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SoftChannel.java

/*
 * Copyright 2007 Sun Microsystems, Inc.  All Rights Reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Sun designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Sun in the LICENSE file that accompanied this code.
 *
 * This code 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.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
 * CA 95054 USA or visit www.sun.com if you need additional information or
 * have any questions.
 */
package com.sun.media.sound;

import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;

import javax.sound.midi.MidiChannel;
import javax.sound.midi.Patch;

/**
 * Software Synthesizer MIDI channel class.
 *
 * @author Karl Helgason
 */
00042 public class SoftChannel implements MidiChannel, ModelDirectedPlayer {

    private static boolean[] dontResetControls = new boolean[128];
    static {
        for (int i = 0; i < dontResetControls.length; i++)
            dontResetControls[i] = false;

        dontResetControls[0] = true;   // Bank Select (MSB)
        dontResetControls[32] = true;  // Bank Select (LSB)
        dontResetControls[7] = true;   // Channel Volume (MSB)
        dontResetControls[8] = true;   // Balance (MSB)
        dontResetControls[10] = true;  // Pan (MSB)
        dontResetControls[11] = true;  // Expression (MSB)
        dontResetControls[91] = true;  // Effects 1 Depth (default: Reverb Send)
        dontResetControls[92] = true;  // Effects 2 Depth (default: Tremolo Depth)
        dontResetControls[93] = true;  // Effects 3 Depth (default: Chorus Send)
        dontResetControls[94] = true;  // Effects 4 Depth (default: Celeste [Detune] Depth)
        dontResetControls[95] = true;  // Effects 5 Depth (default: Phaser Depth)
        dontResetControls[70] = true;  // Sound Controller 1 (default: Sound Variation)
        dontResetControls[71] = true;  // Sound Controller 2 (default: Timbre / Harmonic Quality)
        dontResetControls[72] = true;  // Sound Controller 3 (default: Release Time)
        dontResetControls[73] = true;  // Sound Controller 4 (default: Attack Time)
        dontResetControls[74] = true;  // Sound Controller 5 (default: Brightness)
        dontResetControls[75] = true;  // Sound Controller 6 (GM2 default: Decay Time)
        dontResetControls[76] = true;  // Sound Controller 7 (GM2 default: Vibrato Rate)
        dontResetControls[77] = true;  // Sound Controller 8 (GM2 default: Vibrato Depth)
        dontResetControls[78] = true;  // Sound Controller 9 (GM2 default: Vibrato Delay)
        dontResetControls[79] = true;  // Sound Controller 10 (GM2 default: Undefined)
        dontResetControls[120] = true; // All Sound Off
        dontResetControls[121] = true; // Reset All Controllers
        dontResetControls[122] = true; // Local Control On/Off
        dontResetControls[123] = true; // All Notes Off
        dontResetControls[124] = true; // Omni Mode Off
        dontResetControls[125] = true; // Omni Mode On
        dontResetControls[126] = true; // Poly Mode Off
        dontResetControls[127] = true; // Poly Mode On

        dontResetControls[6] = true;   // Data Entry (MSB)
        dontResetControls[38] = true;  // Data Entry (LSB)
        dontResetControls[96] = true;  // Data Increment
        dontResetControls[97] = true;  // Data Decrement
        dontResetControls[98] = true;  // Non-Registered Parameter Number (LSB)
        dontResetControls[99] = true;  // Non-Registered Parameter Number(MSB)
        dontResetControls[100] = true; // RPN = Null
        dontResetControls[101] = true; // RPN = Null

    }

    private static final int RPN_NULL_VALUE = (127 << 7) + 127;
    private int rpn_control = RPN_NULL_VALUE;
    private int nrpn_control = RPN_NULL_VALUE;
    protected double portamento_time = 1; // keyschanges per control buffer time
    protected int[] portamento_lastnote = new int[128];
    protected int portamento_lastnote_ix = 0;
    private int portamento_control_note = -1;
    private boolean portamento = false;
    private boolean mono = false;
    private boolean mute = false;
    private boolean solo = false;
    private boolean solomute = false;
    private Object control_mutex;
    private int channel;
    private SoftVoice[] voices;
    private int bank;
    private int program;
    private SoftSynthesizer synthesizer;
    private SoftMainMixer mainmixer;
    private int[] polypressure = new int[128];
    private int channelpressure = 0;
    private int[] controller = new int[128];
    private int pitchbend;
    private double[] co_midi_pitch = new double[1];
    private double[] co_midi_channel_pressure = new double[1];
    protected SoftTuning tuning = new SoftTuning();
    protected int tuning_bank = 0;
    protected int tuning_program = 0;
    protected SoftInstrument current_instrument = null;
    protected ModelChannelMixer current_mixer = null;
    private ModelDirector current_director = null;

    // Controller Destination Settings
    protected int cds_control_number = -1;
    protected ModelConnectionBlock[] cds_control_connections = null;
    protected ModelConnectionBlock[] cds_channelpressure_connections = null;
    protected ModelConnectionBlock[] cds_polypressure_connections = null;
    protected boolean sustain = false;
    protected boolean[][] keybasedcontroller_active = null;
    protected double[][] keybasedcontroller_value = null;

    private class MidiControlObject implements SoftControl {
        double[] pitch = co_midi_pitch;
        double[] channel_pressure = co_midi_channel_pressure;
        double[] poly_pressure = new double[1];

        public double[] get(int instance, String name) {
            if (name == null)
                return null;
            if (name.equals("pitch"))
                return pitch;
            if (name.equals("channel_pressure"))
                return channel_pressure;
            if (name.equals("poly_pressure"))
                return poly_pressure;
            return null;
        }
    }

    private SoftControl[] co_midi = new SoftControl[128];
    {
        for (int i = 0; i < co_midi.length; i++) {
            co_midi[i] = new MidiControlObject();
        }
    }

