Difference between revisions of "cpp/container/flat set"
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===Template parameters=== | ===Template parameters=== | ||
{{par begin}} | {{par begin}} | ||
− | {{par|Key|The type of the stored elements. The | + | {{par|Key|The type of the stored elements. The program is ill-formed if {{tt|Key}} is not the same type as {{tt|KeyContainer::value_type}}.}} |
{{par|Compare|A {{named req|Compare}} type providing a strict weak ordering. | {{par|Compare|A {{named req|Compare}} type providing a strict weak ordering. | ||
{{par|KeyContainer|The type of the underlying {{named req|SequenceContainer}} to store the elements. The iterators of such container should satisfy {{named req|RandomAccessIterator}} or model {{lconcept|random_access_iterator}}. | {{par|KeyContainer|The type of the underlying {{named req|SequenceContainer}} to store the elements. The iterators of such container should satisfy {{named req|RandomAccessIterator}} or model {{lconcept|random_access_iterator}}. |
Revision as of 18:43, 24 December 2023
Defined in header <flat_set>
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template< class Key, |
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The flat set is a container adaptor that gives the functionality of an associative container that stores a sorted set of unique objects of type Key
. Sorting is done using the key comparison function Compare
.
Everywhere the standard library uses the Compare requirements, uniqueness is determined by using the equivalence relation. Informally, two objects a and b are considered equivalent if neither compares less than the other: !comp(a, b) && !comp(b, a).
The class template flat_set
acts as a wrapper to the underlying sorted container passed as object of type KeyContainer
.
std::flat_set
meets the requirements of Container, ReversibleContainer, optional container requirements, and all requirements of AssociativeContainer (including logarithmic search complexity), except that:
- requirements related to nodes are not applicable,
- iterator invalidation requirements differ,
- the complexity of insertion and erasure operations is linear.
A flat set supports most AssociativeContainer's operations that use unique keys.
Contents |
Iterator invalidation
This section is incomplete |
Template parameters
Key | - | The type of the stored elements. The program is ill-formed if Key is not the same type as KeyContainer::value_type .
|
Compare | - | A Compare type providing a strict weak ordering. |
KeyContainer | - | The type of the underlying SequenceContainer to store the elements. The iterators of such container should satisfy LegacyRandomAccessIterator or model random_access_iterator .
The standard containers std::vector and std::deque satisfy these requirements. |
Member types
Member type | Definition |
container_type
|
Key Container
|
key_type
|
Key
|
value_type
|
Key
|
key_compare
|
Compare
|
value_compare
|
Compare
|
reference
|
value_type& |
const_reference
|
const value_type& |
size_type
|
typename KeyContainer::size_type |
difference_type
|
typename KeyContainer::difference_type |
iterator
|
implementation-defined LegacyRandomAccessIterator and random_access_iterator to value_type
|
const_iterator
|
implementation-defined LegacyRandomAccessIterator and random_access_iterator to const value_type
|
reverse_iterator
|
std::reverse_iterator<iterator> |
const_reverse_iterator
|
std::reverse_iterator<const_iterator> |
Member objects
Member name | Definition |
c (private)
|
the underlying container of container_type (exposition-only member object*) |
compare (private)
|
the comparison function object of type key_compare (exposition-only member object*) |
Member functions
constructs the flat_set (public member function) | |
destructs the flat_set (public member function) | |
assigns values to the container adaptor (public member function) | |
Iterators | |
returns an iterator to the beginning (public member function) | |
returns an iterator to the end (public member function) | |
returns a reverse iterator to the beginning (public member function) | |
returns a reverse iterator to the end (public member function) | |
Capacity | |
checks whether the container adaptor is empty (public member function) | |
returns the number of elements (public member function) | |
returns the maximum possible number of elements (public member function) | |
Modifiers | |
constructs element in-place (public member function) | |
constructs elements in-place using a hint (public member function) | |
inserts elements (public member function) | |
inserts a range of elements (public member function) | |
extracts the underlying container (public member function) | |
replaces the underlying container (public member function) | |
erases elements (public member function) | |
swaps the contents (public member function) | |
clears the contents (public member function) | |
Lookup | |
finds element with specific key (public member function) | |
returns the number of elements matching specific key (public member function) | |
checks if the container contains element with specific key (public member function) | |
returns an iterator to the first element not less than the given key (public member function) | |
returns an iterator to the first element greater than the given key (public member function) | |
returns range of elements matching a specific key (public member function) | |
Observers | |
returns the function that compares keys (public member function) | |
returns the function that compares keys in objects of type value_type (public member function) |
Non-member functions
(C++23) |
lexicographically compares the values of two flat_set s (function template) |
(C++23) |
specializes the std::swap algorithm (function template) |
(C++23) |
erases all elements satisfying specific criteria (function template) |
Helper classes
specializes the std::uses_allocator type trait (class template specialization) |
Tags
(C++23) |
indicates that elements of a range are sorted and unique (tag) |
indicates that elements of a range are sorted (uniqueness is not required) (tag) |
Deduction guides
Notes
The member types iterator
and const_iterator
may be aliases to the same type. This means defining a pair of function overloads using the two types as parameter types may violate the One Definition Rule. Since iterator
is convertible to const_iterator
, a single function with a const_iterator
as parameter type will work instead.
Some advantages of flat set over other standard associative containers are:
- Potentially faster lookup (even though search operations have logarithmic complexity).
- Much faster iteration: random access iterators instead of bidirectional iterators.
- Less memory consumption for small objects (and for big objects if KeyContainer::shrink_to_fit() is available).
- Better cache performance (depending on
KeyContainer
, keys are stored in a contiguous block(s) of memory).
Some disadvantages of flat set are:
- Non-stable iterators (iterators are invalidated when inserting and erasing elements).
- Non-copyable and non-movable type values can not be stored.
- Weaker exception safety (copy/move constructors can throw when shifting values in erasures and insertions).
- Slower (i.e. linear) insertion and erasure, especially for non-movable types.
Feature-test macro | Value | Std | Feature |
---|---|---|---|
__cpp_lib_flat_set |
202207L | (C++23) | std::flat_set and std::flat_multiset
|
Example
This section is incomplete Reason: no example |
See also
(C++23) |
adapts a container to provide a collection of keys, sorted by keys (class template) |
collection of unique keys, sorted by keys (class template) | |
(C++11) |
collection of unique keys, hashed by keys (class template) |