各位午安,我最近在用F28335对ADC采样得到的数据作FFT,遇到了一个问题:由于F28335的ADC采样率的限制,我的采样点数无法做到恰好是2的整数次幂(目前采样点数设为500);而我所用的FFT模板的输入点数是2的整数次幂(原始点数128);我可以直接用500点的采样数据作为输入吗?会不会出现问题?恳请各位不吝赐教,下附我用的FFT模板代码:
#include "DSP28x_Project.h" // Device Headerfile and Examples Include File
#include"math.h"
#define PI 3.1415926
#define SAMPLENUMBER 128
void InitForFFT();
void MakeWave();
//void FFT(float dataR[SAMPLENUMBER],float dataI[SAMPLENUMBER]);
int INPUT[SAMPLENUMBER],DATA[SAMPLENUMBER];
float fWaveR[SAMPLENUMBER],fWaveI[SAMPLENUMBER],w[SAMPLENUMBER];
float sin_tab[SAMPLENUMBER],cos_tab[SAMPLENUMBER];
void FFT(float dataR[SAMPLENUMBER],float dataI[SAMPLENUMBER])
{
int x0,x1,x2,x3,x4,x5,x6,xx;
int i,j,k,b,p,L;
float TR,TI,temp;
/********** following code invert sequence ************/
for ( i=0;i<SAMPLENUMBER;i++ )
{
x0=x1=x2=x3=x4=x5=x6=0;
x0=i&0x01; x1=(i/2)&0x01; x2=(i/4)&0x01; x3=(i/8)&0x01;x4=(i/16)&0x01; x5=(i/32)&0x01; x6=(i/64)&0x01;
xx=x0*64+x1*32+x2*16+x3*8+x4*4+x5*2+x6;
dataI[xx]=dataR[i];
}
for ( i=0;i<SAMPLENUMBER;i++ )
{
dataR[i]=dataI[i]; dataI[i]=0;
}
/************** following code FFT *******************/
for ( L=1;L<=7;L++ )
{ /* for(1) */
b=1; i=L-1;
while ( i>0 )
{
b=b*2; i--;
} /* b= 2^(L-1) */
for ( j=0;j<=b-1;j++ ) /* for (2) */
{
p=1; i=7-L;
while ( i>0 ) /* p=pow(2,7-L)*j; */
{
p=p*2; i--;
}
p=p*j;
for ( k=j;k<128;k=k+2*b ) /* for (3) */
{
TR=dataR[k]; TI=dataI[k]; temp=dataR[k+b];
dataR[k]=dataR[k]+dataR[k+b]*cos_tab[p]+dataI[k+b]*sin_tab[p];
dataI[k]=dataI[k]-dataR[k+b]*sin_tab[p]+dataI[k+b]*cos_tab[p];
dataR[k+b]=TR-dataR[k+b]*cos_tab[p]-dataI[k+b]*sin_tab[p];
dataI[k+b]=TI+temp*sin_tab[p]-dataI[k+b]*cos_tab[p];
} /* END for (3) */
} /* END for (2) */
} /* END for (1) */
for ( i=0;i<SAMPLENUMBER/2;i++ )
{
w[i]=sqrt(dataR[i]*dataR[i]+dataI[i]*dataI[i]);
}
} /* END FFT */
void InitForFFT()
{
int i;
for ( i=0;i<SAMPLENUMBER;i++ )
{
sin_tab[i]=sin(PI*2*i/SAMPLENUMBER);
cos_tab[i]=cos(PI*2*i/SAMPLENUMBER);
}
}
void MakeWave()
{
int i;
for ( i=0;i<SAMPLENUMBER;i++ )
{
INPUT[i]=sin(PI*2*i/SAMPLENUMBER*3)*1024;
}
}
void main(void)
{
int i;
// Step 1. Initialize System Control:
InitSysCtrl();
// Step 2. Initalize GPIO:
// InitGpio(); Skipped for this example
// Step 3. Clear all interrupts and initialize PIE vector table:
// Disable CPU interrupts
DINT;
InitPieCtrl();
IER = 0x0000;
IFR = 0x0000;
InitPieVectTable();
// Step 4.
InitForFFT();
MakeWave();
for ( i=0;i<SAMPLENUMBER;i++ )
{
fWaveR[i]=INPUT[i];
fWaveI[i]=0.0f;
w[i]=0.0f;
}
FFT(fWaveR,fWaveI);
for ( i=0;i<SAMPLENUMBER;i++ )
{
DATA[i]=w[i];
}
for(;;)
{
} //break point
}