    private double[][] co_midi_cc_cc = new double[128][1];
    private SoftControl co_midi_cc = new SoftControl() {
        double[][] cc = co_midi_cc_cc;
        public double[] get(int instance, String name) {
            if (name == null)
                return null;
            return cc[Integer.parseInt(name)];
        }
    };
    Map<Integer, int[]> co_midi_rpn_rpn_i = new HashMap<Integer, int[]>();
    Map<Integer, double[]> co_midi_rpn_rpn = new HashMap<Integer, double[]>();
    private SoftControl co_midi_rpn = new SoftControl() {
        Map<Integer, double[]> rpn = co_midi_rpn_rpn;
        public double[] get(int instance, String name) {
            if (name == null)
                return null;
            int iname = Integer.parseInt(name);
            double[] v = rpn.get(iname);
            if (v == null) {
                v = new double[1];
                rpn.put(iname, v);
            }
            return v;
        }
    };
    Map<Integer, int[]> co_midi_nrpn_nrpn_i = new HashMap<Integer, int[]>();
    Map<Integer, double[]> co_midi_nrpn_nrpn = new HashMap<Integer, double[]>();
    private SoftControl co_midi_nrpn = new SoftControl() {
        Map<Integer, double[]> nrpn = co_midi_nrpn_nrpn;
        public double[] get(int instance, String name) {
            if (name == null)
                return null;
            int iname = Integer.parseInt(name);
            double[] v = nrpn.get(iname);
            if (v == null) {
                v = new double[1];
                nrpn.put(iname, v);
            }
            return v;
        }
    };

    public SoftChannel(SoftSynthesizer synth, int channel) {
        this.channel = channel;
        this.voices = synth.getVoices();
        this.synthesizer = synth;
        this.mainmixer = synth.getMainMixer();
        control_mutex = synth.control_mutex;
        resetAllControllers(true);
    }

    private int findFreeVoice(int x) {
        for (int i = x; i < voices.length; i++)
            if (!voices[i].active)
                return i;

        // No free voice was found, we must steal one

        int vmode = synthesizer.getVoiceAllocationMode();
        if (vmode == 1) {
            // DLS Static Voice Allocation

            //  * priority ( 10, 1-9, 11-16)
            // Search for channel to steal from
            int steal_channel = channel;
            for (int j = 0; j < voices.length; j++) {
                if (voices[j].stealer_channel == null) {
                    if (steal_channel == 9) {
                        steal_channel = voices[j].channel;
                    } else {
                        if (voices[j].channel != 9) {
                            if (voices[j].channel > steal_channel)
                                steal_channel = voices[j].channel;
                        }
                    }
                }
            }

            int voiceNo = -1;

            SoftVoice v = null;
            // Search for oldest voice in off state on steal_channel
            for (int j = 0; j < voices.length; j++) {
                if (voices[j].channel == steal_channel) {
                    if (voices[j].stealer_channel == null && !voices[j].on) {
                        if (v == null) {
                            v = voices[j];
                            voiceNo = j;
                        }
                        if (voices[j].voiceID < v.voiceID) {
                            v = voices[j];
                            voiceNo = j;
                        }
                    }
                }
            }
            // Search for oldest voice in on state on steal_channel
            if (voiceNo == -1) {
                for (int j = 0; j < voices.length; j++) {
                    if (voices[j].channel == steal_channel) {
                        if (voices[j].stealer_channel == null) {
                            if (v == null) {
                                v = voices[j];
                                voiceNo = j;
                            }
                            if (voices[j].voiceID < v.voiceID) {
                                v = voices[j];
                                voiceNo = j;
                            }
                        }
                    }
                }
            }

            return voiceNo;

        } else {
            // Default Voice Allocation
            //  * Find voice that is on
            //    and Find voice which has lowest voiceID ( oldest voice)
            //  * Or find voice that is off
            //    and Find voice which has lowest voiceID ( oldest voice)

            int voiceNo = -1;

            SoftVoice v = null;
            // Search for oldest voice in off state
            for (int j = 0; j < voices.length; j++) {
                if (voices[j].stealer_channel == null && !voices[j].on) {
                    if (v == null) {
                        v = voices[j];
                        voiceNo = j;
                    }
                    if (voices[j].voiceID < v.voiceID) {
                        v = voices[j];
                        voiceNo = j;
                    }
                }
            }
            // Search for oldest voice in on state
            if (voiceNo == -1) {

                for (int j = 0; j < voices.length; j++) {
                    if (voices[j].stealer_channel == null) {
                        if (v == null) {
                            v = voices[j];
                            voiceNo = j;
                        }
                        if (voices[j].voiceID < v.voiceID) {
                            v = voices[j];
                            voiceNo = j;
                        }
                    }
                }
            }

            return voiceNo;
        }

    }

    protected void initVoice(SoftVoice voice, SoftPerformer p, int voiceID,
            int noteNumber, int velocity, ModelConnectionBlock[] connectionBlocks,
            ModelChannelMixer channelmixer, boolean releaseTriggered) {
        if (voice.active) {
            // Voice is active , we must steal the voice
            voice.stealer_channel = this;
            voice.stealer_performer = p;
            voice.stealer_voiceID = voiceID;
            voice.stealer_noteNumber = noteNumber;
            voice.stealer_velocity = velocity;
            voice.stealer_extendedConnectionBlocks = connectionBlocks;
            voice.stealer_channelmixer = channelmixer;
            voice.stealer_releaseTriggered = releaseTriggered;
            for (int i = 0; i < voices.length; i++)
                if (voices[i].active && voices[i].voiceID == voice.voiceID)
                    voices[i].soundOff();
            return;
        }

        voice.extendedConnectionBlocks = connectionBlocks;
        voice.channelmixer = channelmixer;
        voice.releaseTriggered = releaseTriggered;
        voice.voiceID = voiceID;
        voice.tuning = tuning;
        voice.exclusiveClass = p.exclusiveClass;
        voice.softchannel = this;
        voice.channel = channel;
        voice.bank = bank;
        voice.program = program;
        voice.instrument = current_instrument;
        voice.performer = p;
        voice.objects.clear();
        voice.objects.put("midi", co_midi[noteNumber]);
        voice.objects.put("midi_cc", co_midi_cc);
        voice.objects.put("midi_rpn", co_midi_rpn);
        voice.objects.put("midi_nrpn", co_midi_nrpn);
        voice.noteOn(noteNumber, velocity);
        voice.setMute(mute);
        voice.setSoloMute(solomute);
        if (releaseTriggered)
            return;
        if (portamento_control_note != -1) {
            voice.co_noteon_keynumber[0]
                    = (tuning.getTuning(portamento_control_note) / 100.0)
                    * (1f / 128f);
            voice.portamento = true;
            portamento_control_note = -1;
        } else if (portamento) {
            if (mono) {
                if (portamento_lastnote[0] != -1) {
                    voice.co_noteon_keynumber[0]
                            = (tuning.getTuning(portamento_lastnote[0]) / 100.0)
                            * (1f / 128f);
                    voice.portamento = true;
                    portamento_control_note = -1;
                }
                portamento_lastnote[0] = noteNumber;
            } else {
                if (portamento_lastnote_ix != 0) {
                    portamento_lastnote_ix--;
                    voice.co_noteon_keynumber[0]
                            = (tuning.getTuning(
                                    portamento_lastnote[portamento_lastnote_ix])
                                / 100.0)
                            * (1f / 128f);
                    voice.portamento = true;
                }
            }
        }
    }

