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jack2/common/JackAudioAdapterInterface.cpp

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  1. /*

  2. Copyright (C) 2008 Grame

  3. 

  4. This program is free software; you can redistribute it and/or modify

  5. it under the terms of the GNU General Public License as published by

  6. the Free Software Foundation; either version 2 of the License, or

  7. (at your option) any later version.

  8. 

  9. This program is distributed in the hope that it will be useful,

  10. but WITHOUT ANY WARRANTY; without even the implied warranty of

  11. MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

  12. GNU General Public License for more details.

  13. 

  14. You should have received a copy of the GNU General Public License

  15. along with this program; if not, write to the Free Software

  16. Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.

  17. 

  18. */

  19. 

  20. #include "JackAudioAdapter.h"

  21. #include "JackLibSampleRateResampler.h"

  22. #include "JackTime.h"  

  23. #include <stdio.h>

  24. 

  25. namespace Jack

  26. {

  27. 

  28. #ifdef JACK_MONITOR

  29. 

  30.     void MeasureTable::Write(int time1, int time2, float r1, float r2, int pos1, int pos2)

  31.     {

  32.         int pos = (++fCount) % TABLE_MAX;

  33.         fTable[pos].time1 = time1;

  34.         fTable[pos].time2 = time2;

  35.         fTable[pos].r1 = r1;

  36.         fTable[pos].r2 = r2;

  37.         fTable[pos].pos1 = pos1;

  38.         fTable[pos].pos2 = pos2;

  39.     }

  40. 

  41.     void MeasureTable::Save(unsigned int fHostBufferSize, unsigned int fHostSampleRate, unsigned int fAdaptedSampleRate, unsigned int fAdaptedBufferSize)

  42.     {

  43.         char buffer[1024];

  44.         FILE* file = fopen("JackAudioAdapter.log", "w");

  45. 

  46.         int max = (fCount) % TABLE_MAX - 1;

  47.         for (int i = 1; i < max; i++)

  48.         {

  49.             fprintf(file, "%d \t %d \t %d  \t %f \t %f \t %d \t %d \n",

  50.                     fTable[i].delta, fTable[i].time1, fTable[i].time2,

  51.                     fTable[i].r1, fTable[i].r2, fTable[i].pos1, fTable[i].pos2);

  52.         }

  53.         fclose(file);

  54. 

  55.         // No used for now

  56.         // Adapter timing 1

  57.         file = fopen("AdapterTiming1.plot", "w");

  58.         fprintf(file, "set multiplot\n");

  59.         fprintf(file, "set grid\n");

  60.         fprintf(file, "set title \"Audio adapter timing: host [rate = %.1f kHz buffer = %d frames] adapter [rate = %.1f kHz buffer = %d frames] \"\n"

  61.             ,float(fHostSampleRate)/1000.f, fHostBufferSize, float(fAdaptedSampleRate)/1000.f, fAdaptedBufferSize);

  62.         fprintf(file, "set xlabel \"audio cycles\"\n");

  63.         fprintf(file, "set ylabel \"frames\"\n");

  64.         fprintf(file, "plot ");

  65.         sprintf(buffer, "\"JackAudioAdapter.log\" using 2 title \"Ringbuffer error\" with lines,");

  66.         fprintf(file, buffer);

  67.         sprintf(buffer, "\"JackAudioAdapter.log\" using 3 title \"Ringbuffer error with timing correction\" with lines");

  68.         fprintf(file, buffer);

  69.         

  70.         fprintf(file, "\n unset multiplot\n");  

  71.         fprintf(file, "set output 'AdapterTiming1.pdf\n");

  72.         fprintf(file, "set terminal pdf\n");

  73.         

  74.         fprintf(file, "set multiplot\n");

  75.         fprintf(file, "set grid\n");

  76.         fprintf(file, "set title \"Audio adapter timing\"\n");

  77.         fprintf(file, "set xlabel \"audio cycles\"\n");

  78.         fprintf(file, "set ylabel \"frames\"\n");

  79.         fprintf(file, "plot ");

  80.         sprintf(buffer, "\"JackAudioAdapter.log\" using 2 title \"Consumer interrupt period\" with lines,");

  81.         fprintf(file, buffer);

  82.         sprintf(buffer, "\"JackAudioAdapter.log\" using 3 title \"Producer interrupt period\" with lines");

  83.         fprintf(file, buffer);

  84.         

  85.         fclose(file);

  86.    

  87.         // Adapter timing 2

  88.         file = fopen("AdapterTiming2.plot", "w");

  89.         fprintf(file, "set multiplot\n");

  90.         fprintf(file, "set grid\n");

  91.         fprintf(file, "set title \"Audio adapter timing: host [rate = %.1f kHz buffer = %d frames] adapter [rate = %.1f kHz buffer = %d frames] \"\n"

  92.             ,float(fHostSampleRate)/1000.f, fHostBufferSize, float(fAdaptedSampleRate)/1000.f, fAdaptedBufferSize);

  93.         fprintf(file, "set xlabel \"audio cycles\"\n");

  94.         fprintf(file, "set ylabel \"resampling ratio\"\n");

  95.         fprintf(file, "plot ");

  96.         sprintf(buffer, "\"JackAudioAdapter.log\" using 4 title \"Ratio 1\" with lines,");

  97.         fprintf(file, buffer);

  98.         sprintf(buffer, "\"JackAudioAdapter.log\" using 5 title \"Ratio 2\" with lines");

  99.         fprintf(file, buffer);

  100.         

