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- /******************************************/
- /*
- testall.cpp
- by Gary P. Scavone, 2007-2008
-
- This program will make a variety of calls
- to extensively test RtAudio functionality.
- */
- /******************************************/
-
- #include "RtAudio.h"
- #include <iostream>
- #include <cstdlib>
- #include <cstring>
-
- #define BASE_RATE 0.005
- #define TIME 1.0
-
- void usage( void ) {
- // Error function in case of incorrect command-line
- // argument specifications
- std::cout << "\nuseage: testall N fs <iDevice> <oDevice> <iChannelOffset> <oChannelOffset>\n";
- std::cout << " where N = number of channels,\n";
- std::cout << " fs = the sample rate,\n";
- std::cout << " iDevice = optional input device to use (default = 0),\n";
- std::cout << " oDevice = optional output device to use (default = 0),\n";
- std::cout << " iChannelOffset = an optional input channel offset (default = 0),\n";
- std::cout << " and oChannelOffset = optional output channel offset (default = 0).\n\n";
- exit( 0 );
- }
-
- unsigned int channels;
-
- // Interleaved buffers
- int sawi( void *outputBuffer, void *inputBuffer, unsigned int nBufferFrames,
- double streamTime, RtAudioStreamStatus status, void *data )
- {
- unsigned int i, j;
- extern unsigned int channels;
- double *buffer = (double *) outputBuffer;
- double *lastValues = (double *) data;
-
- if ( status )
- std::cout << "Stream underflow detected!" << std::endl;
-
- for ( i=0; i<nBufferFrames; i++ ) {
- for ( j=0; j<channels; j++ ) {
- *buffer++ = (double) lastValues[j];
- lastValues[j] += BASE_RATE * (j+1+(j*0.1));
- if ( lastValues[j] >= 1.0 ) lastValues[j] -= 2.0;
- }
- }
-
- return 0;
- }
-
- // Non-interleaved buffers
- int sawni( void *outputBuffer, void *inputBuffer, unsigned int nBufferFrames,
- double streamTime, RtAudioStreamStatus status, void *data )
- {
- unsigned int i, j;
- extern unsigned int channels;
- double *buffer = (double *) outputBuffer;
- double *lastValues = (double *) data;
-
- if ( status )
- std::cout << "Stream underflow detected!" << std::endl;
-
- float increment;
- for ( j=0; j<channels; j++ ) {
- increment = BASE_RATE * (j+1+(j*0.1));
- for ( i=0; i<nBufferFrames; i++ ) {
- *buffer++ = (double) lastValues[j];
- lastValues[j] += increment;
- if ( lastValues[j] >= 1.0 ) lastValues[j] -= 2.0;
- }
- }
-
- return 0;
- }
-
- int inout( void *outputBuffer, void *inputBuffer, unsigned int nBufferFrames,
- double streamTime, RtAudioStreamStatus status, void *data )
- {
- // Since the number of input and output channels is equal, we can do
- // a simple buffer copy operation here.
- if ( status ) std::cout << "Stream over/underflow detected." << std::endl;
-
- unsigned int *bytes = (unsigned int *) data;
- memcpy( outputBuffer, inputBuffer, *bytes );
- return 0;
- }
-
- int main( int argc, char *argv[] )
- {
- unsigned int bufferFrames, fs, oDevice = 0, iDevice = 0, iOffset = 0, oOffset = 0;
- char input;
-
- // minimal command-line checking
- if (argc < 3 || argc > 7 ) usage();
-
- RtAudio dac;
- if ( dac.getDeviceCount() < 1 ) {
- std::cout << "\nNo audio devices found!\n";
- exit( 1 );
- }
-
- channels = (unsigned int) atoi( argv[1] );
- fs = (unsigned int) atoi( argv[2] );
- if ( argc > 3 )
- iDevice = (unsigned int) atoi( argv[3] );
- if ( argc > 4 )
- oDevice = (unsigned int) atoi(argv[4]);
- if ( argc > 5 )
- iOffset = (unsigned int) atoi(argv[5]);
- if ( argc > 6 )
- oOffset = (unsigned int) atoi(argv[6]);
-
- double *data = (double *) calloc( channels, sizeof( double ) );
-
- // Let RtAudio print messages to stderr.
- dac.showWarnings( true );
-
- // Set our stream parameters for output only.
- bufferFrames = 512;
- RtAudio::StreamParameters oParams, iParams;
- oParams.deviceId = oDevice;
- oParams.nChannels = channels;
- oParams.firstChannel = oOffset;
-
- RtAudio::StreamOptions options;
- options.flags = RTAUDIO_HOG_DEVICE;
- try {
- dac.openStream( &oParams, NULL, RTAUDIO_FLOAT64, fs, &bufferFrames, &sawi, (void *)data, &options );
- std::cout << "\nStream latency = " << dac.getStreamLatency() << std::endl;
-
- // Start the stream
- dac.startStream();
- std::cout << "\nPlaying ... press <enter> to stop.\n";
- std::cin.get( input );
-
- // Stop the stream
- dac.stopStream();
-
- // Restart again
- std::cout << "Press <enter> to restart.\n";
- std::cin.get( input );
- dac.startStream();
-
- // Test abort function
- std::cout << "Playing again ... press <enter> to abort.\n";
- std::cin.get( input );
- dac.abortStream();
-
- // Restart another time
- std::cout << "Press <enter> to restart again.\n";
- std::cin.get( input );
- dac.startStream();
-
- std::cout << "Playing again ... press <enter> to close the stream.\n";
- std::cin.get( input );
- }
- catch ( RtError& e ) {
- e.printMessage();
- goto cleanup;
- }
-
- if ( dac.isStreamOpen() ) dac.closeStream();
-
- // Test non-interleaved functionality
- options.flags = RTAUDIO_NONINTERLEAVED;
- try {
- dac.openStream( &oParams, NULL, RTAUDIO_FLOAT64, fs, &bufferFrames, &sawni, (void *)data, &options );
-
- std::cout << "Press <enter> to start non-interleaved playback.\n";
- std::cin.get( input );
-
- // Start the stream
- dac.startStream();
- std::cout << "\nPlaying ... press <enter> to stop.\n";
- std::cin.get( input );
- }
- catch ( RtError& e ) {
- e.printMessage();
- goto cleanup;
- }
-
- if ( dac.isStreamOpen() ) dac.closeStream();
-
- // Now open a duplex stream.
- unsigned int bufferBytes;
- iParams.deviceId = iDevice;
- iParams.nChannels = channels;
- iParams.firstChannel = iOffset;
- options.flags = RTAUDIO_NONINTERLEAVED;
- try {
- dac.openStream( &oParams, &iParams, RTAUDIO_SINT32, fs, &bufferFrames, &inout, (void *)&bufferBytes, &options );
-
- bufferBytes = bufferFrames * channels * 4;
-
- std::cout << "Press <enter> to start duplex operation.\n";
- std::cin.get( input );
-
- // Start the stream
- dac.startStream();
- std::cout << "\nRunning ... press <enter> to stop.\n";
- std::cin.get( input );
-
- // Stop the stream
- dac.stopStream();
- std::cout << "\nStopped ... press <enter> to restart.\n";
- std::cin.get( input );
-
- // Restart the stream
- dac.startStream();
- std::cout << "\nRunning ... press <enter> to stop.\n";
- std::cin.get( input );
- }
- catch ( RtError& e ) {
- e.printMessage();
- }
-
- cleanup:
- if ( dac.isStreamOpen() ) dac.closeStream();
- free( data );
-
- return 0;
- }
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