/* * Copyright 2009 Phil Burk, Mobileer Inc * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.jsyn.unitgen; import com.jsyn.engine.SynthesisEngine; public class TestEnvelopeAttackDecay extends TestUnitGate { double attackTime; double decayTime; @Override protected void setUp() throws Exception { super.setUp(); synthesisEngine = new SynthesisEngine(); synthesisEngine.setRealTime(false); attackTime = 0.2; decayTime = 0.4; } @Override protected void tearDown() throws Exception { super.tearDown(); synthesisEngine.stop(); } public void testOnOff() throws InterruptedException { EnvelopeAttackDecay envelope = new EnvelopeAttackDecay(); synthesisEngine.add(envelope); envelope.attack.set(0.1); envelope.decay.set(0.2); synthesisEngine.start(); envelope.start(); time = synthesisEngine.getCurrentTime(); synthesisEngine.sleepUntil(time + 0.1); assertEquals("still idling", 0.0, envelope.output.getValue()); // Trigger the envelope using on/off envelope.input.on(); time = synthesisEngine.getCurrentTime(); // Check end of attack cycle. synthesisEngine.sleepUntil(time + 0.1); assertTrue("at peak", (envelope.output.getValue() > 0.8)); envelope.input.off(); // Check end of decay cycle. synthesisEngine.sleepUntil(time + 0.3); assertTrue("at peak", (envelope.output.getValue() < 0.1)); synthesisEngine.sleepFor(0.1); // Trigger the envelope using trigger() envelope.input.trigger(); time = synthesisEngine.getCurrentTime(); // Check end of attack cycle. synthesisEngine.sleepUntil(time + 0.1); assertTrue("at peak", (envelope.output.getValue() > 0.8)); // Check end of decay cycle. synthesisEngine.sleepUntil(time + 0.3); assertTrue("at peak", (envelope.output.getValue() < 0.1)); } public void testRetrigger() throws InterruptedException { EnvelopeAttackDecay envelope = new EnvelopeAttackDecay(); synthesisEngine.add(envelope); envelope.attack.set(0.1); envelope.decay.set(0.2); synthesisEngine.start(); envelope.start(); time = synthesisEngine.getCurrentTime(); synthesisEngine.sleepUntil(time + 0.1); assertEquals("still idling", 0.0, envelope.output.getValue()); // Trigger the envelope using trigger() envelope.input.trigger(); // Check end of attack cycle. synthesisEngine.sleepFor(0.1); assertEquals("at peak", 1.0, envelope.output.getValue(), 0.1); // Decay half way. synthesisEngine.sleepFor(0.1); assertTrue("at peak", (envelope.output.getValue() < 0.7)); // Retrigger while decaying envelope.input.trigger(); // Will get to top faster. synthesisEngine.sleepFor(0.1); assertEquals("at peak", 1.0, envelope.output.getValue(), 0.1); // Check end of decay cycle. synthesisEngine.sleepFor(0.2); assertTrue("at peak", (envelope.output.getValue() < 0.1)); } public void testAutoDisable() throws InterruptedException { LinearRamp ramp = new LinearRamp(); synthesisEngine.add(ramp); EnvelopeAttackDecay envelope = new EnvelopeAttackDecay(); envelope.attack.set(0.1); envelope.decay.set(0.1); synthesisEngine.add(envelope); ramp.output.connect(envelope.amplitude); checkAutoDisable(ramp, envelope); } }