void ShimmerInterfaceApp::update()
{
	if (shimmer->isStarted())
	{
		shimmer->run(); 
		if (shimmer->hasData())
		{
		
			//should really have written some kind of function for this... 
			std::vector<ci::osc::Message> msgVec = shimmer->getOSC(); 
			for (int i = 0; i < msgVec.size(); i++)
				sender.sendMessage(msgVec[i]);

			msgVec.clear();
			msgVec = shimmer->getOSCAccelToSCBusX();
			cout << "sooo x-values? wut?: " << msgVec.size() << std::endl;
			for (int i = 0; i < msgVec.size(); i++)
				serverSender.sendMessage(msgVec[i]);

			msgVec.clear();
			msgVec = shimmer->getOSCAccelToSCBusY();
			for (int i = 0; i < msgVec.size(); i++)
				serverSender.sendMessage(msgVec[i]);

			msgVec.clear();
			msgVec = shimmer->getOSCAccelToSCBusZ();
			for (int i = 0; i < msgVec.size(); i++)
				serverSender.sendMessage(msgVec[i]);
		}
	}
}
void SerialCommunicationApp::update()
{
	if (serialInitiallized()){
        if(serial.getNumBytesAvailable() > 0){
            console() << "Bytes available: " << serial.getNumBytesAvailable() << std::endl;
            try{
                lastString = serial.readStringUntil('\n');
            } catch(SerialTimeoutExc e) {
                console() << "timeout" << endl;
            }
            console() << lastString << endl;
            int16_t temp = lastString[0];
            
            //OSC MESSAGE
            osc::Message message;
            message.addIntArg(temp);
            message.setAddress("coinTrigger");
            message.setRemoteEndpoint(host, port);
            sender.sendMessage(message);
           
            TextLayout simple;
            simple.setFont( Font( "Arial Black", 54 ) );
            simple.setColor( Color( .7, .7, .2 ) );
            simple.addLine( lastString );
            simple.setLeadingOffset( 0 );
            mTexture = gl::Texture( simple.render( true, false ) );
            bTextureComplete = true;
            serial.flush();
        }
    }
    serial.flush();
}
void SerialCommunicationApp::keyDown(KeyEvent event)
{
    //DEBUG 
    int16_t temp = 0;

    switch (event.getChar()) {
        case '1':
            temp = 49;
            break;
        case '2':
            temp = 50;
            break;
        case '3':
            temp = 51;
            break;
    }
    
    if (temp > 48 && temp < 52) {
        osc::Message message;
        //message.addStringArg(lastString);
        message.addIntArg(temp);
        message.setAddress("coinTrigger");
        message.setRemoteEndpoint(host, port);
        sender.sendMessage(message);
        TextLayout simple;
        simple.setFont( Font( "Arial Black", 54 ) );
        simple.setColor( Color( .7, .7, .2 ) );
        simple.addLine( to_string(event.getChar()) );
        simple.setLeadingOffset( 0 );
        mTexture = gl::Texture( simple.render( true, false ) );
        bTextureComplete = true;
    }
}
Example #4
0
void RogalarmApp::update()
{
    setFullScreen(mFullscreen);
	
	
	if (mKinectConected) {
		lookingForUser();
		
	}
	
	osc::Message message;
	message.addFloatArg(mUserPos);
	if (mUser) {
		message.setAddress("/user/1");
	} else {
		message.setAddress("/nouser");
	}
	message.setRemoteEndpoint(mHost, mPort);
	mSender.sendMessage(message);
	
	if (!mKinectConected) {
		try {
			mKinect = Kinect( Kinect::Device() );
			mKinectConected = true;
			
		} catch( ... ){
			mKinectConected = false;
		}
	}


}
void GesichtertauschApp::heartbeat(double mDeltaTime) {
    mWatchdogCounter += mDeltaTime;
    if (mWatchdogCounter > mWatchdogInterval) {
        mWatchdogCounter = 0.0;
        console() << "+++ heartbeat" << std::endl;
        osc::Message mMessage;
        mMessage.addIntArg(getpid());
        mMessage.setAddress("/watchdog/register");
        mMessage.setRemoteEndpoint(mWatchdogHost, mWatchdogPort);
        mWatchdogSender.sendMessage(mMessage);
    }    
}
Example #6
0
void MilluminApp::update()
{
	while (listener.hasWaitingMessages()) {
		osc::Message message;
		listener.getNextMessage(&message);
		console() << "New message received" << std::endl;
		console() << "Address: " << message.getAddress() << std::endl;
		console() << "Num Arg: " << message.getNumArgs() << std::endl;
		for (int i = 0; i < message.getNumArgs(); i++) {
			console() << "-- Argument " << i << std::endl;
			console() << "---- type: " << message.getArgTypeName(i) << std::endl;
			if (message.getArgType(i) == osc::TYPE_INT32){
				try {
					console() << "------ value: "<< message.getArgAsInt32(i) << std::endl;
				}
				catch (int value) {
					console() << "------ value through exception: "<< value << std::endl;
				}
				
