- C++ Library - Home
- C++ Library - <fstream>
- C++ Library - <iomanip>
- C++ Library - <ios>
- C++ Library - <iosfwd>
- C++ Library - <iostream>
- C++ Library - <istream>
- C++ Library - <ostream>
- C++ Library - <sstream>
- C++ Library - <streambuf>
- C++ Library - <atomic>
- C++ Library - <complex>
- C++ Library - <exception>
- C++ Library - <functional>
- C++ Library - <limits>
- C++ Library - <locale>
- C++ Library - <memory>
- C++ Library - <new>
- C++ Library - <numeric>
- C++ Library - <regex>
- C++ Library - <stdexcept>
- C++ Library - <string>
- C++ Library - <thread>
- C++ Library - <tuple>
- C++ Library - <typeinfo>
- C++ Library - <utility>
- C++ Library - <valarray>
- The C++ STL Library
- C++ Library - <array>
- C++ Library - <bitset>
- C++ Library - <deque>
- C++ Library - <forward_list>
- C++ Library - <list>
- C++ Library - <map>
- C++ Library - <multimap>
- C++ Library - <queue>
- C++ Library - <priority_queue>
- C++ Library - <set>
- C++ Library - <stack>
- C++ Library - <unordered_map>
- C++ Library - <unordered_set>
- C++ Library - <vector>
- C++ Library - <algorithm>
- C++ Library - <iterator>
- The C++ Advanced Library
- C++ Library - <any>
- C++ Library - <barrier>
- C++ Library - <bit>
- C++ Library - <chrono>
- C++ Library - <cinttypes>
- C++ Library - <clocale>
- C++ Library - <condition_variable>
- C++ Library - <coroutine>
- C++ Library - <cstdlib>
- C++ Library - <cstring>
- C++ Library - <cuchar>
- C++ Library - <charconv>
- C++ Library - <cfenv>
- C++ Library - <cmath>
- C++ Library - <ccomplex>
- C++ Library - <expected>
- C++ Library - <format>
- C++ Library - <future>
- C++ Library - <flat_set>
- C++ Library - <flat_map>
- C++ Library - <filesystem>
- C++ Library - <generator>
- C++ Library - <initializer_list>
- C++ Library - <latch>
- C++ Library - <memory_resource>
- C++ Library - <mutex>
- C++ Library - <mdspan>
- C++ Library - <optional>
- C++ Library - <print>
- C++ Library - <ratio>
- C++ Library - <scoped_allocator>
- C++ Library - <semaphore>
- C++ Library - <source_location>
- C++ Library - <span>
- C++ Library - <spanstream>
- C++ Library - <stacktrace>
- C++ Library - <stop_token>
- C++ Library - <syncstream>
- C++ Library - <system_error>
- C++ Library - <string_view>
- C++ Library - <stdatomic>
- C++ Library - <variant>
- C++ STL Library Cheat Sheet
- C++ STL - Cheat Sheet
- C++ Programming Resources
- C++ Programming Tutorial
- C++ Useful Resources
- C++ Discussion
C++ Unordered_map Library - insert() Function
Description
The C++ function std::unordered_map::insert() extends container by inserting new elements in the unordered_map.
Declaration
Following is the declaration for std::unordered_map::insert() function form std::unordered_map header.
C++11
template <class InputIterator> void insert (InputIterator first,InputIterator last);
Parameters
first − Input iterator to the initial position in range.
last − Input iterator to the final position in range.
Return value
None
Time complexity
Linear i.e. O(n) in average case.
Quadratic i.e. O(N * (size+ 1)) in worst case.
Example
The following example shows the usage of std::unordered_map::insert() function.
#include <iostream>
#include <unordered_map>
using namespace std;
int main(void) {
unordered_map<char, int> um1 = {
{'a', 1},
{'b', 2},
{'c', 3},
{'d', 4},
{'e', 5},
};
unordered_map<char, int> um2;
um2.insert(um1.begin(), um1.end());
cout << "Unordered map contains following elements" << endl;
for (auto it = um2.begin(); it != um2.end(); ++it)
cout << it->first << " = " << it->second << endl;
return 0;
}
Let us compile and run the above program, this will produce the following result −
Unordered map contains following elements d = 4 c = 3 b = 2 a = 1 e = 5
unordered_map.htm