paulxstretch/Source/PS_Source/PaulStretchControl.cpp

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2017-11-13 15:06:08 +00:00
/*
Copyright (C) 2006-2011 Nasca Octavian Paul
Author: Nasca Octavian Paul
This program is free software; you can redistribute it and/or modify
it under the terms of version 2 of the GNU General Public License
as published by the Free Software Foundation.
This program 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 General Public License (version 2) for more details.
You should have received a copy of the GNU General Public License (version 2)
along with this program; if not, write to the Free Software Foundation,
Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <math.h>
#include <stdlib.h>
#include "globals.h"
#include "PaulStretchControl.h"
#include "../WDL/resample.h"
#include <thread>
#ifdef WIN32
#undef min
#undef max
#endif
using namespace std;
#ifdef USEPSCONTROL
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Control::Control(AudioFormatManager* afm) : m_afm(afm), m_bufferingthread("stretchbufferingthread")
{
m_stretch_source = std::make_unique<StretchAudioSource>(2,m_afm);
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wavinfo.samplerate=44100;
wavinfo.nsamples=0;
process.bufsize=16384;
process.stretch=4.0;
process.onset_detection_sensitivity=0.0;
seek_pos=0.0;
window_type=W_HANN;
volume=1.0;
gui_sliders.fftsize_s=0.5;
gui_sliders.stretch_s=0.5;
gui_sliders.mode_s=0;
///#warning test
/// process.transient.enable=true;
};
Control::~Control()
{
m_bufferingthread.stopThread(1000);
}
void Control::processAudio(AudioBuffer<float>& buf)
{
jassert(m_buffering_source!=nullptr);
jassert(m_bufferingthread.isThreadRunning());
if (m_buffering_source != nullptr)
{
AudioSourceChannelInfo aif(buf);
m_buffering_source->getNextAudioBlock(aif);
}
}
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void Control::setStretchAmount(double rate)
{
m_stretch_source->setRate(rate);
}
void Control::setFFTSize(double size)
{
if (m_prebuffer_amount == 5)
m_fft_size_to_use = pow(2, 7.0 + size * 14.5);
else m_fft_size_to_use = pow(2, 7.0 + size * 10.0); // chicken out from allowing huge FFT sizes if not enough prebuffering
int optim = optimizebufsize(m_fft_size_to_use);
m_fft_size_to_use = optim;
m_stretch_source->setFFTSize(optim);
//Logger::writeToLog(String(m_fft_size_to_use));
}
void Control::setOnsetDetection(double x)
{
m_stretch_source->setOnsetDetection(x);
}
void Control::set_input_file(File file, std::function<void(String)> cb)
{
auto task = [this,file,cb]()
{
auto ai = unique_from_raw(m_afm->createReaderFor(file));
if (ai!=nullptr)
{
if (ai->numChannels > 32)
{
MessageManager::callAsync([cb,file](){ cb("Too many channels in file "+file.getFullPathName()); });
return;
}
if (ai->bitsPerSample>32)
{
MessageManager::callAsync([cb,file](){ cb("Too high bit depth in file "+file.getFullPathName()); });
return;
}
wavinfo.filename = file.getFullPathName();
wavinfo.samplerate = ai->sampleRate;
wavinfo.nsamples = ai->lengthInSamples;
m_stretch_source->setAudioFile(file);
MessageManager::callAsync([cb,file](){ cb(String()); });
/// if (process.transient.enable) {
/// pre_analyse_whole_audio(ai);
/// };
} else
{
wavinfo.filename="";
wavinfo.samplerate=0;
wavinfo.nsamples=0;
MessageManager::callAsync([cb,file](){ cb("Could not open file "+file.getFullPathName()); });
};
};
//std::thread th(task);
//th.detach();
task();
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};
String Control::get_input_filename(){
return wavinfo.filename;
};
String Control::get_stretch_info(Range<double> playrange)
{
double prate = m_stretch_source->getRate();
double realduration = m_stretch_source->getOutputDurationSecondsForRange(playrange, m_fft_size_to_use);
