建立单个连续数据序列1维C2C变换的plan。
C interface:
kml_ffth_plan kml_ffth_plan_dft_scale_1d(int n, kml_ffth_complex *in, kml_ffth_float_complex *out, int sign, unsigned flags);
函数返回一个kml_ffth_plan类型的结构体指针。将该对象作为参数传入kml_fft(f/h)_execute函数中使用,将对当前提供的输入in和输出out执行FFT变换;另外,也可以通过将该对象作为参数传入kml_ffth_plan_dft_scale函数中以对新的输入in和输出out执行FFT变换。
如果函数返回非空指针,则表示plan执行成功,否则表示执行失败。
参数名 |
数据类型 |
描述 |
输入/输出 |
|---|---|---|---|
n |
int |
输入FFT序列的大小,约束:n≥1。 |
输入 |
in |
|
输入待变换的数据。 |
输入 |
out |
|
输出快速傅里叶变换后的数据。 |
输出 |
sign |
int |
描述正向变换或反向变换。
|
输入 |
flags |
unsigned int |
planning选项,描述ESTIMATE模式或PATIENT模式。 KML_FFT_ESTIMATE:ESTIMATE模式 KML_FFT_PATIENT:PATIENT模式 |
输入 |
C: "kfft.h"
C interface:
int N = 16;
kml_ffth_complex *in;
kml_ffth_complex *out;
kml_ffth_plan plan;
in = (kml_ffth_complex*)kml_ffth_malloc(sizeof(kml_ffth_complex) * N);
out = (kml_ffth_float_complex*)kml_ffth_malloc(sizeof(kml_ffth_float_complex) * N);
for (int i = 0; i < N; i++){
in[i][0] = (__fp16)i;
in[i][1] = (__fp16)i;
}
plan = kml_ffth_plan_dft_scale_1d(N, in , out, KML_FFT_FORWARD, KML_FFT_ESTIMATE);
kml_ffth_execute_dft_scale(plan, in, out);
kml_ffth_destroy_plan(plan);
kml_ffth_free(in);
kml_ffth_free(out);
/*
* out = {{1.200000e+02, 1.200000e+02}, {-4.821872e+01, 3.221872e+01},
* {-2.731371e+01, 1.131371e+01}, {-1.997285e+01, 3.972846e+00},
* {-1.600000e+01, 0.000000e+00}, {-1.334543e+01, -2.654571e+00},
* {-1.131371e+01, -4.686292e+00}, {-9.591299e+00, -6.408701e+00},
* {-8.000000e+00, -8.000000e+00}, {-6.408701e+00, -9.591299e+00},
* {-4.686292e+00, -1.131371e+01}, {-2.654571e+00, -1.334543e+01},
* {0.000000e+00, -1.600000e+01}, {3.972846e+00, -1.997285e+01},
* {1.131371e+01, -2.731371e+01}, {3.221872e+01, -4.821872e+01}}
*/