    public void noteOn(int noteNumber, int velocity) {

        if(noteNumber < 0 || noteNumber > 127) return;
        noteOn_internal(noteNumber, velocity);
        if (current_mixer != null)
            current_mixer.noteOn(noteNumber, velocity);
    }

    private void noteOn_internal(int noteNumber, int velocity) {

        if (velocity == 0) {
            noteOff_internal(noteNumber, 64);
            return;
        }

        synchronized (control_mutex) {
            if (sustain) {
                sustain = false;
                for (int i = 0; i < voices.length; i++) {
                    if ((voices[i].sustain || voices[i].on)
                            && voices[i].channel == channel && voices[i].active
                            && voices[i].note == noteNumber) {
                        voices[i].sustain = false;
                        voices[i].on = true;
                        voices[i].noteOff(0);
                    }
                }
                sustain = true;
            }

            mainmixer.msec_last_activity = mainmixer.msec_pos;

            if (mono) {
                if (portamento) {
                    boolean n_found = false;
                    for (int i = 0; i < voices.length; i++) {
                        if (voices[i].on && voices[i].channel == channel
                                && voices[i].active
                                && voices[i].releaseTriggered == false) {
                            voices[i].portamento = true;
                            voices[i].setNote(noteNumber);
                            n_found = true;
                        }
                    }
                    if (n_found) {
                        portamento_lastnote[0] = noteNumber;
                        return;
                    }
                }

                if (portamento_control_note != -1) {
                    boolean n_found = false;
                    for (int i = 0; i < voices.length; i++) {
                        if (voices[i].on && voices[i].channel == channel
                                && voices[i].active
                                && voices[i].note == portamento_control_note
                                && voices[i].releaseTriggered == false) {
                            voices[i].portamento = true;
                            voices[i].setNote(noteNumber);
                            n_found = true;
                        }
                    }
                    portamento_control_note = -1;
                    if (n_found)
                        return;
                }
            }

            if (mono)
                allNotesOff();

            if (current_instrument == null) {
                current_instrument
                        = synthesizer.findInstrument(program, bank, channel);
                if (current_instrument == null)
                    return;
                if (current_mixer != null)
                    mainmixer.stopMixer(current_mixer);
                current_mixer = current_instrument.getSourceInstrument()
                        .getChannelMixer(this, synthesizer.getFormat());
                if (current_mixer != null)
                    mainmixer.registerMixer(current_mixer);
                current_director = current_instrument.getDirector(this, this);
                applyInstrumentCustomization();
            }
            prevVoiceID = synthesizer.voiceIDCounter++;
            firstVoice = true;
            voiceNo = 0;

            int tunedKey = (int)(Math.round(tuning.getTuning()[noteNumber]/100.0));
            play_noteNumber = noteNumber;
            play_velocity = velocity;
            play_releasetriggered = false;
            lastVelocity[noteNumber] = velocity;
            current_director.noteOn(tunedKey, velocity);

            /*
            SoftPerformer[] performers = current_instrument.getPerformers();
            for (int i = 0; i < performers.length; i++) {
                SoftPerformer p = performers[i];
                if (p.keyFrom <= tunedKey && p.keyTo >= tunedKey) {
                    if (p.velFrom <= velocity && p.velTo >= velocity) {
                        if (firstVoice) {
                            firstVoice = false;
                            if (p.exclusiveClass != 0) {
                                int x = p.exclusiveClass;
                                for (int j = 0; j < voices.length; j++) {
                                    if (voices[j].active
                                            && voices[j].channel == channel
                                            && voices[j].exclusiveClass == x) {
                                        if (!(p.selfNonExclusive
                                                && voices[j].note == noteNumber))
                                            voices[j].shutdown();
                                    }
                                }
                            }
                        }
                        voiceNo = findFreeVoice(voiceNo);
                        if (voiceNo == -1)
                            return;
                        initVoice(voices[voiceNo], p, prevVoiceID, noteNumber,
                                velocity);
                    }
                }
            }
            */
        }
    }

    public void noteOff(int noteNumber, int velocity) {
        if(noteNumber < 0 || noteNumber > 127) return;
        noteOff_internal(noteNumber, velocity);

        if (current_mixer != null)
            current_mixer.noteOff(noteNumber, velocity);
    }

    private void noteOff_internal(int noteNumber, int velocity) {
        synchronized (control_mutex) {

            if (!mono) {
                if (portamento) {
                    if (portamento_lastnote_ix != 127) {
                        portamento_lastnote[portamento_lastnote_ix] = noteNumber;
                        portamento_lastnote_ix++;
                    }
                }
            }

            mainmixer.msec_last_activity = mainmixer.msec_pos;
            for (int i = 0; i < voices.length; i++) {
                if (voices[i].on && voices[i].channel == channel
                        && voices[i].note == noteNumber
                        && voices[i].releaseTriggered == false) {
                    voices[i].noteOff(velocity);
                }
            }

            // Try play back note-off triggered voices,

            if (current_instrument == null) {
                current_instrument
                        = synthesizer.findInstrument(program, bank, channel);
                if (current_instrument == null)
                    return;
                if (current_mixer != null)
                    mainmixer.stopMixer(current_mixer);
                current_mixer = current_instrument.getSourceInstrument()
                        .getChannelMixer(this, synthesizer.getFormat());
                if (current_mixer != null)
                    mainmixer.registerMixer(current_mixer);
                current_director = current_instrument.getDirector(this, this);
                applyInstrumentCustomization();

            }
            prevVoiceID = synthesizer.voiceIDCounter++;
            firstVoice = true;
            voiceNo = 0;

            int tunedKey = (int)(Math.round(tuning.getTuning()[noteNumber]/100.0));
            play_noteNumber = noteNumber;
            play_velocity = lastVelocity[noteNumber];
            play_releasetriggered = true;
            current_director.noteOff(tunedKey, velocity);

