kml_ffth_plan_dft_scale_c2r
Create a plan for the n-dimensional complex-to-real (C2R) transform of a single contiguous data array.
Interface Definition
C interface:
kml_ffth_plan kml_ffth_plan_dft_scale_c2r(int rank, const int *n, kml_ffth_complex *in, float *out, unsigned flags);
Return Value
The function returns a structure pointer of the kml_ffth_plan type. This object can be passed to the kml_fft(f/h)_execute function as a parameter to perform FFT on the current input and output. This object can also be passed to the kml_ffth_execute_dft_scale_c2r function as a parameter to perform FFT on new input and output.
If this function returns a non-null pointer, the plan has been successfully created. Otherwise, the plan fails to be created.
Parameters
Parameter |
Data Type |
Description |
Input/Output |
|---|---|---|---|
rank |
int |
Dimension of FFT. The constraint is 1 ≤ rank ≤ 3. |
Input |
n |
const int* |
Indicates an array whose dimension is rank, including the size of each dimension in the FFT array. The constraint is n[i] ≥ 1, for i in 0 to rank - 1. |
Input |
in |
|
Inputs the data to be transformed. |
Input |
out |
|
Outputs the data generated using FFT. |
Output |
flags |
unsigned int |
Planning option, which describes the ESTIMATE or PATIENT mode. KML_FFT_ESTIMATE: ESTIMATE mode KML_FFT_PATIENT: PATIENT mode |
Input |
Dependencies
C: "kfft.h"
Examples
C interface:
int rank = 2;
int *n;
n = (int*)kml_ffth_malloc(sizeof(int) * rank);
n[0] = 2;
n[1] = 4;
_fp16 init[6][2] = {{120, 0}, {8, 8}, {0, 0}, {0, 16}, {0, 16}, {-8, 8}};
kml_ffth_complex *in;
in = (kml_ffth_complex*)kml_ffth_malloc(sizeof(kml_ffth_complex) * n[0] * (n[1] / 2 + 1));
for (int i = 0; i < n[0] * (n[1] / 2 + 1); i++) {
in[i][0] = init[i][0];
in[i][1] = init[i][1];
}
float *out;
out = (float*)kml_fft_malloc(sizeof(float) * n[0] * n[1]);
kml_ffth_plan plan;
plan = kml_ffth_plan_dft_scale_c2r(rank, n, in, out, KML_FFT_ESTIMATE);
kml_ffth_execute_dft_scale_c2r(plan, in, out);
kml_ffth_destroy_plan(plan);
kml_ffth_free(n);
kml_ffth_free(in);
kml_ffth_free(out);
/*
* out = {1.280000e+02, 8.000000e+01, 9.600000e+01, 1.760000e+02,
* 1.440000e+02, 1.280000e+02, 1.120000e+02, 9.600000e+01}
*/