std::is_heap
| Defined in header <algorithm>
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||
| template< class RandomIt > bool is_heap( RandomIt first, RandomIt last ); |
(1) | (since C++11) (constexpr since C++20) |
| template< class ExecutionPolicy, class RandomIt > bool is_heap( ExecutionPolicy&& policy, |
(2) | (since C++17) |
| template< class RandomIt, class Compare > bool is_heap( RandomIt first, RandomIt last, Compare comp ); |
(3) | (since C++11) (constexpr since C++20) |
| template< class ExecutionPolicy, class RandomIt, class Compare > bool is_heap( ExecutionPolicy&& policy, |
(4) | (since C++17) |
Checks whether [first, last) is a heap.
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std::is_execution_policy_v<std::decay_t<ExecutionPolicy>> is true. |
(until C++20) |
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std::is_execution_policy_v<std::remove_cvref_t<ExecutionPolicy>> is true. |
(since C++20) |
Contents |
[edit] Parameters
| first, last | - | the range to be checked |
| policy | - | the execution policy to use. See execution policy for details. |
| comp | - | comparison function object (i.e. an object that satisfies the requirements of Compare) which returns true if the first argument is less than the second. The signature of the comparison function should be equivalent to the following: bool cmp(const Type1& a, const Type2& b); While the signature does not need to have const&, the function must not modify the objects passed to it and must be able to accept all values of type (possibly const) |
| Type requirements | ||
-RandomIt must meet the requirements of LegacyRandomAccessIterator.
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-Compare must meet the requirements of Compare.
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[edit] Return value
true if the range is a heap with respect to the corresponding comparator, false otherwise.
[edit] Complexity
Given N as std::distance(first, last):
[edit] Exceptions
The overloads with a template parameter named ExecutionPolicy report errors as follows:
- If execution of a function invoked as part of the algorithm throws an exception and
ExecutionPolicyis one of the standard policies, std::terminate is called. For any otherExecutionPolicy, the behavior is implementation-defined. - If the algorithm fails to allocate memory, std::bad_alloc is thrown.
[edit] Example
#include <algorithm> #include <bit> #include <iostream> #include <vector> int main() { std::vector<int> v{3, 1, 4, 1, 5, 9, 2, 6, 5, 3, 5, 8, 9, 7, 9}; std::cout << "initially, v:\n"; for (const auto& i : v) std::cout << i << ' '; std::cout << '\n'; if (!std::is_heap(v.begin(), v.end())) { std::cout << "making heap...\n"; std::make_heap(v.begin(), v.end()); } std::cout << "after make_heap, v:\n"; for (auto t{1U}; const auto& i : v) std::cout << i << (std::has_single_bit(++t) ? " | " : " "); std::cout << '\n'; }
Output:
initially, v: 3 1 4 1 5 9 2 6 5 3 5 8 9 7 9 making heap... after make_heap, v: 9 | 6 9 | 5 5 9 7 | 1 1 3 5 8 3 4 2 |
[edit] See also
| (C++11) |
finds the largest subrange that is a max heap (function template) |
| creates a max heap out of a range of elements (function template) | |
| adds an element to a max heap (function template) | |
| removes the largest element from a max heap (function template) | |
| turns a max heap into a range of elements sorted in ascending order (function template) | |
| (C++20) |
checks if the given range is a max heap (niebloid) |