        }
    }
    private int[] lastVelocity = new int[128];
    private int prevVoiceID;
    private boolean firstVoice = true;
    private int voiceNo = 0;
    private int play_noteNumber = 0;
    private int play_velocity = 0;
    private boolean play_releasetriggered = false;

    public void play(int performerIndex, ModelConnectionBlock[] connectionBlocks) {

        int noteNumber = play_noteNumber;
        int velocity = play_velocity;
        boolean releasetriggered = play_releasetriggered;

        SoftPerformer p = current_instrument.getPerformers()[performerIndex];

        if (firstVoice) {
            firstVoice = false;
            if (p.exclusiveClass != 0) {
                int x = p.exclusiveClass;
                for (int j = 0; j < voices.length; j++) {
                    if (voices[j].active && voices[j].channel == channel
                            && voices[j].exclusiveClass == x) {
                        if (!(p.selfNonExclusive && voices[j].note == noteNumber))
                            voices[j].shutdown();
                    }
                }
            }
        }

        voiceNo = findFreeVoice(voiceNo);

        if (voiceNo == -1)
            return;

        initVoice(voices[voiceNo], p, prevVoiceID, noteNumber, velocity,
                connectionBlocks, current_mixer, releasetriggered);
    }

    public void noteOff(int noteNumber) {
        if(noteNumber < 0 || noteNumber > 127) return;
        noteOff_internal(noteNumber, 64);
    }

    public void setPolyPressure(int noteNumber, int pressure) {
        if (current_mixer != null)
            current_mixer.setPolyPressure(noteNumber, pressure);

        synchronized (control_mutex) {
            mainmixer.msec_last_activity = mainmixer.msec_pos;
            co_midi[noteNumber].get(0, "poly_pressure")[0] = pressure*(1.0/128.0);
            polypressure[noteNumber] = pressure;
            for (int i = 0; i < voices.length; i++) {
                if (voices[i].active && voices[i].note == noteNumber)
                    voices[i].setPolyPressure(pressure);
            }
        }
    }

    public int getPolyPressure(int noteNumber) {
        synchronized (control_mutex) {
            return polypressure[noteNumber];
        }
    }

    public void setChannelPressure(int pressure) {
        if (current_mixer != null)
            current_mixer.setChannelPressure(pressure);
        synchronized (control_mutex) {
            mainmixer.msec_last_activity = mainmixer.msec_pos;
            co_midi_channel_pressure[0] = pressure * (1.0 / 128.0);
            channelpressure = pressure;
            for (int i = 0; i < voices.length; i++) {
                if (voices[i].active)
                    voices[i].setChannelPressure(pressure);
            }
        }
    }

    public int getChannelPressure() {
        synchronized (control_mutex) {
            return channelpressure;
        }
    }

    protected void applyInstrumentCustomization() {
        if (cds_control_connections == null
                && cds_channelpressure_connections == null
                && cds_polypressure_connections == null) {
            return;
        }

        ModelInstrument src_instrument = current_instrument.getSourceInstrument();
        ModelPerformer[] performers = src_instrument.getPerformers();
        ModelPerformer[] new_performers = new ModelPerformer[performers.length];
        for (int i = 0; i < new_performers.length; i++) {
            ModelPerformer performer = performers[i];
            ModelPerformer new_performer = new ModelPerformer();
            new_performer.setName(performer.getName());
            new_performer.setExclusiveClass(performer.getExclusiveClass());
            new_performer.setKeyFrom(performer.getKeyFrom());
            new_performer.setKeyTo(performer.getKeyTo());
            new_performer.setVelFrom(performer.getVelFrom());
            new_performer.setVelTo(performer.getVelTo());
            new_performer.getOscillators().addAll(performer.getOscillators());
            new_performer.getConnectionBlocks().addAll(
                    performer.getConnectionBlocks());
            new_performers[i] = new_performer;

            List<ModelConnectionBlock> connblocks =
                    new_performer.getConnectionBlocks();

            if (cds_control_connections != null) {
                String cc = Integer.toString(cds_control_number);
                Iterator<ModelConnectionBlock> iter = connblocks.iterator();
                while (iter.hasNext()) {
                    ModelConnectionBlock conn = iter.next();
                    ModelSource[] sources = conn.getSources();
                    boolean removeok = false;
                    if (sources != null) {
                        for (int j = 0; j < sources.length; j++) {
                            ModelSource src = sources[j];
                            if ("midi_cc".equals(src.getIdentifier().getObject())
                                    && cc.equals(src.getIdentifier().getVariable())) {
                                removeok = true;
                            }
                        }
                    }
                    if (removeok)
                        iter.remove();
                }
                for (int j = 0; j < cds_control_connections.length; j++)
                    connblocks.add(cds_control_connections[j]);
            }

            if (cds_polypressure_connections != null) {
                Iterator<ModelConnectionBlock> iter = connblocks.iterator();
                while (iter.hasNext()) {
                    ModelConnectionBlock conn = iter.next();
                    ModelSource[] sources = conn.getSources();
                    boolean removeok = false;
                    if (sources != null) {
                        for (int j = 0; j < sources.length; j++) {
                            ModelSource src = sources[j];
                            if ("midi".equals(src.getIdentifier().getObject())
                                    && "poly_pressure".equals(
                                        src.getIdentifier().getVariable())) {
                                removeok = true;
                            }
                        }
                    }
                    if (removeok)
                        iter.remove();
                }
                for (int j = 0; j < cds_polypressure_connections.length; j++)
                    connblocks.add(cds_polypressure_connections[j]);
            }


            if (cds_channelpressure_connections != null) {
                Iterator<ModelConnectionBlock> iter = connblocks.iterator();
                while (iter.hasNext()) {
                    ModelConnectionBlock conn = iter.next();
                    ModelSource[] sources = conn.getSources();
                    boolean removeok = false;
                    if (sources != null) {
                        for (int j = 0; j < sources.length; j++) {
                            ModelIdentifier srcid = sources[j].getIdentifier();
                            if ("midi".equals(srcid.getObject()) &&
                                    "channel_pressure".equals(srcid.getVariable())) {
                                removeok = true;
                            }
                        }
                    }
                    if (removeok)
                        iter.remove();
                }
                for (int j = 0; j < cds_channelpressure_connections.length; j++)
                    connblocks.add(cds_channelpressure_connections[j]);
            }

