void redEyeApp::setup() {
//-settings
mListener.setup(43334); //osc input port
//--defaults
mHide= false; //also keydown 'i'
mError= "";
mOsc= "";
mMode= 5;
mAmplitude= 0.0f;
mNumSamples= 512;
mDownSample= 0;
mWidth= 1.0f;
mColorBack= ColorA(0.0f, 0.0f, 0.0f, 1.0f);
//mVisible0= mVisible1= true;
mScale0= mScale1= Vec3f(1.0f, 1.0f, 1.0f);
mTranslate0= mTranslate1= Vec3f::zero();
mColor0= ColorA(1.0f, 0.0f, 0.0f, 1.0f);
mColor1= ColorA(0.0f, 1.0f, 0.0f, 1.0f);
//--audio
mInput= audio::Input(); //use default input device
mInput.start(); //start capturing
//--shaders
mPathFrag= getPathDirectory(app::getAppPath().string())+"data/_default_frag.glsl";
mPathVert= getPathDirectory(app::getAppPath().string())+"data/_default_vert.glsl";
//loadShader();
//--parameter window
mParams= params::InterfaceGl::create(getWindow(), "redEye", toPixels(Vec2i(200, 400)));
//mParams->addText("text", ("label=`redEye`"));
mParams->addParam("NumSamples", &mNumSamples, "min=1 max=2048 step=1");
mParams->addParam("DownSample", &mDownSample, "min=0 max=2047 step=1");
mParams->addParam("Width", &mWidth, "min=0 max=1000 step=1");
mParams->addParam("Back color", &mColorBack, "");
mParams->addSeparator();
//mParams->addParam("Visible", &mVisible0);
mParams->addParam("Scale", &mScale0);
mParams->addParam("Rotate", &mRotate0);
mParams->addParam("Translate", &mTranslate0);
mParams->addParam("Color", &mColor0, "");
/*mParams->addSeparator();
mParams->addParam("Visible1", &mVisible1);
mParams->addParam("Scale1", &mScale1);
mParams->addParam("Rotate1", &mRotate1);
mParams->addParam("Translate1", &mTranslate1);
mParams->addParam("Color1", &mColor1, "");*/
//mParams->addParam("Cube Size", &mObjSize, "min=0.1 max=20.5 step=0.5 keyIncr=z keyDecr=Z");
mParams->addSeparator();
mParams->addParam("String00", &mNameFrag, "label=`frag (f):`");
mParams->addParam("String01", &mNameVert, "label=`vert (v):`");
mParams->addParam("String02", &mError, "label=`error:`");
mParams->addParam("String03", &mOsc, "label=`osc:`");
mParams->addParam("String04", &mMode, "label=`mode (m):`");
mParams->addParam("String05", &mFps, "label=`fps:`");
}
void svvimApp::getAlpha () {
// Sound buffer for FFT
mPcmBuffer = mInput.getPcmBuffer();
//
if (mPcmBuffer) {
mFftDataRef = audio::calculateFft(mPcmBuffer->getChannelData( audio::CHANNEL_FRONT_LEFT ), 512);
}
uint16_t bandCount = 64;
if( ! mPcmBuffer )
return;
//use the most recent Pcm data to calculate t`he Fft
std::shared_ptr <float> fftRef = audio::calculateFft( mPcmBuffer->getChannelData( audio::CHANNEL_FRONT_LEFT ), bandCount );
if( ! fftRef ) {
return;
}
float * fftBuffer = fftRef.get();
//mAlpha = max(2, mAlpha);
//draw the bands
for( int i = 0; i < ( bandCount/32 ); i++ ) {
mAlpha += fftBuffer[i] / bandCount / 4;
}
mAlpha /= 6.5;
}
void TouchAudioTestApp::update()
{
mPcmBuffer = mInput.getPcmBuffer();
if( ! mPcmBuffer ) {
return;
}
}
void TouchAudioTestApp::setup()
{
//mAudioSource = audio::load( loadResource( RES_BOOYAH ) );
//initialize the audio Input, using the default input device
mInput = audio::Input();
//tell the input to start capturing audio
mInput.start();
}
void shader02vertexApp::setup() {
//--defaults
mHide= false; //also keydown 'i'
mError= "";
mMode= 0;
mAmplitude= 0.0f;
mMouse= Vec2f(0.0f, 0.0f);
//--audio
mInput= audio::Input(); //use default input device
mInput.start(); //start capturing
//--shader
mPathFrag= getPathDirectory(app::getAppPath().string())+"data/_default_frag.glsl";
mPathVert= getPathDirectory(app::getAppPath().string())+"data/_default_vert.glsl";
