VocalEasel/Sources/VLSoundOut.cpp

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//
// File: VLSoundOut.cpp - Sound output and file playing functionality
//
// Author(s):
//
// (MN) Matthias Neeracher
//
// Copyright © 2005-2007 Matthias Neeracher
//
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#include "VLSoundOut.h"
#include <AudioUnit/AudioUnit.h>
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#include "CAAudioFileFormats.h"
#include "AUOutputBL.h"
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#include <memory>
#include <vector>
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#define R(x) if (OSStatus r = (x)) fprintf(stderr, "%s -> %ld\n", #x, r);
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class VLAUSoundOut : public VLSoundOut {
public:
VLAUSoundOut();
virtual void PlayNote(const VLNote & note);
virtual void PlayChord(const VLChord & chord);
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virtual void PlaySequence(MusicSequence music);
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virtual void Stop(bool pause);
virtual bool Playing();
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virtual bool AtEnd();
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virtual void SetPlayRate(float rate);
virtual void SetTime(MusicTimeStamp time);
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virtual ~VLAUSoundOut();
protected:
VLAUSoundOut(bool fileOutput);
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void InitSoundOutput(bool fileOutput);
virtual void SetupOutput(AUNode outputNode);
MusicTimeStamp SequenceLength(MusicSequence music);
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AUGraph fGraph;
MusicPlayer fPlayer;
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private:
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MusicSequence fMusic;
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MusicTimeStamp fMusicLength;
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bool fRunning;
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bool fForward;
void Play(const int8_t * note, size_t numNotes = 1);
};
class VLAUFileSoundOut : public VLAUSoundOut {
public:
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VLAUFileSoundOut(CFURLRef file, OSType dataFormat);
~VLAUFileSoundOut();
protected:
virtual void SetupOutput(AUNode outputNode);
virtual void PlaySequence(MusicSequence music);
private:
AudioUnit fOutput;
CFURLRef fFile;
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OSType fDataFormat;
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};
VLSoundEvent::~VLSoundEvent()
{
}
void VLSoundScheduler::Schedule(VLSoundEvent * what, float when)
{
usleep((int)(1000000.0f*when));
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what->Perform();
}
static std::auto_ptr<VLSoundOut> sSoundOut;
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static std::auto_ptr<VLSoundScheduler> sSoundScheduler;
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VLSoundOut * VLSoundOut::Instance()
{
if (!sSoundOut.get()) {
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sSoundOut.reset(new VLAUSoundOut);
if (!sSoundScheduler.get())
sSoundScheduler.reset(new VLSoundScheduler);
}
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return sSoundOut.get();
}
void VLSoundOut::SetScheduler(VLSoundScheduler * scheduler)
{
sSoundScheduler.reset(scheduler);
}
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VLSoundOut * VLSoundOut::FileWriter(CFURLRef file, OSType dataFormat)
{
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return new VLAUFileSoundOut(file, dataFormat);
}
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void VLSoundOut::PlayFile(CFDataRef file)
{
MusicSequence music;
NewMusicSequence(&music);
MusicSequenceLoadSMFDataWithFlags(music, file,
kMusicSequenceLoadSMF_ChannelsToTracks);
PlaySequence(music);
}
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VLSoundOut::~VLSoundOut()
{
}
VLAUSoundOut::VLAUSoundOut()
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: fMusic(0), fRunning(false), fForward(true)
{
InitSoundOutput(false);
}
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VLAUSoundOut::VLAUSoundOut(bool)
: fRunning(false), fMusic(0)
{
}
VLAUSoundOut::~VLAUSoundOut()
{
DisposeMusicPlayer(fPlayer);
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Stop(false);
DisposeAUGraph(fGraph);
}
void VLAUSoundOut::InitSoundOutput(bool fileOutput)
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{
AUNode synthNode, limiterNode, outNode;
