {{c/core|operator<}} is a total ordering relationship defined for values of type {{tt|T}} and {{c/core|const T}}.
 +
|rowspan=2|linear
 +
|-
 +
|Effect
 +
|Returns {{box|{{c/core|std::lexicographical_compare_three_way}}<br>{{nbspt|4}}{{c/core|(u.begin(), u.end(),}}<br>{{nbspt|5}}{{c/core|v.begin(), v.end(),}}<br>{{nbspt|5}}{{lti|cpp/standard library/synth-three-way}}{{sep}}{{c/core|)}}}}<ref>If the iterators passed to {{lc|std::lexicographical_compare_three_way}} are {{named req|ConstexprIterator}}s, the operation is implemented by {{c/core|constexpr}} functions.</ref>.
 +
|-
 +
!colspan=5|Notes
 +
|-
 +
|colspan=5|<references/>
 
|}
 
|}
 +
</div>
  
{{rev begin}}
+
In the expressions {{c|1=i == j}}, {{c|1=i != j}}, {{c|i < j}}, {{c|1=i <= j}}, {{c|1=i >= j}}, {{c|i > j}} and {{c|i - j}}, if {{c|i}} and/or {{c|j}} are replaced by iterators of type {{tt|C::const_iterator}} pointing to the same element respectively, the semantics remain the same.
{{rev |since=c++14|
+
Given
+
* {{tt|i}} and {{tt|j}}, objects of a container's {{tt|iterator}} type,
+
in the expressions {{c|i {{==}} j}}, {{c|i !{{=}} j}}, {{c|i < j}}, {{c|i <{{=}} j}}, {{c|i >{{=}} j}}, {{c|i > j}}, {{c|i - j}}, either or both may be replaced by an object of the container's {{tt|const_iterator}} type referring to the same element with no change in semantics.
+
}}
+
{{rev end}}
+
  
 
===Container data races===
 
===Container data races===
see [[cpp/container#Thread_safety|container thread safety]]
+
See [[cpp/container#Thread safety|container thread safety]].
 +
 
 +
===Defect reports===
 +
{{dr list begin}}
 +
{{dr list item|wg=lwg|dr=179|std=C++98|before={{tt|iterator}} and {{tt|const_iterator}} types might be incomparable|after=required to be comparable}}
 +
{{dr list item|wg=lwg|dr=276|std=C++98|before={{tt|T}} was required to be {{named req|CopyAssignable}}|after={{tt|T}} is required to be<br>{{named req|CopyConstructible}}}}
 +
{{dr list item|wg=lwg|dr=322|std=C++98|before=the value types of {{tt|iterator}} and {{tt|const_iterator}} were not specified|after=specified as {{tt|T}}}}
 +
{{dr list item|wg=lwg|dr=774|std=C++98|before=there was no requirement on {{c|swap(a, b)}}|after=added}}
 +
{{dr list item|wg=lwg|dr=883|std=C++98|before={{c|a.swap(b)}} was defined as {{c|swap(a, b)}},<br>resulted in circular definition|after=defined as exchanging<br>the values of {{c|a}} and {{c|b}}}}
 +
{{dr list item|wg=lwg|dr=1319|std=C++98|before={{tt|iterator}} and {{tt|const_iterator}}<br>might not have multipass guarantee|after=they are required to satisfy<br>the requirements of<br>{{named req|ForwardIterator}}}}
 +
{{dr list item|wg=lwg|dr=2114|paper=P2167R3|std=C++98|before=non-{{c/core|bool}} return types of some functions were allowed|after=disallowed}}
 +
{{dr list item|wg=lwg|dr=2182|std=C++98|before=the types deonted by {{tt|reference}} and<br>{{tt|const_reference}} were poorly specified|after=improved wording}}
 +
{{dr list item|wg=lwg|dr=2257|std=C++98|before=two containers required linear time to compare<br>equal even if they have different sizes|after=only requires constant<br>time in this case}}
 +
{{dr list item|wg=lwg|dr=2263|std=C++11|before=the resolution of {{lwg|179}} was accidentally dropped in C++11|after=restored}}
 +
{{dr list item|wg=lwg|dr=2839|std=C++11|before=self move assignment of standard containers was not allowed|after=allowed but the<br>result is unspecified}}
 +
{{dr list item|paper=N3346|std=C++11|before={{tt|C::value_type}} was required to be {{named req|Destructible}}|after=required to be {{named req|Erasable}} from {{tt|C}}}}
 +
{{dr list end}}
  
