Exemple #1
0
void DeviceTestApp::setupInputPulled()
{
    mOutputDeviceNode->disconnectAllInputs();

    mInputDeviceNode >> mGain >> mMonitor;
    mInputDeviceNode->enable();
}
Exemple #2
0
void DeviceTestApp::setupIOAndSine()
{
    mGen = audio::master()->makeNode( new audio::GenSineNode() );
    mGen->setFreq( 440 );

    mGen->connect( mGain );
    mGen->enable();

    mInputDeviceNode->connect( mGain );
    mInputDeviceNode->enable();
}
Exemple #3
0
void ciApp::setup()
{
	setWindowSize(1280, 720);
	setFrameRate(60.f);
	
	int maxVertUniformsVect;
	glGetIntegerv(GL_MAX_VERTEX_UNIFORM_VECTORS, &maxVertUniformsVect);

	mSize = 0;
	mSizePrev = -1;
	mSizeMax = 17;
	mAmplifier = 1.f;

	mExposure = 1.f;
	mGamma = 2.2f;

	printf("max uniform: %i, %i\n", maxVertUniformsVect, mSizeMax);

	mParams = params::InterfaceGl::create(getWindow(), "App parameters", ivec2(250, 300));
	mParams->setPosition(ivec2(20, 250));

	mTexture = gl::Texture::create(loadImage(loadFile(data_path + "demo.png")));
	mFbo = gl::Fbo::create(mTexture->getWidth(), mTexture->getHeight(), gl::Fbo::Format().colorTexture());
	//mShader.setup("filterGaussianBlur");

	filter = hb::GlslFilter::create(mTexture->getSize());
	filter->setParams(mParams);

	vector_blur.setup(getWindowSize());
	vector_blur.setParams(mParams);

	spout_receiver = hb::Receiver::create("Spout DX11 Sender");
	//spout_receiver = hbSpoutReceiver::create("KidsLandSea");
	spout_sender = hb::Sender::create("cinder_spout", mFbo->getWidth(), mFbo->getHeight());

#if 0
	auto ctx = audio::Context::master();

	// The InputDeviceNode is platform-specific, so you create it using a special method on the Context:
	mInputDeviceNode = ctx->createInputDeviceNode();

	// By providing an FFT size double that of the window size, we 'zero-pad' the analysis data, which gives
	// an increase in resolution of the resulting spectrum data.
	auto monitorFormat = audio::MonitorSpectralNode::Format().fftSize(2048).windowSize(1024);
	mMonitorSpectralNode = ctx->makeNode(new audio::MonitorSpectralNode(monitorFormat));

	mInputDeviceNode >> mMonitorSpectralNode;

	// InputDeviceNode (and all InputNode subclasses) need to be enabled()'s to process audio. So does the Context:
	mInputDeviceNode->enable();
	ctx->enable();
#endif
}
Exemple #4
0
void DeviceTestApp::setupIOProcessed()
{
    auto ctx = audio::master();
    auto mod = ctx->makeNode( new audio::GenSineNode( audio::Node::Format().autoEnable() ) );
    mod->setFreq( 200 );

    auto ringMod = audio::master()->makeNode( new audio::GainNode );
    ringMod->setName( "RingModGain" );
    ringMod->getParam()->setProcessor( mod );

    mGain->disconnectAllInputs();
    mInputDeviceNode >> ringMod >> mGain;

    mInputDeviceNode->enable();
}
void _TBOX_PREFIX_App::setup()
{
    auto ctx = audio::Context::master();
    
    vector<audio::DeviceRef> devices = audio::Device::getInputDevices();
    console() << "List audio devices:" << endl;
    for( auto k=0; k < devices.size(); k++ )
        console() << devices[k]->getName() << endl;

    // find and initialise a device by name
    // audio::DeviceRef dev    = audio::Device::findDeviceByName( "Soundflower (2ch)" );
    // mInputDeviceNode        = ctx->createInputDeviceNode( dev );
    
    initialise default input device
    mInputDeviceNode = ctx->createInputDeviceNode();
    
    // initialise MonitorNode to get the PCM data
	auto monitorFormat = audio::MonitorNode::Format().windowSize( CIXTRACT_PCM_SIZE );
	mMonitorNode = ctx->makeNode( new audio::MonitorNode( monitorFormat ) );
    
    // pipe the input device into the MonitorNode
	mInputDeviceNode >> mMonitorNode;
    
	// InputDeviceNode (and all InputNode subclasses) need to be enabled()'s to process audio. So does the Context:
	mInputDeviceNode->enable();
	ctx->enable();
 
	// Initialise ciXtract
    mXtract     = ciXtract::create();
    mFeatures   = mXtract->getFeatures();
    
	// Features are disabled by default, call enableFeature() to enable each feature and its dependencies
    // You may notice a couple of "FEATURE NOT FOUND!" messages in the console, some LibXtract features are not supported yet.
    for( auto k=0; k < XTRACT_FEATURES; k++ )
        mXtract->enableFeature( (xtract_features_)k );
}
Exemple #6
0
void DeviceTestApp::setupIOClean()
{
    mInputDeviceNode->connect( mGain );
    mInputDeviceNode->enable();
}