        }

        current_instrument = new SoftInstrument(src_instrument, new_performers);

    }

    private ModelConnectionBlock[] createModelConnections(ModelIdentifier sid,
            int[] destination, int[] range) {

        /*
        controlled parameter (pp)|range (rr)| Description             |Default
        -------------------------|----------|-------------------------|-------
        00 Pitch Control         | 28H..58H | -24..+24 semitones      | 40H
        01 Filter Cutoff Control | 00H..7FH | -9600..+9450 cents      | 40H
        02 Amplitude Control     | 00H..7FH | 0..(127/64)*100 percent | 40H
        03 LFO Pitch Depth       | 00H..7FH | 0..600 cents            |  0
        04 LFO Filter Depth      | 00H..7FH | 0..2400 cents           |  0
        05 LFO Amplitude Depth   | 00H..7FH | 0..100 percent          |  0
        */

        List<ModelConnectionBlock> conns = new ArrayList<ModelConnectionBlock>();

        for (int i = 0; i < destination.length; i++) {
            int d = destination[i];
            int r = range[i];
            if (d == 0) {
                double scale = (r - 64) * 100;
                ModelConnectionBlock conn = new ModelConnectionBlock(
                        new ModelSource(sid,
                            ModelStandardTransform.DIRECTION_MIN2MAX,
                            ModelStandardTransform.POLARITY_UNIPOLAR,
                            ModelStandardTransform.TRANSFORM_LINEAR),
                        scale,
                        new ModelDestination(
                            new ModelIdentifier("osc", "pitch")));
                conns.add(conn);

            }
            if (d == 1) {
                double scale = (r / 64.0 - 1.0) * 9600.0;
                ModelConnectionBlock conn;
                if (scale > 0) {
                    conn = new ModelConnectionBlock(
                            new ModelSource(sid,
                                ModelStandardTransform.DIRECTION_MAX2MIN,
                                ModelStandardTransform.POLARITY_UNIPOLAR,
                                ModelStandardTransform.TRANSFORM_LINEAR),
                            -scale,
                            new ModelDestination(
                                ModelDestination.DESTINATION_FILTER_FREQ));
                } else {
                    conn = new ModelConnectionBlock(
                            new ModelSource(sid,
                                ModelStandardTransform.DIRECTION_MIN2MAX,
                                ModelStandardTransform.POLARITY_UNIPOLAR,
                                ModelStandardTransform.TRANSFORM_LINEAR),
                            scale,
                            new ModelDestination(
                                ModelDestination.DESTINATION_FILTER_FREQ));
                }
                conns.add(conn);
            }
            if (d == 2) {
                final double scale = (r / 64.0);
                ModelTransform mt = new ModelTransform() {
                    double s = scale;
                    public double transform(double value) {
                        if (s < 1)
                            value = s + (value * (1.0 - s));
                        else if (s > 1)
                            value = 1 + (value * (s - 1.0));
                        else
                            return 0;
                        return -((5.0 / 12.0) / Math.log(10)) * Math.log(value);
                    }
                };

                ModelConnectionBlock conn = new ModelConnectionBlock(
                        new ModelSource(sid, mt), -960,
                        new ModelDestination(ModelDestination.DESTINATION_GAIN));
                conns.add(conn);

            }
            if (d == 3) {
                double scale = (r / 64.0 - 1.0) * 9600.0;
                ModelConnectionBlock conn = new ModelConnectionBlock(
                        new ModelSource(ModelSource.SOURCE_LFO1,
                            ModelStandardTransform.DIRECTION_MIN2MAX,
                            ModelStandardTransform.POLARITY_BIPOLAR,
                            ModelStandardTransform.TRANSFORM_LINEAR),
                        new ModelSource(sid,
                            ModelStandardTransform.DIRECTION_MIN2MAX,
                            ModelStandardTransform.POLARITY_UNIPOLAR,
                            ModelStandardTransform.TRANSFORM_LINEAR),
                        scale,
                        new ModelDestination(
                            ModelDestination.DESTINATION_PITCH));
                conns.add(conn);
            }
            if (d == 4) {
                double scale = (r / 128.0) * 2400.0;
                ModelConnectionBlock conn = new ModelConnectionBlock(
                        new ModelSource(ModelSource.SOURCE_LFO1,
                            ModelStandardTransform.DIRECTION_MIN2MAX,
                            ModelStandardTransform.POLARITY_BIPOLAR,
                            ModelStandardTransform.TRANSFORM_LINEAR),
                        new ModelSource(sid,
                            ModelStandardTransform.DIRECTION_MIN2MAX,
                            ModelStandardTransform.POLARITY_UNIPOLAR,
                            ModelStandardTransform.TRANSFORM_LINEAR),
                        scale,
                        new ModelDestination(
                            ModelDestination.DESTINATION_FILTER_FREQ));
                conns.add(conn);
            }
            if (d == 5) {
                final double scale = (r / 127.0);

                ModelTransform mt = new ModelTransform() {
                    double s = scale;
                    public double transform(double value) {
                        return -((5.0 / 12.0) / Math.log(10))
                                * Math.log(1 - value * s);
                    }
                };

                ModelConnectionBlock conn = new ModelConnectionBlock(
                        new ModelSource(ModelSource.SOURCE_LFO1,
                            ModelStandardTransform.DIRECTION_MIN2MAX,
                            ModelStandardTransform.POLARITY_UNIPOLAR,
                            ModelStandardTransform.TRANSFORM_LINEAR),
                        new ModelSource(sid, mt),
                        -960,
                        new ModelDestination(
                            ModelDestination.DESTINATION_GAIN));
                conns.add(conn);
            }
        }

        return conns.toArray(new ModelConnectionBlock[conns.size()]);
    }

    public void mapPolyPressureToDestination(int[] destination, int[] range) {
        current_instrument = null;
        if (destination.length == 0) {
            cds_polypressure_connections = null;
            return;
        }
        cds_polypressure_connections
                = createModelConnections(
                    new ModelIdentifier("midi", "poly_pressure"),
                    destination, range);
    }

    public void mapChannelPressureToDestination(int[] destination, int[] range) {
        current_instrument = null;
        if (destination.length == 0) {
            cds_channelpressure_connections = null;
            return;
        }
        cds_channelpressure_connections
                = createModelConnections(
                    new ModelIdentifier("midi", "channel_pressure"),
                    destination, range);
    }

