From 37c97e345d12f95dde44e1d1a4c2f2aadd4615bc Mon Sep 17 00:00:00 2001 From: sanine Date: Thu, 25 Aug 2022 14:54:53 -0500 Subject: add initial structure --- .../jportaudio/jtests/com/portaudio/PlaySine.java | 89 ++++ .../jportaudio/jtests/com/portaudio/TestBasic.java | 523 +++++++++++++++++++++ 2 files changed, 612 insertions(+) create mode 100644 portaudio/bindings/java/jportaudio/jtests/com/portaudio/PlaySine.java create mode 100644 portaudio/bindings/java/jportaudio/jtests/com/portaudio/TestBasic.java (limited to 'portaudio/bindings/java/jportaudio/jtests') diff --git a/portaudio/bindings/java/jportaudio/jtests/com/portaudio/PlaySine.java b/portaudio/bindings/java/jportaudio/jtests/com/portaudio/PlaySine.java new file mode 100644 index 0000000..ec2cb97 --- /dev/null +++ b/portaudio/bindings/java/jportaudio/jtests/com/portaudio/PlaySine.java @@ -0,0 +1,89 @@ + +/** @file + @ingroup bindings_java + + @brief Example that shows how to play sine waves using JPortAudio. +*/ +package com.portaudio; + +import com.portaudio.TestBasic.SineOscillator; + +public class PlaySine +{ + /** + * Write a sine wave to the stream. + * @param stream + * @param framesPerBuffer + * @param numFrames + * @param sampleRate + */ + private void writeSineData( BlockingStream stream, int framesPerBuffer, + int numFrames, int sampleRate ) + { + float[] buffer = new float[framesPerBuffer * 2]; + SineOscillator osc1 = new SineOscillator( 200.0, sampleRate ); + SineOscillator osc2 = new SineOscillator( 300.0, sampleRate ); + int framesLeft = numFrames; + while( framesLeft > 0 ) + { + int index = 0; + int framesToWrite = (framesLeft > framesPerBuffer) ? framesPerBuffer + : framesLeft; + for( int j = 0; j < framesToWrite; j++ ) + { + buffer[index++] = (float) osc1.next(); + buffer[index++] = (float) osc2.next(); + } + stream.write( buffer, framesToWrite ); + framesLeft -= framesToWrite; + } + } + + /** + * Create a stream on the default device then play sine waves. + */ + public void play() + { + PortAudio.initialize(); + + // Get the default device and setup the stream parameters. + int deviceId = PortAudio.getDefaultOutputDevice(); + DeviceInfo deviceInfo = PortAudio.getDeviceInfo( deviceId ); + double sampleRate = deviceInfo.defaultSampleRate; + System.out.println( " deviceId = " + deviceId ); + System.out.println( " sampleRate = " + sampleRate ); + System.out.println( " device name = " + deviceInfo.name ); + + StreamParameters streamParameters = new StreamParameters(); + streamParameters.channelCount = 2; + streamParameters.device = deviceId; + streamParameters.suggestedLatency = deviceInfo.defaultLowOutputLatency; + System.out.println( " suggestedLatency = " + + streamParameters.suggestedLatency ); + + int framesPerBuffer = 256; + int flags = 0; + + // Open a stream for output. + BlockingStream stream = PortAudio.openStream( null, streamParameters, + (int) sampleRate, framesPerBuffer, flags ); + + int numFrames = (int) (sampleRate * 4); // enough for 4 seconds + + stream.start(); + + writeSineData( stream, framesPerBuffer, numFrames, (int) sampleRate ); + + stream.stop(); + stream.close(); + + PortAudio.terminate(); + System.out.println( "JPortAudio test complete." ); + } + + public static void main( String[] args ) + { + PlaySine player = new PlaySine(); + player.play(); + } +} diff --git a/portaudio/bindings/java/jportaudio/jtests/com/portaudio/TestBasic.java b/portaudio/bindings/java/jportaudio/jtests/com/portaudio/TestBasic.java new file mode 100644 index 0000000..43b8fa7 --- /dev/null +++ b/portaudio/bindings/java/jportaudio/jtests/com/portaudio/TestBasic.java @@ -0,0 +1,523 @@ +/* + * Portable Audio I/O Library + * Java Binding for PortAudio + * + * Based on the Open Source API proposed by Ross Bencina + * Copyright (c) 2008 Ross Bencina + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files + * (the "Software"), to deal in the Software without restriction, + * including without limitation the rights to use, copy, modify, merge, + * publish, distribute, sublicense, and/or sell copies of the Software, + * and to permit persons to whom the Software is furnished to do so, + * subject to the following conditions: + * + * The above