===Other concepts===
+
===See also===
;C
+
{{dsc begin}}
* {{concept|DefaultConstructible}}
+
{{dsc see cpp|cpp/container|Containers library|nomono=true}}
* {{concept|CopyConstructible}}
+
{{dsc end}}
* {{concept|EqualityComparable}}
+
* {{concept|Swappable}}
+
;T
+
* {{concept|CopyInsertable}}
+
* {{concept|EqualityComparable}}
+
* {{concept|Destructible}}
+
  
[[de:cpp/concept/Container]]
+
{{langlinks|de|es|fr|it|ja|pt|ru|zh}}
[[es:cpp/concept/Container]]
+
[[fr:cpp/concept/Container]]
+
[[it:cpp/concept/Container]]
+
[[ja:cpp/concept/Container]]
+
[[pt:cpp/concept/Container]]
+
[[ru:cpp/concept/Container]]
+
[[zh:cpp/concept/Container]]
+

Latest revision as of 17:45, 6 November 2024

 
 
C++ named requirements
 

A Container is an object used to store other objects and taking care of the management of the memory used by the objects it contains.

Contents

[edit] Requirements

Given the following types and values:

Type Definition
T an object type
C a container class containing objects of type T
Value Definition
u, v values of type C or const C
mv a value of type C
cv a value of type const C
lhs, rhs lvalues of type C
i, j values of type C::iterator or const C::iterator

C satisfies the requirements of Container if the following types, statements, and expressions are well-formed and have the specified semantics:

[edit] Types

Type Definition Requirements
typename C::value_type T T is CopyConstructible(until C++11)Erasable from C(since C++11).
typename C::reference T& No explicit requirement
typename C::const_reference const T&
typename C::iterator an iterator type
typename C::const_iterator a constant iterator type C::const_iterator is a LegacyForwardIterator, and its value type is T.
typename C::difference_type a signed integer type C::difference_type is the same as the difference type of C::iterator and C::const_iterator.
typename C::size_type an unsigned integer type C::size_type is large enough to represent all non-negative values of C::difference_type.

[edit] Statements

Statement Semantics  Complexity 
C c;

C c = C();

Postcondition  c.empty() is true. constant
C c(v);

C c = C(v);

Precondition

If v is not an rvalue of type C, T is CopyInsertable into C.

(since C++11)
linear[1]
Postcondition
  • If v is an lvalue, c == v is true.
  • If v is an rvalue, and c and v do not refer to the same object(since C++11), c is equal to the value that v had before this construction.
Notes
  1. If v is an rvalue of type C, and C is not a specialization of std::array or std::inplace_vector, the complexity is constant.

[edit] Expressions

Expression Type Semantics  Complexity 
C() C Postcondition  C().empty() is true. constant
C(v) C Precondition

If v is not an rvalue of type C, T is CopyInsertable into C.

