# asinh (Core Functions) 1.x.x.x

### Import

#include <archr/core/asinh.h>
#include <archr/core/asinh.hpp>
import archr.core
atomsLoads('archr')

### Synopsis

  float archr_core_asinh_1f32(const float i1);  (1)  double archr_core_asinh_1f64(const double i1);  (2)  void archr_core_asinh_f32(float *o0, const float *i1, size_t sz);  (3)  void archr_core_asinh_f64(double *o0, const double *i1, size_t sz);  (4)
  float asinh(const float i1);  (1)  double asinh(const double i1);  (2)  void asinh(const float *i1, size_t sz, float *o0);  (3)  void asinh(const double *i1, size_t sz, double *o0);  (4) template void asinh(const Range& i1, Range& o0);  (5)
 subroutine archr_core_asinh_1f32(real(4) :: r, real(4), parameter :: i1)  (1) subroutine archr_core_asinh_1f64(real(8) :: r, real(8), parameter :: i1)  (2) subroutine archr_core_asinh_f32(real(4), dimension(*), parameter :: i1, integer(4) :: sz, real(4), dimension(*) :: o0)  (3) subroutine archr_core_asinh_f64(real(8), dimension(*), parameter :: i1, integer(4) :: sz, real(8), dimension(*) :: o0)  (4)
 def asinh(i1): return o0  (1)
 function o0 = archr_core_asinh(i1)  (1)

### Description

Computes the Inverse Hyperbolic Sine:

• to the range defined by:

• [i1_first, i1_last)
• [i1, i1 + sz)

and stores the result in another range, beginning at o0.

• of its i1ument and returns it.

### Parameters

 i1_first, i1_last The range of input elements o0 The beginning of the destination range, may be equal to i1 i1 The scalar/contiguous data input element

### Example


#include <time.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <stddef.h>
#include <archr/core/asinh.h>

double rand_in(double min, double max) {
return min + ((double)(max - min) * ((double)rand() / RAND_MAX));
}

int main() {
time_t t;
size_t i;
size_t sz = 10;
float* i1 = (float*)malloc(sz * sizeof(float));
float* o1 = (float*)malloc(sz * sizeof(float));

srand((unsigned int)time(&t));
for (i = 0; i < sz; ++i) {
i1[i] = (float)rand_in((float)-1, (float)1);
}
archr_core_asinh_f32(o1, i1, sz);
for (i = 0; i < sz; ++i) {
printf("%4lu: asinh(%f) = %f\n", i, (double)i1[i], (double)o1[i]);
}
}


### Possible Output

   0: asinh(0.942286) = 0.839969
1: asinh(0.183788) = 0.182769
2: asinh(-0.326225) = -0.320700
3: asinh(-0.782217) = -0.718722
4: asinh(-0.500638) = -0.481782
5: asinh(-0.805106) = -0.736651
6: asinh(0.494578) = 0.476357
7: asinh(0.934714) = 0.834448
8: asinh(0.510651) = 0.490718
9: asinh(0.634508) = 0.598189


#include <ctime>
#include <cstdio>
#include <cstdlib>
#include <cstdint>
#include <cstddef>
#include <vector>
#include <algorithm>
#include <iomanip>
#include <iostream>
#include <archr/core/asinh.hpp>

double rand_in(double min, double max) {
return min + (double(max - min) * (double(std::rand()) / RAND_MAX));
}

int main() {
std::size_t i;
std::size_t sz = 10;
std::vector<float> i1(sz);
std::vector<float> o1(sz);

std::srand(std::time(0));
std::generate(i1.begin(), i1.end(), []() { return rand_in(float(-1), float(1)); });
archr::core::asinh(i1.data(), sz, o1.data());
for (i = 0; i < sz; ++i) {
std::cout << std::setw(4) << i << ": " << "asinh" << "(" << i1[i] << ")" << " = " << o1[i] << std::endl;
}
}


### Possible Output

   0: asinh(-0.346646) = -0.340054
1: asinh(0.00076237) = 0.00076237
2: asinh(0.272348) = 0.269089
3: asinh(0.851445) = 0.772338
4: asinh(-0.64343) = -0.605707
5: asinh(-0.371831) = -0.363756
6: asinh(-0.79096) = -0.725594
7: asinh(-0.488013) = -0.470465
8: asinh(-0.888769) = -0.800496
9: asinh(-0.204958) = -0.20355


program main
integer(4), parameter  :: sz = 10
real(4), dimension(sz) :: o0
real(4), dimension(sz) :: i0
real(8)                :: r0, r1
real(8)                :: min0, max0
real(8)                :: min1, max1
real(8)                :: min2, max2
! Init:
min0 = -1
max0 = 1
do i=1,sz
r0 = random_in(min0, max0)
i0(i) = r0
end do
! Example:
call archr_core_asinh_f32(o0, i0, size(i0))
! Output:
do i=1,sz
print *, i, ": ", o0(i)
end do
contains
! Generate a random number within a range
function random_in(mn, mx) result(r)
real(8) :: r
real(8), intent(in) :: mn, mx
r = mn + (rand() * (mx - mn))
end function random_in
end program


### Possible Output

           1 :  -0.881362796
2 :  -0.682654083
3 :   0.491216183
4 :   -8.26058015E-02
5 :    6.54872954E-02
6 :  -0.536039650
7 :  -0.813254058
8 :   0.350507766
9 :   0.351320744
10 :   0.785937726