			}else if (message.getArgType(i) == osc::TYPE_FLOAT){
				try {
					console() << "------ value: " << message.getArgAsFloat(i) << std::endl;
				}
				catch (float val) {
					console() << "------ value trough exception: " << val << std::endl;
				}
                mRot += 1.f;
			}else if (message.getArgType(i) == osc::TYPE_STRING){
				try {
					console() << "------ value: " << message.getArgAsString(i).c_str() << std::endl;
				}
				catch (std::string str) {
					console() << "------ value: " << str << std::endl;
				}
			}
		}
	}
	osc::Message message;
	message.addFloatArg(  (cos(getElapsedSeconds()) / 2.0f + .5f)*100.f  );
	message.setAddress("/millumin/selectedLayer/opacity");
	message.setRemoteEndpoint(host, port);
	sender.sendMessage(message);
    
    
	if(getElapsedFrames() % 2 == 0) // for those of us with slower computers
		randomizeSurface(&mSurface);
	mTex.update(mSurface);
	mRot += 0.2f;
}
Example #7
0
void RogalarmApp::lookingForUser() {
	if( mKinect.checkNewDepthFrame() ){
		
		
		ImageSourceRef depthImage = mKinect.getDepthImage();
		
		// make a texture to display
		mDepthTexture = depthImage;
		// make a surface for opencv
		mDepthSurface = depthImage;
		
		if(mDepthSurface){
			
			// once the surface is avalable pass it to opencv
			// had trouble here with bit depth. surface comes in full color, needed to crush it down
			cv::Mat tmp( toOcv( Channel8u( mDepthSurface )  ) ), input, blurred, thresholded, thresholded2, output;
			
			if (mReflectionBottom > 0) {
				cv::Scalar black( 0, 0, 0 );
				cv::Point p1 = cv::Point(0,480 - mReflectionBottom-1);
				cv::Point p2 = cv::Point(640, 480);
				cv::rectangle(tmp, p1, p2, black, -1, 8, 0);
			}
			
			if (mReflectionTop > 0) {
				cv::Scalar black( 0, 0, 0 );
				cv::Point p1 = cv::Point(0, 0);
				cv::Point p2 = cv::Point(640, mReflectionTop);
				cv::rectangle(tmp, p1, p2, black, -1, 8, 0);
			}
			
			//tmp.copyTo(input, mBackground);
			
			cv::blur(tmp, blurred, cv::Size(10,10));
			
			// make two thresholded images one to display and one
			// to pass to find contours since its process alters the image
			cv::threshold( blurred, thresholded, mThreshold, 255, CV_THRESH_BINARY);
			cv::threshold( blurred, thresholded2, mThreshold, 255, CV_THRESH_BINARY);
			
			// 2d vector to store the found contours
			vector<vector<cv::Point> > contours;
			// find em
			cv::findContours(thresholded, contours, CV_RETR_EXTERNAL, CV_CHAIN_APPROX_SIMPLE);
			
			// convert theshold image to color for output
			// so we can draw blobs on it
			cv::cvtColor( thresholded2, output, CV_GRAY2RGB );
			cv::Scalar color( 0, 255, 255 );
			mUser = false;
			
			// loop the stored contours
			for (vector<vector<cv::Point> >::iterator it=contours.begin() ; it < contours.end(); it++ ){
				
				// center abd radius for current blob
				cv::Point2f center;
				float radius;
				// convert the cuntour point to a matrix 
				vector<cv::Point> pts = *it;
				cv::Mat pointsMatrix = cv::Mat(pts);
				// pass to min enclosing circle to make the blob 
				cv::minEnclosingCircle(pointsMatrix, center, radius);
				
				
				if (radius > mBlobMin && radius < mBlobMax) {
					mUserPos = 640 - center.x;
					mUser = true;
					if (mNoUserMessage == false) {
						mNoUserMessage = true;
					}
					
					cv::circle(output, center, radius, color, 3);
					
					mStopedTime = getElapsedSeconds();
					
					
					osc::Message message;
					message.addFloatArg(mUserPos);
					message.setAddress("/user/1");
					message.setRemoteEndpoint(mHost, mPort);
					mSender.sendMessage(message);
					
                    
				} else if (mNoUserMessage) {
					osc::Message message;
					message.addFloatArg(mUserPos);
					message.setAddress("/nouser");
					message.setRemoteEndpoint(mHost, mPort);
					mSender.sendMessage(message);
					
					mNoUserMessage = false;
					
				} 					
			}	
			
			cv::Scalar yellow( 0, 255, 255 );
			
			if (mReflectionBottom > 0) {
				
				cv::Point p1 = cv::Point(0, 480 - mReflectionBottom-1);
				cv::Point p2 = cv::Point(640, 480);
				cv::rectangle(output, p1, p2, yellow, -1, 8, 0);
			}
			
			if (mReflectionTop > 0) {
				cv::Scalar black( 0, 0, 0 );
				cv::Point p1 = cv::Point(0, 0);
				cv::Point p2 = cv::Point(640, mReflectionTop);
				cv::rectangle(output, p1, p2, yellow, -1, 8, 0);
			}
			
			mContourTexture = gl::Texture( fromOcv( output ) );
		}
	}
    
	if( mKinect.checkNewVideoFrame() )
		mColorTexture = mKinect.getVideoImage();
    
}