Exemple #1
0
//
// E_FindLumpInclude
//
// Finds a lump from the same data source as the including lump.
// Returns -1 if no such lump can be found.
// 
static int E_FindLumpInclude(cfg_t *src, const char *name)
{
   lumpinfo_t  *inclump;
   lumpinfo_t **lumpinfo = wGlobalDir.getLumpInfo();
   int includinglumpnum;

   // this is not for files
   if((includinglumpnum = cfg_lexer_source_type(src)) < 0)
      return -1;

   // get a pointer to the including lump's lumpinfo
   inclump = lumpinfo[includinglumpnum];

   WadChainIterator wci(wGlobalDir, name);

   // walk down the hash chain
   for(wci.begin(); wci.current(); wci.next())
   {
      if(wci.testLump(lumpinfo_t::ns_global) && // name matches, is global
         (*wci)->source == inclump->source)     // is from same source
      {
         return (*wci)->selfindex;
      }
   }

   return -1; // not found
}
Exemple #2
0
int main(int argc, char* argv[])
{


#ifdef __APPLE__
	MacOpenGLWindow* window = new MacOpenGLWindow();
#else
	Win32OpenGLWindow* window = new Win32OpenGLWindow();
#endif
	btgWindowConstructionInfo wci(g_OpenGLWidth,g_OpenGLHeight);
	wci.m_openglVersion = 2;	
	window->createWindow(wci);
	window->setWindowTitle("MyTest");
#ifdef _WIN32
	glewInit();
#endif

    
	window->startRendering();
	float color[4] = {1,1,1,1};
//	prim.drawRect(0,0,200,200,color);
	
    
	
	window->endRendering();

    
	
	window->setKeyboardCallback(MyKeyboardCallback);


	{
		BasicDemo* demo = new BasicDemo;
		demo->myinit();
		demo->initPhysics();
		
		do
		{
			window->startRendering();
			demo->clientMoveAndDisplay();

			render.init();
			render.renderPhysicsWorld(demo->getDynamicsWorld());
			window->endRendering();
		} while (!window->requestedExit());

		demo->exitPhysics();
		delete demo;
	}


	window->closeWindow();
	delete window;

	return 0;
}
Exemple #3
0
//
// P_InitSwitchList()
//
// Only called at game initialization in order to list the set of switches
// and buttons known to the engine. This enables their texture to change
// when activated, and in the case of buttons, change back after a timeout.
//
// This routine modified to read its data from a predefined lump or
// PWAD lump called SWITCHES rather than a static table in this module to
// allow wad designers to insert or modify switches.
//
// Lump format is an array of byte packed switchlist_t structures, terminated
// by a structure with episode == -0. The lump can be generated from a
// text source file using SWANTBLS.EXE, distributed with the BOOM utils.
// The standard list of switches and animations is contained in the example
// source text file DEFSWANI.DAT also in the BOOM util distribution.
//
// Rewritten by Lee Killough to remove limit 2/8/98
//
void P_InitSwitchList(void)
{
   int index = 0;
   int episode; 
   switchlist_t *alphSwitchList;         //jff 3/23/98 pointer to switch table
   int lumpnum = -1;

   episode = GameModeInfo->switchEpisode;

   //jff 3/23/98 read the switch table from a predefined lump

   // haleyjd 08/29/09: run down the hash chain for SWITCHES
   WadChainIterator wci(wGlobalDir, "SWITCHES");
   for(wci.begin(); wci.current(); wci.next())
   {
      // look for a lump which is of a possibly good size
      if(wci.testLump() &&
         (*wci)->size % sizeof(switchlist_t) == 0)
      {
         lumpnum = (*wci)->selfindex;
         break;
      }
   }

   if(lumpnum < 0)
      I_Error("P_InitSwitchList: missing SWITCHES lump\n");

   alphSwitchList = (switchlist_t *)(wGlobalDir.cacheLumpNum(lumpnum, PU_STATIC));

   for(int i = 0; ; i++)
   {
      if(index + 1 >= max_numswitches)
      {
         max_numswitches = max_numswitches ? max_numswitches * 2 : 8;
         switchlist = erealloc(int *, switchlist, sizeof(*switchlist) * max_numswitches);
      }
      if(SwapShort(alphSwitchList[i].episode) <= episode) //jff 5/11/98 endianess
      {
         if(!SwapShort(alphSwitchList[i].episode))
            break;
         switchlist[index++] =
            R_FindWall(alphSwitchList[i].name1);
         switchlist[index++] =
            R_FindWall(alphSwitchList[i].name2);
      }
   }
Exemple #4
0
unsigned assignPads2Canvases(canvasSet_t& cs)
{
  wCanvas_t *wc0    = cs.canvases[0];
  unsigned npads    = wc0->npadsx*wc0->npadsy;
  unsigned npadsall = cs.ncanvases*npads;

  // Note: wci can't be wCanvas_t& because apparently filling the
  //       vector messes up the reference to the first element!
  //
  wCanvas_t wci(*wc0); // doesn't copy member "pads"
  wCanvas_t *wc = wc0;

  // Divvy up the pads among multiple canvases if so specified

  unsigned ipad=0;                      // ipad=global pad index 
  for (;ipad<wc0->pads.size(); ipad++) {
    unsigned   i  =  ipad % npads;      // index to current pad in canvas
    unsigned cnum = (ipad / npads) + 1; // current canvas number

    if (cnum > cs.ncanvases) break;

    if ((i==0) && (cnum > cs.canvases.size())) {
      if (gl_verbose)
	cout << "making new canvas" << endl;
      wc = new wCanvas_t(wci);
      cs.canvases.push_back(wc);
      wc->title = cs.title + "_" + int2str(cnum);
      wc->pads.clear();
      wc->latex_ids = wc0->latex_ids;
    }

    wc->pads.push_back(wc0->pads[ipad]);
  }

  return std::min(npadsall,ipad+1);
}                                                 // assignPads2Canvases
Exemple #5
0
int main(int argc, char* argv[])
{

	int sz = sizeof(b3Generic6DofConstraint);
	int sz2 = sizeof(b3Point2PointConstraint);
	int sz3 = sizeof(b3TypedConstraint);
	int sz4 = sizeof(b3TranslationalLimitMotor);
	int sz5 = sizeof(b3RotationalLimitMotor);
	int sz6 = sizeof(b3Transform);

