std::ranges::make_heap
From cppreference.com
| Defined in header <algorithm>
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| Call signature |
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| template< std::random_access_iterator I, std::sentinel_for<I> S, class Comp = ranges::less, class Proj = std::identity > |
(1) | (since C++20) |
| template< ranges::random_access_range R, class Comp = ranges::less, class Proj = std::identity > |
(2) | (since C++20) |
Constructs a heap with respect to comp and proj from the elements in the specified range.
1) The specified range is
[first, last).2) The specified range is r.
The function-like entities described on this page are niebloids, that is:
- Explicit template argument lists cannot be specified when calling any of them.
- None of them are visible to argument-dependent lookup.
- When any of them are found by normal unqualified lookup as the name to the left of the function-call operator, argument-dependent lookup is inhibited.
In practice, they may be implemented as function objects, or with special compiler extensions.
Contents |
[edit] Parameters
| first, last | - | the iterator and sentinel designating the range of elements to modify |
| r | - | the range of elements to modify |
| comp | - | comparator to apply to the projected elements |
| proj | - | projection to apply to the elements |
[edit] Return value
1) last
2) ranges::end(r)
[edit] Complexity
At most 3·N applications of comp and 6·N applications of proj, where N is:
1) ranges::distance(first, last)
2) ranges::distance(r)
[edit] Example
Run this code
#include <algorithm> #include <cmath> #include <functional> #include <iostream> #include <vector> void out(const auto& what, int n = 1) { while (n-- > 0) std::cout << what; } void print(auto rem, const auto& v) { out(rem); for (auto e : v) out(e), out(' '); out('\n'); } void draw_heap(const auto& v) { auto bails = [](int n, int w) { auto b = [](int w) { out("┌"), out("─", w), out("┴"), out("─", w), out("┐"); }; if (!(n /= 2)) return; for (out(' ', w); n-- > 0;) b(w), out(' ', w + w + 1); out('\n'); }; auto data = [](int n, int w, auto& first, auto last) { for (out(' ', w); n-- > 0 && first != last; ++first) out(*first), out(' ', w + w + 1); out('\n'); }; auto tier = [&](int t, int m, auto& first, auto last) { const int n{1 << t}; const int w{(1 << (m - t - 1)) - 1}; bails(n, w), data(n, w, first, last); }; const int m{static_cast<int>(std::ceil(std::log2(1 + v.size())))}; auto first{v.cbegin()}; for (int i{}; i != m; ++i) tier(i, m, first, v.cend()); } int main() { std::vector h{1, 6, 1, 8, 0, 3, 3, 9, 8, 8, 7, 4, 9, 8, 9}; print("source: ", h); std::ranges::make_heap(h); print("\n" "max-heap: ", h); draw_heap(h); std::ranges::make_heap(h, std::greater{}); print("\n" "min-heap: ", h); draw_heap(h); }
Output:
source: 1 6 1 8 0 3 3 9 8 8 7 4 9 8 9
max-heap: 9 8 9 8 8 4 9 6 1 0 7 1 3 8 3
9
┌───┴───┐
8 9
┌─┴─┐ ┌─┴─┐
8 8 4 9
┌┴┐ ┌┴┐ ┌┴┐ ┌┴┐
6 1 0 7 1 3 8 3
min-heap: 0 1 1 8 6 3 3 9 8 8 7 4 9 8 9
0
┌───┴───┐
1 1
┌─┴─┐ ┌─┴─┐
8 6 3 3
┌┴┐ ┌┴┐ ┌┴┐ ┌┴┐
9 8 8 7 4 9 8 9[edit] See also
| (C++20) |
checks if the given range is a max heap (niebloid) |
| (C++20) |
finds the largest subrange that is a max heap (niebloid) |
| (C++20) |
adds an element to a max heap (niebloid) |
| (C++20) |
removes the largest element from a max heap (niebloid) |
| (C++20) |
turns a max heap into a range of elements sorted in ascending order (niebloid) |
| creates a max heap out of a range of elements (function template) |
