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#include "dsp.h"
#include "preprocessor.h"

Macros
#define	DSP32_COMPLEXSUB_KERNEL_X_FCT(x_num, data)

#define	DSP32_COMPLEXSUBITION(x_num, data)

Functions
void	dsp32_vect_complex_sub (dsp32_complex_t vect1, dsp32_complex_t vect2, dsp32_complex_t *vect3, int size)
	32-bit fixed point version of the complex vector subtraction function. More...

#define DSP32_COMPLEXSUB_KERNEL_X_FCT	(		x_num,
			data
	)

Value:

static void TPASTE2(dsp32_vect_complexsub_kernel_x, x_num)(dsp32_complex_t *vect1, dsp32_complex_t *vect2, dsp32_complex_t *vect3) \
{ \
  MREPEAT(x_num, DSP32_COMPLEXSUBITION, ""); \
}

#define DSP32_COMPLEXSUBITION	(		x_num,
			data
	)

Value:

vect1[x_num].real = vect2[x_num].real - vect3[x_num].real; \

vect1[x_num].imag = vect2[x_num].imag - vect3[x_num].imag;

dsp16_complex_t::real

dsp16_t__ real

real part

Definition: dsp_types.h:212

A_ALIGNED dsp32_t vect3[VECT3_SIZE]

Second input signal.

Definition: dsp32_convolution/convolution_example.c:157

A_ALIGNED dsp16_t vect2[SIZE]

The input signal resulting from a multiplication between a cosine and a sine.

Definition: dsp16_complex_fft/complex_fft_example.c:92

A_ALIGNED dsp16_complex_t vect1[SIZE]

The output buffer.

Definition: dsp16_complex_fft/complex_fft_example.c:89

dsp16_complex_t::imag

dsp16_t__ imag

imaginary part

Definition: dsp_types.h:214

Referenced by dsp32_vect_complex_sub().