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source: GTP/trunk/App/Demos/Vis/FriendlyCulling/src/irradiance.cpp @ 3037

Revision 3037, 48.2 KB checked in by mattausch, 16 years ago (diff)

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1	// chcdemo.cpp : Defines the entry point for the console application.
2	//
3
4
5	#include "common.h"
6
7	#ifdef _CRT_SET
8	#define _CRTDBG_MAP_ALLOC
9	#include <stdlib.h>
10	#include <crtdbg.h>
11
12	// redefine new operator
13	#define DEBUG_NEW new(_NORMAL_BLOCK, __FILE__, __LINE__)
14	#define new DEBUG_NEW
15	#endif
16
17	#include <math.h>
18	#include <time.h>
19	#include "glInterface.h"
20
21	#include <Cg/cg.h>
22	#include <Cg/cgGL.h>
23
24
25	#include "RenderTraverser.h"
26	#include "SceneEntity.h"
27	#include "Vector3.h"
28	#include "Matrix4x4.h"
29	#include "ResourceManager.h"
30	#include "Bvh.h"
31	#include "Camera.h"
32	#include "Geometry.h"
33	#include "BvhLoader.h"
34	#include "FrustumCullingTraverser.h"
35	#include "StopAndWaitTraverser.h"
36	#include "CHCTraverser.h"
37	#include "CHCPlusPlusTraverser.h"
38	#include "Visualization.h"
39	#include "RenderState.h"
40	#include "Timer/PerfTimer.h"
41	#include "SceneQuery.h"
42	#include "RenderQueue.h"
43	#include "Material.h"
44	#include "glfont2.h"
45	#include "PerformanceGraph.h"
46	#include "Environment.h"
47	#include "Halton.h"
48	#include "Transform3.h"
49	#include "SampleGenerator.h"
50	#include "FrameBufferObject.h"
51	#include "DeferredRenderer.h"
52	#include "ShadowMapping.h"
53	#include "Light.h"
54	#include "SceneEntityConverter.h"
55	#include "ObjConverter.h"
56	#include "SkyPreetham.h"
57	#include "Texture.h"
58	#include "EntityMerger.h"
59
60	using namespace std;
61	using namespace CHCDemoEngine;
62
63
64	static Environment env;
65
66	#define MAX_DEPTH_CONST 10.0f
67
68	// fbo
69	FrameBufferObject *fbo = NULL;
70
71	GLuint fontTex;
72
73	/// the renderable scene geometry
74	SceneEntityContainer sceneEntities;
75
76	// traverses and renders the hierarchy
77	RenderTraverser *traverser = NULL;
78	/// the hierarchy
79	Bvh *bvh = NULL;
80	/// handles scene loading
81	ResourceManager *loader = NULL;
82	/// the scene camera
83	Camera *camera = NULL;
84	/// the scene camera
85	Camera *visCamera = NULL;
86	/// the visualization
87	Visualization *visualization = NULL;
88	/// the current render state
89	RenderState state;
90	/// the rendering algorithm
91	int renderMode = RenderTraverser::CHCPLUSPLUS;
92	// eye near plane distance
93	float nearDist = 0.2f;
94	float farDist = 1e6f;
95	/// the field of view
96	float fov = 50.0f;
97	/// the pixel threshold where a node is still considered invisible
98	int threshold;
99
100	int assumedVisibleFrames = 10;
101	int maxBatchSize = 50;
102
103	int trianglesPerVirtualLeaf = INITIAL_TRIANGLES_PER_VIRTUAL_LEAVES;
104
105	SceneQuery *sceneQuery = NULL;
106	RenderQueue *renderQueue = NULL;
107
108	// traverses and renders the hierarchy
109	RenderTraverser *shadowTraverser = NULL;
110
111	SkyPreetham *preetham = NULL;
112
113
114	/// the used render type for this render pass
115	enum RenderMethod
116	{
117	RENDER_FIXED,
118	RENDER_DEPTH_PASS,
119	RENDER_DEFERRED,
120	RENDER_DEPTH_PASS_DEFERRED,
121	RENDER_NUM_RENDER_TYPES
122	};
123
124	/// one of four possible render methods
125	int renderMethod = RENDER_FIXED;
126
127
128	/// these values get scaled with the frame rate
129	static float keyForwardMotion = 30.0f;
130	static float keyRotation = 1.5f;
