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std::midpoint

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< cpp‎ | numeric
 
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Defined in header <numeric>
template< class T >
constexpr T midpoint( T a, T b ) noexcept;
 (1) (since C++20)
template< class T >
constexpr T* midpoint( T* a, T* b );
 (2) (since C++20)

Computes the midpoint of the integers, floating-points, or pointers a and b.

1) This overload participates in overload resolution only if T is an arithmetic type other than bool.
2) This overload participates in overload resolution only if T is an object type. Use of this overload is ill-formed if T is an incomplete type.

Contents

[edit] Parameters

a, b - integers, floating-points, or pointer values

[edit] Return value

1) Half the sum of a and b. No overflow occurs. If a and b have integer type and the sum is odd, the result is rounded towards a. If a and b have floating-point type, at most one inexact operation occurs.
2) If a and b point to, respectively, x[i] and x[j] of the same array object x (for the purpose of pointer arithmetic), returns a pointer to x[i + (j - i) / 2] (or, equivalently x[std::midpoint(i, j)]) where the division rounds towards zero. If a and b do not point to elements of the same array object, the behavior is undefined.

[edit] Exceptions

Throws no exceptions.

[edit] Notes

Overload (2) can be simply implemented as return a + (b - a) / 2; on common platforms. However, such implementation is not guaranteed to be portable, because there may be some platforms where creating an array with number of elements greater than PTRDIFF_MAX is possible, and b - a may result in undefined behavior even if both b and a point to elements in the same array.

Feature-test macro Value Std Feature
__cpp_lib_interpolate 201902L (C++20) std::lerp, std::midpoint

[edit] Example

Run this code
#include <cstdint>
#include <iostream>
#include <limits>
#include <numeric>
 
int main()
{
    std::uint32_t a = std::numeric_limits<std::uint32_t>::max();
    std::uint32_t b = std::numeric_limits<std::uint32_t>::max() - 2;
 
    std::cout << "a: " << a << '\n'
              << "b: " << b << '\n'
              << "Incorrect (overflow and wrapping): " << (a + b) / 2 << '\n'
              << "Correct: " << std::midpoint(a, b) << "\n\n";
 
    auto on_pointers = [](int i, int j)
    {
        char const* text = "0123456789";
        char const* p = text + i;
        char const* q = text + j;
        std::cout << "std::midpoint('" << *p << "', '" << *q << "'): '"
                  << *std::midpoint(p, q) << "'\n";
    };
 
    on_pointers(2, 4);
    on_pointers(2, 5);
    on_pointers(5, 2);
    on_pointers(2, 6);
}

Output: 

a: 4294967295
b: 4294967293
Incorrect (overflow and wrapping): 2147483646
Correct: 4294967294
 
std::midpoint('2', '4'): '3'
std::midpoint('2', '5'): '3'
std::midpoint('5', '2'): '4'
std::midpoint('2', '6'): '4'

[edit] References

  • C++23 standard (ISO/IEC 14882:2024):
  • 27.10.16 Midpoint [numeric.ops.midpoint]
  • C++20 standard (ISO/IEC 14882:2020):
  • 25.10.15 Midpoint [numeric.ops.midpoint]

[edit] See also

(C++20)
 linear interpolation function
(function) [edit]
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