  101.         fprintf(file, "\n unset multiplot\n");  

  102.         fprintf(file, "set output 'AdapterTiming2.pdf\n");

  103.         fprintf(file, "set terminal pdf\n");

  104.         

  105.         fprintf(file, "set multiplot\n");

  106.         fprintf(file, "set grid\n");

  107.         fprintf(file, "set title \"Audio adapter timing\"\n");

  108.         fprintf(file, "set xlabel \"audio cycles\"\n");

  109.         fprintf(file, "set ylabel \"resampling ratio\"\n");

  110.         fprintf(file, "plot ");

  111.         sprintf(buffer, "\"JackAudioAdapter.log\" using 4 title \"Ratio 1\" with lines,");

  112.         fprintf(file, buffer);

  113.         sprintf(buffer, "\"JackAudioAdapter.log\" using 5 title \"Ratio 2\" with lines");

  114.         fprintf(file, buffer);

  115.         

  116.         fclose(file);

  117. 

  118.         // Adapter timing 3

  119.         file = fopen("AdapterTiming3.plot", "w");

  120.         fprintf(file, "set multiplot\n");

  121.         fprintf(file, "set grid\n");

  122.         fprintf(file, "set title \"Audio adapter timing: host [rate = %.1f kHz buffer = %d frames] adapter [rate = %.1f kHz buffer = %d frames] \"\n"

  123.             ,float(fHostSampleRate)/1000.f, fHostBufferSize, float(fAdaptedSampleRate)/1000.f, fAdaptedBufferSize);

  124.          fprintf(file, "set xlabel \"audio cycles\"\n");

  125.         fprintf(file, "set ylabel \"frames\"\n");

  126.         fprintf(file, "plot ");

  127.         sprintf(buffer, "\"JackAudioAdapter.log\" using 6 title \"Frames position in consumer ringbuffer\" with lines,");

  128.         fprintf(file, buffer);

  129.         sprintf(buffer, "\"JackAudioAdapter.log\" using 7 title \"Frames position in producer ringbuffer\" with lines");

  130.         fprintf(file, buffer);

  131.         

  132.         fprintf(file, "\n unset multiplot\n");  

  133.         fprintf(file, "set output 'AdapterTiming3.pdf\n");

  134.         fprintf(file, "set terminal pdf\n");

  135.         

  136.         fprintf(file, "set multiplot\n");

  137.         fprintf(file, "set grid\n");

  138.         fprintf(file, "set title \"Audio adapter timing\"\n");

  139.         fprintf(file, "set xlabel \"audio cycles\"\n");

  140.         fprintf(file, "set ylabel \"frames\"\n");

  141.         fprintf(file, "plot ");

  142.         sprintf(buffer, "\"JackAudioAdapter.log\" using 6 title \"Frames position in consumer ringbuffer\" with lines,");

  143.         fprintf(file, buffer);

  144.         sprintf(buffer, "\"JackAudioAdapter.log\" using 7 title \"Frames position in producer ringbuffer\" with lines");

  145.         fprintf(file, buffer);

  146.         

  147.         fclose(file);

  148.     }

  149. 

  150. #endif

  151. 

  152.     void JackAudioAdapterInterface::GrowRingBufferSize()

  153.     {

  154.         fRingbufferCurSize *= 2;

  155.     }

  156.     

  157.     void JackAudioAdapterInterface::AdaptRingBufferSize()

  158.     {

  159.         if (fHostBufferSize > fAdaptedBufferSize)

  160.             fRingbufferCurSize = 4 * fHostBufferSize;

  161.         else 

  162.             fRingbufferCurSize = 4 * fAdaptedBufferSize;

  163.     }

  164.         

  165.     void JackAudioAdapterInterface::ResetRingBuffers()

  166.     {

  167.         if (fRingbufferCurSize > DEFAULT_RB_SIZE) 

  168.             fRingbufferCurSize = DEFAULT_RB_SIZE;

  169.         

  170.         for (int i = 0; i < fCaptureChannels; i++)

  171.             fCaptureRingBuffer[i]->Reset(fRingbufferCurSize);

  172.         for (int i = 0; i < fPlaybackChannels; i++)

  173.             fPlaybackRingBuffer[i]->Reset(fRingbufferCurSize);

  174.     }

  175.     

  176.     void JackAudioAdapterInterface::Reset()

  177.     {

  178.         ResetRingBuffers();

  179.         fRunning = false;

  180.     }

  181. 

  182.     void JackAudioAdapterInterface::Create()

  183.     {

  184.         //ringbuffers

  185.         fCaptureRingBuffer = new JackResampler*[fCaptureChannels];

  186.         fPlaybackRingBuffer = new JackResampler*[fPlaybackChannels];

  187.         

