Zephyr API Documentation 4.0.0
A Scalable Open Source RTOS
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Functions | |
void | zdsp_xor_u8 (const uint8_t *src_a, const uint8_t *src_b, uint8_t *dst, uint32_t block_size) |
Compute the logical bitwise XOR of two fixed-point vectors. | |
void | zdsp_xor_u16 (const uint16_t *src_a, const uint16_t *src_b, uint16_t *dst, uint32_t block_size) |
Compute the logical bitwise XOR of two fixed-point vectors. | |
void | zdsp_xor_u32 (const uint32_t *src_a, const uint32_t *src_b, uint32_t *dst, uint32_t block_size) |
Compute the logical bitwise XOR of two fixed-point vectors. | |
Compute the logical bitwise XOR.
There are separate functions for uint32_t, uint16_t, and uint7_t data types.
void zdsp_xor_u16 | ( | const uint16_t * | src_a, |
const uint16_t * | src_b, | ||
uint16_t * | dst, | ||
uint32_t | block_size ) |
#include <zephyr/dsp/basicmath.h>
Compute the logical bitwise XOR of two fixed-point vectors.
[in] | src_a | points to input vector A |
[in] | src_b | points to input vector B |
[out] | dst | points to output vector |
[in] | block_size | number of samples in each vector |
void zdsp_xor_u32 | ( | const uint32_t * | src_a, |
const uint32_t * | src_b, | ||
uint32_t * | dst, | ||
uint32_t | block_size ) |
#include <zephyr/dsp/basicmath.h>
Compute the logical bitwise XOR of two fixed-point vectors.
[in] | src_a | points to input vector A |
[in] | src_b | points to input vector B |
[out] | dst | points to output vector |
[in] | block_size | number of samples in each vector |
void zdsp_xor_u8 | ( | const uint8_t * | src_a, |
const uint8_t * | src_b, | ||
uint8_t * | dst, | ||
uint32_t | block_size ) |
#include <zephyr/dsp/basicmath.h>
Compute the logical bitwise XOR of two fixed-point vectors.
[in] | src_a | points to input vector A |
[in] | src_b | points to input vector B |
[out] | dst | points to output vector |
[in] | block_size | number of samples in each vector |