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/*
* SynthesizeWorker.cs
* Copyright © 2011 kbinani
*
* This file is part of org.kbinani.cadencii.
*
* org.kbinani.cadencii is free software; you can redistribute it and/or
* modify it under the terms of the GPLv3 License.
*
* org.kbinani.cadencii is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
*/
#if JAVA
package org.kbinani.cadencii;
import java.util.*;
import org.kbinani.*;
import org.kbinani.media.*;
import org.kbinani.vsq.*;
#elif __cplusplus
namespace org{
namespace kbinani{
namespace cadencii{
#else
using System;
using org.kbinani.media;
using org.kbinani.vsq;
using org.kbinani.java.util;
namespace org.kbinani.cadencii
{
using Integer = System.Int32;
using boolean = System.Boolean;
#endif
public class SynthesizeWorker
{
private WaveGenerator mGenerator = null;
private FormMain mMainWindow = null;
public SynthesizeWorker( FormMain main_window )
{
mMainWindow = main_window;
}
public void patchWork( WorkerState state, Object arg )
{
#if DEBUG
sout.println( "SynthesizeWorker#patchWork" );
#endif
VsqFileEx vsq = AppManager.getVsqFile();
Object[] args = (Object[])arg;
Vector<PatchWorkQueue> queue = (Vector<PatchWorkQueue>)args[0];
Vector<Integer> tracks = (Vector<Integer>)args[1];
int finished = queue.size();
String temppath = AppManager.getTempWaveDir();
for ( int k = 0; k < tracks.size(); k++ ) {
int track = tracks.get( k );
String wavePath = fsys.combine( temppath, track + ".wav" );
Vector<Integer> queueIndex = new Vector<Integer>();
for ( int i = 0; i < queue.size(); i++ ) {
if ( queue.get( i ).track == track ) {
queueIndex.add( i );
}
}
if ( queueIndex.size() <= 0 ) {
// 第trackトラックに対してパッチワークを行う必要無し
continue;
}
#if DEBUG
sout.println( "AppManager#pathWorkToFreeze; wavePath=" + wavePath + "; queue.get( queueIndex.get( 0 ) ).file=" + queue.get( queueIndex.get( 0 ) ).file );
sout.println( "AppManager#pathWorkToFreeze; queueIndex.size()=" + queueIndex.size() );
#endif
if ( queueIndex.size() == 1 && wavePath.Equals( queue.get( queueIndex.get( 0 ) ).file ) ) {
// 第trackトラック全体の合成を指示するキューだった場合.
// このとき,パッチワークを行う必要なし.
AppManager.mLastRenderedStatus[track - 1] =
new RenderedStatus( (VsqTrack)vsq.Track.get( track ).clone(), vsq.TempoTable, (SequenceConfig)vsq.config.clone() );
AppManager.serializeRenderingStatus( temppath, track );
AppManager.invokeWaveViewReloadRequiredEvent( track, wavePath, 1, -1 );
continue;
}
WaveWriter writer = null;
try {
int sampleRate = vsq.config.SamplingRate;
long totalLength = (long)((vsq.getSecFromClock( vsq.TotalClocks ) + 1.0) * sampleRate);
writer = new WaveWriter( wavePath, vsq.config.WaveFileOutputChannel, 16, sampleRate );
int BUFLEN = 1024;
double[] bufl = new double[BUFLEN];
double[] bufr = new double[BUFLEN];
double total = 0.0;
for ( int m = 0; m < queueIndex.size(); m++ ) {
int i = queueIndex.get( m );
if ( finished <= i ) {
break;
}
// パッチワークの開始秒時