copyright notice and this permission notice shall be + * included in all copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF + * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. + * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR + * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF + * CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION + * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + */ + +/* + * The text above constitutes the entire PortAudio license; however, + * the PortAudio community also makes the following non-binding requests: + * + * Any person wishing to distribute modifications to the Software is + * requested to send the modifications to the original developer so that + * they can be incorporated into the canonical version. It is also + * requested that these non-binding requests be included along with the + * license above. + */ + +package com.portaudio; + +import junit.framework.TestCase; + +/** + * Test the Java bindings for PortAudio. + * + * @author Phil Burk + * + */ +public class TestBasic extends TestCase +{ + + public void testDeviceCount() + { + PortAudio.initialize(); + assertTrue( "version invalid", (PortAudio.getVersion() > 0) ); + System.out.println( "getVersion = " + PortAudio.getVersion() ); + System.out.println( "getVersionText = " + PortAudio.getVersionText() ); + System.out.println( "getDeviceCount = " + PortAudio.getDeviceCount() ); + assertTrue( "getDeviceCount", (PortAudio.getDeviceCount() > 0) ); + PortAudio.terminate(); + } + + public void testListDevices() + { + PortAudio.initialize(); + int count = PortAudio.getDeviceCount(); + assertTrue( "getDeviceCount", (count > 0) ); + for( int i = 0; i < count; i++ ) + { + DeviceInfo info = PortAudio.getDeviceInfo( i ); + System.out.println( "------------------ #" + i ); + System.out.println( " name = " + info.name ); + System.out.println( " hostApi = " + info.hostApi ); + System.out.println( " maxOutputChannels = " + + info.maxOutputChannels ); + System.out.println( " maxInputChannels = " + + info.maxInputChannels ); + System.out.println( " defaultSampleRate = " + + info.defaultSampleRate ); + System.out.printf( " defaultLowInputLatency = %3d msec\n", + ((int) (info.defaultLowInputLatency * 1000)) ); + System.out.printf( " defaultHighInputLatency = %3d msec\n", + ((int) (info.defaultHighInputLatency * 1000)) ); + System.out.printf( " defaultLowOutputLatency = %3d msec\n", + ((int) (info.defaultLowOutputLatency * 1000)) ); + System.out.printf( " defaultHighOutputLatency = %3d msec\n", + ((int) (info.defaultHighOutputLatency * 1000)) ); + + assertTrue( "some channels", + (info.maxOutputChannels + info.maxInputChannels) > 0 ); + assertTrue( "not too many channels", (info.maxInputChannels < 64) ); + assertTrue( "not too many channels", (info.maxOutputChannels < 64) ); + } + + System.out.println( "defaultInput = " + + PortAudio.getDefaultInputDevice() ); + System.out.println( "defaultOutput = " + + PortAudio.getDefaultOutputDevice() ); + + PortAudio.terminate(); + } + + public void testHostApis() + { + PortAudio.initialize(); + int validApiCount = 0; + for( int hostApiType = 0; hostApiType < PortAudio.HOST_API_TYPE_COUNT; hostApiType++ ) + { + int hostApiIndex = PortAudio + .hostApiTypeIdToHostApiIndex( hostApiType ); + if( hostApiIndex >= 0 ) + { + HostApiInfo info = PortAudio.getHostApiInfo( hostApiIndex ); + System.out.println( "Checking Host API: " + info.name ); + for( int apiDeviceIndex = 0; apiDeviceIndex < info.deviceCount; apiDeviceIndex++ ) + { + int deviceIndex = PortAudio + .hostApiDeviceIndexToDeviceIndex( hostApiIndex, + apiDeviceIndex ); + DeviceInfo deviceInfo = PortAudio + .getDeviceInfo( deviceIndex ); + assertEquals( "host api must match up", hostApiIndex, + deviceInfo.hostApi ); + } + validApiCount++; + } + } + + assertEquals( "host api counts", PortAudio.getHostApiCount(), + validApiCount ); + } + + public void testListHostApis() + { + PortAudio.initialize(); + int count = PortAudio.getHostApiCount(); + assertTrue( "getHostApiCount", (count > 0) ); + for( int i = 0; i < count; i++ ) + { + HostApiInfo info = PortAudio.getHostApiInfo( i ); + System.out.println( "------------------ #" + i ); + System.out.println( " version = " + info.version ); + System.out.println( " name = " + info.name ); + System.out.println( " type = " + info.type ); + System.out.println( " deviceCount = " + info.deviceCount ); + System.out.println( " defaultInputDevice = " + + info.defaultInputDevice ); + System.out.println( " defaultOutputDevice = " + + info.defaultOutputDevice ); + assertTrue( "some devices", info.deviceCount > 0 ); + } + + System.out.println( "------\ndefaultHostApi = " + + PortAudio.getDefaultHostApi() ); + PortAudio.terminate(); + } + + public void testCheckFormat() + { + PortAudio.initialize(); + StreamParameters streamParameters = new StreamParameters(); + streamParameters.device = PortAudio.getDefaultOutputDevice(); + int result = PortAudio + .isFormatSupported( null, streamParameters, 44100 ); + System.out.println( "isFormatSupported returns " + result ); + assertEquals( "default output format", 0, result ); + // Try crazy channelCount + streamParameters.channelCount = 8765; + result = PortAudio.isFormatSupported( null, streamParameters, 44100 ); + System.out.println( "crazy isFormatSupported returns " + result ); + assertTrue( "default output format", (result < 0) ); + PortAudio.terminate(); + } + + static class SineOscillator + { + double phase = 0.0; + double phaseIncrement = 0.01; + + SineOscillator(double freq, int sampleRate) + { + phaseIncrement = freq * Math.PI * 2.0 / sampleRate; + } + + double next() + { + double value = Math.sin( phase ); + phase += phaseIncrement; + if( phase > Math.PI ) + { + phase -= Math.PI * 2.0; + } + return value; + } + } + + public void testStreamError() + { + PortAudio.initialize(); + StreamParameters streamParameters = new StreamParameters(); + streamParameters.sampleFormat = PortAudio.FORMAT_FLOAT_32; + streamParameters.channelCount = 2; + streamParameters.device = PortAudio.getDefaultOutputDevice(); + int framesPerBuffer = 256; + int flags = 0; + BlockingStream stream = PortAudio.openStream( null, streamParameters, + 44100, framesPerBuffer, flags ); + + // Try to write data to a stopped stream. + Throwable caught = null; + try + { + float[] buffer = new float[framesPerBuffer + * streamParameters.channelCount]; + stream.write( buffer, framesPerBuffer ); + } catch( Throwable e ) + { + caught = e; + e.printStackTrace(); + } + + assertTrue( "caught no exception", (caught != null) ); + assertTrue( "exception should say stream is stopped", caught + .getMessage().contains( "stopped" ) ); + + // Try to write null data. + caught = null; + try + { + stream.write( (float[]) null, framesPerBuffer ); + } catch( Throwable e ) + { + caught = e; + e.printStackTrace(); + } + assertTrue( "caught no exception", (caught != null) ); + assertTrue( "exception should say stream is stopped", caught + .getMessage().contains( "null" ) ); + + // Try to write short data to a float stream. + stream.start(); + caught = null; + try + { + short[] buffer = new short[framesPerBuffer + * streamParameters.channelCount]; + stream.write( buffer, framesPerBuffer ); + } catch( Throwable e ) + { + caught = e; + e.printStackTrace(); + } + + assertTrue( "caught no exception", (caught != null) ); + assertTrue( "exception should say tried to", caught.getMessage() + .contains( "Tried to write short" ) ); + + stream.close(); + + PortAudio.terminate(); + } + + public void checkBlockingWriteFloat( int deviceId, double sampleRate ) + { + StreamParameters streamParameters = new StreamParameters(); + streamParameters.channelCount = 2; + streamParameters.device = deviceId; + streamParameters.suggestedLatency = PortAudio + .getDeviceInfo( streamParameters.device ).defaultLowOutputLatency; + System.out.println( "suggestedLatency = " + + streamParameters.suggestedLatency ); + + int framesPerBuffer = 256; + int flags = 0; + BlockingStream stream = PortAudio.openStream( null, streamParameters, + (int) sampleRate, framesPerBuffer, flags ); + assertTrue( "got default stream", stream != null ); + + assertEquals( "stream isStopped", true, stream.isStopped() ); + assertEquals( "stream isActive", false, stream.isActive() ); + + int numFrames = 80000; + double expected = ((double)numFrames) / sampleRate; + stream.start(); + long