ComponentDescription cd;
cd.componentManufacturer = kAudioUnitManufacturer_Apple;
cd.componentFlags = 0;
cd.componentFlagsMask = 0;
NewAUGraph(&fGraph);
cd.componentType = kAudioUnitType_MusicDevice;
cd.componentSubType = kAudioUnitSubType_DLSSynth;
AUGraphNewNode(fGraph, &cd, 0, NULL, &synthNode);
cd.componentType = kAudioUnitType_Effect;
cd.componentSubType = kAudioUnitSubType_PeakLimiter;
AUGraphNewNode (fGraph, &cd, 0, NULL, &limiterNode);
cd.componentType = kAudioUnitType_Output;
if (fileOutput)
cd.componentSubType = kAudioUnitSubType_GenericOutput;
else
cd.componentSubType = kAudioUnitSubType_DefaultOutput;
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AUGraphNewNode(fGraph, &cd, 0, NULL, &outNode);
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R(AUGraphOpen(fGraph));
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AUGraphConnectNodeInput(fGraph, synthNode, 0, limiterNode, 0);
AUGraphConnectNodeInput(fGraph, limiterNode, 0, outNode, 0);
if (fileOutput) {
UInt32 value = 1;
AudioUnit synth;
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R(AUGraphGetNodeInfo(fGraph, synthNode, 0, 0, 0, &synth));
R(AudioUnitSetProperty(synth,
kAudioUnitProperty_OfflineRender,
kAudioUnitScope_Global, 0,
&value, sizeof(value)));
value = 512;
R(AudioUnitSetProperty(synth,
kAudioUnitProperty_OfflineRender,
kAudioUnitScope_Global, 0,
&value, sizeof(value)));
}
SetupOutput(outNode);
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R(AUGraphInitialize(fGraph));
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NewMusicPlayer(&fPlayer);
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}
void VLAUSoundOut::SetupOutput(AUNode)
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{
}
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void VLAUSoundOut::PlaySequence(MusicSequence music)
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{
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if (music) {
Stop(false);
fMusic = music;
fMusicLength = SequenceLength(music);
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R(MusicSequenceSetAUGraph(fMusic, fGraph));
R(MusicPlayerSetSequence(fPlayer, fMusic));
}
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R(MusicPlayerStart(fPlayer));
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fRunning = true;
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}
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void VLAUSoundOut::SetPlayRate(float rate)
{
if ((rate < 0) != fForward) {
fForward = !fForward;
MusicTimeStamp rightNow;
MusicPlayerGetTime(fPlayer, &rightNow);
MusicSequenceReverse(fMusic);
MusicPlayerSetTime(fPlayer, fMusicLength - rightNow);
}
MusicPlayerSetPlayRateScalar(fPlayer, fabsf(rate));
}
void VLAUSoundOut::SetTime(MusicTimeStamp time)
{
MusicPlayerSetTime(fPlayer, time);
}
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void VLAUSoundOut::Stop(bool pause)
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{
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MusicPlayerStop(fPlayer);
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fRunning = false;
if (!pause && fMusic) {
MusicPlayerSetSequence(fPlayer, NULL);
DisposeMusicSequence(fMusic);
fMusic = 0;
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}
}
bool VLAUSoundOut::Playing()
{
return fRunning;
}
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bool VLAUSoundOut::AtEnd()
{
MusicTimeStamp time;
return !MusicPlayerGetTime(fPlayer, &time) && time >= fMusicLength;
}
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void VLAUSoundOut::PlayNote(const VLNote & note)
{
Play(&note.fPitch);
}
void VLAUSoundOut::PlayChord(const VLChord & chord)
{
std::vector<int8_t> notes;
for (int i = 0; i < 32; ++i)
if (chord.fSteps & (1 << i))
notes.push_back(chord.fPitch+i);
if (chord.fRootPitch != VLNote::kNoPitch)
notes.push_back(chord.fRootPitch);
Play(&notes[0], notes.size());
}
void VLAUSoundOut::Play(const int8_t * note, size_t numNotes)
{
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MusicSequence music;
MusicTrack track;
NewMusicSequence(&music);
MusicSequenceNewTrack(music, &track);
const int8_t kNoteVelocity = 127;
for (int i=0; i<numNotes; ++i) {
MIDINoteMessage n = {0, note[i], kNoteVelocity, 0, 1.0};
MusicTrackNewMIDINoteEvent(track, 0.0, &n);
}
PlaySequence(music);
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}
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MusicTimeStamp VLAUSoundOut::SequenceLength(MusicSequence music)
{
UInt32 ntracks;