    public void mapControlToDestination(int control, int[] destination, int[] range) {

        if (!((control >= 0x01 && control <= 0x1F)
                || (control >= 0x40 && control <= 0x5F))) {
            cds_control_connections = null;
            return;
        }

        current_instrument = null;
        cds_control_number = control;
        if (destination.length == 0) {
            cds_control_connections = null;
            return;
        }
        cds_control_connections
                = createModelConnections(
                    new ModelIdentifier("midi_cc", Integer.toString(control)),
                    destination, range);
    }

    public void controlChangePerNote(int noteNumber, int controller, int value) {

/*
 CC# | nn   | Name                    | vv             | default    | description
-----|------|-------------------------|----------------|------------|-------------------------------
7    |07H   |Note Volume              |00H-40H-7FH     |40H         |0-100-(127/64)*100(%)(Relative)
10   |0AH   |*Pan                     |00H-7FH absolute|Preset Value|Left-Center-Right (absolute)
33-63|21-3FH|LSB for                  |01H-1FH         |            |
71   |47H   |Timbre/Harmonic Intensity|00H-40H-7FH     |40H (???)   |
72   |48H   |Release Time             |00H-40H-7FH     |40H (???)   |
73   |49H   |Attack Time              |00H-40H-7FH     |40H (???)   |
74   |4AH   |Brightness               |00H-40H-7FH     |40H (???)   |
75   |4BH   |Decay Time               |00H-40H-7FH     |40H (???)   |
76   |4CH   |Vibrato Rate             |00H-40H-7FH     |40H (???)   |
77   |4DH   |Vibrato Depth            |00H-40H-7FH     |40H (???)   |
78   |4EH   |Vibrato Delay            |00H-40H-7FH     |40H (???)   |
91   |5BH   |*Reverb Send             |00H-7FH absolute|Preset Value|Left-Center-Right (absolute)
93   |5DH   |*Chorus Send             |00H-7FH absolute|Preset Value|Left-Center-Right (absolute)
120  |78H   |**Fine Tuning            |00H-40H-7FH     |40H (???)   |
121  |79H   |**Coarse Tuning          |00H-40H-7FH     |40H (???)   |
*/

        if (keybasedcontroller_active == null) {
            keybasedcontroller_active = new boolean[128][];
            keybasedcontroller_value = new double[128][];
        }
        if (keybasedcontroller_active[noteNumber] == null) {
            keybasedcontroller_active[noteNumber] = new boolean[128];
            Arrays.fill(keybasedcontroller_active[noteNumber], false);
            keybasedcontroller_value[noteNumber] = new double[128];
            Arrays.fill(keybasedcontroller_value[noteNumber], 0);
        }

        if (value == -1) {
            keybasedcontroller_active[noteNumber][controller] = false;
        } else {
            keybasedcontroller_active[noteNumber][controller] = true;
            keybasedcontroller_value[noteNumber][controller] = value / 128.0;
        }

        if (controller < 120) {
            for (int i = 0; i < voices.length; i++)
                if (voices[i].active)
                    voices[i].controlChange(controller, -1);
        } else if (controller == 120) {
            for (int i = 0; i < voices.length; i++)
                if (voices[i].active)
                    voices[i].rpnChange(1, -1);
        } else if (controller == 121) {
            for (int i = 0; i < voices.length; i++)
                if (voices[i].active)
                    voices[i].rpnChange(2, -1);
        }

    }

    public int getControlPerNote(int noteNumber, int controller) {
        if (keybasedcontroller_active == null)
            return -1;
        if (keybasedcontroller_active[noteNumber] == null)
            return -1;
        if (!keybasedcontroller_active[noteNumber][controller])
            return -1;
        return (int)(keybasedcontroller_value[noteNumber][controller] * 128);
    }

    public void controlChange(int controller, int value) {
        if (current_mixer != null)
            current_mixer.controlChange(controller, value);

        synchronized (control_mutex) {
            switch (controller) {
            /*
            Map<String, int[]>co_midi_rpn_rpn_i = new HashMap<String, int[]>();
            Map<String, double[]>co_midi_rpn_rpn = new HashMap<String, double[]>();
            Map<String, int[]>co_midi_nrpn_nrpn_i = new HashMap<String, int[]>();
            Map<String, double[]>co_midi_nrpn_nrpn = new HashMap<String, double[]>();
             */

            case 5:
                // This produce asin-like curve
                // as described in General Midi Level 2 Specification, page 6
                double x = -Math.asin((value / 128.0) * 2 - 1) / Math.PI + 0.5;
                x = Math.pow(100000.0, x) / 100.0;  // x is now cent/msec
                // Convert x from cent/msec to key/controlbuffertime
                x = x / 100.0;                      // x is now keys/msec
                x = x * 1000.0;                     // x is now keys/sec
                x = x / synthesizer.getControlRate(); // x is now keys/controlbuffertime
                portamento_time = x;
                break;
            case 6:
            case 38:
            case 96:
            case 97:
                int val = 0;
                if (nrpn_control != RPN_NULL_VALUE) {
                    int[] val_i = co_midi_nrpn_nrpn_i.get(nrpn_control);
                    if (val_i != null)
                        val = val_i[0];
                }
                if (rpn_control != RPN_NULL_VALUE) {
                    int[] val_i = co_midi_rpn_rpn_i.get(rpn_control);
                    if (val_i != null)
                        val = val_i[0];
                }

                if (controller == 6)
                    val = (val & 127) + (value << 7);
                else if (controller == 38)
                    val = (val & (127 << 7)) + value;
                else if (controller == 96 || controller == 97) {
                    int step = 1;
                    if (rpn_control == 2 || rpn_control == 3 || rpn_control == 4)
                        step = 128;
                    if (controller == 96)
                        val += step;
                    if (controller == 97)
                        val -= step;
                }

                if (nrpn_control != RPN_NULL_VALUE)
                    nrpnChange(nrpn_control, val);
                if (rpn_control != RPN_NULL_VALUE)
                    rpnChange(rpn_control, val);