131
132	/// elapsed time in milliseconds
133	double elapsedTime = 1000.0f;
134	double algTime = 1000.0f;
135
136	static int winWidth = 1024;
137	static int winHeight = 768;
138
139	int shadowSize = 2048;
140
141	static float winAspectRatio = 1.0f;
142
143	double accumulatedTime = 1000;
144	float fps = 1e3f;
145
146	glfont::GLFont myfont;
147
148	// rendertexture
149	static int texWidth = 1024;
150	static int texHeight = 768;
151
152	int renderedObjects = 0;
153	int renderedNodes = 0;
154	int renderedTriangles = 0;
155
156	int issuedQueries = 0;
157	int traversedNodes = 0;
158	int frustumCulledNodes = 0;
159	int queryCulledNodes = 0;
160	int stateChanges = 0;
161	int numBatches = 0;
162
163
164	// mouse navigation state
165	int xEyeBegin = 0;
166	int yEyeBegin = 0;
167	int yMotionBegin = 0;
168	int verticalMotionBegin = 0;
169	int horizontalMotionBegin = 0;
170
171
172	bool leftKeyPressed = false;
173	bool rightKeyPressed = false;
174	bool upKeyPressed = false;
175	bool downKeyPressed = false;
176	bool descendKeyPressed = false;
177	bool ascendKeyPressed = false;
178
179	bool showHelp = false;
180	bool showStatistics = false;
181	bool showOptions = true;
182	bool showBoundingVolumes = false;
183	bool visMode = false;
184
185	bool useOptimization = false;
186	bool useTightBounds = true;
187	bool useRenderQueue = true;
188	bool useMultiQueries = true;
189	bool flyMode = true;
190
191	bool useGlobIllum = false;
192	bool useTemporalCoherence = true;
193	bool showAlgorithmTime = false;
194
195	bool useFullScreen = false;
196	bool useLODs = true;
197	bool moveLight = false;
198
199	bool useAdvancedShading = false;
200	bool showShadowMap = false;
201	bool renderLightView = false;
202
203	bool altKeyPressed = false;
204
205	bool useHDR = true;
206
207	static float ssaoTempCohFactor = 255.0;
208
209
210	PerfTimer frameTimer, algTimer;
211
212	static int sCurrentMrtSet = 0;
213
214	PerformanceGraph *perfGraph = NULL;
215
216
217	//DeferredRenderer::SAMPLING_METHOD samplingMethod = DeferredRenderer::SAMPLING_POISSON;
218	DeferredRenderer::SAMPLING_METHOD samplingMethod = DeferredRenderer::SAMPLING_QUADRATIC;
219
220	ShadowMap *shadowMap = NULL;
221	DirectionalLight *light = NULL;
222	DeferredRenderer *ssaoShader = NULL;
223
224	SceneEntity *cube = NULL;
225	SceneEntity *aeroplane = NULL;
226	SceneEntity *skyDome = NULL;
227
228
229
230	// function forward declarations
231	void InitExtensions();
232	void DisplayVisualization();
233	void InitGLstate();
234	void InitRenderTexture();
235	void InitCg();
236	void CleanUp();
237	void SetupEyeView();
238	void UpdateEyeMtx();
239	void SetupLighting();
240	void DisplayStats();
241	void Output(int x, int y, const char *string);
242	void DrawHelpMessage();
243	void RenderSky();
244	void RenderVisibleObjects();
245
246	void Begin2D();
247	void End2D();
248	void KeyBoard(unsigned char c, int x, int y);
249	void DrawStatistics();
250	void Display();
251	void Special(int c, int x, int y);
252	void KeyUp(unsigned char c, int x, int y);
253	void SpecialKeyUp(int c, int x, int y);
254	void Reshape(int w, int h);
255	void Mouse(int button, int state, int x, int y);
256	void LeftMotion(int x, int y);
257	void RightMotion(int x, int y);
258	void MiddleMotion(int x, int y);
259	void CalcDecimalPoint(string &str, int d);
260
261	RenderTraverser CreateTraverser(Camera cam);
262
263	void KeyHorizontalMotion(float shift);
264	void KeyVerticalMotion(float shift);
265
