Clementine-audio-player-Mac.../3rdparty/libprojectm/Renderer/BeatDetect.cpp

/**
 * projectM -- Milkdrop-esque visualisation SDK
 * Copyright (C)2003-2004 projectM Team
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 * See 'LICENSE.txt' included within this release
 *
 */
/**
 * Takes sound data from wherever and returns beat detection values
 * Uses statistical Energy-Based methods. Very simple
 * 
 * Some stuff was taken from Frederic Patin's beat-detection article,
 * you'll find it online
 */

#include <stdlib.h>
#include <stdio.h>

#include "wipemalloc.h"

#include "Common.hpp"
#include "PCM.hpp"
#include <cmath>
#include "BeatDetect.hpp"

using namespace std;

BeatDetect::BeatDetect(PCM *pcm) {
  int x,y; 

  this->pcm=pcm;

  this->vol_instant=0;
  this->vol_history=0;

  for (y=0;y<80;y++)
    {
      this->vol_buffer[y]=0;
    }

  this->beat_buffer_pos=0;

  for (x=0;x<32;x++) {
      this->beat_instant[x]=0;
      this->beat_history[x]=0;
      this->beat_val[x]=1.0;
      this->beat_att[x]=1.0;
      this->beat_variance[x]=0;
      for (y=0;y<80;y++) {
	    this->beat_buffer[x][y]=0;
	    }
    }

    this->treb = 0;
    this->mid = 0;
    this->bass = 0;
    this->vol_old = 0;
    this->beat_sensitivity = 10.00;
    this->treb_att = 0;
    this->mid_att = 0;
    this->bass_att = 0;
    this->vol = 0;

  
  }

BeatDetect::~BeatDetect() 
{

}

void BeatDetect::reset() {
  this->treb = 0;
  this->mid = 0;
  this->bass = 0;
  this->treb_att = 0;
  this->mid_att = 0;
  this->bass_att = 0;
  }

void BeatDetect::detectFromSamples() {
    vol_old = vol;
    bass=0;mid=0;treb=0;

    getBeatVals(pcm->pcmdataL,pcm->pcmdataR);
  }

void BeatDetect::getBeatVals( float *vdataL,float *vdataR ) {

  int linear=0;
  int x,y;
  float temp2=0;

  vol_instant=0;
      for ( x=0;x<16;x++)
	{
	  
	  beat_instant[x]=0;
	  for ( y=linear*2;y<(linear+8+x)*2;y++)
	    {
	      beat_instant[x]+=((vdataL[y]*vdataL[y])+(vdataR[y]*vdataR[y]))*(1.0/(8+x)); 
//	      printf( "beat_instant[%d]: %f %f %f\n", x, beat_instant[x], vdataL[y], vdataR[y] );
	      vol_instant+=((vdataL[y]*vdataL[y])+(vdataR[y]*vdataR[y]))*(1.0/512.0);

	    }
//printf("1");	  
	  linear=y/2;
	  beat_history[x]-=(beat_buffer[x][beat_buffer_pos])*.0125;
	  beat_buffer[x][beat_buffer_pos]=beat_instant[x];
	  beat_history[x]+=(beat_instant[x])*.0125;
	  
	  beat_val[x]=(beat_instant[x])/(beat_history[x]);
	  
	  beat_att[x]+=(beat_instant[x])/(beat_history[x]);

//printf("2\n");
 	  
	}
//printf("b\n");      
      vol_history-=(vol_buffer[beat_buffer_pos])*.0125;
      vol_buffer[beat_buffer_pos]=vol_instant;
      vol_history+=(vol_instant)*.0125;

      mid=0;
      for(x=1;x<10;x++)
	{
	 mid+=(beat_instant[x]);
	  temp2+=(beat_history[x]);
	 
	}

	 mid=mid/(1.5*temp2);
	 temp2=0;
	 treb=0;
 	  for(x=10;x<16;x++)
	    { 
	      treb+=(beat_instant[x]);
	      temp2+=(beat_history[x]);
	    }
//printf("c\n");
	  treb=treb/(1.5*temp2);
//	  *vol=vol_instant/(1.5*vol_history);
	  vol=vol_instant/(1.5*vol_history);

	  bass=(beat_instant[0])/(1.5*beat_history[0]);

	  
	  if ( projectM_isnan( treb ) ) {
	    treb = 0.0;
	  }
	  if ( projectM_isnan( mid ) ) {
	    mid = 0.0;
	  }
	  if ( projectM_isnan( bass ) ) {
	    bass = 0.0;
	  }
	  treb_att=.6 * treb_att + .4 * treb;
	  mid_att=.6 * mid_att + .4 * mid;
	  bass_att=.6 * bass_att + .4 * bass;

	  if(bass_att>100)bass_att=100;
	  if(bass >100)bass=100;
	  if(mid_att>100)mid_att=100;
	  if(mid >100)mid=100;
	  if(treb_att>100)treb_att=100;
	  if(treb >100)treb=100;
	  if(vol>100)vol=100;
	  
	   // *vol=(beat_instant[3])/(beat_history[3]);
	  beat_buffer_pos++;
	  if( beat_buffer_pos>79)beat_buffer_pos=0;
	
}
Add libprojectm to 3rdparty 2010-06-06 23:43:45 +02:00			`/**`
			`* projectM -- Milkdrop-esque visualisation SDK`
			`* Copyright (C)2003-2004 projectM Team`
			`*`
			`* This library is free software; you can redistribute it and/or`
			`* modify it under the terms of the GNU Lesser General Public`
			`* License as published by the Free Software Foundation; either`
			`* version 2.1 of the License, or (at your option) any later version.`
			`*`
			`* This library is distributed in the hope that it will be useful,`
			`* but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU`
			`* Lesser General Public License for more details.`
			`*`
			`* You should have received a copy of the GNU Lesser General Public`
			`* License along with this library; if not, write to the Free Software`
			`* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA`
			`* See 'LICENSE.txt' included within this release`
			`*`
			`*/`
			`/**`
			`* Takes sound data from wherever and returns beat detection values`
			`* Uses statistical Energy-Based methods. Very simple`
			`*`
			`* Some stuff was taken from Frederic Patin's beat-detection article,`
			`* you'll find it online`
			`*/`

