Example #1
0
void Renderer::onDraw(al::Graphics& gl)
{
    int faceIndex = mOmni.face();
    
    {
        
        
        // render cubemap
        if (cubemap && cubemap->getEyesCount() > 0)
        {
            Cubemap* eye = cubemap->getEye(0);
            if (eye->getFacesCount() > faceIndex)
            {
                CubemapFace* face = eye->getFace(faceIndex);
                
                glUseProgram(0);
                glDepthMask(GL_FALSE);
                
                // draw the background
                glDrawPixels(face->getWidth(),
                             face->getHeight(),
                             GL_RGB,
                             GL_UNSIGNED_BYTE,
                             (GLvoid*)face->getPixels());
                
                glDepthMask(GL_TRUE);
                
                
                
                if(newCubemap)
                {
                    if (onDisplayedCubemapFace) onDisplayedCubemapFace(this, faceIndex);
                }
            }
        }
    }
    
    light();
    mShader.begin();
    mOmni.uniforms(mShader);
    
    gl.pushMatrix();
    
    //gl.draw(cube);
    
    gl.pushMatrix();
    // rotate over time:
    gl.rotate(now*30., 0.707, 0.707, 0.);
    gl.translate(1., 1., 1.);
    //gl.draw(sphere);
    gl.popMatrix();
    
    gl.popMatrix();
    
    mShader.end();
}
Example #2
0
void addFaceSubstreams0(void*)
{
	int portCounter = 0;
	for (int j = 0; j < cubemap->getEyesCount(); j++)
	{
		Cubemap* eye = cubemap->getEye(j);

		for (int i = 0; i < eye->getFacesCount(); i++)
		{
			faceStreams.push_back(FrameStreamState());
			FrameStreamState* state = &faceStreams.back();

			state->content = eye->getFace(i)->getContent();

			Port rtpPort(FACE0_RTP_PORT_NUM + portCounter);
			portCounter += 2;
			Groupsock* rtpGroupsock = new Groupsock(*env, destinationAddress, rtpPort, TTL);
			//rtpGroupsock->multicastSendOnly(); // we're a SSM source

			setReceiveBufferTo(*env, rtpGroupsock->socketNum(), bufferSize);

			// Create a 'H264 Video RTP' sink from the RTP 'groupsock':
			state->sink = H264VideoRTPSink::createNew(*env, rtpGroupsock, 96);

			ServerMediaSubsession* subsession = PassiveServerMediaSubsession::createNew(*state->sink);

			cubemapSMS->addSubsession(subsession);

			RawPixelSource* source = RawPixelSource::createNew(*env,
				state->content,
				avgBitRate);

			source->setOnSentNALU    (boost::bind(&onSentNALU,     _1, _2, _3, j, i));
			source->setOnEncodedFrame(boost::bind(&onEncodedFrame, _1, j, i));

			state->source = H264VideoStreamDiscreteFramer::createNew(*env,
				source);

			state->sink->startPlaying(*state->source, NULL, NULL);

			std::cout << "Streaming face " << i << " (" << ((j == 0) ? "left" : "right") << ") on port " << ntohs(rtpPort.num()) << " ..." << std::endl;
		}
	}
    
    announceStream(rtspServer, cubemapSMS, cubemapStreamName);
}
extern "C" void EXPORT_API UnityRenderEvent (int eventID)
{
    // When we use the RenderCubemap.cs and USeRenderingPlugin.cs scripts
    // This function will get called twice (with different eventIDs).
    // We have to make sure that the extraction only happens once for the cubemap
	// and binoculars respectively!
    if (eventID == 1)
    {
        // Allocate cubemap the first time we render a frame.
        // By doing so, we can make sure that both
        // the cubemap and the binoculars are fully configured.
        if (!thisProcess)
        {
            allocateSHM(cubemapConfig, binocularsConfig);
        }
        
        presentationTime = boost::chrono::system_clock::now();
        
        std::vector<Frame*> frames;
        if (cubemap)
        {
			for (int j = 0; j < cubemap->getEyesCount(); j++)
			{
				Cubemap* eye = cubemap->getEye(j);
				for (int i = 0; i < eye->getFacesCount(); i++)
				{
					frames.push_back(eye->getFace(i)->getContent());
				}
			}
        }
        
        if (binoculars)
        {
            frames.push_back(binoculars->getContent());
        }
        
        copyFromGPUtoCPU(frames);
    }
}
Example #4
0
 CubemapStereoFrame(StereoCubemap* cubemap) : cubemap_(cubemap) {
     Cubemap* left = cubemap_->getEye(0);
     Cubemap* right = cubemap_->getEye(1);
     if(cubemap_->getEyesCount() == 2) {
         faces[0][0] = new CubemapPixelData(left->getFace(0));
         faces[0][1] = new CubemapPixelData(left->getFace(1));
         faces[0][2] = new CubemapPixelData(left->getFace(2));
         faces[0][3] = new CubemapPixelData(left->getFace(3));
         faces[0][4] = new CubemapPixelData(left->getFace(4));
         faces[0][5] = new CubemapPixelData(left->getFace(5));
         faces[1][0] = new CubemapPixelData(right->getFace(0));
         faces[1][1] = new CubemapPixelData(right->getFace(1));
         faces[1][2] = new CubemapPixelData(right->getFace(2));
         faces[1][3] = new CubemapPixelData(right->getFace(3));
         faces[1][4] = new CubemapPixelData(right->getFace(4));
         faces[1][5] = new CubemapPixelData(right->getFace(5));
     } else {
         faces[0][0] = new CubemapPixelData(left->getFace(0));
         faces[0][1] = new CubemapPixelData(left->getFace(1));
         faces[0][2] = new CubemapPixelData(left->getFace(2));
         faces[0][3] = new CubemapPixelData(left->getFace(3));
         faces[0][4] = new CubemapPixelData(left->getFace(4));
         faces[0][5] = new CubemapPixelData(left->getFace(5));
         faces[1][0] = new CubemapPixelData(left->getFace(0));
         faces[1][1] = new CubemapPixelData(left->getFace(1));
         faces[1][2] = new CubemapPixelData(left->getFace(2));
         faces[1][3] = new CubemapPixelData(left->getFace(3));
         faces[1][4] = new CubemapPixelData(left->getFace(4));
         faces[1][5] = new CubemapPixelData(left->getFace(5));
     }
 }