	//b3OpenCLUtils::setCachePath("/Users/erwincoumans/develop/mycache");


	b3SetCustomEnterProfileZoneFunc(b3ProfileManager::Start_Profile);
	b3SetCustomLeaveProfileZoneFunc(b3ProfileManager::Stop_Profile);


	b3SetCustomPrintfFunc(myprintf);
	b3Vector3 test=b3MakeVector3(1,2,3);
	test.x = 1;
	test.y = 4;

    printf("main start");

	b3CommandLineArgs args(argc,argv);
	ParticleDemo::ConstructionInfo ci;

	if (args.CheckCmdLineFlag("help"))
	{
		Usage();
		return 0;
	}

	selectedDemo =  loadCurrentDemoEntry(sStartFileName);


	args.GetCmdLineArgument("selected_demo",selectedDemo);


	if (args.CheckCmdLineFlag("new_batching"))
	{
		useNewBatchingKernel = true;
	}
	bool benchmark=args.CheckCmdLineFlag("benchmark");
	args.GetCmdLineArgument("max_framecount",maxFrameCount);

	args.GetCmdLineArgument("shadowmap_size",shadowMapWorldSize);

	args.GetCmdLineArgument("shadowmap_resolution",shadowMapWidth);
	shadowMapHeight=shadowMapWidth;
	if (args.CheckCmdLineFlag("disable_shadowmap"))
	{
		useShadowMap = false;
	}

	args.GetCmdLineArgument("pair_benchmark_file",gPairBenchFileName);

	gDebugLauncherCL = args.CheckCmdLineFlag("debug_kernel_launch");

	dump_timings=args.CheckCmdLineFlag("dump_timings");
	ci.useOpenCL = !args.CheckCmdLineFlag("disable_opencl");
	ci.m_useConcaveMesh = true;//args.CheckCmdLineFlag("use_concave_mesh");
	if (ci.m_useConcaveMesh)
	{
		enableExperimentalCpuConcaveCollision = true;
	}
	ci.m_useInstancedCollisionShapes = !args.CheckCmdLineFlag("no_instanced_collision_shapes");
	args.GetCmdLineArgument("cl_device", ci.preferredOpenCLDeviceIndex);
	args.GetCmdLineArgument("cl_platform", ci.preferredOpenCLPlatformIndex);
	gAllowCpuOpenCL = args.CheckCmdLineFlag("allow_opencl_cpu");
	gUseLargeBatches = args.CheckCmdLineFlag("use_large_batches");

	gUseJacobi = args.CheckCmdLineFlag("use_jacobi");
	gUseDbvt = args.CheckCmdLineFlag("use_dbvt");
	gDumpContactStats = args.CheckCmdLineFlag("dump_contact_stats");
	gCalcWorldSpaceAabbOnCpu = args.CheckCmdLineFlag("calc_aabb_cpu");
	gUseCalculateOverlappingPairsHost = args.CheckCmdLineFlag("calc_pairs_cpu");
	gIntegrateOnCpu = args.CheckCmdLineFlag("integrate_cpu");
	gConvertConstraintOnCpu = args.CheckCmdLineFlag("convert_constraints_cpu");
	useUniformGrid = args.CheckCmdLineFlag("use_uniform_grid");




	args.GetCmdLineArgument("x_dim", ci.arraySizeX);
	args.GetCmdLineArgument("y_dim", ci.arraySizeY);
	args.GetCmdLineArgument("z_dim", ci.arraySizeZ);
	args.GetCmdLineArgument("x_gap", ci.gapX);
	args.GetCmdLineArgument("y_gap", ci.gapY);
	args.GetCmdLineArgument("z_gap", ci.gapZ);

	gPause = args.CheckCmdLineFlag("paused");

	gDebugForceLoadingFromSource = args.CheckCmdLineFlag("load_cl_kernels_from_disk");
	gDebugSkipLoadingBinary = args.CheckCmdLineFlag("disable_cached_cl_kernels");


#ifndef B3_NO_PROFILE
	b3ProfileManager::Reset();
#endif //B3_NO_PROFILE


	window = new b3gDefaultOpenGLWindow();

	b3gWindowConstructionInfo wci(g_OpenGLWidth,g_OpenGLHeight);

	window->createWindow(wci);
	window->setResizeCallback(MyResizeCallback);
	window->setMouseMoveCallback(MyMouseMoveCallback);
	window->setMouseButtonCallback(MyMouseButtonCallback);
	window->setKeyboardCallback(MyKeyboardCallback);

	window->setWindowTitle("Bullet 3.x GPU Rigid Body http://bulletphysics.org");
	printf("-----------------------------------------------------\n");




#ifndef __APPLE__
	glewInit();
#endif

	gui = new GwenUserInterface();

    printf("started GwenUserInterface");


	GLPrimitiveRenderer prim(g_OpenGLWidth,g_OpenGLHeight);

	stash = initFont(&prim);


	if (gui)
	{
		gui->init(g_OpenGLWidth,g_OpenGLHeight,stash,window->getRetinaScale());

		printf("init fonts");


		gui->setToggleButtonCallback(MyButtonCallback);

		gui->registerToggleButton(MYPAUSE,"Pause");
		gui->registerToggleButton(MYPROFILE,"Profile");
		gui->registerToggleButton(MYRESET,"Reset");

		int numItems = sizeof(allDemos)/sizeof(ParticleDemo::CreateFunc*);
		demoNames.clear();
		for (int i=0;i<numItems;i++)
		{
			GpuDemo* demo = allDemos[i]();
			demoNames.push_back(demo->getName());
			delete demo;
		}

		gui->registerComboBox(MYCOMBOBOX1,numItems,&demoNames[0],selectedDemo);
		gui->setComboBoxCallback(MyComboBoxCallback);
	}



	do
	{
		bool syncOnly = false;
		gReset = false;

			{
		GLint err;
		glEnable(GL_BLEND);
		err = glGetError();
		b3Assert(err==GL_NO_ERROR);
		glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
		glDisable(GL_DEPTH_TEST);
		err = glGetError();
		b3Assert(err==GL_NO_ERROR);
		window->startRendering();
		glClearColor(1,1,1,1);
		glClear(GL_COLOR_BUFFER_BIT| GL_DEPTH_BUFFER_BIT);//|GL_STENCIL_BUFFER_BIT);
		glEnable(GL_DEPTH_TEST);

		sth_begin_draw(stash);
		//sth_draw_text(stash, droidRegular,12.f, dx, dy-50, "How does this OpenGL True Type font look? ", &dx,width,height);
		int spacing = 0;//g_OpenGLHeight;
		float sx,sy,dx,dy,lh;
		sx = 0;
		sy = g_OpenGLHeight;
		dx = sx; dy = sy;
		//if (1)
		const char* msg[] = {"Please wait, initializing the OpenCL demo",
			"Please make sure to run the demo on a high-end discrete GPU with OpenCL support",
			"The first time it can take a bit longer to compile the OpenCL kernels.",
			"Check the console if it takes longer than 1 minute or if a demos has issues.",
			"Please share the full commandline output when reporting issues:",
			"App_Bullet3_OpenCL_Demos_* >> error.log",

			"",
			"",
#ifdef _DEBUG
			"Some of the demos load a large .obj file,",
			"please use an optimized build of this app for faster parsing",

			"",
			"",
#endif
			"You can press F1 to create a single screenshot,",
			"or press F2 toggle screenshot (useful to create movies)",
			"",
			"",
			"There are various command-line options such as --benchmark",
			"See http://github.com/erwincoumans/bullet3 for more information"
		};
		int fontSize = 68;

		int nummsg = sizeof(msg)/sizeof(const char*);
		for (int i=0;i<nummsg;i++)
		{
			char txt[512];
			sprintf(txt,"%s",msg[i]);
				//sth_draw_text(stash, droidRegular,i, 10, dy-spacing, txt, &dx,g_OpenGLWidth,g_OpenGLHeight);
				sth_draw_text(stash, droidRegular,fontSize, 10, spacing, txt, &dx,g_OpenGLWidth,g_OpenGLHeight);
				spacing+=fontSize;
			fontSize = 32;
		}

		sth_end_draw(stash);
		sth_flush_draw(stash);
		window->endRendering();
	}



	static bool once=true;