                break;
            case 64: // Hold1 (Damper) (cc#64)
                boolean on = value >= 64;
                if (sustain != on) {
                    sustain = on;
                    if (!on) {
                        for (int i = 0; i < voices.length; i++) {
                            if (voices[i].active && voices[i].sustain &&
                                    voices[i].channel == channel) {
                                voices[i].sustain = false;
                                if (!voices[i].on) {
                                    voices[i].on = true;
                                    voices[i].noteOff(0);
                                }
                            }
                        }
                    } else {
                        for (int i = 0; i < voices.length; i++)
                            if (voices[i].active && voices[i].channel == channel)
                                voices[i].redamp();
                    }
                }
                break;
            case 65:
                //allNotesOff();
                portamento = value >= 64;
                portamento_lastnote[0] = -1;
                /*
                for (int i = 0; i < portamento_lastnote.length; i++)
                    portamento_lastnote[i] = -1;
                 */
                portamento_lastnote_ix = 0;
                break;
            case 66: // Sostenuto (cc#66)
                on = value >= 64;
                if (on) {
                    for (int i = 0; i < voices.length; i++) {
                        if (voices[i].active && voices[i].on &&
                                voices[i].channel == channel) {
                            voices[i].sostenuto = true;
                        }
                    }
                }
                if (!on) {
                    for (int i = 0; i < voices.length; i++) {
                        if (voices[i].active && voices[i].sostenuto &&
                                voices[i].channel == channel) {
                            voices[i].sostenuto = false;
                            if (!voices[i].on) {
                                voices[i].on = true;
                                voices[i].noteOff(0);
                            }
                        }
                    }
                }
                break;
            case 84:
                portamento_control_note = value;
                break;
            case 98:
                nrpn_control = (nrpn_control & (127 << 7)) + value;
                rpn_control = RPN_NULL_VALUE;
                break;
            case 99:
                nrpn_control = (nrpn_control & 127) + (value << 7);
                rpn_control = RPN_NULL_VALUE;
                break;
            case 100:
                rpn_control = (rpn_control & (127 << 7)) + value;
                nrpn_control = RPN_NULL_VALUE;
                break;
            case 101:
                rpn_control = (rpn_control & 127) + (value << 7);
                nrpn_control = RPN_NULL_VALUE;
                break;
            case 120:
                allSoundOff();
                break;
            case 121:
                resetAllControllers(value == 127);
                break;
            case 122:
                localControl(value >= 64);
                break;
            case 123:
                allNotesOff();
                break;
            case 124:
                setOmni(false);
                break;
            case 125:
                setOmni(true);
                break;
            case 126:
                if (value == 1)
                    setMono(true);
                break;
            case 127:
                setMono(false);
                break;

            default:
                break;
            }

            co_midi_cc_cc[controller][0] = value * (1.0 / 128.0);

            if (controller == 0x00) {
                bank = /*(bank & 127) +*/ (value << 7);
                return;
            }

            if (controller == 0x20) {
                bank = (bank & (127 << 7)) + value;
                return;
            }

            this.controller[controller] = value;
            if(controller < 0x20)
                this.controller[controller + 0x20] = 0;     

            for (int i = 0; i < voices.length; i++)
                if (voices[i].active)
                    voices[i].controlChange(controller, value);

        }
    }

    public int getController(int controller) {
        synchronized (control_mutex) {
            // Should only return lower 7 bits,
            // even when controller is "boosted" higher.
            return this.controller[controller] & 127;
        }
    }

    public void tuningChange(int program) {
        tuningChange(0, program);
    }

    public void tuningChange(int bank, int program) {
        synchronized (control_mutex) {
            tuning = synthesizer.getTuning(new Patch(bank, program));
        }
    }

    public void programChange(int program) {
        programChange(bank, program);
    }

    public void programChange(int bank, int program) {
        synchronized (control_mutex) {
            mainmixer.msec_last_activity = mainmixer.msec_pos;
            this.bank = bank;
            this.program = program;
            current_instrument = null;
        }
    }

    public int getProgram() {
        synchronized (control_mutex) {
            return program;
        }
    }

    public void setPitchBend(int bend) {
        if (current_mixer != null)
            current_mixer.setPitchBend(bend);
        synchronized (control_mutex) {
            mainmixer.msec_last_activity = mainmixer.msec_pos;
            co_midi_pitch[0] = bend * (1.0 / 16384.0);
            pitchbend = bend;
            for (int i = 0; i < voices.length; i++)
                if (voices[i].active)
                    voices[i].setPitchBend(bend);
        }
    }

    public int getPitchBend() {
        synchronized (control_mutex) {
            return pitchbend;
        }
    }

    public void nrpnChange(int controller, int value) {

        /*
        System.out.println("(" + channel + ").nrpnChange("
                + Integer.toHexString(controller >> 7)
                + " " + Integer.toHexString(controller & 127)
                + ", " + Integer.toHexString(value >> 7)
                + " " + Integer.toHexString(value & 127) + ")");
         */

        if (synthesizer.getGeneralMidiMode() == 0) {
            if (controller == (0x01 << 7) + (0x08)) // Vibrato Rate
                controlChange(76, value >> 7);
            if (controller == (0x01 << 7) + (0x09)) // Vibrato Depth
                controlChange(77, value >> 7);
            if (controller == (0x01 << 7) + (0x0A)) // Vibrato Delay
                controlChange(78, value >> 7);
            if (controller == (0x01 << 7) + (0x20)) // Brightness
                controlChange(74, value >> 7);
            if (controller == (0x01 << 7) + (0x21)) // Filter Resonance
                controlChange(71, value >> 7);
            if (controller == (0x01 << 7) + (0x63)) // Attack Time
                controlChange(73, value >> 7);
            if (controller == (0x01 << 7) + (0x64)) // Decay Time
                controlChange(75, value >> 7);
            if (controller == (0x01 << 7) + (0x66)) // Release Time
                controlChange(72, value >> 7);

            if (controller >> 7 == 0x18) // Pitch coarse
                controlChangePerNote(controller % 128, 120, value >> 7);
            if (controller >> 7 == 0x1A) // Volume
                controlChangePerNote(controller % 128, 7, value >> 7);
            if (controller >> 7 == 0x1C) // Panpot
                controlChangePerNote(controller % 128, 10, value >> 7);
            if (controller >> 7 == 0x1D) // Reverb
                controlChangePerNote(controller % 128, 91, value >> 7);
            if (controller >> 7 == 0x1E) // Chorus
                controlChangePerNote(controller % 128, 93, value >> 7);
        }

        int[] val_i = co_midi_nrpn_nrpn_i.get(controller);
        double[] val_d = co_midi_nrpn_nrpn.get(controller);
        if (val_i == null) {
            val_i = new int[1];
            co_midi_nrpn_nrpn_i.put(controller, val_i);
        }
        if (val_d == null) {
            val_d = new double[1];
            co_midi_nrpn_nrpn.put(controller, val_d);
        }
        val_i[0] = value;
        val_d[0] = val_i[0] * (1.0 / 16384.0);

        for (int i = 0; i < voices.length; i++)
            if (voices[i].active)
                voices[i].nrpnChange(controller, val_i[0]);

