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Showing content from https://en.cppreference.com/w/cpp/language/../../cpp/numeric/special_functions/comp_ellint_2.html below:

std::comp_ellint_2, std::comp_ellint_2f, std::comp_ellint_2l - cppreference.com

(1) float comp_ellint_2 ( float k ); double comp_ellint_2 ( double k ); long double comp_ellint_2 ( long double k ); (since C++17)
(until C++23)

/* floating-point-type */ comp_ellint_2( /* floating-point-type */ k );

(since C++23)

float comp_ellint_2f( float k );

(2) (since C++17)

long double comp_ellint_2l( long double k );

(3) (since C++17)

template< class Integer > double comp_ellint_2 ( Integer k );

(A) (since C++17)

A) Additional overloads are provided for all integer types, which are treated as double.

[edit] Parameters k - elliptic modulus or eccentricity (a floating-point or integer value) [edit] Return value

If no errors occur, value of the complete elliptic integral of the second kind of k, that is std::ellint_2(k, Ï/2), is returned.

[edit] Error handling

Errors may be reported as specified in math_errhandling.

If the argument is NaN, NaN is returned and domain error is not reported.
If |k|>1, a domain error may occur.

[edit] Notes

Implementations that do not support C++17, but support ISO 29124:2010, provide this function if __STDCPP_MATH_SPEC_FUNCS__ is defined by the implementation to a value at least 201003L and if the user defines __STDCPP_WANT_MATH_SPEC_FUNCS__ before including any standard library headers.

Implementations that do not support ISO 29124:2010 but support TR 19768:2007 (TR1), provide this function in the header tr1/cmath and namespace std::tr1.

An implementation of this function is also available in boost.math.

The perimeter of an ellipse with eccentricity k and semimajor axis a equals 4aE(k), where E is std::comp_ellint_2. When eccentricity equals 0, the ellipse degenerates to a circle with radius a and the perimeter equals 2Ïa, so E(0) = Ï/2. When eccentricity equals 1, the ellipse degenerates to a line of length 2a, whose perimeter is 4a, so E(1) = 1.

The additional overloads are not required to be provided exactly as (A). They only need to be sufficient to ensure that for their argument num of integer type, std::comp_ellint_2(num) has the same effect as std::comp_ellint_2(static_cast<double>(num)).

[edit] Example

#include <cmath>
#include <iostream>
#include <numbers>
 
int main()
{
    constexpr double hpi = std::numbers::pi / 2.0;
 
    std::cout << "E(0) = " << std::comp_ellint_2(0) << '\n'
              << "Ï/2 = " << hpi << '\n'
              << "E(1) = " << std::comp_ellint_2(1) << '\n'
              << "E(1, Ï/2) = " << std::ellint_2(1, hpi) << '\n';
}

Output:

E(0) = 1.5708
Ï/2 = 1.5708
E(1) = 1
E(1, Ï/2) = 1

[edit] See also [edit] External links

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