	//glClearColor(0.3f, 0.3f, 0.3f, 1.0f);
	glClearColor(1,1,1,1);
	glClear(GL_COLOR_BUFFER_BIT|GL_DEPTH_BUFFER_BIT);

	window->setWheelCallback(b3DefaultWheelCallback);




	{
		GpuDemo* demo = allDemos[selectedDemo]();
		sDemo = demo;
//		demo->myinit();
		bool useGpu = false;


		//int maxObjectCapacity=128*1024;
		int maxObjectCapacity=1024*1024;
		maxObjectCapacity = b3Max(maxObjectCapacity,ci.arraySizeX*ci.arraySizeX*ci.arraySizeX+10);

		{
		ci.m_instancingRenderer = new GLInstancingRenderer(maxObjectCapacity);//render.getInstancingRenderer();
		ci.m_window = window;
		ci.m_gui = gui;
		ci.m_instancingRenderer->init();
		ci.m_instancingRenderer->resize(g_OpenGLWidth,g_OpenGLHeight);
		ci.m_instancingRenderer->InitShaders();
		ci.m_primRenderer = &prim;
//		render.init();
		}

		{
			demo->initPhysics(ci);
		}





		printf("-----------------------------------------------------\n");

		FILE* csvFile = 0;
		FILE* detailsFile = 0;

		if (benchmark)
		{

			char prefixFileName[1024];
			char csvFileName[1024];
			char detailsFileName[1024];

			b3OpenCLDeviceInfo info;
			b3OpenCLUtils::getDeviceInfo(demo->getInternalData()->m_clDevice,&info);

			//todo: move this time stuff into the Platform/Window class
#ifdef _WIN32
			SYSTEMTIME time;
			GetLocalTime(&time);
			char buf[1024];
			DWORD dwCompNameLen = 1024;
			if (0 != GetComputerName(buf, &dwCompNameLen))
			{
				printf("%s", buf);
			} else
			{
				printf("unknown", buf);
			}

			sprintf(prefixFileName,"%s_%s_%s_%d_%d_%d_date_%d-%d-%d_time_%d-%d-%d",info.m_deviceName,buf,demoNames[selectedDemo],ci.arraySizeX,ci.arraySizeY,ci.arraySizeZ,time.wDay,time.wMonth,time.wYear,time.wHour,time.wMinute,time.wSecond);

#else
			timeval now;
			gettimeofday(&now,0);

			struct tm* ptm;
			ptm = localtime (&now.tv_sec);
			char buf[1024];
#ifdef __APPLE__
			sprintf(buf,"MacOSX");
#else
			sprintf(buf,"Unix");
#endif
			sprintf(prefixFileName,"%s_%s_%s_%d_%d_%d_date_%d-%d-%d_time_%d-%d-%d",info.m_deviceName,buf,demoNames[selectedDemo],ci.arraySizeX,ci.arraySizeY,ci.arraySizeZ,
					ptm->tm_mday,
					ptm->tm_mon+1,
					ptm->tm_year+1900,
					ptm->tm_hour,
					ptm->tm_min,
					ptm->tm_sec);

#endif

			sprintf(csvFileName,"%s.csv",prefixFileName);
			sprintf(detailsFileName,"%s.txt",prefixFileName);
			printf("Open csv file %s and details file %s\n", csvFileName,detailsFileName);

			//GetSystemTime(&time2);

			csvFile=fopen(csvFileName,"w");
			detailsFile = fopen(detailsFileName,"w");
			if (detailsFile)
				defaultOutput = detailsFile;

			//if (f)
			//	fprintf(f,"%s (%dx%dx%d=%d),\n",  g_deviceName,ci.arraySizeX,ci.arraySizeY,ci.arraySizeZ,ci.arraySizeX*ci.arraySizeY*ci.arraySizeZ);
		}


		fprintf(defaultOutput,"Demo settings:\n");
		fprintf(defaultOutput,"  SelectedDemo=%d, demoname = %s\n", selectedDemo, demo->getName());
		fprintf(defaultOutput,"  x_dim=%d, y_dim=%d, z_dim=%d\n",ci.arraySizeX,ci.arraySizeY,ci.arraySizeZ);
		fprintf(defaultOutput,"  x_gap=%f, y_gap=%f, z_gap=%f\n",ci.gapX,ci.gapY,ci.gapZ);
		fprintf(defaultOutput,"\nOpenCL settings:\n");
		fprintf(defaultOutput,"  Preferred cl_device index %d\n", ci.preferredOpenCLDeviceIndex);
		fprintf(defaultOutput,"  Preferred cl_platform index%d\n", ci.preferredOpenCLPlatformIndex);
		fprintf(defaultOutput,"\n");

		if (demo->getInternalData()->m_platformId)
		{
			b3OpenCLUtils::printPlatformInfo( demo->getInternalData()->m_platformId);
			fprintf(defaultOutput,"\n");
			b3OpenCLUtils::printDeviceInfo( demo->getInternalData()->m_clDevice);
			fprintf(defaultOutput,"\n");
		}
		do
		{


			GLint err = glGetError();
			assert(err==GL_NO_ERROR);


			if (exportFrame || exportMovie)
			{

				if (!renderTexture)
				{
					renderTexture = new GLRenderToTexture();
					GLuint renderTextureId;
					glGenTextures(1, &renderTextureId);

					// "Bind" the newly created texture : all future texture functions will modify this texture
					glBindTexture(GL_TEXTURE_2D, renderTextureId);

					// Give an empty image to OpenGL ( the last "0" )
					//glTexImage2D(GL_TEXTURE_2D, 0,GL_RGB, g_OpenGLWidth,g_OpenGLHeight, 0,GL_RGBA, GL_UNSIGNED_BYTE, 0);
					//glTexImage2D(GL_TEXTURE_2D, 0,GL_RGBA32F, g_OpenGLWidth,g_OpenGLHeight, 0,GL_RGBA, GL_FLOAT, 0);
					glTexImage2D(GL_TEXTURE_2D, 0,GL_RGBA32F, g_OpenGLWidth,g_OpenGLHeight, 0,GL_RGBA, GL_FLOAT, 0);

					glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
					glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
					//glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
					//glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);

					renderTexture->init(g_OpenGLWidth,g_OpenGLHeight,renderTextureId, RENDERTEXTURE_COLOR);
				}

				bool result = renderTexture->enable();
			}

			err = glGetError();
			assert(err==GL_NO_ERROR);

			b3ProfileManager::Reset();
			b3ProfileManager::Increment_Frame_Counter();