int64_t durintseconds = realduration;
int64_t durintminutes = realduration / 60.0;
int64_t durinthours = realduration / 3600.0;
int64_t durintdays = realduration / (3600 * 24.0);
String timestring;
if (durintminutes < 1)
timestring = String(realduration,3) +" seconds";
if (durintminutes >= 1 && durinthours < 1)
timestring = String(durintminutes) + " mins " + String(durintseconds % 60) + " secs";
if (durinthours >= 1 && durintdays < 1)
timestring = String(durinthours) + " hours " + String(durintminutes % 60) + " mins " + String(durintseconds % 60) + " secs";
if (durintdays >= 1)
timestring = String(durintdays) + " days " + String(durinthours % 24) + " hours " +
String(durintminutes % 60) + " mins ";
double fftwindowlenseconds = (double)m_fft_size_to_use / wavinfo.samplerate;
double fftwindowfreqresol = (double)wavinfo.samplerate / 2 / m_fft_size_to_use;
return "[Stretch " + String(prate, 1) + "x " + timestring + "] [FFT window "+String(fftwindowlenseconds,3)+" secs, frequency resolution "+
String(fftwindowfreqresol,3)+" Hz]";
#ifdef OLDSTRETCHINFO
const int size=200;
char tmp[size];tmp[size-1]=0;
if (wavinfo.nsamples==0) return "Stretch: ";
double realduration = m_stretch_source->getOutputDuration();
if (realduration>(365.25*86400.0*1.0e12)){//more than 1 trillion years
double duration=(realduration/(365.25*86400.0*1.0e12));//my
snprintf(tmp,size,"Stretch: %.7gx (%g trillion years)",process.stretch,duration);
return tmp;
};
if (realduration>(365.25*86400.0*1.0e9)){//more than 1 billion years
double duration=(realduration/(365.25*86400.0*1.0e9));//my
snprintf(tmp,size,"Stretch: %.7gx (%g billion years)",process.stretch,duration);
return tmp;
};
if (realduration>(365.25*86400.0*1.0e6)){//more than 1 million years
double duration=(realduration/(365.25*86400.0*1.0e6));//my
snprintf(tmp,size,"Stretch: %.7gx (%g million years)",process.stretch,duration);
return tmp;
};
if (realduration>(365.25*86400.0*2000.0)){//more than two millenniums
int duration=(int)(realduration/(365.25*86400.0));//years
int years=duration%1000;
int milleniums=duration/1000;
char stryears[size];stryears[0]=0;
if (years!=0){
if (years==1) snprintf(stryears,size," 1 year");
else snprintf(stryears,size," %d years",years);
};
snprintf(tmp,size,"Stretch: %.7gx (%d milleniums%s)",process.stretch,milleniums,stryears);
return tmp;
};
if (realduration>(365.25*86400.0)){//more than 1 year
int duration=(int) (realduration/3600.0);//hours
int hours=duration%24;
int days=(duration/24)%365;
int years=duration/(365*24);
char stryears[size];stryears[0]=0;
if (years==1) snprintf(stryears,size,"1 year ");
else snprintf(stryears,size,"%d years ",years);
char strdays[size];strdays[0]=0;
if (days>0){
if (days==1) snprintf(strdays,size,"1 day");
else snprintf(strdays,size,"%d days",days);
};
if (years>=10) hours=0;
char strhours[size];strhours[0]=0;
if (hours>0){
snprintf(strhours,size," %d h",hours);
};
snprintf(tmp,size,"Stretch: %.7gx (%s%s%s)",process.stretch,stryears,strdays,strhours);
return tmp;
}else{//less than 1 year
int duration=(int)(realduration);//seconds
char strdays[size];strdays[0]=0;
int days=duration/86400;
if (days>0){
if (days==1) snprintf(strdays,size,"1 day ");
else snprintf(strdays,size,"%d days ",duration/86400);
};
REALTYPE stretch=process.stretch;
if (stretch>=1.0){
stretch=((int) (stretch*100.0))*0.01;
};
snprintf(tmp,size,"Stretch: %.7gx (%s%.2d:%.2d:%.2d)",
stretch,strdays,(duration/3600)%24,(duration/60)%60,duration%60);
return tmp;
};
return "";
#endif
};
/*
string Control::get_fftresolution_info(){
string resolution="Resolution: ";
if (wavinfo.nsamples==0) return resolution;
//todo: unctime and uncfreq are correct computed? Need to check later.