startTime = System.currentTimeMillis(); + double startStreamTime = stream.getTime(); + assertEquals( "stream isStopped", false, stream.isStopped() ); + assertEquals( "stream isActive", true, stream.isActive() ); + + writeSineData( stream, framesPerBuffer, numFrames, (int) sampleRate ); + + StreamInfo streamInfo = stream.getInfo(); + System.out.println( "inputLatency of a stream = "+ streamInfo.inputLatency ); + System.out.println( "outputLatency of a stream = "+streamInfo.outputLatency ); + System.out.println( "sampleRate of a stream = "+ streamInfo.sampleRate ); + + assertEquals( "inputLatency of a stream ", 0.0, streamInfo.inputLatency, 0.000001 ); + assertTrue( "outputLatency of a stream ",(streamInfo.outputLatency > 0) ); + assertEquals( "sampleRate of a stream ", sampleRate, streamInfo.sampleRate, 3 ); + + double endStreamTime = stream.getTime(); + stream.stop(); + long stopTime = System.currentTimeMillis(); + + System.out.println( "startStreamTime = " + startStreamTime ); + System.out.println( "endStreamTime = " + endStreamTime ); + double elapsedStreamTime = endStreamTime - startStreamTime; + System.out.println( "elapsedStreamTime = " + elapsedStreamTime ); + assertTrue( "elapsedStreamTime: " + elapsedStreamTime, + (elapsedStreamTime > 0.0) ); + assertEquals( "elapsedStreamTime: ", expected, elapsedStreamTime, 0.10 ); + + assertEquals( "stream isStopped", true, stream.isStopped() ); + assertEquals( "stream isActive", false, stream.isActive() ); + stream.close(); + + double elapsed = (stopTime - startTime) / 1000.0; + assertEquals( "elapsed time to play", expected, elapsed, 0.20 ); + } + + public void testBlockingWriteFloat() + { + PortAudio.initialize(); + checkBlockingWriteFloat( PortAudio.getDefaultOutputDevice(), 44100 ); + PortAudio.terminate(); + } + + public void ZtestWriteEachHostAPI() + { + PortAudio.initialize(); + for( int hostApiIndex = 0; hostApiIndex < PortAudio.getHostApiCount(); hostApiIndex++ ) + { + HostApiInfo hostInfo = PortAudio.getHostApiInfo( hostApiIndex ); + System.out.println( "-------------\nWriting using Host API: " + hostInfo.name ); + int deviceId = hostInfo.defaultOutputDevice; + System.out.println( " Device ID =" + deviceId ); + DeviceInfo deviceInfo = PortAudio.getDeviceInfo( deviceId ); + System.out.println( " sampleRate =" + deviceInfo.defaultSampleRate ); + checkBlockingWriteFloat( deviceId, + (int) deviceInfo.defaultSampleRate ); + System.out.println( "Finished with " + hostInfo.name ); + } + PortAudio.terminate(); + } + + private void writeSineData( BlockingStream stream, int framesPerBuffer, + int numFrames, int sampleRate ) + { + float[] buffer = new float[framesPerBuffer * 2]; + SineOscillator osc1 = new SineOscillator( 200.0, sampleRate ); + SineOscillator osc2 = new SineOscillator( 300.0, sampleRate ); + int framesLeft = numFrames; + while( framesLeft > 0 ) + { + int index = 0; + int framesToWrite = (framesLeft > framesPerBuffer) ? framesPerBuffer + : framesLeft; + for( int j = 0; j < framesToWrite; j++ ) + { + buffer[index++] = (float) osc1.next(); + buffer[index++] = (float) osc2.next(); + } + stream.write( buffer, framesToWrite ); + framesLeft -= framesToWrite; + } + } + + private void writeSineDataShort( BlockingStream stream, + int framesPerBuffer, int numFrames ) + { + short[] buffer = new short[framesPerBuffer * 2]; + SineOscillator osc1 = new SineOscillator( 200.0, 44100 ); + SineOscillator osc2 = new SineOscillator( 300.0, 44100 ); + int framesLeft = numFrames; + while( framesLeft > 0 ) + { + int index = 0; + int framesToWrite = (framesLeft > framesPerBuffer) ? framesPerBuffer + : framesLeft; + for( int j = 0; j < framesToWrite; j++ ) + { + buffer[index++] = (short) (osc1.next() * 32767); + buffer[index++] = (short) (osc2.next() * 32767); + } + stream.write( buffer, framesToWrite ); + framesLeft -= framesToWrite; + } + } + + public void testBlockingWriteShort() + { + PortAudio.initialize(); + + StreamParameters streamParameters = new StreamParameters(); + streamParameters.sampleFormat = PortAudio.FORMAT_INT_16; + streamParameters.channelCount = 2; + streamParameters.device = PortAudio.getDefaultOutputDevice(); + streamParameters.suggestedLatency = PortAudio + .getDeviceInfo( streamParameters.device ).defaultLowOutputLatency; + System.out.println( "suggestedLatency = " + + streamParameters.suggestedLatency ); + + int framesPerBuffer = 256; + int flags = 0; + BlockingStream stream = PortAudio.openStream( null, streamParameters, + 44100, framesPerBuffer, flags ); + assertTrue( "got default stream", stream != null ); + + int numFrames = 80000; + stream.start(); + long startTime = System.currentTimeMillis(); + writeSineDataShort( stream, framesPerBuffer, numFrames ); + stream.stop(); + long stopTime = System.currentTimeMillis(); + stream.close(); + + double elapsed = (stopTime - startTime) / 1000.0; + double expected = numFrames / 44100.0; + assertEquals( "elapsed time to play", expected, elapsed, 0.20 ); + PortAudio.terminate(); + } + + public void testRecordPlayFloat() throws InterruptedException + { + checkRecordPlay( PortAudio.FORMAT_FLOAT_32 ); + } + + public void testRecordPlayShort() throws InterruptedException + { + checkRecordPlay( PortAudio.FORMAT_INT_16 ); + } + + public void checkRecordPlay( int sampleFormat ) throws InterruptedException + { + int framesPerBuffer = 256; + int flags = 0; + int sampleRate = 44100; + int numFrames = sampleRate * 3; + float[] floatBuffer = null; + short[] shortBuffer = null; + + PortAudio.initialize(); + StreamParameters inParameters = new StreamParameters(); + inParameters.sampleFormat = sampleFormat; + inParameters.device = PortAudio.getDefaultInputDevice(); + + DeviceInfo info = PortAudio.getDeviceInfo( inParameters.device ); + inParameters.channelCount = (info.maxInputChannels > 2) ? 2 + : info.maxInputChannels; + System.out.println( "channelCount = " + inParameters.channelCount ); + inParameters.suggestedLatency = PortAudio + .getDeviceInfo( inParameters.device ).defaultLowInputLatency; + + if( sampleFormat == PortAudio.FORMAT_FLOAT_32 ) + { + floatBuffer = new float[numFrames * inParameters.channelCount]; + } + else if( sampleFormat == PortAudio.FORMAT_INT_16 ) + { + shortBuffer = new short[numFrames * inParameters.channelCount]; + } + // Record a few seconds of audio. + BlockingStream inStream = PortAudio.openStream( inParameters, null, + sampleRate, framesPerBuffer, flags ); + + System.out.println( "RECORDING - say something like testing 1,2,3..." ); + inStream.start(); + + if( sampleFormat == PortAudio.FORMAT_FLOAT_32 ) + { + inStream.read( floatBuffer, numFrames ); + } + else if( sampleFormat == PortAudio.FORMAT_INT_16 ) + { + inStream.read( shortBuffer, numFrames ); + } + Thread.sleep( 100 ); + int availableToRead = inStream.getReadAvailable(); + System.out.println( "availableToRead = " + availableToRead ); + assertTrue( "getReadAvailable ", availableToRead > 0 ); + + inStream.stop(); + inStream.close(); + System.out.println( "Finished recording. Begin Playback." ); + + // Play back what we recorded. + StreamParameters outParameters = new StreamParameters(); + outParameters.sampleFormat = sampleFormat; + outParameters.channelCount = inParameters.channelCount; + outParameters.device = PortAudio.getDefaultOutputDevice(); + outParameters.suggestedLatency = PortAudio + .getDeviceInfo( outParameters.device ).defaultLowOutputLatency; + + BlockingStream outStream = PortAudio.openStream( null, outParameters, + sampleRate, framesPerBuffer, flags ); + assertTrue( "got default stream", outStream != null ); + + assertEquals( "inStream isActive", false, inStream.isActive() ); + + outStream.start(); + Thread.sleep( 100 ); + int availableToWrite = outStream.getWriteAvailable(); + System.out.println( "availableToWrite = " + availableToWrite ); + assertTrue( "getWriteAvailable ", availableToWrite > 0 ); + + System.out.println( "inStream = " + inStream ); + System.out.println( "outStream = " + outStream ); + assertEquals( "inStream isActive", false, inStream.isActive() ); + assertEquals( "outStream isActive", true, outStream.isActive() ); + if( sampleFormat == PortAudio.FORMAT_FLOAT_32 ) + { + outStream.write( floatBuffer, numFrames ); + } + else if( sampleFormat == PortAudio.FORMAT_INT_16 ) + { + outStream.write( shortBuffer, numFrames ); + } + outStream.stop(); + + outStream.close(); + PortAudio.terminate(); + } +} -- cgit v1.2.1