//			render.reshape(g_OpenGLWidth,g_OpenGLHeight);
			ci.m_instancingRenderer->resize(g_OpenGLWidth,g_OpenGLHeight);
			prim.setScreenSize(g_OpenGLWidth,g_OpenGLHeight);

			err = glGetError();
			assert(err==GL_NO_ERROR);

			window->startRendering();

			err = glGetError();
			assert(err==GL_NO_ERROR);

			glClear(GL_COLOR_BUFFER_BIT| GL_DEPTH_BUFFER_BIT);//|GL_STENCIL_BUFFER_BIT);
			glEnable(GL_DEPTH_TEST);

			err = glGetError();
			assert(err==GL_NO_ERROR);

			if (!gPause)
			{
				B3_PROFILE("clientMoveAndDisplay");

				demo->clientMoveAndDisplay();
			}
			else
			{

			}

			{
				B3_PROFILE("renderScene");
				demo->renderScene();
			}
			err = glGetError();
			assert(err==GL_NO_ERROR);


			/*if (demo->getDynamicsWorld() && demo->getDynamicsWorld()->getNumCollisionObjects())
			{
				B3_PROFILE("renderPhysicsWorld");
				b3AlignedObjectArray<b3CollisionObject*> arr = demo->getDynamicsWorld()->getCollisionObjectArray();
				b3CollisionObject** colObjArray = &arr[0];

				render.renderPhysicsWorld(demo->getDynamicsWorld()->getNumCollisionObjects(),colObjArray, syncOnly);
				syncOnly = true;

			}
			*/


			if (exportFrame || exportMovie)
			{

				char fileName[1024];
				sprintf(fileName,"screenShot%d.png",frameIndex++);
				writeTextureToPng(g_OpenGLWidth,g_OpenGLHeight,fileName);
				exportFrame = false;
				renderTexture->disable();
			}


			{
				B3_PROFILE("gui->draw");
				if (gui && gDrawGui)
					gui->draw(g_OpenGLWidth,g_OpenGLHeight);
			}
			err = glGetError();
			assert(err==GL_NO_ERROR);


			{
				B3_PROFILE("window->endRendering");
				window->endRendering();
			}

			err = glGetError();
			assert(err==GL_NO_ERROR);

			{
				B3_PROFILE("glFinish");
			}



			if (dump_timings)
			{
				b3ProfileManager::dumpAll(stdout);
			}

			if (csvFile)
			{
				static int frameCount=0;

				if (frameCount>0)
				{
					DumpSimulationTime(csvFile);
					if (detailsFile)
					{
							fprintf(detailsFile,"\n==================================\nFrame %d:\n", frameCount);
							b3ProfileManager::dumpAll(detailsFile);
					}
				}

				if (frameCount>=maxFrameCount)
					window->setRequestExit();
				frameCount++;
			}


			if (gStep)
				gPause=true;

		} while (!window->requestedExit() && !gReset);


		demo->exitPhysics();
		b3ProfileManager::CleanupMemory();
		delete ci.m_instancingRenderer;

		delete demo;
		sDemo = 0;

		if (detailsFile)
		{
			fclose(detailsFile);
			detailsFile=0;
		}
		if (csvFile)
		{
			fclose(csvFile);
			csvFile=0;
		}
	}



	} while (gReset);


	if (gui)
		gui->setComboBoxCallback(0);

	{



		delete gui;
		gui=0;

		exitFont();


		window->closeWindow();
		delete window;
		window = 0;

	}

	return 0;
}
Exemple #6
0
int main(int argc, char* argv[])
{

	b3SetCustomEnterProfileZoneFunc(b3ProfileManager::Start_Profile);
	b3SetCustomLeaveProfileZoneFunc(b3ProfileManager::Stop_Profile);

	b3SetCustomPrintfFunc(myprintf);
	b3Vector3 test=b3MakeVector3(1,2,3);
	test.x = 1;
	test.y = 4;

	b3Printf("main start");

	b3CommandLineArgs args(argc,argv);


	if (args.CheckCmdLineFlag("help"))
	{
		Usage();
		return 0;
	}


	args.GetCmdLineArgument("selected_demo",selectedDemo);


	bool benchmark=args.CheckCmdLineFlag("benchmark");
	args.GetCmdLineArgument("max_framecount",maxFrameCount);



	dump_timings=args.CheckCmdLineFlag("dump_timings");
	
#ifndef B3_NO_PROFILE
	b3ProfileManager::Reset();
#endif //B3_NO_PROFILE


	window = new b3gDefaultOpenGLWindow();

	b3gWindowConstructionInfo wci(g_OpenGLWidth,g_OpenGLHeight);

	window->createWindow(wci);
	window->setResizeCallback(MyResizeCallback);
	window->setMouseMoveCallback(MyMouseMoveCallback);
	window->setMouseButtonCallback(MyMouseButtonCallback);
	window->setKeyboardCallback(MyKeyboardCallback);

	window->setWindowTitle("Bullet 3.x GPU Rigid Body http://bulletphysics.org");
	


#ifndef __APPLE__
	glewInit();
#endif

	gui = new GwenUserInterface();

    b3Printf("started GwenUserInterface\n");


	GLPrimitiveRenderer prim(g_OpenGLWidth,g_OpenGLHeight);

	stash = initFont(&prim);


	if (gui)
	{
		gui->init(g_OpenGLWidth,g_OpenGLHeight,stash,window->getRetinaScale());

		b3Printf("init fonts\n");


		gui->setToggleButtonCallback(MyButtonCallback);

		gui->registerToggleButton(MYPAUSE,"Pause");
		gui->registerToggleButton(MYPROFILE,"Profile");
		gui->registerToggleButton(MYRESET,"Reset");

		int numItems = sizeof(allDemos)/sizeof(CpuDemo::CreateFunc*);
		demoNames.clear();
		for (int i=0;i<numItems;i++)
		{
			CpuDemo* demo = allDemos[i]();
			demoNames.push_back(demo->getName());
			delete demo;
		}

		gui->registerComboBox(MYCOMBOBOX1,numItems,&demoNames[0]);
		gui->setComboBoxCallback(MyComboBoxCallback);
	}



	do
	{
		bool syncOnly = false;
		gReset = false;




	static bool once=true;


	//glClearColor(0.3f, 0.3f, 0.3f, 1.0f);
	glClearColor(1,1,1,1);
	glClear(GL_COLOR_BUFFER_BIT|GL_DEPTH_BUFFER_BIT);

	window->setWheelCallback(b3DefaultWheelCallback);




	{
		CpuDemo* demo = allDemos[selectedDemo]();
		sDemo = demo;
//		demo->myinit();
		bool useGpu = false;

		
		int maxObjectCapacity=1024*1024;//128*1024;
		int maxShapeCapacityInBytes=10*1024*1024;

		//maxObjectCapacity = b3Max(maxObjectCapacity,ci.arraySizeX*ci.arraySizeX*ci.arraySizeX+10);

		
		CpuDemo::ConstructionInfo ci;
		ci.m_instancingRenderer = new GLInstancingRenderer(maxObjectCapacity,maxShapeCapacityInBytes);
		ci.m_window = window;
		ci.m_gui = gui;
		ci.m_instancingRenderer->init();
		ci.m_instancingRenderer->resize(g_OpenGLWidth,g_OpenGLHeight);
		ci.m_instancingRenderer->InitShaders();
		ci.m_primRenderer = &prim;
		

//		render.init();
		

		{
			demo->initPhysics(ci);
		}



		

		

		FILE* csvFile = 0;
		FILE* detailsFile = 0;

		if (benchmark)
		{
			gPause = false;
			char prefixFileName[1024];
			char csvFileName[1024];
			char detailsFileName[1024];