			`#include <stdlib.h>`
			`#include <stdio.h>`

			`#include "wipemalloc.h"`

			`#include "Common.hpp"`
			`#include "PCM.hpp"`
			`#include <cmath>`
			`#include "BeatDetect.hpp"`

Apply downstream OpenBSD patches against projectm. Fixes issue 2277 2011-11-29 12:27:35 +01:00			`using namespace std;`

Add libprojectm to 3rdparty 2010-06-06 23:43:45 +02:00			`BeatDetect::BeatDetect(PCM *pcm) {`
			`int x,y;`

			`this->pcm=pcm;`

			`this->vol_instant=0;`
			`this->vol_history=0;`

			`for (y=0;y<80;y++)`
			`{`
			`this->vol_buffer[y]=0;`
			`}`

			`this->beat_buffer_pos=0;`

			`for (x=0;x<32;x++) {`
			`this->beat_instant[x]=0;`
			`this->beat_history[x]=0;`
			`this->beat_val[x]=1.0;`
			`this->beat_att[x]=1.0;`
			`this->beat_variance[x]=0;`
			`for (y=0;y<80;y++) {`
			`this->beat_buffer[x][y]=0;`
			`}`
			`}`

			`this->treb = 0;`
			`this->mid = 0;`
			`this->bass = 0;`
			`this->vol_old = 0;`
			`this->beat_sensitivity = 10.00;`
			`this->treb_att = 0;`
			`this->mid_att = 0;`
			`this->bass_att = 0;`
			`this->vol = 0;`


			`}`

			`BeatDetect::~BeatDetect()`
			`{`

			`}`

			`void BeatDetect::reset() {`
			`this->treb = 0;`
			`this->mid = 0;`
			`this->bass = 0;`
			`this->treb_att = 0;`
			`this->mid_att = 0;`
			`this->bass_att = 0;`
			`}`

			`void BeatDetect::detectFromSamples() {`
			`vol_old = vol;`
			`bass=0;mid=0;treb=0;`

			`getBeatVals(pcm->pcmdataL,pcm->pcmdataR);`
			`}`

			`void BeatDetect::getBeatVals( float vdataL,float vdataR ) {`

			`int linear=0;`
			`int x,y;`
			`float temp2=0;`

			`vol_instant=0;`
			`for ( x=0;x<16;x++)`
			`{`

			`beat_instant[x]=0;`
			`for ( y=linear2;y<(linear+8+x)2;y++)`
			`{`
			`beat_instant[x]+=((vdataL[y]vdataL[y])+(vdataR[y]vdataR[y]))*(1.0/(8+x));`
			`// printf( "beat_instant[%d]: %f %f %f\n", x, beat_instant[x], vdataL[y], vdataR[y] );`
			`vol_instant+=((vdataL[y]vdataL[y])+(vdataR[y]vdataR[y]))*(1.0/512.0);`

			`}`
			`//printf("1");`
			`linear=y/2;`
			`beat_history[x]-=(beat_buffer[x][beat_buffer_pos])*.0125;`
			`beat_buffer[x][beat_buffer_pos]=beat_instant[x];`
			`beat_history[x]+=(beat_instant[x])*.0125;`

			`beat_val[x]=(beat_instant[x])/(beat_history[x]);`

			`beat_att[x]+=(beat_instant[x])/(beat_history[x]);`

			`//printf("2\n");`

			`}`
			`//printf("b\n");`
			`vol_history-=(vol_buffer[beat_buffer_pos])*.0125;`
			`vol_buffer[beat_buffer_pos]=vol_instant;`
			`vol_history+=(vol_instant)*.0125;`

			`mid=0;`
			`for(x=1;x<10;x++)`
			`{`
			`mid+=(beat_instant[x]);`
			`temp2+=(beat_history[x]);`

			`}`

			`mid=mid/(1.5*temp2);`
			`temp2=0;`
			`treb=0;`
			`for(x=10;x<16;x++)`
			`{`
			`treb+=(beat_instant[x]);`
			`temp2+=(beat_history[x]);`
			`}`
			`//printf("c\n");`
			`treb=treb/(1.5*temp2);`
			`// vol=vol_instant/(1.5vol_history);`
			`vol=vol_instant/(1.5*vol_history);`

			`bass=(beat_instant[0])/(1.5*beat_history[0]);`


			`if ( projectM_isnan( treb ) ) {`
			`treb = 0.0;`
			`}`
			`if ( projectM_isnan( mid ) ) {`
			`mid = 0.0;`
			`}`
			`if ( projectM_isnan( bass ) ) {`
			`bass = 0.0;`
			`}`
			`treb_att=.6 * treb_att + .4 * treb;`
			`mid_att=.6 * mid_att + .4 * mid;`
			`bass_att=.6 * bass_att + .4 * bass;`

			`if(bass_att>100)bass_att=100;`
			`if(bass >100)bass=100;`
			`if(mid_att>100)mid_att=100;`
			`if(mid >100)mid=100;`
			`if(treb_att>100)treb_att=100;`
			`if(treb >100)treb=100;`
			`if(vol>100)vol=100;`

			`// *vol=(beat_instant[3])/(beat_history[3]);`
			`beat_buffer_pos++;`
			`if( beat_buffer_pos>79)beat_buffer_pos=0;`

			`}`