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MusicSequenceGetTrackCount(music, &ntracks);
MusicTimeStamp sequenceLength = 0;
for (UInt32 i = 0; i < ntracks; ++i) {
MusicTrack track;
MusicTimeStamp trackLength;
UInt32 propsize = sizeof(MusicTimeStamp);
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MusicSequenceGetIndTrack(music, i, &track);
MusicTrackGetProperty(track, kSequenceTrackProperty_TrackLength,
&trackLength, &propsize);
sequenceLength = std::max(sequenceLength, trackLength);
}
return sequenceLength;
}
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VLAUFileSoundOut::VLAUFileSoundOut(CFURLRef file, OSType dataFormat)
: VLAUSoundOut(true), fFile(file), fDataFormat(dataFormat)
{
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InitSoundOutput(true);
CFRetain(fFile);
}
VLAUFileSoundOut::~VLAUFileSoundOut()
{
CFRelease(fFile);
}
void VLAUFileSoundOut::SetupOutput(AUNode outputNode)
{
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R(AUGraphGetNodeInfo(fGraph, outputNode, 0, 0, 0, &fOutput));
Float64 sampleRate = 22050.0;
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R(AudioUnitSetProperty(fOutput,
kAudioUnitProperty_SampleRate,
kAudioUnitScope_Output, 0,
&sampleRate, sizeof(sampleRate)));
}
void VLAUFileSoundOut::PlaySequence(MusicSequence music)
{
SInt32 urlErr;
CFURLDestroyResource(fFile, &urlErr);
UInt32 size;
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UInt32 numFrames = 512;
MusicTimeStamp musicLen = SequenceLength(music)+8;
CFStringRef name =
CFURLCopyLastPathComponent(fFile);
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CAAudioFileFormats * formats = CAAudioFileFormats::Instance();
AudioFileTypeID fileType;
formats->InferFileFormatFromFilename(name, fileType);
CAStreamBasicDescription outputFormat;
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if (fDataFormat)
outputFormat.mFormatID = fDataFormat;
else if (!formats->InferDataFormatFromFileFormat(fileType, outputFormat))
switch (fileType) {
case kAudioFileM4AType:
outputFormat.mFormatID = kAudioFormatMPEG4AAC;
break;
default:
outputFormat.mFormatID = kAudioFormatLinearPCM;
break;
}
outputFormat.mChannelsPerFrame = 2;
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outputFormat.mSampleRate = 22050.0;
if (outputFormat.mFormatID == kAudioFormatLinearPCM) {
outputFormat.mBytesPerPacket = outputFormat.mChannelsPerFrame * 2;
outputFormat.mFramesPerPacket = 1;
outputFormat.mBytesPerFrame = outputFormat.mBytesPerPacket;
outputFormat.mBitsPerChannel = 16;
if (fileType == kAudioFileWAVEType)
outputFormat.mFormatFlags = kLinearPCMFormatFlagIsSignedInteger
| kLinearPCMFormatFlagIsPacked;
else
outputFormat.mFormatFlags = kLinearPCMFormatFlagIsBigEndian
| kLinearPCMFormatFlagIsSignedInteger
| kLinearPCMFormatFlagIsPacked;
} else {
// use AudioFormat API to fill out the rest.
size = sizeof(outputFormat);
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R(AudioFormatGetProperty(kAudioFormatProperty_FormatInfo, 0, NULL,
&size, &outputFormat));
}
CFURLRef dir =
CFURLCreateCopyDeletingLastPathComponent(NULL, fFile);
FSRef parentDir;
CFURLGetFSRef(dir, &parentDir);
CFRelease(dir);
ExtAudioFileRef outfile;
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R(ExtAudioFileCreateNew(&parentDir, name,
fileType, &outputFormat, NULL, &outfile));
CFRelease(name);
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CAStreamBasicDescription clientFormat;
size = sizeof(clientFormat);
R(AudioUnitGetProperty(fOutput, kAudioUnitProperty_StreamFormat,
kAudioUnitScope_Output, 0, &clientFormat, &size));
clientFormat.Print(stderr);
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outputFormat.Print(stderr);
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R(ExtAudioFileSetProperty(outfile, kExtAudioFileProperty_ClientDataFormat,
size, &clientFormat));
VLAUSoundOut::PlaySequence(music);
MusicTimeStamp currentTime;
AUOutputBL outputBuffer (clientFormat, numFrames);
AudioTimeStamp tStamp;
memset (&tStamp, 0, sizeof(AudioTimeStamp));
tStamp.mFlags = kAudioTimeStampSampleTimeValid;
do {
outputBuffer.Prepare();
AudioUnitRenderActionFlags actionFlags = 0;
R(AudioUnitRender(fOutput, &actionFlags, &tStamp, 0, numFrames,
outputBuffer.ABL()));
tStamp.mSampleTime += numFrames;
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R(ExtAudioFileWrite(outfile, numFrames, outputBuffer.ABL()));
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MusicPlayerGetTime (fPlayer, &currentTime);
} while (currentTime < musicLen);
ExtAudioFileDispose(outfile);
}