    }

    public void rpnChange(int controller, int value) {

        /*
        System.out.println("(" + channel + ").rpnChange("
                + Integer.toHexString(controller >> 7)
                + " " + Integer.toHexString(controller & 127)
                + ", " + Integer.toHexString(value >> 7)
                + " " + Integer.toHexString(value & 127) + ")");
         */

        if (controller == 3) {
            tuning_program = (value >> 7) & 127;
            tuningChange(tuning_bank, tuning_program);
        }
        if (controller == 4) {
            tuning_bank = (value >> 7) & 127;
        }

        int[] val_i = co_midi_rpn_rpn_i.get(controller);
        double[] val_d = co_midi_rpn_rpn.get(controller);
        if (val_i == null) {
            val_i = new int[1];
            co_midi_rpn_rpn_i.put(controller, val_i);
        }
        if (val_d == null) {
            val_d = new double[1];
            co_midi_rpn_rpn.put(controller, val_d);
        }
        val_i[0] = value;
        val_d[0] = val_i[0] * (1.0 / 16384.0);

        for (int i = 0; i < voices.length; i++)
            if (voices[i].active)
                voices[i].rpnChange(controller, val_i[0]);
    }

    public void resetAllControllers() {
        resetAllControllers(false);
    }

    public void resetAllControllers(boolean allControls) {
        synchronized (control_mutex) {
            mainmixer.msec_last_activity = mainmixer.msec_pos;

            for (int i = 0; i < 128; i++) {
                setPolyPressure(i, 0);
            }
            setChannelPressure(0);
            setPitchBend(8192);
            for (int i = 0; i < 128; i++) {
                if (!dontResetControls[i])
                    controlChange(i, 0);
            }

            controlChange(71, 64); // Filter Resonance
            controlChange(72, 64); // Release Time
            controlChange(73, 64); // Attack Time
            controlChange(74, 64); // Brightness
            controlChange(75, 64); // Decay Time
            controlChange(76, 64); // Vibrato Rate
            controlChange(77, 64); // Vibrato Depth
            controlChange(78, 64); // Vibrato Delay

            controlChange(8, 64); // Balance
            controlChange(11, 127); // Expression
            controlChange(98, 127); // NRPN Null
            controlChange(99, 127); // NRPN Null
            controlChange(100, 127); // RPN = Null
            controlChange(101, 127); // RPN = Null

            // see DLS 2.1 (Power-on Default Values)
            if (allControls) {

                keybasedcontroller_active = null;
                keybasedcontroller_value = null;

                controlChange(7, 100); // Volume
                controlChange(10, 64); // Pan
                controlChange(91, 40); // Reverb

                for (int controller : co_midi_rpn_rpn.keySet()) {
                    // don't reset tuning settings
                    if (controller != 3 && controller != 4)
                        rpnChange(controller, 0);
                }
                for (int controller : co_midi_nrpn_nrpn.keySet())
                    nrpnChange(controller, 0);
                rpnChange(0, 2 << 7);   // Bitch Bend sensitivity
                rpnChange(1, 64 << 7);  // Channel fine tunning
                rpnChange(2, 64 << 7);  // Channel Coarse Tuning
                rpnChange(5, 64);       // Modulation Depth, +/- 50 cent

                tuning_bank = 0;
                tuning_program = 0;
                tuning = new SoftTuning();

            }

        }
    }

    public void allNotesOff() {
        if (current_mixer != null)
            current_mixer.allNotesOff();
        synchronized (control_mutex) {
            for (int i = 0; i < voices.length; i++)
                if (voices[i].on && voices[i].channel == channel
                        && voices[i].releaseTriggered == false) {
                    voices[i].noteOff(0);
                }
        }
    }

    public void allSoundOff() {
        if (current_mixer != null)
            current_mixer.allSoundOff();
        synchronized (control_mutex) {
            for (int i = 0; i < voices.length; i++)
                if (voices[i].on && voices[i].channel == channel)
                    voices[i].soundOff();
        }
    }

    public boolean localControl(boolean on) {
        return false;
    }

    public void setMono(boolean on) {
        if (current_mixer != null)
            current_mixer.setMono(on);
        synchronized (control_mutex) {
            allNotesOff();
            mono = on;
        }
    }

    public boolean getMono() {
        synchronized (control_mutex) {
            return mono;
        }
    }

    public void setOmni(boolean on) {
        if (current_mixer != null)
            current_mixer.setOmni(on);
        allNotesOff();
    // Omni is not supported by GM2
    }

    public boolean getOmni() {
        return false;
    }

    public void setMute(boolean mute) {
        if (current_mixer != null)
            current_mixer.setMute(mute);
        synchronized (control_mutex) {
            this.mute = mute;
            for (int i = 0; i < voices.length; i++)
                if (voices[i].active && voices[i].channel == channel)
                    voices[i].setMute(mute);
        }
    }

    public boolean getMute() {
        synchronized (control_mutex) {
            return mute;
        }
    }

    public void setSolo(boolean soloState) {
        if (current_mixer != null)
            current_mixer.setSolo(soloState);

        synchronized (control_mutex) {
            this.solo = soloState;

            boolean soloinuse = false;
            for (SoftChannel c : synthesizer.channels) {
                if (c.solo) {
                    soloinuse = true;
                    break;
                }
            }

            if (!soloinuse) {
                for (SoftChannel c : synthesizer.channels)
                    c.setSoloMute(false);
                return;
            }

            for (SoftChannel c : synthesizer.channels)
                c.setSoloMute(!c.solo);

        }

    }

    private void setSoloMute(boolean mute) {
        synchronized (control_mutex) {
            if (solomute == mute)
                return;
            this.solomute = mute;
            for (int i = 0; i < voices.length; i++)
                if (voices[i].active && voices[i].channel == channel)
                    voices[i].setSoloMute(solomute);
        }
    }

    public boolean getSolo() {
        synchronized (control_mutex) {
            return solo;
        }
    }
}

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