			
			
			//todo: move this time stuff into the Platform/Window class
#ifdef _WIN32
			SYSTEMTIME time;
			GetLocalTime(&time);
			char buf[1024];
			DWORD dwCompNameLen = 1024;
			if (0 != GetComputerName(buf, &dwCompNameLen))
			{
				printf("%s", buf);
			} else
			{
				printf("unknown", buf);
			}

			sprintf(prefixFileName,"%s_%s_%s_date_%d-%d-%d_time_%d-%d-%d","CPU",buf,demoNames[selectedDemo],time.wDay,time.wMonth,time.wYear,time.wHour,time.wMinute,time.wSecond);
			
#else
			timeval now;
			gettimeofday(&now,0);
			
			struct tm* ptm;
			ptm = localtime (&now.tv_sec);
			char buf[1024];
#ifdef __APPLE__
			sprintf(buf,"MacOSX");
#else
			sprintf(buf,"Unix");
#endif
			sprintf(prefixFileName,"%s_%s_%s_%d_%d_%d_date_%d-%d-%d_time_%d-%d-%d",info.m_deviceName,buf,demoNames[selectedDemo],ci.arraySizeX,ci.arraySizeY,ci.arraySizeZ,
					ptm->tm_mday,
					ptm->tm_mon+1,
					ptm->tm_year+1900,
					ptm->tm_hour,
					ptm->tm_min,
					ptm->tm_sec);
			
#endif

			sprintf(csvFileName,"%s.csv",prefixFileName);
			sprintf(detailsFileName,"%s.txt",prefixFileName);
			printf("Open csv file %s and details file %s\n", csvFileName,detailsFileName);

			//GetSystemTime(&time2);

			csvFile=fopen(csvFileName,"w");
			detailsFile = fopen(detailsFileName,"w");
			if (detailsFile)
				defaultOutput = detailsFile;

			//if (f)
			//	fprintf(f,"%s (%dx%dx%d=%d),\n",  g_deviceName,ci.arraySizeX,ci.arraySizeY,ci.arraySizeZ,ci.arraySizeX*ci.arraySizeY*ci.arraySizeZ);
		}

		
		
		
		do
		{


			GLint err = glGetError();
			assert(err==GL_NO_ERROR);


			if (exportFrame || exportMovie)
			{
				
				if (!renderTexture)
				{
					renderTexture = new GLRenderToTexture();
					GLuint renderTextureId;
					glGenTextures(1, &renderTextureId);

					// "Bind" the newly created texture : all future texture functions will modify this texture
					glBindTexture(GL_TEXTURE_2D, renderTextureId);

					// Give an empty image to OpenGL ( the last "0" )
					//glTexImage2D(GL_TEXTURE_2D, 0,GL_RGB, g_OpenGLWidth,g_OpenGLHeight, 0,GL_RGBA, GL_UNSIGNED_BYTE, 0);
					//glTexImage2D(GL_TEXTURE_2D, 0,GL_RGBA32F, g_OpenGLWidth,g_OpenGLHeight, 0,GL_RGBA, GL_FLOAT, 0);
					glTexImage2D(GL_TEXTURE_2D, 0,GL_RGBA32F, g_OpenGLWidth,g_OpenGLHeight, 0,GL_RGBA, GL_FLOAT, 0);

					glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
					glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
					//glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
					//glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);

					renderTexture->init(g_OpenGLWidth,g_OpenGLHeight,renderTextureId, RENDERTEXTURE_COLOR);
				}
				
				bool result = renderTexture->enable();
			} 
			
			err = glGetError();
			assert(err==GL_NO_ERROR);

			b3ProfileManager::Reset();
			b3ProfileManager::Increment_Frame_Counter();

//			render.reshape(g_OpenGLWidth,g_OpenGLHeight);
			ci.m_instancingRenderer->resize(g_OpenGLWidth,g_OpenGLHeight);
			prim.setScreenSize(g_OpenGLWidth,g_OpenGLHeight);

			err = glGetError();
			assert(err==GL_NO_ERROR);

			window->startRendering();

			err = glGetError();
			assert(err==GL_NO_ERROR);

			glClear(GL_COLOR_BUFFER_BIT| GL_DEPTH_BUFFER_BIT);//|GL_STENCIL_BUFFER_BIT);
			glEnable(GL_DEPTH_TEST);

			err = glGetError();
			assert(err==GL_NO_ERROR);

			if (!gPause)
			{
				B3_PROFILE("clientMoveAndDisplay");

				demo->clientMoveAndDisplay();
			}
			else
			{

			}

			{
				B3_PROFILE("renderScene");
				demo->renderScene();
			}
			err = glGetError();
			assert(err==GL_NO_ERROR);


			/*if (demo->getDynamicsWorld() && demo->getDynamicsWorld()->getNumCollisionObjects())
			{
				B3_PROFILE("renderPhysicsWorld");
				b3AlignedObjectArray<b3CollisionObject*> arr = demo->getDynamicsWorld()->getCollisionObjectArray();
				b3CollisionObject** colObjArray = &arr[0];

				render.renderPhysicsWorld(demo->getDynamicsWorld()->getNumCollisionObjects(),colObjArray, syncOnly);
				syncOnly = true;

			}
			*/

			
			if (exportFrame || exportMovie)
			{
				
				char fileName[1024];
				sprintf(fileName,"screenShot%d.png",frameIndex++);
				writeTextureToPng(g_OpenGLWidth,g_OpenGLHeight,fileName);
				exportFrame = false;
				renderTexture->disable();
			}


			{
				B3_PROFILE("gui->draw");
				if (gui && gDrawGui)
					gui->draw(g_OpenGLWidth,g_OpenGLHeight);
			}
			err = glGetError();
			assert(err==GL_NO_ERROR);


			{
				B3_PROFILE("window->endRendering");
				window->endRendering();
			}

			err = glGetError();
			assert(err==GL_NO_ERROR);

			{
				B3_PROFILE("glFinish");
			}

			

			if (dump_timings)
			{
				b3ProfileManager::dumpAll(stdout);
			}

			if (csvFile)
			{
				static int frameCount=0;

				if (frameCount>0)
				{
					DumpSimulationTime(csvFile);
					if (detailsFile)
					{
							fprintf(detailsFile,"\n==================================\nFrame %d:\n", frameCount);
							b3ProfileManager::dumpAll(detailsFile);
					}
				}

				if (frameCount>=maxFrameCount)
					window->setRequestExit();
				frameCount++;
			}


			if (gStep)
				gPause=true;

		} while (!window->requestedExit() && !gReset);


		demo->exitPhysics();
		b3ProfileManager::CleanupMemory();
		delete ci.m_instancingRenderer;

		delete demo;
		sDemo = 0;

		if (detailsFile)
		{
			fclose(detailsFile);
			detailsFile=0;
		}
		if (csvFile)
		{
			fclose(csvFile);
			csvFile=0;
		}
	}



	} while (gReset);


	if (gui)
		gui->setComboBoxCallback(0);

	{

	

		delete gui;
		gui=0;

		exitFont();


		window->closeWindow();
		delete window;
		window = 0;