loadShader();
}
void shader02vertexApp::update() {
//--audio input
mPcmBuffer= mInput.getPcmBuffer();
if(mPcmBuffer) {
mBufferSize= mPcmBuffer->getSampleCount();
//std::cout<<"mBufferSize: "<<mBufferSize<<std::endl;
mBufferLeft= mPcmBuffer->getChannelData(audio::CHANNEL_FRONT_LEFT);
mFftLeft= audio::calculateFft(mPcmBuffer->getChannelData(audio::CHANNEL_FRONT_LEFT), mBufferSize/2);
mAmplitude= 0.0f;
for(uint32_t i= 0; i<mBufferSize; i++) {
mAmplitude += abs(mBufferLeft->mData[i]);
}
mAmplitude /= float(mBufferSize); //average amplitude
Surface32f mSurfaceSnd(mBufferSize, 1, true);
Surface32f::Iter sndIter(mSurfaceSnd.getIter());
uint32_t i= 0;
while(sndIter.line()) {
while(sndIter.pixel()) {
sndIter.r()= mBufferLeft->mData[i];
i++;
}
}
mTextureSnd= gl::Texture(mSurfaceSnd);
Surface32f mSurfaceFft(mBufferSize/2, 1, true);
Surface32f::Iter fftIter(mSurfaceFft.getIter());
uint32_t j= 0;
float *fftBuffer= mFftLeft.get();
while(fftIter.line()) {
while(fftIter.pixel()) {
fftIter.r()= fftBuffer[j];
j++;
}
}
mTextureFft= gl::Texture(mSurfaceFft);
}
//--shaders
if((fs::last_write_time(mPathFrag)>mTimeFrag) || (fs::last_write_time(mPathVert)>mTimeVert)) {
loadShader(); //hot-loading shader
}
}
void svvimApp::setup() {
mLastElapsedSecondsSwitch = 0;
mPerlinGenerator = Perlin();
mBgTextureList = new gl::Texture [3];
mPoolWaterMovie = qtime::MovieGl(getResourcePath("water-over.m4v"));
mPoolWaterMovie.setLoop();
mPoolWaterMovie.play();
mMovieList = new qtime::MovieGl [13];
mMovieList[ 0] = qtime::MovieGl(getResourcePath("SVVIM4_VIS_04.mov"));
mMovieList[ 1] = qtime::MovieGl(getResourcePath("SVVIM4_VIS_08.mov"));
mMovieList[ 2] = qtime::MovieGl(getResourcePath("SVVIM4_VIS_10.mov"));
mMovieList[ 3] = qtime::MovieGl(getResourcePath("SVVIM4_VIS_11.mov"));
mMovieList[ 4] = qtime::MovieGl(getResourcePath("SVVIM4_VIS_07.mov"));
mMovieList[ 5] = qtime::MovieGl(getResourcePath("movie-006.mov"));
mMovieList[ 6] = qtime::MovieGl(getResourcePath("movie-002.mov"));
mMovieList[ 7] = qtime::MovieGl(getResourcePath("movie-008.mov"));
mMovieList[ 8] = qtime::MovieGl(getResourcePath("movie-009.mov"));
mMovieList[ 9] = qtime::MovieGl(getResourcePath("movie-010.mov"));
mMovieList[10] = qtime::MovieGl(getResourcePath("movie-011.mov"));
mMovieList[11] = qtime::MovieGl(getResourcePath("movie-012.mov"));
mMovieList[12] = qtime::MovieGl(getResourcePath("movie-013.mov"));
// Load Svvim Logo from PNG
app::console() << "setup\n";
// Compile shader
try {
mShader = gl::GlslProg(loadResource(RES_VERT_GLSL), loadResource(RES_FRAG_GLSL));
}
catch (const std::exception & e) {
mShader = gl::GlslProg();
console() << "Compile error in shader: " << e.what() << "\n";
}
// Begin reading MIC
mInput = audio::Input();
mInput.start();
//
mMovieIndex = 4;
mCurrentMovie = mMovieList[mMovieIndex];
mCurrentMovie.play();
mCurrentMovie.setVolume(0.);
gl::Texture::Format format;
format.setTargetRect();
mImageTexture = gl::Texture(loadImage(loadResource("saturday-night.jpg")), format);
mSvvimLogoPng = gl::Texture(loadImage(loadResource(RES_SVVIM_LOGO_PNG)), format);
mCurrentBgTexture = gl::Texture(loadImage(loadResource("bgMarble.png")), format);
mCurrentMovie.seekToTime(82.);
gl::enableAlphaBlending();
}
void redEyeApp::update() {
//--osc input
while(mListener.hasWaitingMessages()) {
osc::Message msg;
mListener.getNextMessage(&msg);
mOsc= msg.getAddress();
for(uint32_t i= 0; i<msg.getNumArgs(); i++) {
mOsc= mOsc+" "+msg.getArgAsString(i, true);
}
if(msg.getAddress()=="/numSamples") {
mNumSamples= math<int32_t>::clamp(msg.getArgAsInt32(0, true), 1, 2048);
