//==============================================================================
void initialise (const String& commandLine) override
{
// This method is where you should put your application's initialisation code..
UnitTestRunner testRunner;
testRunner.runAllTests();
ScopedPointer<Component> c(new ModeSelect());
int retval = DialogWindow::showModalDialog("Select Mode", c, nullptr, Colours::grey, false);
mainWindow = new MainWindow (getApplicationName());
if (0 == retval)
{
// server mode...
mainWindow->SetText("SERVER");
ServerController* c = new ServerController();
mainWindow->SetController(c);
fRpcServer = new RpcServer(c);
this->RunServer();
}
else
{
// client mode.
mainWindow->SetText("client");
RpcClient* ipc = new RpcClient();
fClientController = new ClientController(ipc);
mainWindow->SetController(fClientController);
this->RunClient();
}
}
bool ScumblerComponent::perform(const InvocationInfo& info)
{
bool retval = true;
switch (info.commandID)
{
case CommandIds::kNew:
{
}
break;
case CommandIds::kOpen:
{
}
break;
case CommandIds::kSave:
{
}
break;
case CommandIds::kSaveAs:
{
}
break;
case CommandIds::kPlay:
{
fScumbler->TogglePlay();
// tell the command manager something has changed. This will make it
// re-query us with getCommandInfo() and set the menu text to display either
// 'Play' or 'Pause'
gCommandManager->commandStatusChanged();
}
break;
case CommandIds::kRunUnitTests:
{
#ifdef qUnitTests
// Unsubscribe this component from change notifications so we don't go
// crazy when the tests are running
fScumbler->removeChangeListener(this);
UnitTestRunner runner;
// run all tests even if there are failures.
runner.setAssertOnFailure(false);
runner.runAllTests();
// hook us back up to the notifications.
fScumbler->addChangeListener(this);
#endif
}
break;
}
return retval;
}
//==============================================================================
int main (int argc, char* argv[])
{
static FieldManagerTests fieldManagerTests;
UnitTestRunner runner;
runner.setAssertOnFailure(false);
runner.runAllTests();
return 0;
}
//==============================================================================
void initialise (const String& /*commandLine*/)
{
#if JUCE_DEBUG && DROWAUDIO_UNIT_TESTS
UnitTestRunner testRunner;
testRunner.runAllTests();
#endif
SplashScreen* splash = new SplashScreen();
splash->show ("dRowAudio Demo",
ImageCache::getFromMemory (BinaryData::splash_screen_png, BinaryData::splash_screen_pngSize),
0, true);
// Do your application's initialisation code here..
mainWindow = new MainAppWindow();
}
//==============================================================================
JenSx1000AudioProcessor::JenSx1000AudioProcessor() :
ampEnvelope(JenConstants::AmpEnvMaxAttackTime, JenConstants::AmpEnvMaxDecayTime, JenConstants::AmpEnvMaxReleaseTime)
{
//Run Unit tests
if (true){
std::cout << "processor created";
UnitTestRunner runner;
runner.runAllTests();
}
//------- VCO Params -------------------------------------------------------
addParameter(vcoTuneParam = new JenParameter(*this, "VCO tune", 0.5));
addParameter(vcoOctaveParam = new JenParameter(*this, "VCO octave", 0, 4));
addParameter(vcoVibratoParam = new JenParameter(*this, "VCO vibrato", 0.5));
addParameter(vcoWaveformParam = new JenParameter(*this, "VCO waveform", 0.5, 3));
addParameter(vcoPulseWidthParam = new JenParameter(*this, "VCO pulse width", 0.5));
addParameter(vcoPWMParam = new JenParameter(*this, "VCO PWM", 0.5));
addParameter(vcoLevelParam = new JenParameter(*this, "VCO level", 0.5));
addParameter(vcoGlideParam = new JenParameter(*this, "VCO glide", 0.5));
//------- LFO Params ------------------------------------------------------
addParameter(lfoSpeedParam = new JenParameter(*this, "LFO speed", 0.5));
//------- VCF Params ------------------------------------------------------
addParameter(vcfFrequencyParam = new JenParameter(*this, "VCF frequency", 0.5));
addParameter(vcfResonanceParam = new JenParameter(*this, "VCF resonance", 0.5));
addParameter(vcfLFOParam = new JenParameter(*this, "VCF LFO", 0.5));
addParameter(vcfEnvLevelParam = new JenParameter(*this, "VCF env. level", 0.5));
addParameter(vcfAttackParam = new JenParameter(*this, "VCF attack", 0.3));
addParameter(vcfDecayParam = new JenParameter(*this, "VCF decay", 0.3));
addParameter(vcfSustainParam = new JenParameter(*this, "VCF sustain", 0.5));
addParameter(vcfReleaseParam = new JenParameter(*this, "VCF release", 0.3));
//------- Noise Params ----------------------------------------------------
addParameter(noiseNoiseParam = new JenParameter(*this, "NOISE noise", 0.5, 3));
addParameter(noiseLevelParam = new JenParameter(*this, "NOISE level", 0.5));
//------- VCA Params ------------------------------------------------------
addParameter(vcaOutputVolumeParam = new JenParameter(*this, "VCA level", 0.5));
addParameter(vcaAttackParam = new JenParameter(*this, "VCA attack", 0.3));
addParameter(vcaDecayParam = new JenParameter(*this, "VCA decay", 0.3));
addParameter(vcaSustainParam = new JenParameter(*this, "VCA sustain", 0.5));
addParameter(vcaReleaseParam = new JenParameter(*this, "VCA release", 0.3));
setCurrentProgram(0);
}
