std::sinh(std::valarray)
From cppreference.com
| Defined in header <valarray>
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template< class T > valarray<T> sinh( const valarray<T>& va ); |
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For each element in va computes hyperbolic sine of the value of the element.
Parameters
| va | - | value array to apply the operation to |
Return value
Value array containing hyperbolic sine of the values in va.
Notes
Unqualified function (sinh) is used to perform the computation. If such function is not available, std::sinh 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
constmember 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
const std::valarray<T>&except begin() and end()(since C++11), identical functions taking the replacement types shall be added; - For every function taking two
const std::valarray<T>&arguments, identical functions taking every combination ofconst std::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.
- All
Possible implementation
template<class T>
valarray<T> sinh(const valarray<T>& va)
{
valarray<T> other = va;
for (T& i : other)
i = sinh(i);
return other; // proxy object may be returned
}
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Example
Run this code
#include <cmath>
#include <complex>
#include <iomanip>
#include <iostream>
#include <valarray>
template<typename T>
void show(char const* title, const std::valarray<T>& va)
{
std::cout << title << " : " << std::right;
for (T x : va)
std::cout << std::fixed << x << ' ';
std::cout << '\n';
}
template<typename T>
void sinh_for(std::valarray<T> const& z)
{
// Hyperbolic sine is sinh(z) = (eᶻ - e⁻ᶻ) / 2.
const std::valarray<T> sinh_z{std::sinh(z)};
const std::valarray<T> e_z{std::exp(z)};
const std::valarray<T> e_neg_z{std::exp(-z)};
const std::valarray<T> sinh_def{(e_z - e_neg_z) / 2.0f};
show("n ", z);
show("sinh(n) ", sinh_z);
show("(eⁿ-e⁻ⁿ)/2", sinh_def);
std::cout.put('\n');
}
int main()
{
sinh_for(std::valarray<float>{-.2f, -.1f, 0.f, .1f, .2f, INFINITY});
sinh_for(std::valarray<std::complex<double>>{{-.2,-.1}, {.2,.1}});
}
Output:
n : -0.200000 -0.100000 0.000000 0.100000 0.200000 inf
sinh(n) : -0.201336 -0.100167 0.000000 0.100167 0.201336 inf
(eⁿ-e⁻ⁿ)/2 : -0.201336 -0.100167 0.000000 0.100167 0.201336 inf
n : (-0.200000,-0.100000) (0.200000,0.100000)
sinh(n) : (-0.200330,-0.101837) (0.200330,0.101837)
(eⁿ-e⁻ⁿ)/2 : (-0.200330,-0.101837) (0.200330,0.101837)
See also
| applies the function std::cosh to each element of valarray (function template) | |
| applies the function std::tanh to each element of valarray (function template) | |
(C++11)(C++11) |
computes hyperbolic sine (sinh(x)) (function) |
| computes hyperbolic sine of a complex number (sinh(z)) (function template) |