double secStart = vsq.getSecFromClock( queue.get( i ).clockStart );
long sampleStart = (long)(secStart * sampleRate);
// パッチワークの終了秒時
int clockEnd = queue.get( i ).clockEnd;
if ( clockEnd == int.MaxValue ) {
clockEnd = vsq.TotalClocks + 240;
}
double secEnd = vsq.getSecFromClock( clockEnd );
long sampleEnd = (long)(secEnd * sampleRate);
WaveReader wr = null;
try {
wr = new WaveReader( queue.get( i ).file );
long remain2 = sampleEnd - sampleStart;
long proc = 0;
while ( remain2 > 0 ) {
int delta = remain2 > BUFLEN ? BUFLEN : (int)remain2;
wr.read( proc, delta, bufl, bufr );
writer.replace( sampleStart + proc, delta, bufl, bufr );
proc += delta;
remain2 -= delta;
total += delta;
state.reportProgress( total );
}
} catch ( Exception ex ) {
Logger.write( typeof( AppManager ) + ".patchWorkToFreeze; ex=" + ex + "\n" );
serr.println( "AppManager#patchWorkToFreeze; ex=" + ex );
#if JAVA
ex.printStackTrace();
#endif
} finally {
if ( wr != null ) {
try {
wr.close();
} catch ( Exception ex2 ) {
Logger.write( typeof( AppManager ) + ".patchWorkToFreeze; ex=" + ex2 + "\n" );
serr.println( "AppManager#patchWorkToFreeze; ex2=" + ex2 );
#if JAVA
ex2.printStackTrace();
#endif
}
}
}
try {
PortUtil.deleteFile( queue.get( i ).file );
} catch ( Exception ex ) {
Logger.write( typeof( AppManager ) + ".patchWorkToFreeze; ex=" + ex + "\n" );
serr.println( "AppManager#patchWorkToFreeze; ex=" + ex );
#if JAVA
ex.printStackTrace();
#endif
}
}
VsqTrack vsq_track = vsq.Track.get( track );
if ( queueIndex.get( queueIndex.size() - 1 ) <= finished ) {
// 途中で終了せず,このトラックの全てのパッチワークが完了した.
AppManager.mLastRenderedStatus[track - 1] =
new RenderedStatus( (VsqTrack)vsq_track.clone(), vsq.TempoTable, (SequenceConfig)vsq.config.clone() );
AppManager.serializeRenderingStatus( temppath, track );
AppManager.setRenderRequired( track, false );
} else {
// パッチワークの作成途中で,キャンセルされた
// キャンセルされたやつ以降の範囲に、プログラムチェンジ17の歌手変更イベントを挿入する。→AppManager#detectTrackDifferenceに必ず検出してもらえる。
VsqTrack copied = (VsqTrack)vsq_track.clone();
VsqEvent dumy = new VsqEvent();
dumy.ID.type = VsqIDType.Singer;
dumy.ID.IconHandle = new IconHandle();
dumy.ID.IconHandle.Program = 17;
for ( int m = 0; m < queueIndex.size(); m++ ) {
int i = queueIndex.get( m );
if ( i < finished ) {
continue;
}
int start = queue.get( i ).clockStart;
int end = queue.get( i ).clockEnd;
VsqEvent singerAtEnd = vsq_track.getSingerEventAt( end );
// startの位置に歌手変更が既に指定されていないかどうかを検査
int foundStart = -1;
int foundEnd = -1;
for ( Iterator<Integer> itr = copied.indexIterator( IndexIteratorKind.SINGER ); itr.hasNext(); ) {
int j = itr.next();
VsqEvent ve = copied.getEvent( j );
if ( ve.Clock == start ) {
foundStart = j;
}
if ( ve.Clock == end ) {
foundEnd = j;
}
if ( end < ve.Clock ) {
break;
}
}
VsqEvent dumyStart = (VsqEvent)dumy.clone();
dumyStart.Clock = start;
if ( foundStart >= 0 ) {
copied.setEvent( foundStart, dumyStart );
} else {
copied.addEvent( dumyStart );
}
if ( end != int.MaxValue ) {
