svadd
Add real-number scalars and real-number vectors.
The function interface declaration is as follows:
Operations on numbers of the float type:
void (vsip_svadd_f)(float alpha, const vsip_vview_f *b, const vsip_vview_f *r);
Parameters
Parameter |
Description |
Value Range |
Input/Output |
|---|---|---|---|
alpha |
Scalar to be operated |
Unlimited |
Input |
b |
Pointer to the source vector |
The value cannot be NULL. |
Input |
r |
Pointer to the destination vector |
The value cannot be NULL. |
Output |
Abnormal Input
When a null pointer is input, the function directly returns a result.
Example
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include "kvsip.h"
#include "vsip.h"
#include "vsip_type.h"
#define BUFFER_SIZE_T 10
void SvaddExample()
{
float alpha = 1.4f;
float src[BUFFER_SIZE_T] = {1.64f, 1.63f, -1.09f, 0.71f, -3.20f, -0.43f, 0.41f, -4.83f, 5.36f, -4.40f};
float dst[BUFFER_SIZE_T];
int64_t stride = 1;
uint64_t offset = 0;
vsip_block_f *block_b = vsip_blockbind_f(src, BUFFER_SIZE_T, VSIP_MEM_NONE);
vsip_block_f *block_r = vsip_blockbind_f(dst, BUFFER_SIZE_T, VSIP_MEM_NONE);
vsip_vview_f *b = vsip_vbind_f(block_b, offset, stride, BUFFER_SIZE_T);
vsip_blockadmit_f(block_b, VSIP_TRUE);
vsip_vview_f *r = vsip_vbind_f(block_r, offset, stride, BUFFER_SIZE_T);
vsip_blockadmit_f(block_r, VSIP_TRUE);
vsip_svadd_f(alpha, b, r);
vsip_valldestroy_f(b);
vsip_valldestroy_f(r);
printf("alpha: %.2f\nsrc:\n", alpha);
for (int32_t i = 0; i < BUFFER_SIZE_T; ++i) {
printf("%.2f ", src[i]);
}
printf("\ndst:\n");
for (int32_t i = 0; i < BUFFER_SIZE_T; ++i) {
printf("%.2f ", dst[i]);
}
printf("\n");
}
int main(void) {
SvaddExample();
return 0;
}
Output:
alpha: 1.40 src: 1.64 1.63 -1.09 0.71 -3.20 -0.43 0.41 -4.83 5.36 -4.40 dst: 3.04 3.03 0.31 2.11 -1.80 0.97 1.81 -3.43 6.76 -3.00
Parent topic: Vector Operation Functions