music-field/Unused/FFT/FFT.cpp

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#include "pch.h"
#pragma comment(lib, "E:\\Lib\\libfftw3-3.lib")
#pragma comment(lib, "E:\\Lib\\libfftw3f-3.lib")
#pragma comment(lib, "E:\\Lib\\libfftw3l-3.lib")
#include <stdio.h>
#include <stdlib.h>
#include "fftw3.h"
#include <cmath>
#include <algorithm>
#include <iostream>
//<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ƶ<EFBFBD><C6B5>Ϊ FR , <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ϊ1024 (NN),<2C><>ô<EFBFBD><C3B4><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>N<EFBFBD><4E><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ƶ<EFBFBD><C6B5> X(N) = (FR / NN) * N
#define FR 44100
class Get_RGB {
public:
static void fftw3(float *in,int NN, int &hz);
double hztospectrun(double hz);
static void spectral_color(double &r, double &g, double &b, double l);
static void GetRGB( float* in,int NN, double &R, double &G,double &B){//<2F><><EFBFBD><EFBFBD>RGBֵ
int hz;
double l=0;
fftw3(in,NN, hz);
spectral_color(R, G, B, l);
}
};
void Get_RGB::fftw3(float *in ,int NN, int &frequency)
{
struct Max {
int id=0;
int value=0;
}M;
int i;
fftwf_complex *out = NULL; // fftwf_complex --> <20><>Ϊfloat<61>
fftwf_plan p;
in = (float *)fftwf_malloc(sizeof(float) * NN);
out = (fftwf_complex *)fftwf_malloc(sizeof(fftwf_complex) *NN);
// <20><><EFBFBD><EFBFBD>Ҷ<EFBFBD>
p = fftwf_plan_dft_r2c_1d(NN, in, out, FFTW_ESTIMATE);
fftwf_execute(p);
// <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
for (i = 0; i < NN; i++)
{
float len = sqrt(out[i][0] * out[i][0] + out[i][1] * out[i][1]);
if (len > M.value) {
M.id=i ;
}
// printf("%d ",i);
// printf("%.2f ", len);
}
frequency = M.id*(FR / NN);
//frequency = M.id*(FR / NN);
// <20>ͷ<EFBFBD><CDB7><EFBFBD>Դ
return;
}
int main() {
float in[10000];
double R, G, B;
int NN;
std::cin >> NN;
for (int i=0;i < NN;i++) {
std::cin >> in[i];
}
Get_RGB::GetRGB(in,NN, R, G, B);
std::cout << R << " " << G << " " << B;
std::cout << "\n"<< R << " " << G << " " << B;
}
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double Get_RGB::hztospectrum(double hz) {
double hbox;
hbox = hz;
for (;hbox > 800;hbox = hbox / 2);
return hbox;
}
void Get_RGB::spectral_color(double &r, double &g, double &b, double l) // RGB <0,1> <- lambda l <400,700> [nm]
{
double t; r = 0.0; g = 0.0; b = 0.0;
if ((l >= 400.0) && (l < 410.0)) { t = (l - 400.0) / (410.0 - 400.0); r = +(0.33*t) - (0.20*t*t); }
else if ((l >= 410.0) && (l < 475.0)) { t = (l - 410.0) / (475.0 - 410.0); r = 0.14 - (0.13*t*t); }
else if ((l >= 545.0) && (l < 595.0)) { t = (l - 545.0) / (595.0 - 545.0); r = +(1.98*t) - (t*t); }
else if ((l >= 595.0) && (l < 650.0)) { t = (l - 595.0) / (650.0 - 595.0); r = 0.98 + (0.06*t) - (0.40*t*t); }
else if ((l >= 650.0) && (l < 700.0)) { t = (l - 650.0) / (700.0 - 650.0); r = 0.65 - (0.84*t) + (0.20*t*t); }
if ((l >= 415.0) && (l < 475.0)) { t = (l - 415.0) / (475.0 - 415.0); g = +(0.80*t*t); }
else if ((l >= 475.0) && (l < 590.0)) { t = (l - 475.0) / (590.0 - 475.0); g = 0.8 + (0.76*t) - (0.80*t*t); }
else if ((l >= 585.0) && (l < 639.0)) { t = (l - 585.0) / (639.0 - 585.0); g = 0.84 - (0.84*t); }
if ((l >= 400.0) && (l < 475.0)) { t = (l - 400.0) / (475.0 - 400.0); b = +(2.20*t) - (1.50*t*t); }
else if ((l >= 475.0) && (l < 560.0)) { t = (l - 475.0) / (560.0 - 475.0); b = 0.7 - (t)+(0.30*t*t); }
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}