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Collection of tools useful for audio production
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Cadence/c++/carla-backend/rtaudio-4.0.11/tests/testall.cpp

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  1. /******************************************/

  2. /*

  3.   testall.cpp

  4.   by Gary P. Scavone, 2007-2008

  5. 

  6.   This program will make a variety of calls

  7.   to extensively test RtAudio functionality.

  8. */

  9. /******************************************/

  10. 

  11. #include "RtAudio.h"

  12. #include <iostream>

  13. #include <cstdlib>

  14. #include <cstring>

  15. 

  16. #define BASE_RATE 0.005

  17. #define TIME   1.0

  18. 

  19. void usage( void ) {

  20.   // Error function in case of incorrect command-line

  21.   // argument specifications

  22.   std::cout << "\nuseage: testall N fs <iDevice> <oDevice> <iChannelOffset> <oChannelOffset>\n";

  23.   std::cout << "    where N = number of channels,\n";

  24.   std::cout << "    fs = the sample rate,\n";

  25.   std::cout << "    iDevice = optional input device to use (default = 0),\n";

  26.   std::cout << "    oDevice = optional output device to use (default = 0),\n";

  27.   std::cout << "    iChannelOffset = an optional input channel offset (default = 0),\n";

  28.   std::cout << "    and oChannelOffset = optional output channel offset (default = 0).\n\n";

  29.   exit( 0 );

  30. }

  31. 

  32. unsigned int channels;

  33. 

  34. // Interleaved buffers

  35. int sawi( void *outputBuffer, void *inputBuffer, unsigned int nBufferFrames,

  36.           double streamTime, RtAudioStreamStatus status, void *data )

  37. {

  38.   unsigned int i, j;

  39.   extern unsigned int channels;

  40.   double *buffer = (double *) outputBuffer;

  41.   double *lastValues = (double *) data;

  42. 

  43.   if ( status )

  44.     std::cout << "Stream underflow detected!" << std::endl;

  45. 

  46.   for ( i=0; i<nBufferFrames; i++ ) {

  47.     for ( j=0; j<channels; j++ ) {

  48.       *buffer++ = (double) lastValues[j];

  49.       lastValues[j] += BASE_RATE * (j+1+(j*0.1));

  50.       if ( lastValues[j] >= 1.0 ) lastValues[j] -= 2.0;

  51.     }

  52.   }

  53. 

  54.   return 0;

  55. }

  56. 

  57. // Non-interleaved buffers

  58. int sawni( void *outputBuffer, void *inputBuffer, unsigned int nBufferFrames,

  59.            double streamTime, RtAudioStreamStatus status, void *data )

  60. {

  61.   unsigned int i, j;

  62.   extern unsigned int channels;

  63.   double *buffer = (double *) outputBuffer;

  64.   double *lastValues = (double *) data;

  65. 

  66.   if ( status )

  67.     std::cout << "Stream underflow detected!" << std::endl;

  68. 

  69.   float increment;

  70.   for ( j=0; j<channels; j++ ) {

  71.     increment = BASE_RATE * (j+1+(j*0.1));

  72.     for ( i=0; i<nBufferFrames; i++ ) {

  73.       *buffer++ = (double) lastValues[j];

  74.       lastValues[j] += increment;

  75.       if ( lastValues[j] >= 1.0 ) lastValues[j] -= 2.0;

  76.     }

  77.   }

  78. 

  79.   return 0;

  80. }

  81. 

  82. int inout( void *outputBuffer, void *inputBuffer, unsigned int nBufferFrames,

  83.            double streamTime, RtAudioStreamStatus status, void *data )

  84. {

  85.   // Since the number of input and output channels is equal, we can do

  86.   // a simple buffer copy operation here.

  87.   if ( status ) std::cout << "Stream over/underflow detected." << std::endl;

  88. 

  89.   unsigned int *bytes = (unsigned int *) data;

  90.   memcpy( outputBuffer, inputBuffer, *bytes );

  91.   return 0;

  92. }

  93. 

  94. int main( int argc, char *argv[] )

  95. {

  96.   unsigned int bufferFrames, fs, oDevice = 0, iDevice = 0, iOffset = 0, oOffset = 0;

  97.   char input;

  98. 

  99.   // minimal command-line checking

  100.   if (argc < 3 || argc > 7 ) usage();

  101. 

  102.   RtAudio dac;

  103.   if ( dac.getDeviceCount() < 1 ) {

  104.     std::cout << "\nNo audio devices found!\n";

  105.     exit( 1 );

  106.   }

  107. 