REALTYPE unctime=process.bufsize/(REALTYPE)wavinfo.samplerate*sqrt(2.0);
REALTYPE uncfreq=1.0/unctime*sqrt(2.0);
char tmp[100];
snprintf(tmp,100,"%.5g seconds",unctime);resolution+=tmp;
snprintf(tmp,100," (%.5g Hz)",uncfreq);resolution+=tmp;
return resolution;
}
*/
double Control::getPreBufferingPercent()
{
if (m_buffering_source == nullptr)
return 0.0;
return m_buffering_source->getPercentReady();
}
void Control::startplay(bool /*bypass*/, bool /*realtime*/, Range<double> playrange, int numoutchans, String& err)
{
m_stretch_source->setPlayRange(playrange, m_stretch_source->isLoopingEnabled());
int bufamt = m_bufamounts[m_prebuffer_amount];
if (m_buffering_source != nullptr && numoutchans != m_buffering_source->getNumberOfChannels())
m_recreate_buffering_source = true;
if (m_recreate_buffering_source == true)
{
m_buffering_source = std::make_unique<MyBufferingAudioSource>(m_stretch_source.get(),
m_bufferingthread, false, bufamt, numoutchans, false);
m_recreate_buffering_source = false;
}
if (m_bufferingthread.isThreadRunning() == false)
m_bufferingthread.startThread();
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m_stretch_source->setNumOutChannels(numoutchans);
m_stretch_source->setFFTSize(m_fft_size_to_use);
update_process_parameters();
m_last_outpos_pos = 0.0;
m_last_in_pos = playrange.getStart()*m_stretch_source->getInfileLengthSeconds();
m_buffering_source->prepareToPlay(1024, 44100.0);
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// sleep(100);
// update_process_parameters();
};
void Control::stopplay()
{
//m_adm->removeAudioCallback(&m_test_callback);
m_bufferingthread.stopThread(1000);
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};
void Control::set_seek_pos(REALTYPE x)
{
seek_pos=x;
m_stretch_source->seekPercent(x);
};
REALTYPE Control::get_seek_pos()
{
return 0.0;
}
double Control::getLivePlayPosition()
{
#ifndef USEOLDPLAYCURSOR
double outpos = m_audiocallback.m_outpos;
double rate = 1.0 / m_stretch_source->getRate();
double outputdiff = (outpos - m_last_outpos_pos);
double fftlenseconds = (double)m_stretch_source->getFFTSize() / 44100.0;
//Logger::writeToLog("output diff " + String(outputdiff)+" fft len "+String(fftlenseconds));
//jassert(outputdiff >= 0.0 && outputdiff<0.5);
jassert(rate > 0.0);
double inlenseconds = m_stretch_source->getInfileLengthSeconds();
if (inlenseconds < 0.0001)
return 0.0;
double inposseconds = m_stretch_source->getInfilePositionSeconds();
double playposseconds = m_last_in_pos + (outputdiff*rate) - fftlenseconds;
if (outputdiff*rate >= fftlenseconds || outputdiff < 0.0001)
{
//Logger::writeToLog("juuh "+String(inposseconds));
m_last_in_pos = inposseconds;
m_last_outpos_pos = outpos;
return 1.0 / inlenseconds*(m_last_in_pos-fftlenseconds-getPreBufferAmountSeconds()*rate);
}
//Logger::writeToLog("jaah " + String(inposseconds));
return 1.0 / inlenseconds*(playposseconds-getPreBufferAmountSeconds()*rate);
#else
return m_stretch_source->getInfilePositionPercent();
#endif
}
bool Control::playing()
{
return false;
}
void Control::set_stretch_controls(double stretch_s,int mode,double fftsize_s,double onset_detection_sensitivity)
{
gui_sliders.stretch_s=stretch_s;
gui_sliders.mode_s=mode;
gui_sliders.fftsize_s=fftsize_s;
double stretch=1.0;
