Compute the logical bitwise XOR. More...

Functions
DSP_FUNC_SCOPE void	zdsp_xor_u8 (const DSP_DATA uint8_t src_a, const DSP_DATA uint8_t src_b, DSP_DATA uint8_t *dst, uint32_t block_size)
	Compute the logical bitwise XOR of two fixed-point vectors.

DSP_FUNC_SCOPE void	zdsp_xor_u16 (const DSP_DATA uint16_t src_a, const DSP_DATA uint16_t src_b, DSP_DATA uint16_t *dst, uint32_t block_size)
	Compute the logical bitwise XOR of two fixed-point vectors.

DSP_FUNC_SCOPE void	zdsp_xor_u32 (const DSP_DATA uint32_t src_a, const DSP_DATA uint32_t src_b, DSP_DATA uint32_t *dst, uint32_t block_size)
	Compute the logical bitwise XOR of two fixed-point vectors.

Detailed Description

Compute the logical bitwise XOR.

There are separate functions for uint32_t, uint16_t, and uint7_t data types.

Function Documentation

Compute the logical bitwise XOR of two fixed-point vectors.

Parameters

[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

Compute the logical bitwise XOR of two fixed-point vectors.

Parameters

[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

Compute the logical bitwise XOR of two fixed-point vectors.

Parameters

[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