} else if(msg.getAddress()=="/downSample") {
mDownSample= math<int32_t>::clamp(msg.getArgAsInt32(0, true), 0, 2047);
} else if(msg.getAddress()=="/amplitude") {
mAmplitude= msg.getArgAsFloat(0, true);
} else if(msg.getAddress()=="/width") {
mWidth= math<float>::clamp(msg.getArgAsFloat(0, true), 0, 1000);
} else if(msg.getAddress()=="/colorBack") {
ColorA col= ColorA(0, 0, 0, 1);
for(uint32_t i= 0; i<min(msg.getNumArgs(), 4); i++) {
col[i]= msg.getArgAsFloat(i, true);
}
mColorBack.set(col.r, col.g, col.b, col.a);
} else if(msg.getAddress()=="/scale0") {
Vec3f sca= Vec3f(1.0f, 1.0f, 1.0f);
for(uint32_t i= 0; i<min(msg.getNumArgs(), 3); i++) {
msg.getArgAsFloat(i, true);
}
mScale0.set(sca.x, sca.y, sca.z);
} else if(msg.getAddress()=="/scale1") {
Vec3f sca= Vec3f(1.0f, 1.0f, 1.0f);
for(uint32_t i= 0; i<min(msg.getNumArgs(), 3); i++) {
msg.getArgAsFloat(i, true);
}
mScale1.set(sca.x, sca.y, sca.z);
} else if(msg.getAddress()=="/rotate0") {
Vec3f rot= Vec3f::zero();
for(uint32_t i= 0; i<min(msg.getNumArgs(), 3); i++) {
rot[i]= msg.getArgAsFloat(i, true);
}
mRotate0.set(rot.x, rot.y, rot.z);
} else if(msg.getAddress()=="/rotate1") {
Vec3f rot= Vec3f::zero();
for(uint32_t i= 0; i<min(msg.getNumArgs(), 3); i++) {
rot[i]= msg.getArgAsFloat(i, true);
}
mRotate1.set(rot.x, rot.y, rot.z);
} else if(msg.getAddress()=="/translate0") {
Vec3f tra= Vec3f::zero();
for(uint32_t i= 0; i<min(msg.getNumArgs(), 3); i++) {
tra[i]= msg.getArgAsFloat(i, true);
}
mTranslate0.set(tra.x, tra.y, tra.z);
} else if(msg.getAddress()=="/translate1") {
Vec3f tra= Vec3f::zero();
for(uint32_t i= 0; i<min(msg.getNumArgs(), 3); i++) {
tra[i]= msg.getArgAsFloat(i, true);
}
mTranslate1.set(tra.x, tra.y, tra.z);
} else if(msg.getAddress()=="/color0") {
ColorA col= ColorA(0, 0, 0, 1);
for(uint32_t i= 0; i<min(msg.getNumArgs(), 4); i++) {
col[i]= msg.getArgAsFloat(i, true);
}
mColor0.set(col.r, col.g, col.b, col.a);
} else if(msg.getAddress()=="/color1") {
ColorA col= ColorA(0, 0, 0, 1);
for(uint32_t i= 0; i<min(msg.getNumArgs(), 4); i++) {
col[i]= msg.getArgAsFloat(i, true);
}
mColor1.set(col.r, col.g, col.b, col.a);
}
}
//--audio input
mPcmBuffer= mInput.getPcmBuffer();
if(mPcmBuffer) {
mBufferSize= mPcmBuffer->getSampleCount();
//std::cout<<"mBufferSize: "<<mBufferSize<<std::endl;
mBufferLeft= mPcmBuffer->getChannelData(audio::CHANNEL_FRONT_LEFT);
//mBufferRight= mPcmBuffer->getChannelData(audio::CHANNEL_FRONT_RIGHT);
mFftLeft= audio::calculateFft(mPcmBuffer->getChannelData(audio::CHANNEL_FRONT_LEFT), mBufferSize/2);
//mFftRight= audio::calculateFft(mPcmBuffer->getChannelData(audio::CHANNEL_FRONT_LEFT), mBufferSize/2);
mAmplitude= 0.0f;
for(uint32_t i= 0; i<mBufferSize; i++) {
mAmplitude += abs(mBufferLeft->mData[i]);
}
mAmplitude /= float(mBufferSize); //average amplitude
Surface32f mSurfaceSnd(mBufferSize, 1, true);
Surface32f::Iter sndIter(mSurfaceSnd.getIter());
uint32_t i= 0;
while(sndIter.line()) {
while(sndIter.pixel()) {
sndIter.r()= mBufferLeft->mData[i];
i++;
}
}
mTextureSnd= gl::Texture(mSurfaceSnd);
Surface32f mSurfaceFft(mBufferSize/2, 1, true);
Surface32f::Iter fftIter(mSurfaceFft.getIter());
uint32_t j= 0;
float *fftBuffer= mFftLeft.get();
while(fftIter.line()) {
while(fftIter.pixel()) {
fftIter.r()= fftBuffer[j];
j++;
}
}
mTextureFft= gl::Texture(mSurfaceFft);
}
//--shaders
if(mShader!=NULL) {
if((fs::last_write_time(mPathFrag)>mTimeFrag) || (fs::last_write_time(mPathVert)>mTimeVert)) {
loadShader(); //hot-loading shader
}
}
mFps= getAverageFps();
}