  108.   channels = (unsigned int) atoi( argv[1] );

  109.   fs = (unsigned int) atoi( argv[2] );

  110.   if ( argc > 3 )

  111.     iDevice = (unsigned int) atoi( argv[3] );

  112.   if ( argc > 4 )

  113.     oDevice = (unsigned int) atoi(argv[4]);

  114.   if ( argc > 5 )

  115.     iOffset = (unsigned int) atoi(argv[5]);

  116.   if ( argc > 6 )

  117.     oOffset = (unsigned int) atoi(argv[6]);

  118. 

  119.   double *data = (double *) calloc( channels, sizeof( double ) );

  120. 

  121.   // Let RtAudio print messages to stderr.

  122.   dac.showWarnings( true );

  123. 

  124.   // Set our stream parameters for output only.

  125.   bufferFrames = 512;

  126.   RtAudio::StreamParameters oParams, iParams;

  127.   oParams.deviceId = oDevice;

  128.   oParams.nChannels = channels;

  129.   oParams.firstChannel = oOffset;

  130. 

  131.   RtAudio::StreamOptions options;

  132.   options.flags = RTAUDIO_HOG_DEVICE;

  133.   try {

  134.     dac.openStream( &oParams, NULL, RTAUDIO_FLOAT64, fs, &bufferFrames, &sawi, (void *)data, &options );

  135.     std::cout << "\nStream latency = " << dac.getStreamLatency() << std::endl;

  136. 

  137.     // Start the stream

  138.     dac.startStream();

  139.     std::cout << "\nPlaying ... press <enter> to stop.\n";

  140.     std::cin.get( input );

  141. 

  142.     // Stop the stream

  143.     dac.stopStream();

  144. 

  145.     // Restart again

  146.     std::cout << "Press <enter> to restart.\n";

  147.     std::cin.get( input );

  148.     dac.startStream();

  149. 

  150.     // Test abort function

  151.     std::cout << "Playing again ... press <enter> to abort.\n";

  152.     std::cin.get( input );

  153.     dac.abortStream();

  154. 

  155.     // Restart another time

  156.     std::cout << "Press <enter> to restart again.\n";

  157.     std::cin.get( input );

  158.     dac.startStream();

  159. 

  160.     std::cout << "Playing again ... press <enter> to close the stream.\n";

  161.     std::cin.get( input );

  162.   }

  163.   catch ( RtError& e ) {

  164.     e.printMessage();

  165.     goto cleanup;

  166.   }

  167. 

  168.   if ( dac.isStreamOpen() ) dac.closeStream();

  169. 

  170.   // Test non-interleaved functionality

  171.   options.flags = RTAUDIO_NONINTERLEAVED;

  172.   try {

  173.     dac.openStream( &oParams, NULL, RTAUDIO_FLOAT64, fs, &bufferFrames, &sawni, (void *)data, &options );

  174. 

  175.     std::cout << "Press <enter> to start non-interleaved playback.\n";

  176.     std::cin.get( input );

  177. 

  178.     // Start the stream

  179.     dac.startStream();

  180.     std::cout << "\nPlaying ... press <enter> to stop.\n";

  181.     std::cin.get( input );

  182.   }

  183.   catch ( RtError& e ) {

  184.     e.printMessage();

  185.     goto cleanup;

  186.   }

  187. 

  188.   if ( dac.isStreamOpen() ) dac.closeStream();

  189. 

  190.   // Now open a duplex stream.

  191.   unsigned int bufferBytes;

  192.   iParams.deviceId = iDevice;

  193.   iParams.nChannels = channels;

  194.   iParams.firstChannel = iOffset;

  195.   options.flags = RTAUDIO_NONINTERLEAVED;

  196.   try {

  197.     dac.openStream( &oParams, &iParams, RTAUDIO_SINT32, fs, &bufferFrames, &inout, (void *)&bufferBytes, &options );

  198. 

  199.     bufferBytes = bufferFrames * channels * 4;

  200. 

  201.     std::cout << "Press <enter> to start duplex operation.\n";

  202.     std::cin.get( input );

  203. 

  204.     // Start the stream

  205.     dac.startStream();

  206.     std::cout << "\nRunning ... press <enter> to stop.\n";

  207.     std::cin.get( input );

  208. 

  209.     // Stop the stream

  210.     dac.stopStream();

  211.     std::cout << "\nStopped ... press <enter> to restart.\n";

  212.     std::cin.get( input );

  213. 

  214.     // Restart the stream

  215.     dac.startStream();

  216.     std::cout << "\nRunning ... press <enter> to stop.\n";

  217.     std::cin.get( input );

  218.   }

  219.   catch ( RtError& e ) {

  220.     e.printMessage();

  221.   }

  222. 

  223.  cleanup:

  224.   if ( dac.isStreamOpen() ) dac.closeStream();

  225.   free( data );

  226. 

  227.   return 0;

  228. }