VsqEvent dumyEnd = (VsqEvent)singerAtEnd.clone();
dumyEnd.Clock = end;
if ( foundEnd >= 0 ) {
copied.setEvent( foundEnd, dumyEnd );
} else {
copied.addEvent( dumyEnd );
}
}
copied.sortEvent();
}
AppManager.mLastRenderedStatus[track - 1] = new RenderedStatus( copied, vsq.TempoTable, (SequenceConfig)vsq.config.clone() );
AppManager.serializeRenderingStatus( temppath, track );
}
state.reportComplete();
} catch ( Exception ex ) {
Logger.write( typeof( AppManager ) + ".patchWorkToFreeze; ex=" + ex + "\n" );
serr.println( "AppManager#patchWorkToFreeze; ex=" + ex );
#if JAVA
ex.printStackTrace();
#endif
} finally {
if ( writer != null ) {
try {
writer.close();
} catch ( Exception ex2 ) {
Logger.write( typeof( AppManager ) + ".patchWorkToFreeze; ex=" + ex2 + "\n" );
serr.println( "AppManager#patchWorkToFreeze; ex2=" + ex2 );
#if JAVA
ex2.printStackTrace();
#endif
}
}
}
// 波形表示用のWaveDrawContextの内容を更新する。
/*for ( int j = 0; j < queueIndex.size(); j++ ) {
int i = queueIndex.get( j );
if ( i >= finished ) {
continue;
}
double secStart = mVsq.getSecFromClock( queue.get( i ).clockStart );
int clockEnd = queue.get( i ).clockEnd;
if ( clockEnd == int.MaxValue ) {
clockEnd = mVsq.TotalClocks + 240;
}
double secEnd = mVsq.getSecFromClock( clockEnd );
invokeWaveViewReloadRequiredEvent( tracks.get( k ), wavePath, secStart, secEnd );
}*/
AppManager.invokeWaveViewReloadRequiredEvent( track, wavePath, 1, -1 );
}
#if DEBUG
sout.println( "SynthesizeWorker#patchWork; done" );
#endif
state.reportComplete();
}
public void processQueue( WorkerState state, Object arg )
{
#if DEBUG
sout.println( "SynthesizeWorker#processQueue" );
#endif
PatchWorkQueue q = (PatchWorkQueue)arg;
VsqFileEx vsq = q.vsq;
int channel = vsq.config.WaveFileOutputChannel == 1 ? 1 : 2;
double amp_master = VocaloSysUtil.getAmplifyCoeffFromFeder( vsq.Mixer.MasterFeder );
double pan_left_master = VocaloSysUtil.getAmplifyCoeffFromPanLeft( vsq.Mixer.MasterPanpot );
double pan_right_master = VocaloSysUtil.getAmplifyCoeffFromPanRight( vsq.Mixer.MasterPanpot );
int numTrack = vsq.Track.size();
String tmppath = AppManager.getTempWaveDir();
int track = q.track;
VsqTrack vsq_track = vsq.Track.get( track );
int count = vsq_track.getEventCount();
if ( count <= 0 ) {
return;// false;
}
double amp_track = VocaloSysUtil.getAmplifyCoeffFromFeder( vsq.Mixer.Slave.get( track - 1 ).Feder );
double pan_left_track = VocaloSysUtil.getAmplifyCoeffFromPanLeft( vsq.Mixer.Slave.get( track - 1 ).Panpot );
double pan_right_track = VocaloSysUtil.getAmplifyCoeffFromPanRight( vsq.Mixer.Slave.get( track - 1 ).Panpot );
double amp_left = amp_track * pan_left_track;
double amp_right = amp_track * pan_right_track;
int total_clocks = vsq.TotalClocks;
double total_sec = vsq.getSecFromClock( total_clocks );
RendererKind kind = VsqFileEx.getTrackRendererKind( vsq_track );
mGenerator = VSTiDllManager.getWaveGenerator( kind );
Amplifier amp = new Amplifier();