  188.         if (fAdaptative) {

  189.             AdaptRingBufferSize();

  190.             jack_info("Ringbuffer automatic adaptative mode size = %d frames", fRingbufferCurSize);

  191.         } else {

  192.             if (fRingbufferCurSize > DEFAULT_RB_SIZE) 

  193.                 fRingbufferCurSize = DEFAULT_RB_SIZE;

  194.             jack_info("Fixed ringbuffer size = %d frames", fRingbufferCurSize);

  195.         }

  196.         

  197.         for (int i = 0; i < fCaptureChannels; i++ ) {

  198.             fCaptureRingBuffer[i] = new JackLibSampleRateResampler(fQuality);

  199.             fCaptureRingBuffer[i]->Reset(fRingbufferCurSize);

  200.         }

  201.         for (int i = 0; i < fPlaybackChannels; i++ ) {

  202.             fPlaybackRingBuffer[i] = new JackLibSampleRateResampler(fQuality);

  203.             fPlaybackRingBuffer[i]->Reset(fRingbufferCurSize);

  204.         }

  205.      

  206.         if (fCaptureChannels > 0)

  207.             jack_log("ReadSpace = %ld", fCaptureRingBuffer[0]->ReadSpace());

  208.         if (fPlaybackChannels > 0)

  209.             jack_log("WriteSpace = %ld", fPlaybackRingBuffer[0]->WriteSpace());

  210.     }

  211. 

  212.     void JackAudioAdapterInterface::Destroy()

  213.     {

  214.         for (int i = 0; i < fCaptureChannels; i++ )

  215.             delete ( fCaptureRingBuffer[i] );

  216.         for (int i = 0; i < fPlaybackChannels; i++ )

  217.             delete ( fPlaybackRingBuffer[i] );

  218. 

  219.         delete[] fCaptureRingBuffer;

  220.         delete[] fPlaybackRingBuffer;

  221.     }

  222.     

  223.     int JackAudioAdapterInterface::PushAndPull(float** inputBuffer, float** outputBuffer, unsigned int frames)

  224.     {

  225.         bool failure = false;

  226.         fRunning = true;

  227.    

  228.         // Finer estimation of the position in the ringbuffer

  229.         int delta_frames = (fPullAndPushTime > 0) ? (int)((float(long(GetMicroSeconds() - fPullAndPushTime)) * float(fAdaptedSampleRate)) / 1000000.f) : 0;

  230.         double ratio = fPIControler.GetRatio(fCaptureRingBuffer[0]->GetError() - delta_frames);

  231.         

  232.     #ifdef JACK_MONITOR

  233.         fTable.Write(fCaptureRingBuffer[0]->GetError(), fCaptureRingBuffer[0]->GetError() - delta_frames, ratio, 1/ratio, fCaptureRingBuffer[0]->ReadSpace(), fCaptureRingBuffer[0]->ReadSpace());

  234.     #endif

  235.     

  236.         // Push/pull from ringbuffer

  237.         for (int i = 0; i < fCaptureChannels; i++) {

  238.             fCaptureRingBuffer[i]->SetRatio(ratio);

  239.             if (fCaptureRingBuffer[i]->WriteResample(inputBuffer[i], frames) < frames)

  240.                 failure = true;

  241.         }

  242. 

  243.         for (int i = 0; i < fPlaybackChannels; i++) {

  244.             fPlaybackRingBuffer[i]->SetRatio(1/ratio);

  245.             if (fPlaybackRingBuffer[i]->ReadResample(outputBuffer[i], frames) < frames)

  246.                  failure = true;

  247.         }

  248.         // Reset all ringbuffers in case of failure

  249.         if (failure) {

  250.             jack_error("JackAudioAdapterInterface::PushAndPull ringbuffer failure... reset");

  251.             if (fAdaptative) {

  252.                 GrowRingBufferSize();

  253.                 jack_info("Ringbuffer size = %d frames", fRingbufferCurSize);

  254.             }

  255.             ResetRingBuffers();

  256.             return -1;

  257.         } else {

  258.             return 0;

  259.         }

  260.     }

  261. 

  262.     int JackAudioAdapterInterface::PullAndPush(float** inputBuffer, float** outputBuffer, unsigned int frames) 

  263.     {

  264.         fPullAndPushTime = GetMicroSeconds();

  265. 	if (!fRunning)

  266. 	    return 0;

  267. 

  268. 	int res = 0;

  269.     

  270.         // Push/pull from ringbuffer

  271.         for (int i = 0; i < fCaptureChannels; i++) {

  272.             if (fCaptureRingBuffer[i]->Read(inputBuffer[i], frames) < frames)

  273.                 res = -1;

  274.         }

  275. 

  276.         for (int i = 0; i < fPlaybackChannels; i++) {

  277.             if (fPlaybackRingBuffer[i]->Write(outputBuffer[i], frames) < frames)

  278.                 res = -1;

  279.         }

  280.         

  281.         return res;

  282.     }

  283.  

  284. } // namespace