mirror of
https://github.com/clementine-player/Clementine
synced 2024-12-15 18:58:55 +01:00
362 lines
8.3 KiB
C++
Executable File
362 lines
8.3 KiB
C++
Executable File
/**
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* projectM -- Milkdrop-esque visualisation SDK
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* Copyright (C)2003-2004 projectM Team
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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* See 'LICENSE.txt' included within this release
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*
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*/
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/**
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* $Id: PCM.c,v 1.3 2006/03/13 20:35:26 psperl Exp $
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*
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* Takes sound data from wherever and hands it back out.
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* Returns PCM Data or spectrum data, or the derivative of the PCM data
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*/
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#include <stdlib.h>
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#include <stdio.h>
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#include "Common.hpp"
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#include "wipemalloc.h"
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#include "fftsg.h"
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#include "PCM.hpp"
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#include <cassert>
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int PCM::maxsamples = 2048;
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//initPCM(int samples)
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//
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//Initializes the PCM buffer to
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// number of samples specified.
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#include <iostream>
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PCM::PCM() {
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initPCM( 2048 );
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#ifdef DEBUG
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std::cerr << "[PCM] MAX SAMPLES:" << maxsamples << std::endl;
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#endif
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}
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void PCM::initPCM(int samples) {
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int i;
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waveSmoothing = 0;
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//Allocate memory for PCM data buffer
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assert(samples == 2048);
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PCMd = (float **)wipemalloc(2 * sizeof(float *));
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PCMd[0] = (float *)wipemalloc(samples * sizeof(float));
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PCMd[1] = (float *)wipemalloc(samples * sizeof(float));
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//maxsamples=samples;
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newsamples=0;
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numsamples = maxsamples;
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//Initialize buffers to 0
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for (i=0;i<samples;i++)
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{
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PCMd[0][i]=0;
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PCMd[1][i]=0;
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}
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start=0;
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//Allocate FFT workspace
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w= (double *)wipemalloc(maxsamples*sizeof(double));
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ip= (int *)wipemalloc(maxsamples*sizeof(int));
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ip[0]=0;
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/** PCM data */
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// this->maxsamples = 2048;
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// this->numsamples = 0;
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// this->pcmdataL = NULL;
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// this->pcmdataR = NULL;
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/** Allocate PCM data structures */
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pcmdataL=(float *)wipemalloc(this->maxsamples*sizeof(float));
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pcmdataR=(float *)wipemalloc(this->maxsamples*sizeof(float));
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}
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PCM::~PCM() {
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free(pcmdataL);
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free(pcmdataR);
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free(w);
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free(ip);
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free(PCMd[0]);
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free(PCMd[1]);
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free(PCMd);
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}
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#include <iostream>
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void PCM::addPCMfloat(const float *PCMdata, int samples)
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{
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int i,j;
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for(i=0;i<samples;i++)
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{
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j=i+start;
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if (PCMdata[i] != 0 ) {
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PCMd[0][j%maxsamples] = PCMdata[i];
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PCMd[1][j%maxsamples] = PCMdata[i];
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}
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else
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{
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PCMd[0][j % maxsamples] = 0;
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PCMd[1][j % maxsamples] = 0;
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}
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}
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start+=samples;
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start=start%maxsamples;
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newsamples+=samples;
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if (newsamples>maxsamples) newsamples=maxsamples;
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numsamples = getPCMnew(pcmdataR,1,0,waveSmoothing,0,0);
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getPCMnew(pcmdataL,0,0,waveSmoothing,0,1);
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getPCM(vdataL,512,0,1,0,0);
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getPCM(vdataR,512,1,1,0,0);
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}
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void PCM::addPCM16Data(const short* pcm_data, short samples) {
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int i, j;
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for (i = 0; i < samples; ++i) {
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j=i+start;
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PCMd[0][j % maxsamples]=(pcm_data[i * 2 + 0]/16384.0);
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PCMd[1][j % maxsamples]=(pcm_data[i * 2 + 1]/16384.0);
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}
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start = (start + samples) % maxsamples;
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newsamples+=samples;
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if (newsamples>maxsamples) newsamples=maxsamples;
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numsamples = getPCMnew(pcmdataR,1,0,waveSmoothing,0,0);
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getPCMnew(pcmdataL,0,0,waveSmoothing,0,1);
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getPCM(vdataL,512,0,1,0,0);
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getPCM(vdataR,512,1,1,0,0);
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}
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void PCM::addPCM16(short PCMdata[2][512])
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{
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int i,j;
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int samples=512;
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for(i=0;i<samples;i++)
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{
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j=i+start;
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if ( PCMdata[0][i] != 0 && PCMdata[1][i] != 0 ) {
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PCMd[0][j%maxsamples]=(PCMdata[0][i]/16384.0);
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PCMd[1][j%maxsamples]=(PCMdata[1][i]/16384.0);
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} else {
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PCMd[0][j % maxsamples] = (float)0;
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PCMd[1][j % maxsamples] = (float)0;
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}
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}
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// printf("Added %d samples %d %d %f\n",samples,start,(start+samples)%maxsamples,PCM[0][start+10]);
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start+=samples;
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start=start%maxsamples;
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newsamples+=samples;
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if (newsamples>maxsamples) newsamples=maxsamples;
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numsamples = getPCMnew(pcmdataR,1,0,waveSmoothing,0,0);
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getPCMnew(pcmdataL,0,0,waveSmoothing,0,1);