	}

	return 0;
}
Exemple #7
0
unsigned assignHistos2Multipad(canvasSet_t& cs) // returns total number of occupied pads
{
  wCanvas_t *wc0       = cs.canvases[0];
  unsigned npadspercan = wc0->npadsx*wc0->npadsy;
  unsigned npadsall    = cs.ncanvases*npadspercan;

  // Note: wci can't be wCanvas_t& because apparently filling the
  //       vector messes up the reference to the first element!
  //
  wCanvas_t wci(*wc0); // doesn't copy member "pads"
  wCanvas_t *wc = wc0;  // Divvy up the pads among multiple canvases if so specified

  unsigned ipad=0,ipad2start=0; // ipad=global pad index, not the Apple product!
  unsigned m=0;                 // m=multipad index

  // A multipad potentially references multiple sets of graphical
  // objects (histograms, graphs) to overlay. The objects within a set
  // are plotted in sequential pads, but another set of objects
  // assigned to the same multipad are overlaid sequentially on the
  // previous set. Ideally each set assigned to the same multipad
  // contains the same number of objects, but not necessarily.
  // Multiple multipads can exist; their collection of object sets are
  // assigned sequentially to ranges of available pads defined in the
  // layout section.
  //
  for (m=0; m<wc0->multipads.size(); m++) {
    wPad_t  *mp = wc0->multipads[m];

    // figure out how many pads this multipad spans, taking max of the referenced histo sets
    unsigned npads4mp=0;
    for (unsigned k=0; k<mp->histo_ids.size(); k++) {
      std::map<string,unsigned>::const_iterator it=glmap_mhid2size.find(mp->histo_ids[k]);
      if (it==glmap_mhid2size.end()) {
	if (findHisto(mp->histo_ids[k]),"")
	  npads4mp = std::max<unsigned>(npads4mp, 1);
      } else {
	npads4mp = std::max(npads4mp,it->second);
      }
    }

    npads4mp = std::min(npads4mp,npadsall-ipad2start);

    if (!npads4mp) continue;

    // Plot all objects for this multipad that can be plotted within
    // the span of assigned pads

    // Create the pads first
    for (ipad=ipad2start; ipad<ipad2start+npads4mp; ipad++) {

      unsigned   i  =  ipad % npadspercan;      // index to current pad in canvas
      unsigned cnum = (ipad / npadspercan) + 1; // current canvas number

      if (!i) { // first pad in new canvas
	if (cnum > cs.canvases.size()) {
	  if (gl_verbose)
	    cout << "making new canvas" << endl;
	  wc = new wCanvas_t(wci);
	  cs.canvases.push_back(wc);
	  wc->title = cs.title + "_" + int2str(cnum);
	  wc->pads.clear();
	  wc->latex_ids = wc0->latex_ids;
	}
      }

      wPad_t *wp = new wPad_t(*(mp));
      wp->histo_ids.clear(); 
      wp->altyh_ids.clear(); 
      wp->graph_ids.clear(); 
      if (i) wp->legid.clear(); // don't automatically propagate legend to all pads

      wc->pads.push_back(wp);
    }

    unsigned g,h,j,k,l,y;     /* g=graph index in current graph set
				 h=histo index in current histo set
				 j=graph id (set) index
				 k=histo_id (set) index
				 l=altyhisto index
				 y=histoindex in current altyhisto set */
    g=h=j=k=l=y=0;

    // Now assign
    for (ipad=ipad2start; ipad<ipad2start+npads4mp; ipad++) {

      unsigned   i  =  ipad % npadspercan;      // index to current pad in canvas
      unsigned cnum = (ipad / npadspercan) + 1; // current canvas number

      wc = cs.canvases[cnum-1];
      wPad_t *wp = wc->pads[i];

      bool foundhisto=false;
      if (k < mp->histo_ids.size()) {
	string hid=mp->histo_ids[k];

	if (!h && gl_verbose) {
	  cout<<"Assigning histo/histo set "<<hid<<" to pads ";
	  cout<<ipad2start<<"-"<<ipad2start+npads4mp-1<<endl;
	}

	if (!h && findHisto(hid, "switching to histo set"))
	  foundhisto=true;
	else {
	  hid = hid +"_"+int2str(h++);
	  if (findHisto(hid, "hit the end of histo set"))
	    foundhisto=true;
	}
	if (foundhisto) {
	  // now we associate histogram sets with the pad set
	  wp->histo_ids.push_back(hid);
	}
      }

      // altyhistos:
      if (l < mp->altyh_ids.size()) {
	string ahid=mp->altyh_ids[l];
	bool foundaltyh=false;
	if (!y && findHisto(ahid, "switching to set"))
	  foundaltyh=true;
	else {
	  ahid = ahid +"_"+int2str(y++);
	  if (findHisto(ahid, "hit the end of histo set"))
	    foundaltyh=true;
	}
	if (foundaltyh) {
	  // now we associate histogram sets with the pad set
	  wp->altyh_ids.push_back(ahid);
	}
      }

      // graphs:
      bool foundgraph=false;
      if (j < mp->graph_ids.size()) {
	string gid=mp->graph_ids[j];
	if (!g && findGraph(gid, "switching to set"))
	  foundhisto=true;
	else {
	  gid = gid +"_"+int2str(g++);
	  if (findGraph(gid, "hit the end of graph set"))
	    foundgraph=true;
	}
	if (foundgraph) {
	  // now we associate histogram sets with the pad set
	  wp->graph_ids.push_back(gid);
	}
      }

      if (!foundgraph && !foundhisto) { // reset to next graph/histo ids
	ipad=ipad2start;
	g=h=y=0;
	++j;  ++k; ++l;
	if (j == mp->graph_ids.size() &&
	    k == mp->histo_ids.size()   ) break;
      }
    } // pad loop

    ipad2start += npads4mp;

  } // multipads loop

  return std::min(npadsall,ipad);
}                                               // assignHistos2Multipad
Exemple #8
0
int main(int argc, char* argv[])
{
	
	


	window = new btgDefaultOpenGLWindow();
	btgWindowConstructionInfo wci(g_OpenGLWidth,g_OpenGLHeight);

	wci.m_openglVersion = 2;
	
	window->createWindow(wci);
	window->setWindowTitle("MyTest");
	
#ifdef _WIN32
	glewInit();
#endif
		
	render = new OpenGL2Renderer;

	window->startRendering();
	glFinish();
	glClearColor(1,0,0,1);
	glClear(GL_COLOR_BUFFER_BIT);
//	GLPrimitiveRenderer prim(g_OpenGLWidth,g_OpenGLHeight);
	float color[4] = {1,1,1,1};
//	prim.drawRect(0,0,200,200,color);
	window->endRendering();
	glFinish();

	glClearColor(0,1,0,1);
	glClear(GL_COLOR_BUFFER_BIT);
	
	window->endRendering();
	glFinish();

	GLint err = glGetError();
    btAssert(err==GL_NO_ERROR);

	window->setKeyboardCallback(MyKeyboardCallback);


	{
		GpuDemo* demo = new GpuBoxDemo;
		
		//demo->myinit();

		GLint err = glGetError();
		btAssert(err==GL_NO_ERROR);
		