(since C++11)
constant[1]
Postcondition
  • If v is an lvalue, C(v) == v is true.
  • If v is an rvalue, and C(v) and v do not refer to the same object(since C++11), C(v) is equal to the value that v had before this construction.
lhs = v C& Postcondition
  • If v is an lvalue, lhs == v is true.
  • If v is an rvalue, and lv and v do not refer to the same object(since C++11), lhs is equal to the value that v had before this assignment.
linear
v.~C() void Effect Destroys all elements of v and deallocates all memory obtained. linear
mv.begin() C::iterator Effect Returns an iterator pointing to the first element of mv. constant
cv.begin() C::const_iterator Effect Returns an iterator pointing to the first element of cv. constant
mv.end() C::iterator Effect Returns the past-the-end iterator of mv. constant
cv.end() C::const_iterator Effect Returns the past-the-end iterator of cv. constant
v.cbegin()
(since C++11)
C::const_iterator Effect Returns const_cast<const C&>(v).begin(). constant
v.cend()
(since C++11)
C::const_iterator Effect Returns const_cast<const C&>(v).end(). constant
i <=> j
(since C++20)
std::strong_ordering     Constraint This expression is only required to be well-formed if C::iterator satisfies the random access iterator requirements. constant
u == v bool Effect Returns
u.size() == v.size() &&
    std::equal(u.begin(),
         u.end(), v.begin())
(until C++14)
std::equal(u.begin(), u.end(),
           v.begin(), v.end())
(since C++14)
.
linear[2]
u != v Effect Equivalent to !(u == v).
lhs.swap(rhs)

swap(lhs, rhs)

void Effect Exchanges the contents of lhs and rhs. constant[3]
v.size() C::size_type Effect Returns the number of elements[4] of v. constant
v.max_size() C::size_type Effect Returns the number of elements of the largest possible container of type C. constant
v.empty() bool Effect Returns v.begin() == v.end(). constant
Optional container requirements
(only provided for some types of containers)
u <=> v
(since C++20)
synth-three-way-result
    <C::value_type>
Precondition Either T models three_way_comparable, or operator< is a total ordering relationship defined for values of type T and const T. linear
Effect Returns std::lexicographical_compare_three_way
    (u.begin(), u.end(),
     v.begin(), v.end(),
     synth-three-way )
[5].
Notes
  1. If v is an rvalue of type C, and C is a specialization of std::array or std::inplace_vector, the complexity is linear.
  2. If u.size() != v.size() is true, the complexity is constant.
  3. If C is a specialization of std::array or std::inplace_vector, the complexity is linear.
  4. The number of elements is defined by the rules of constructors, inserts, and erases. It is equal to the value of std::distance(v.begin(), v.end()).
  5. If the iterators passed to std::lexicographical_compare_three_way are ConstexprIterators, the operation is implemented by constexpr functions.

In the expressions i == j, i != j, i < j, i <= j, i >= j, i > j and i - j, if i and/or j are replaced by iterators of type C::const_iterator pointing to the same element respectively, the semantics remain the same.

[edit] Container data races

See container thread safety.

[edit] Defect reports

The following behavior-changing defect reports were applied retroactively to previously published C++ standards.

DR Applied to Behavior as published Correct behavior
LWG 179 C++98 iterator and const_iterator types might be incomparable required to be comparable
LWG 276 C++98 T was required to be CopyAssignable T is required to be
CopyConstructible
LWG 322 C++98 the value types of iterator and const_iterator were not specified specified as T
LWG 774 C++98 there was no requirement on swap(a, b) added
LWG 883 C++98 a.swap(b) was defined as swap(a, b),
resulted in circular definition
defined as exchanging
the values of a and b
LWG 1319 C++98 iterator and const_iterator
might not have multipass guarantee
they are required to satisfy
the requirements of
LegacyForwardIterator
LWG 2114
(P2167R3)
C++98 non-bool return types of some functions were allowed disallowed
LWG 2182 C++98 the types deonted by reference and
const_reference were poorly specified
improved wording
LWG 2257 C++98 two containers required linear time to compare
equal even if they have different sizes
only requires constant
time in this case
LWG 2263 C++11 the resolution of LWG issue 179 was accidentally dropped in C++11 restored
LWG 2839 C++11 self move assignment of standard containers was not allowed allowed but the
result is unspecified
N3346 C++11 C::value_type was required to be Destructible required to be Erasable from C

[edit] See also

C++ documentation for Containers library