switch(mode){
case 0:
stretch_s=pow(stretch_s,1.2);
stretch=pow(10.0,stretch_s*4.0);
break;
case 1:
stretch_s=pow(stretch_s,1.5);
stretch=pow(10.0,stretch_s*18.0);
break;
case 2:
stretch=1.0/pow(10.0,stretch_s*2.0);
break;
};
fftsize_s=pow(fftsize_s,1.5);
int bufsize=(int)(pow(2.0,fftsize_s*12.0)*512.0);
bufsize=optimizebufsize(bufsize);
process.stretch=stretch;
process.bufsize=bufsize;
process.onset_detection_sensitivity=onset_detection_sensitivity;
};
double Control::get_stretch_control(double stretch,int mode)
{
double result=1.0;
switch(mode){
case 0:
if (stretch<1.0) return -1;
stretch=(log(stretch)/log(10))*0.25;
result=pow(stretch,1.0/1.2);
break;
case 1:
if (stretch<1.0) return -1;
stretch=(log(stretch)/log(10))/18.0;
result=pow(stretch,1.0/1.5);
break;
case 2:
if (stretch>1.0) return -1;
result=2.0/(log(stretch)/log(10));
break;
};
return result;
};
void Control::update_player_stretch()
{
return;
//player->setrap(process.stretch);
//player->set_onset_detection_sensitivity(process.onset_detection_sensitivity);
};
int abs_val(int x){
if (x<0) return -x;
else return x;
};
void Control::setPreBufferAmount(int x)
{
int temp = jlimit(0, 5, x);
if (temp != m_prebuffer_amount)
{
m_prebuffer_amount = temp;
m_recreate_buffering_source = true;
}
}
double Control::getPreBufferAmountSeconds()
{
return 1.0;
}
void Control::setAudioVisualizer(AudioVisualiserComponent * comp)
{
//m_audiocallback.m_aviscomponent = comp;
}
void Control::setOutputAudioFileToRecord(File f)
{
m_audio_out_file = f;
}
int Control::get_optimized_updown(int n,bool up){
int orig_n=n;
while(true){
n=orig_n;
while (!(n%11)) n/=11;
while (!(n%7)) n/=7;
while (!(n%5)) n/=5;
while (!(n%3)) n/=3;
while (!(n%2)) n/=2;
if (n<2) break;
if (up) orig_n++;
else orig_n--;
if (orig_n<4) return 4;
};
return orig_n;
};
int Control::optimizebufsize(int n){
int n1=get_optimized_updown(n,false);
int n2=get_optimized_updown(n,true);
if ((n-n1)<(n2-n)) return n1;
else return n2;
};
void Control::set_window_type(FFTWindow window){
window_type=window;
//if (player) player->set_window_type(window);
};
RenderInfoRef Control::Render2(RenderParameters renpars)
{
RenderInfoRef rinfo = std::make_shared<RenderInfo>();
auto bbparcopy = bbpar;
auto processcopy = process;
auto windowtypecopy = window_type;
auto pparcopy = ppar;
//auto volcopy = volume;
auto ratecopy = m_stretch_source->getRate();
auto fftsize = m_fft_size_to_use;
AudioFormatManager* afm = m_afm;
auto render_task = [rinfo,renpars,
bbparcopy, processcopy, windowtypecopy, pparcopy, fftsize,ratecopy,afm]()mutable->void
{
double t0 = Time::getMillisecondCounterHiRes();
if (renpars.pos2 < renpars.pos1)
std::swap(renpars.pos1, renpars.pos2);
if (renpars.pos2-renpars.pos1<0.0001)
renpars.pos2+=0.0001;
auto ai = std::make_unique<AInputS>(afm);
if (!ai->openAudioFile(renpars.inaudio))
{
rinfo->m_txt = "Error: Could not open audio file (or file format not recognized) :" + renpars.inaudio.getFileName();
return;
}
if (renpars.sampleRate == 0)
renpars.sampleRate = ai->info.samplerate;
WavAudioFormat audioformat;
renpars.outaudio = renpars.outaudio.getNonexistentSibling();
auto outstream = renpars.outaudio.createOutputStream();
int wavbits = 16;
if (renpars.wavformat == 1)
wavbits = 24;
if (renpars.wavformat == 2)