amp.setRoot( mGenerator );
if ( q.renderAll ) {
amp.setAmplify( amp_left, amp_right );
}
mGenerator.setReceiver( amp );
mGenerator.setGlobalConfig( AppManager.editorConfig );
mGenerator.setMainWindow( mMainWindow );
Mixer mixer = new Mixer();
mixer.setRoot( mGenerator );
mixer.setGlobalConfig( AppManager.editorConfig );
amp.setReceiver( mixer );
if ( q.renderAll && vsq.config.WaveFileOutputFromMasterTrack ) {
// トラック全体を合成するモードで,かつ,他トラックを合成して出力するよう指示された場合
if ( numTrack > 2 ) {
for ( int i = 1; i < numTrack; i++ ) {
if ( i == track ) continue;
String file = fsys.combine( tmppath, i + ".wav" );
if ( !fsys.isFileExists( file ) ) {
// mixするべきファイルが揃っていないのでbailout
return;// true;
}
WaveReader r = null;
try {
r = new WaveReader( file );
} catch ( Exception ex ) {
Logger.write( typeof( SynthesizeWorker ) + ".processQueue; ex=" + ex + "\n" );
r = null;
}
if( r == null ){
return;// true;
}
double end_sec = vsq.getSecFromClock( q.clockStart );
r.setOffsetSeconds( end_sec );
Amplifier amp_i_unit = new Amplifier();
amp_i_unit.setRoot( mGenerator );
double amp_i = VocaloSysUtil.getAmplifyCoeffFromFeder( vsq.Mixer.Slave.get( i - 1 ).Feder );
double pan_left_i = VocaloSysUtil.getAmplifyCoeffFromPanLeft( vsq.Mixer.Slave.get( i - 1 ).Panpot );
double pan_right_i = VocaloSysUtil.getAmplifyCoeffFromPanRight( vsq.Mixer.Slave.get( i - 1 ).Panpot );
double amp_left_i = amp_i * pan_left_i;
double amp_right_i = amp_i * pan_right_i;
#if DEBUG
sout.println( "FormSynthesize#bgWork_DoWork; #" + i + "; amp_left_i=" + amp_left_i + "; amp_right_i=" + amp_right_i );
#endif
amp_i_unit.setAmplify( amp_left_i, amp_right_i );
FileWaveSender wave_sender = new FileWaveSender( r );
wave_sender.setRoot( mGenerator );
wave_sender.setGlobalConfig( AppManager.editorConfig );
amp_i_unit.setSender( wave_sender );
mixer.addSender( amp_i_unit );
}
}
}
PortUtil.deleteFile( q.file );
int sample_rate = vsq.config.SamplingRate;
#if DEBUG
sout.println( "FormSynthesize#bgWork_DoWork; q.file=" + q.file );
#endif
FileWaveReceiver wave_receiver = new FileWaveReceiver( q.file, channel, 16, sample_rate );
wave_receiver.setRoot( mGenerator );
wave_receiver.setGlobalConfig( AppManager.editorConfig );
Amplifier amp_unit_master = new Amplifier();
amp_unit_master.setRoot( mGenerator );
if ( q.renderAll ) {
double l = amp_master * pan_left_master;
double r = amp_master * pan_right_master;
amp_unit_master.setAmplify( l, r );
}
mixer.setReceiver( amp_unit_master );
amp_unit_master.setReceiver( wave_receiver );
int end = q.clockEnd;
if ( end == int.MaxValue ) end = vsq.TotalClocks + 240;
mGenerator.init( vsq, track, q.clockStart, end, sample_rate );
double sec_start = vsq.getSecFromClock( q.clockStart );
double sec_end = vsq.getSecFromClock( end );
long samples = (long)((sec_end - sec_start) * sample_rate);
mGenerator.begin( samples, state );
return;// false;
}
}
#if JAVA
#elif __cplusplus
} } }
#else
}
#endif
|
