std::asin(std::valarray)

For each element in va computes arc sine of the value of the element.

[edit]Parameters

[edit]Return value

Value array containing arc sines of the values in va.

[edit]Notes

Unqualified function (asin) is used to perform the computation. If such function is not available, std::asin is used due to argument-dependent lookup.

The function can be implemented with the return type different from std::valarray. In this case, the replacement type has the following properties:

• All const member functions of std::valarray are provided.
• std::valarray, std::slice_array, std::gslice_array, std::mask_array and std::indirect_array can be constructed from the replacement type.
• For every function taking a conststd::valarray<T>&except begin() and end()(since C++11), identical functions taking the replacement types shall be added;
• For every function taking two conststd::valarray<T>& arguments, identical functions taking every combination of conststd::valarray<T>& and replacement types shall be added.
• The return type does not add more than two levels of template nesting over the most deeply-nested argument type.

[edit]Possible implementation

template<class T> valarray<T> asin(const valarray<T>& va){ valarray<T> other = va;for(T& i : other) i = asin(i);   return other;// proxy object may be returned}

[edit]Example

#include <cmath>#include <iostream>#include <numbers>#include <valarray>   int main(){// take common y-values from unit circleconstdouble s22 =std::sqrt(2.0)/2.0;constdouble s32 =std::sqrt(3.0)/2.0;conststd::valarray<double> v1 ={-1.0, -s32, -s22, -0.5, 0.0, 0.5, s22, s32, 1.0};   // fill with results of radians to degrees conversionconststd::valarray<double> v2 =std::asin(v1)*180.0/std::numbers::pi;   for(std::cout<<std::showpos;double n : v2)std::cout<< n <<"° ";std::cout<<'\n';}

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[edit]See also