std::map<Key,T,Compare,Allocator>::operator[]
T& operator[]( const Key& key ); |
(1) | |
T& operator[]( Key&& key ); |
(2) | (since C++11) |
Returns a reference to the value that is mapped to a key equivalent to key
, performing an insertion if such key does not already exist.
1) Inserts value_type(key, T()) if the key does not exist. This function is equivalent to return insert(std::make_pair(key, T())).first->second;
|
(until C++11) | ||||||
1) Inserts a
value_type object constructed in-place from std::piecewise_construct, std::forward_as_tuple(key), std::tuple<>() if the key does not exist. This function is equivalent to return this->try_emplace(key).first->second;. (since C++17) When the default allocator is used, this results in the key being copy constructed from key and the mapped value being value-initialized.
2) Inserts a value_type object constructed in-place from std::piecewise_construct, std::forward_as_tuple(std::move(key)), std::tuple<>() if the key does not exist. This function is equivalent to return this->try_emplace(std::move(key)).first->second;. (since C++17) When the default allocator is used, this results in the key being move constructed from key and the mapped value being value-initialized.
|
(since C++11) |
No iterators or references are invalidated.
Parameters
key | - | the key of the element to find |
Return value
Reference to the mapped value of the new element if no element with key key
existed. Otherwise a reference to the mapped value of the existing element whose key is equivalent to key
.
Exceptions
If an exception is thrown by any operation, the insertion has no effect
Complexity
Logarithmic in the size of the container.
Notes
In the published C++11 and C++14 standards, this function was specified to require mapped_type
to be DefaultInsertable and key_type
to be CopyInsertable or MoveInsertable into *this. This specification was defective and was fixed by LWG issue 2469, and the description above incorporates the resolution of that issue.
However, one implementation (libc++) is known to construct the key_type
and mapped_type
objects via two separate allocator construct()
calls, as arguably required by the standards as published, rather than emplacing a value_type
object.
operator[]
is non-const because it inserts the key if it doesn't exist. If this behavior is undesirable or if the container is const
, at()
may be used.
|
(since C++17) |
Example
#include <iostream> #include <string> #include <map> auto print = [](auto const comment, auto const& map) { std::cout << comment << "{"; for (const auto &pair : map) { std::cout << "{" << pair.first << ": " << pair.second << "}"; } std::cout << "}\n"; }; int main() { std::map<char, int> letter_counts {{'a', 27}, {'b', 3}, {'c', 1}}; print("letter_counts initially contains: ", letter_counts); letter_counts['b'] = 42; // updates an existing value letter_counts['x'] = 9; // inserts a new value print("after modifications it contains: ", letter_counts); // count the number of occurrences of each word // (the first call to operator[] initialized the counter with zero) std::map<std::string, int> word_map; for (const auto &w : { "this", "sentence", "is", "not", "a", "sentence", "this", "sentence", "is", "a", "hoax"}) { ++word_map[w]; } word_map["that"]; // just inserts the pair {"that", 0} for (const auto &[word, count] : word_map) { std::cout << count << " occurrences of word '" << word << "'\n"; } }
Output:
letter_counts initially contains: {{a: 27}{b: 3}{c: 1}} after modifications it contains: {{a: 27}{b: 42}{c: 1}{x: 9}} 2 occurrences of word 'a' 1 occurrences of word 'hoax' 2 occurrences of word 'is' 1 occurrences of word 'not' 3 occurrences of word 'sentence' 0 occurrences of word 'that' 2 occurrences of word 'this'
See also
access specified element with bounds checking (public member function) | |
(C++17) |
inserts an element or assigns to the current element if the key already exists (public member function) |
(C++17) |
inserts in-place if the key does not exist, does nothing if the key exists (public member function) |