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getPCM(vdataL,512,0,1,0,0);
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getPCM(vdataR,512,1,1,0,0);
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}
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void PCM::addPCM8( unsigned char PCMdata[2][1024])
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{
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int i,j;
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int samples=1024;
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for(i=0;i<samples;i++)
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{
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j=i+start;
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if ( PCMdata[0][i] != 0 && PCMdata[1][i] != 0 ) {
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PCMd[0][j%maxsamples]=( (float)( PCMdata[0][i] - 128.0 ) / 64 );
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PCMd[1][j%maxsamples]=( (float)( PCMdata[1][i] - 128.0 ) / 64 );
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} else {
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PCMd[0][j % maxsamples] = 0;
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PCMd[1][j % maxsamples] = 0;
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}
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}
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// printf("Added %d samples %d %d %f\n",samples,start,(start+samples)%maxsamples,PCM[0][start+10]);
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start+=samples;
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start=start%maxsamples;
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newsamples+=samples;
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if (newsamples>maxsamples) newsamples=maxsamples;
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numsamples = getPCMnew(pcmdataR,1,0,waveSmoothing,0,0);
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getPCMnew(pcmdataL,0,0,waveSmoothing,0,1);
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getPCM(vdataL,512,0,1,0,0);
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getPCM(vdataR,512,1,1,0,0);
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}
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void PCM::addPCM8_512( const unsigned char PCMdata[2][512])
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{
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int i,j;
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int samples=512;
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for(i=0;i<samples;i++)
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{
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j=i+start;
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if ( PCMdata[0][i] != 0 && PCMdata[1][i] != 0 ) {
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PCMd[0][j%maxsamples]=( (float)( PCMdata[0][i] - 128.0 ) / 64 );
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PCMd[1][j%maxsamples]=( (float)( PCMdata[1][i] - 128.0 ) / 64 );
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} else {
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PCMd[0][j % maxsamples] = 0;
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PCMd[1][j % maxsamples] = 0;
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}
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}
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// printf("Added %d samples %d %d %f\n",samples,start,(start+samples)%maxsamples,PCM[0][start+10]);
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start+=samples;
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start=start%maxsamples;
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newsamples+=samples;
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if (newsamples>maxsamples) newsamples=maxsamples;
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numsamples = getPCMnew(pcmdataR,1,0,waveSmoothing,0,0);
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getPCMnew(pcmdataL,0,0,waveSmoothing,0,1);
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getPCM(vdataL,512,0,1,0,0);
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getPCM(vdataR,512,1,1,0,0);
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}
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//puts sound data requested at provided pointer
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//
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//samples is number of PCM samples to return
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//freq = 0 gives PCM data
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//freq = 1 gives FFT data
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//smoothing is the smoothing coefficient
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//returned values are normalized from -1 to 1
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void PCM::getPCM(float *PCMdata, int samples, int channel, int freq, float smoothing, int derive)
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{
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int i,index;
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index=start-1;
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if (index<0) index=maxsamples+index;
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PCMdata[0]=PCMd[channel][index];
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for(i=1;i<samples;i++)
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{
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index=start-1-i;
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if (index<0) index=maxsamples+index;
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PCMdata[i]=(1-smoothing)*PCMd[channel][index]+smoothing*PCMdata[i-1];
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}
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//return derivative of PCM data
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if(derive)
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{
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for(i=0;i<samples-1;i++)
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{
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PCMdata[i]=PCMdata[i]-PCMdata[i+1];
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}
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PCMdata[samples-1]=0;
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}
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//return frequency data instead of PCM (perform FFT)
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if (freq)
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{
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double temppcm[1024];
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for (int i=0;i<samples;i++)
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{temppcm[i]=(double)PCMdata[i];}
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rdft(samples, 1, temppcm, ip, w);
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for (int j=0;j<samples;j++)
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{PCMdata[j]=(float)temppcm[j];}
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}
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}
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//getPCMnew
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//
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//Like getPCM except it returns all new samples in the buffer
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//the actual return value is the number of samples, up to maxsamples.
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//the passed pointer, PCMData, must bee able to hold up to maxsamples
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int PCM::getPCMnew(float *PCMdata, int channel, int freq, float smoothing, int derive, int reset)
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{
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int i,index;
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index=start-1;
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if (index<0) index=maxsamples+index;
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PCMdata[0]=PCMd[channel][index];
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for(i=1;i<newsamples;i++)
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{
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index=start-1-i;
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if (index<0) index=maxsamples+index;
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PCMdata[i]=(1-smoothing)*PCMd[channel][index]+smoothing*PCMdata[i-1];
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}
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//return derivative of PCM data
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if(derive)
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{
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for(i=0;i<newsamples-1;i++)
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{
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PCMdata[i]=PCMdata[i]-PCMdata[i+1];
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}
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PCMdata[newsamples-1]=0;
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}
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//return frequency data instead of PCM (perform FFT)
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// if (freq) rdft(samples, 1, PCMdata, ip, w);
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i=newsamples;
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if (reset) newsamples=0;
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return i;
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}
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//Free stuff
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void PCM::freePCM() {
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free(PCMd[0]);
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free(PCMd[1]);
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free(PCMd);
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free(ip);
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free(w);
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PCMd = NULL;
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ip = NULL;
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w = NULL;
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}
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