コード例 #1
0
void MarionetteZooApp::update()
{
	mFps = getAverageFps();

	CameraPersp cam = mMayaCam.getCamera();
	if ( cam.getFov() != mCameraFov )
	{
		cam.setPerspective( mCameraFov, getWindowAspectRatio(), 0.1f, 1000.0f );
		mMayaCam.setCurrentCam( cam );
	}
	if( mCameraLock )
	{
		if( mCameraEyePoint != cam.getEyePoint() )
		{
			cam.setEyePoint( mCameraEyePoint );
			mMayaCam.setCurrentCam( cam );
		}
		if( mCameraCenterOfInterestPoint != cam.getCenterOfInterestPoint() )
		{
			cam.setCenterOfInterestPoint( mCameraCenterOfInterestPoint );
			mMayaCam.setCurrentCam( cam );
		}
	}
	else
	{
		mCameraEyePoint              = cam.getEyePoint();
		mCameraCenterOfInterestPoint = cam.getCenterOfInterestPoint();
	}

// 	mLight->setDirection( mLightDirection * Vec3f( 1.f, 1.f, -1.f ) );
// 	mLight->update( cam );

	mBulletWorld->update();
	mModelManager->update();
}
コード例 #2
0
void AudioVisualizerApp::update()
{
	// update FMOD so it can notify us of events
	mFMODSystem->update();

	// handle signal: if audio has ended, play next file
	if(mIsAudioPlaying && signalChannelEnd)
		playAudio( nextAudio( mAudioPath ) );

	// reset FMOD signals
	signalChannelEnd= false;

	// get spectrum for left and right channels and copy it into our channels
	float* pDataLeft = mChannelLeft.getData() + kBands * mOffset;
	float* pDataRight = mChannelRight.getData() + kBands * mOffset;

	mFMODSystem->getSpectrum( pDataLeft, kBands, 0, FMOD_DSP_FFT_WINDOW_HANNING );	
	mFMODSystem->getSpectrum( pDataRight, kBands, 1, FMOD_DSP_FFT_WINDOW_HANNING );

	// increment texture offset
	mOffset = (mOffset+1) % kHistory;

	// clear the spectrum for this row to avoid old data from showing up
	pDataLeft = mChannelLeft.getData() + kBands * mOffset;
	pDataRight = mChannelRight.getData() + kBands * mOffset;
	memset( pDataLeft, 0, kBands * sizeof(float) );
	memset( pDataRight, 0, kBands * sizeof(float) );

	// animate camera if mouse has not been down for more than 30 seconds
	if(!mIsMouseDown && (getElapsedSeconds() - mMouseUpTime) > mMouseUpDelay)
	{
		float t = float( getElapsedSeconds() );
		float x = 0.5f + 0.5f * math<float>::cos( t * 0.07f );
		float y = 0.1f - 0.2f * math<float>::sin( t * 0.09f );
		float z = 0.25f * math<float>::sin( t * 0.05f ) - 0.25f;
		Vec3f eye = Vec3f(kWidth * x, kHeight * y, kHeight * z);

		x = 1.0f - x;
		y = -0.3f;
		z = 0.6f + 0.2f *  math<float>::sin( t * 0.12f );
		Vec3f interest = Vec3f(kWidth * x, kHeight * y, kHeight * z);

		// gradually move to eye position and center of interest
		mCamera.setEyePoint( eye.lerp(0.995f, mCamera.getEyePoint()) );
		mCamera.setCenterOfInterestPoint( interest.lerp(0.990f, mCamera.getCenterOfInterestPoint()) );
	}
}
コード例 #3
0
void GeometryApp::update()
{
	// If another primitive or quality was selected, reset the subdivision and recreate the primitive.
	if( mPrimitiveCurrent != mPrimitiveSelected || mQualitySelected != mQualityCurrent ) {
		mSubdivision = 1;
		mPrimitiveCurrent = mPrimitiveSelected;
		mQualityCurrent = mQualitySelected;
		createGeometry();
	}

	// After creating a new primitive, gradually move the camera to get a good view.
	if( mRecenterCamera ) {
		float distance = glm::distance( mCamera.getEyePoint(), mCameraCOI );
		mCamera.setEyePoint( mCameraCOI - lerp( distance, 5.0f, 0.1f ) * mCamera.getViewDirection() );
		mCamera.setCenterOfInterestPoint( lerp( mCamera.getCenterOfInterestPoint(), mCameraCOI, 0.25f) );
	}
}