		GpuDemo::ConstructionInfo ci;
		ci.useOpenCL = true;
		demo->initPhysics(ci);
		err = glGetError();
		btAssert(err==GL_NO_ERROR);
		do
		{
			GLint err = glGetError();
			btAssert(err==GL_NO_ERROR);
			
			window->startRendering();
			glClearColor(0,1,0,1);
			glClear(GL_COLOR_BUFFER_BIT| GL_DEPTH_BUFFER_BIT|GL_STENCIL_BUFFER_BIT);
			glEnable(GL_DEPTH_TEST);
			err = glGetError();
			btAssert(err==GL_NO_ERROR);
			
			demo->clientMoveAndDisplay();

			err = glGetError();
			btAssert(err==GL_NO_ERROR);
			
			render->init();
			
			err = glGetError();
			btAssert(err==GL_NO_ERROR);
			
			if (demo->getDynamicsWorld() && demo->getDynamicsWorld()->getNumCollisionObjects())
			{
				btAlignedObjectArray<btCollisionObject*> arr = demo->getDynamicsWorld()->getCollisionObjectArray();
				btCollisionObject** colObjArray = &arr[0];
				render->renderPhysicsWorld(demo->getDynamicsWorld()->getNumCollisionObjects(), colObjArray);
			}
			err = glGetError();
			btAssert(err==GL_NO_ERROR);
			
			window->endRendering();
			err = glGetError();
			btAssert(err==GL_NO_ERROR);
			
			glFinish();
			err = glGetError();
			btAssert(err==GL_NO_ERROR);
			
		} while (!window->requestedExit());

		demo->exitPhysics();
		delete demo;
	}


	window->closeWindow();
	delete render;
	render = 0;
	delete window;
	window = 0;
	
	return 0;
}
Exemple #9
0
int main(int argc, char* argv[])
{
	b3SetCustomPrintfFunc(myprintf);
	b3Vector3 test(1,2,3);
	test.x = 1;
	test.y = 4;

    printf("main start");

	b3CommandLineArgs args(argc,argv);
	ParticleDemo::ConstructionInfo ci;

	if (args.CheckCmdLineFlag("help"))
	{
		Usage();
		return 0;
	}


	args.GetCmdLineArgument("selected_demo",selectedDemo);


	if (args.CheckCmdLineFlag("new_batching"))
	{
		useNewBatchingKernel = true;
	}
	bool benchmark=args.CheckCmdLineFlag("benchmark");
	dump_timings=args.CheckCmdLineFlag("dump_timings");
	ci.useOpenCL = !args.CheckCmdLineFlag("disable_opencl");
	ci.m_useConcaveMesh = true;//args.CheckCmdLineFlag("use_concave_mesh");
	if (ci.m_useConcaveMesh)
	{
		enableExperimentalCpuConcaveCollision = true;
	}

	args.GetCmdLineArgument("cl_device", ci.preferredOpenCLDeviceIndex);
	args.GetCmdLineArgument("cl_platform", ci.preferredOpenCLPlatformIndex);
	args.GetCmdLineArgument("x_dim", ci.arraySizeX);
	args.GetCmdLineArgument("y_dim", ci.arraySizeY);
	args.GetCmdLineArgument("z_dim", ci.arraySizeZ);
	args.GetCmdLineArgument("x_gap", ci.gapX);
	args.GetCmdLineArgument("y_gap", ci.gapY);
	args.GetCmdLineArgument("z_gap", ci.gapZ);



	#ifndef B3_NO_PROFILE
	b3ProfileManager::Reset();
#endif //B3_NO_PROFILE


	window = new b3gDefaultOpenGLWindow();

	b3gWindowConstructionInfo wci(g_OpenGLWidth,g_OpenGLHeight);

	window->createWindow(wci);
	window->setResizeCallback(MyResizeCallback);
	window->setMouseMoveCallback(MyMouseMoveCallback);
	window->setMouseButtonCallback(MyMouseButtonCallback);
	window->setKeyboardCallback(MyKeyboardCallback);

	window->setWindowTitle("Bullet 3.x GPU Rigid Body http://bulletphysics.org");
	printf("-----------------------------------------------------\n");


#ifndef __APPLE__
	glewInit();
#endif

	gui = new GwenUserInterface();

    printf("started GwenUserInterface");


	GLPrimitiveRenderer prim(g_OpenGLWidth,g_OpenGLHeight);

	stash = initFont(&prim);


	gui->init(g_OpenGLWidth,g_OpenGLHeight,stash,window->getRetinaScale());

    printf("init fonts");


	gui->setToggleButtonCallback(MyButtonCallback);

	gui->registerToggleButton(MYPAUSE,"Pause");
	gui->registerToggleButton(MYPROFILE,"Profile");
	gui->registerToggleButton(MYRESET,"Reset");






	int numItems = sizeof(allDemos)/sizeof(ParticleDemo::CreateFunc*);
	demoNames.clear();
	for (int i=0;i<numItems;i++)
	{
		GpuDemo* demo = allDemos[i]();
		demoNames.push_back(demo->getName());
		delete demo;
	}

	gui->registerComboBox(MYCOMBOBOX1,numItems,&demoNames[0]);
	gui->setComboBoxCallback(MyComboBoxCallback);



	do
	{
		bool syncOnly = false;
		gReset = false;




	static bool once=true;




	glClearColor(1,0,0,1);
	glClear(GL_COLOR_BUFFER_BIT);

	{

		window->startRendering();
		glFinish();

		


		float color[4] = {1,1,1,1};
		prim.drawRect(0,0,200,200,color);
		float retinaScale = 1;

		  float x = 10;
            float y=220;
            float  dx=0;
            if (1)
            {
                B3_PROFILE("font sth_draw_text");

				glEnable(GL_BLEND);
				GLint err = glGetError();
				assert(err==GL_NO_ERROR);

				glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
				err = glGetError();
				assert(err==GL_NO_ERROR);

				glDisable(GL_DEPTH_TEST);
				err = glGetError();
				assert(err==GL_NO_ERROR);


				glDisable(GL_CULL_FACE);

                sth_begin_draw(stash);
                sth_flush_draw(stash);
                sth_draw_text(stash, droidRegular,20.f, x, y, "Non-retina font rendering !@#$", &dx,g_OpenGLWidth,g_OpenGLHeight,0,1);//retinaScale);
                if (retinaScale!=1.f)
                    sth_draw_text(stash, droidRegular,20.f*retinaScale, x, y+20, "Retina font rendering!@#$", &dx,g_OpenGLWidth,g_OpenGLHeight,0,retinaScale);
                sth_flush_draw(stash);

                sth_end_draw(stash);
            }

		gui->draw(g_OpenGLWidth,g_OpenGLHeight);
		window->endRendering();
		glFinish();
	}
	once=false;

//	OpenGL3CoreRenderer render;

	glClearColor(0,1,0,1);
	glClear(GL_COLOR_BUFFER_BIT);

	window->endRendering();

	glFinish();



	window->setWheelCallback(b3DefaultWheelCallback);