wavbits = 32;
renpars.numoutchans = jlimit(2, g_maxnumoutchans, renpars.numoutchans);
StringPairArray metadata;
metadata.set(WavAudioFormat::bwavOriginator,"PaulStretch3");
/*
metadata.set("NumCuePoints", "2");
metadata.set("Cue0Offset", "44100");
metadata.set("Cue0Identifier", "0");
metadata.set("Cue1Offset", "88200");
metadata.set("Cue1Identifier", "1");
*/
AudioFormatWriter* writer = audioformat.createWriterFor(outstream, renpars.sampleRate, renpars.numoutchans, wavbits,
metadata, 0);
if (writer == nullptr)
{
delete outstream;
rinfo->m_txt = "Could not create output file";
return;
}
auto stretchsource = std::make_unique<StretchAudioSource>(renpars.numoutchans,afm);
if (wavbits == 2)
stretchsource->setClippingEnabled(renpars.clipFloatOutput);
else stretchsource->setClippingEnabled(true);
stretchsource->setAudioFile(renpars.inaudio);
stretchsource->setPlayRange({renpars.pos1,renpars.pos2}, renpars.numLoops>0);
stretchsource->setRate(ratecopy);
stretchsource->val_MainVolume.setValue(renpars.voldb);
stretchsource->setNumOutChannels(renpars.numoutchans);
stretchsource->setProcessParameters(&pparcopy);
stretchsource->setFFTSize(fftsize);
int bufsize = 4096;
AudioBuffer<float> procbuf(renpars.numoutchans,bufsize);
AudioSourceChannelInfo asinfo(procbuf);
stretchsource->prepareToPlay(bufsize, renpars.sampleRate);
double render_time_limit = renpars.maxrenderlen;
int64_t outputsamplecount = 0;
int64_t outputlen = ai->info.samplerate*stretchsource->getOutputDurationSecondsForRange({ renpars.pos1,renpars.pos2 }, fftsize);
rinfo->m_progress_percent = 0.01;
stretchsource->setMaxLoops(renpars.numLoops);
while(outputsamplecount<render_time_limit*renpars.sampleRate)
{
if (rinfo->m_cancel == true)
{
rinfo->m_txt = "Cancelled";
break;
}
stretchsource->getNextAudioBlock(asinfo);
writer->writeFromAudioSampleBuffer(procbuf, 0, bufsize);
outputsamplecount +=bufsize;
rinfo->m_progress_percent = 1.0 / outputlen*outputsamplecount;
if (stretchsource->hasReachedEnd())
{
Logger::writeToLog("StretchSource has reached end");
break;
}
if (outputsamplecount>=render_time_limit*ai->info.samplerate)
{
rinfo->m_txt = "Render stopped at time limit";
break;
}
}
delete writer;
double t1 = Time::getMillisecondCounterHiRes();
if (rinfo->m_cancel == false)
{
rinfo->m_elapsed_time = t1 - t0;
if (rinfo->m_txt.isEmpty())
rinfo->m_txt = "Done in "+String((t1-t0)/1000.0,1)+" seconds";
}
else rinfo->m_txt = "Cancelled";
};
std::thread th([rinfo,render_task, renpars]()mutable
{
render_task();
MessageManager::callAsync([rinfo, renpars]()
{
renpars.completion_callback(rinfo);
});
});
th.detach();
return rinfo;
}
void Control::setPrebufferThreadPriority(int v)
{
m_prebufthreadprior = jlimit(4,6,v);
}
string Control::getfftsizestr(int fftsize){
const int size=100;
char tmp[size];tmp[size-1]=0;
if (fftsize<1024.0) snprintf(tmp,size-1,"%d",fftsize);
else if (fftsize<(1024.0*1024.0)) snprintf(tmp,size-1,"%.4gK",fftsize/1024.0);
else if (fftsize<(1024.0*1024.0*1024.0)) snprintf(tmp,size-1,"%.4gM",fftsize/(1024.0*1024.0));
else snprintf(tmp,size-1,"%.7gG",fftsize/(1024.0*1024.0*1024.0));
return tmp;
};
void Control::update_process_parameters()
{
m_stretch_source->setProcessParameters(&ppar);
//if (player)
// player->set_process_parameters(&ppar,&bbpar);
};
#endif