void _TBOX_PREFIX_App::draw() 
{
	// Clear window
	gl::setViewport( getWindowBounds() );
	gl::clear( Colorf::black() );
	gl::setMatrices( mCamera );
	
	// Iterate through hands
	for ( LeapSdk::HandMap::const_iterator handIter = mHands.begin(); handIter != mHands.end(); ++handIter ) {
		const LeapSdk::Hand& hand = handIter->second;

		// Fingers
		const LeapSdk::FingerMap& fingers = hand.getFingers();
		for( LeapSdk::FingerMap::const_iterator fingerIter = fingers.begin(); fingerIter != fingers.end(); ++fingerIter ) {
			const LeapSdk::Finger& finger = fingerIter->second;

			// Finger tip
			gl::drawColorCube( finger.getPosition(), Vec3f( 20, 20, 20 ) );

			// Finger orientation
			Vec3f tipPosition = finger.getPosition() + finger.getDirection() * finger.getLength();
			gl::color( ColorAf::gray( 0.8f ) );
			gl::drawLine( finger.getPosition(), tipPosition );
		}
	}
}
Пример #2
0
void BrainbowApp::update()
{
    //LEAP
    if ( mLeap && mLeap->isConnected() ) {
		mLeap->update();
	}
    //GET HAND
    for ( LeapSdk::HandMap::const_iterator handIter = mHands.begin(); handIter != mHands.end(); ++handIter ) {
		const LeapSdk::Hand& hand = handIter->second;
        //        cout << hand.getPosition().x << endl;
        //        cout << hand.getDirection();
        
        scaledX = (hand.getPosition().x *(getWindowWidth()/400))+(getWindowWidth()/2);
        scaledY = (-hand.getPosition().y*(getWindowHeight()/400) + getWindowHeight())*2.5 - 400;
        scaledZ = hand.getPosition().z*2+300;
        handPos = Vec3f(scaledX, scaledY, scaledZ);
    }
    
    //AUDIO
    //    mAudio.update();
    
    
    //SCENES
    if (sceneOne)
        scene1();
    if (sceneTwo)
        scene2();
    
    
    //LIGHT
    
    mLight->lookAt( handPos, Vec3f::zero() );
    
    //ROTATE DIAMOND
    if (gong)
        mDiamond.getModelMatrix().rotate( Vec3f( 0.0f, 0.5f, 0), 0.01f );

    
}
Пример #3
0
// Runs update logic
void UiApp::update()
{
	// Update frame rate
	mFrameRate = getAverageFps();

	// Toggle fullscreen
	if ( mFullScreen != isFullScreen() ) {
		setFullScreen( mFullScreen );
	}

	// Update device
	if ( mLeap && mLeap->isConnected() ) {		
		mLeap->update();
	}
	
	// Interact with first hand
	if ( mHands.empty() ) {
		mCursorType		= CursorType::NONE;
	} else {
		const Hand& hand = mHands.begin()->second;
		
		// Update cursor position
		mCursorPositionTarget	= warp( hand.getPosition() );
		if ( mCursorType == CursorType::NONE ) {
			mCursorPosition = mCursorPositionTarget;
		}
		
		// Choose cursor type based on number of exposed fingers
		switch ( hand.getFingers().size() ) {
			case 0:
				mCursorType	= CursorType::GRAB;
				break;
			case 1:
				mCursorType	= CursorType::TOUCH;
				break;
			default:
				mCursorType	= CursorType::HAND;
				break;
		}
	}
	
	// Smooth cursor animation
	mCursorPosition = mCursorPosition.lerp( 0.21f, mCursorPositionTarget );
	mCursorPosition.z = 0.0f;
	
	// Hit buttons
	for ( size_t i = 0; i < 3; ++i ) {
		mButtonState[ i ] = false;
		if ( mCursorType == CursorType::TOUCH &&
			mCursorPosition.distance( mButtonPosition[ i ] ) < (float)mButton[ 0 ].getSize().length() * 0.5f ) {
			mButtonState[ i ] = true;
		}
	}
	
	// Slider
	if ( mCursorType == CursorType::GRAB &&
		math<float>::abs( mCursorPosition.x - mSliderPosition.x ) < (float)mSlider.getWidth() * 0.5f &&
		math<float>::abs( mCursorPosition.y - mSliderPosition.y ) < (float)mSlider.getHeight() * 0.5f ) {
		float x1			= mTrackPosition.x;
		float x2			= mTrackPosition.x + (float)( mTrack.getWidth() - mSlider.getWidth() );
		mSliderPosition.x	= math<float>::clamp( mCursorPosition.x, x1, x2 );
	}
}
Пример #4
0
// Render
void LeapApp::draw()
{
	// Clear window
	gl::setViewport( getWindowBounds() );
	gl::clear( Colorf::black() );
	gl::setMatrices( mCamera );

	// Enable depth
	gl::enableAlphaBlending();
	gl::enableDepthRead();
	gl::enableDepthWrite();
	
	// Iterate through hands
	float headLength = 6.0f;
	float headRadius = 3.0f;
	for ( HandMap::const_iterator handIter = mHands.begin(); handIter != mHands.end(); ++handIter ) {
		const Hand& hand = handIter->second;

		// Hand ball
		if ( hand.getBallRadius() > 0.0f ) {
			gl::color( ColorAf( 1.0f, 1.0f, 0.0f, 0.25f ) );
			gl::enableWireframe();
			gl::drawSphere( hand.getBallPosition(), hand.getBallRadius(), 16 );
			gl::disableWireframe();
		}

		// Hand direction
		gl::color( 1.0f, 0.0f, 1.0f, 1.0f );
		gl::drawVector( hand.getPosition(), hand.getPosition() + hand.getDirection() * 100.0f, headLength, headRadius );

		// Hand normal
		gl::color( 0.0f, 0.0f, 1.0f, 1.0f );
		gl::drawVector( hand.getPosition(), hand.getPosition() + hand.getNormal() * 100.0f, headLength, headRadius );

		// Hand velocity
		gl::color( 0.0f, 1.0f, 0.0f, 1.0f );
		gl::drawVector( hand.getPosition(), hand.getPosition() + hand.getVelocity() * 100.0f, headLength, headRadius );

		// Fingers
		const FingerMap& fingers = hand.getFingers();
		for ( FingerMap::const_iterator fingerIter = fingers.begin(); fingerIter != fingers.end(); ++fingerIter ) {
			const Finger& finger = fingerIter->second;

			// Finger
			Vec3f position = finger.getPosition() + finger.getDirection() * -finger.getLength() * 3.0f;
			gl::color( ColorAf::white() );
			gl::drawLine( finger.getPosition(), position );

			// Finger tip
			gl::pushMatrices();
			gl::translate( position );
			gl::drawStrokedCircle( Vec2f::zero(), finger.getWidth(), 16 );
			gl::popMatrices();

			// Finger velocity
			gl::color( 0.0f, 1.0f, 0.0f, 1.0f );
			gl::drawVector( position, position + finger.getVelocity() * 0.05f, headLength, headRadius );
		}
	}
	
	// Draw the interface
	mParams.draw();

}