	{
		GpuDemo* demo = allDemos[selectedDemo]();
//		demo->myinit();
		bool useGpu = false;


		int maxObjectCapacity=128*1024;

		ci.m_instancingRenderer = new GLInstancingRenderer(maxObjectCapacity);//render.getInstancingRenderer();
		ci.m_window = window;
		ci.m_gui = gui;
		ci.m_instancingRenderer->init();
		ci.m_instancingRenderer->InitShaders();
		ci.m_primRenderer = &prim;
//		render.init();

		demo->initPhysics(ci);



		

		printf("-----------------------------------------------------\n");

		FILE* csvFile = 0;
		FILE* detailsFile = 0;

		if (benchmark)
		{
			gPause = false;
			char prefixFileName[1024];
			char csvFileName[1024];
			char detailsFileName[1024];

			b3OpenCLDeviceInfo info;
			b3OpenCLUtils::getDeviceInfo(demo->getInternalData()->m_clDevice,&info);
			
			//todo: move this time stuff into the Platform/Window class
#ifdef _WIN32
			SYSTEMTIME time;
			GetLocalTime(&time);
			char buf[1024];
			DWORD dwCompNameLen = 1024;
			if (0 != GetComputerName(buf, &dwCompNameLen))
			{
				printf("%s", buf);
			} else
			{
				printf("unknown", buf);
			}

			sprintf(prefixFileName,"%s_%s_%s_%d_%d_%d_date_%d-%d-%d_time_%d-%d-%d",info.m_deviceName,buf,demoNames[selectedDemo],ci.arraySizeX,ci.arraySizeY,ci.arraySizeZ,time.wDay,time.wMonth,time.wYear,time.wHour,time.wMinute,time.wSecond);
			
#else
			timeval now;
			gettimeofday(&now,0);
			
			struct tm* ptm;
			ptm = localtime (&now.tv_sec);
			char buf[1024];
#ifdef __APPLE__
			sprintf(buf,"MacOSX");
#else
			sprintf(buf,"Unix");
#endif
			sprintf(prefixFileName,"%s_%s_%s_%d_%d_%d_date_%d-%d-%d_time_%d-%d-%d",info.m_deviceName,buf,demoNames[selectedDemo],ci.arraySizeX,ci.arraySizeY,ci.arraySizeZ,
					ptm->tm_mday,
					ptm->tm_mon+1,
					ptm->tm_year+1900,
					ptm->tm_hour,
					ptm->tm_min,
					ptm->tm_sec);
			
#endif

			sprintf(csvFileName,"%s.csv",prefixFileName);
			sprintf(detailsFileName,"%s.txt",prefixFileName);
			printf("Open csv file %s and details file %s\n", csvFileName,detailsFileName);

			//GetSystemTime(&time2);

			csvFile=fopen(csvFileName,"w");
			detailsFile = fopen(detailsFileName,"w");
			if (detailsFile)
				defaultOutput = detailsFile;

			//if (f)
			//	fprintf(f,"%s (%dx%dx%d=%d),\n",  g_deviceName,ci.arraySizeX,ci.arraySizeY,ci.arraySizeZ,ci.arraySizeX*ci.arraySizeY*ci.arraySizeZ);
		}

		
		fprintf(defaultOutput,"Demo settings:\n");
		fprintf(defaultOutput,"  SelectedDemo=%d, demoname = %s\n", selectedDemo, demo->getName());
		fprintf(defaultOutput,"  x_dim=%d, y_dim=%d, z_dim=%d\n",ci.arraySizeX,ci.arraySizeY,ci.arraySizeZ);
		fprintf(defaultOutput,"  x_gap=%f, y_gap=%f, z_gap=%f\n",ci.gapX,ci.gapY,ci.gapZ);
		fprintf(defaultOutput,"\nOpenCL settings:\n");
		fprintf(defaultOutput,"  Preferred cl_device index %d\n", ci.preferredOpenCLDeviceIndex);
		fprintf(defaultOutput,"  Preferred cl_platform index%d\n", ci.preferredOpenCLPlatformIndex);
		fprintf(defaultOutput,"\n");

		b3OpenCLUtils::printPlatformInfo( demo->getInternalData()->m_platformId);
		fprintf(defaultOutput,"\n");
		b3OpenCLUtils::printDeviceInfo( demo->getInternalData()->m_clDevice);
		fprintf(defaultOutput,"\n");
		do
		{
			GLint err = glGetError();
			assert(err==GL_NO_ERROR);

			b3ProfileManager::Reset();
			b3ProfileManager::Increment_Frame_Counter();

//			render.reshape(g_OpenGLWidth,g_OpenGLHeight);
			ci.m_instancingRenderer->resize(g_OpenGLWidth,g_OpenGLHeight);
			prim.setScreenSize(g_OpenGLWidth,g_OpenGLHeight);

			window->startRendering();

			glClearColor(0.6,0.6,0.6,1);
			glClear(GL_COLOR_BUFFER_BIT| GL_DEPTH_BUFFER_BIT|GL_STENCIL_BUFFER_BIT);
			glEnable(GL_DEPTH_TEST);


			if (!gPause)
			{
				B3_PROFILE("clientMoveAndDisplay");

				demo->clientMoveAndDisplay();
			}
			else
			{

			}

			{
				B3_PROFILE("renderScene");
				demo->renderScene();
			}
			err = glGetError();
			assert(err==GL_NO_ERROR);


			/*if (demo->getDynamicsWorld() && demo->getDynamicsWorld()->getNumCollisionObjects())
			{
				B3_PROFILE("renderPhysicsWorld");
				b3AlignedObjectArray<b3CollisionObject*> arr = demo->getDynamicsWorld()->getCollisionObjectArray();
				b3CollisionObject** colObjArray = &arr[0];

				render.renderPhysicsWorld(demo->getDynamicsWorld()->getNumCollisionObjects(),colObjArray, syncOnly);
				syncOnly = true;

			}
			*/
			{
				B3_PROFILE("gui->draw");
				gui->draw(g_OpenGLWidth,g_OpenGLHeight);
			}
			err = glGetError();
			assert(err==GL_NO_ERROR);

			{
				B3_PROFILE("window->endRendering");
				window->endRendering();
			}
			err = glGetError();
			assert(err==GL_NO_ERROR);

			{
				B3_PROFILE("glFinish");
			}

			

			if (dump_timings)
			{
				b3ProfileManager::dumpAll(stdout);
			}

			if (csvFile)
			{
				static int frameCount=0;

				if (frameCount>0)
				{
					DumpSimulationTime(csvFile);
					if (detailsFile)
					{
							fprintf(detailsFile,"\n==================================\nFrame %d:\n", frameCount);
							b3ProfileManager::dumpAll(detailsFile);
					}
				}

				if (frameCount>=102)
					window->setRequestExit();
				frameCount++;
			}



		} while (!window->requestedExit() && !gReset);


		demo->exitPhysics();
		b3ProfileManager::CleanupMemory();
		delete demo;
		if (detailsFile)
		{
			fclose(detailsFile);
			detailsFile=0;
		}
		if (csvFile)
		{
			fclose(csvFile);
			csvFile=0;
		}
	}



	} while (gReset);


	gui->setComboBoxCallback(0);
	delete gui;
	gui=0;

	window->closeWindow();
	delete window;
	window = 0;

	return 0;
}