266	void PlaceViewer(const Vector3 &oldPos);
267
268	inline float KeyRotationAngle() { return keyRotation * elapsedTime * 1e-3f; }
269	inline float KeyShift() { return keyForwardMotion * elapsedTime * 1e-3f; }
270	// initialise the frame buffer objects
271	void InitFBO();
272
273	void RightMotionLight(int x, int y);
274
275	void RenderShadowMap(float newfar);
276
277
278
279	/////////
280	//-- cg stuff
281
282	static CGcontext sCgContext = NULL;
283
284	static CGparameter sEyePosParamTex;
285	static CGparameter sEyePosParam;
286
287	static Matrix4x4 viewProjMat = IdentityMatrix();
288	static Matrix4x4 oldViewProjMat = IdentityMatrix();
289
290
291
292	static void cgErrorCallback()
293	{
294	CGerror lastError = cgGetError();
295
296	if(lastError)
297	{
298	printf("%s\n\n", cgGetErrorString(lastError));
299	printf("%s\n", cgGetLastListing(sCgContext));
300
301	printf("Cg error, exiting...\n");
302
303	exit(0);
304	}
305	}
306
307
308	static void PrintGLerror(char *msg)
309	{
310	GLenum errCode;
311	const GLubyte *errStr;
312
313	if ((errCode = glGetError()) != GL_NO_ERROR)
314	{
315	errStr = gluErrorString(errCode);
316	fprintf(stderr,"OpenGL ERROR: %s: %s\n", errStr, msg);
317	}
318	}
319
320
321	int main(int argc, char* argv[])
322	{
323	/*
324	#ifdef _CRT_SET
325
326	//Now just call this function at the start of your program and if you're
327	//compiling in debug mode (F5), any leaks will be displayed in the Output
328	//window when the program shuts down. If you're not in debug mode this will
329	//be ignored. Use it as you will!
330	//note: from GDNet Direct [3.8.04 - 3.14.04] void detectMemoryLeaks() {
331
332	_CrtSetDbgFlag(_CRTDBG_LEAK_CHECK_DF\|_CRTDBG_ALLOC_MEM_DF);
333	_CrtSetReportMode(_CRT_ASSERT,_CRTDBG_MODE_FILE);
334	_CrtSetReportFile(_CRT_ASSERT,_CRTDBG_FILE_STDERR);
335	#endif
336	*/
337	cout << "=== reading environment file ===" << endl << endl;
338
339	int returnCode = 0;
340
341	Vector3 camPos(.0f, .0f, .0f);
342	Vector3 camDir(.0f, 1.0f, .0f);
343	Vector3 lightDir(-0.8f, 1.0f, -0.7f);
344
345	cout << "=== reading environment file ===" << endl << endl;
346
347	const string envFileName = "default.env";
348	if (!env.Read(envFileName))
349	{
350	cerr << "loading environment " << envFileName << " failed!" << endl;
351	}
352	else
353	{
354	env.GetIntParam(string("assumedVisibleFrames"), assumedVisibleFrames);
355	env.GetIntParam(string("maxBatchSize"), maxBatchSize);
356	env.GetIntParam(string("trianglesPerVirtualLeaf"), trianglesPerVirtualLeaf);
357
358	env.GetFloatParam(string("keyForwardMotion"), keyForwardMotion);
359	env.GetFloatParam(string("keyRotation"), keyRotation);
360
361	env.GetIntParam(string("winWidth"), winWidth);
362	env.GetIntParam(string("winHeight"), winHeight);
363
364	env.GetBoolParam(string("useFullScreen"), useFullScreen);
365	env.GetFloatParam(string("tempCohFactor"), ssaoTempCohFactor);
366	env.GetVectorParam(string("camPosition"), camPos);
367	env.GetVectorParam(string("camDirection"), camDir);
368	env.GetVectorParam(string("lightDirection"), lightDir);
369
370	env.GetBoolParam(string("useLODs"), useLODs);
371	env.GetIntParam(string("shadowSize"), shadowSize);
372
373	env.GetBoolParam(string("useHDR"), useHDR);
374
375	//env.GetStringParam(string("modelPath"), model_path);
376	//env.GetIntParam(string("numSssaoSamples"), numSsaoSamples);
377
378	cout << "assumedVisibleFrames: " << assumedVisibleFrames << endl;
379	cout << "maxBatchSize: " << maxBatchSize << endl;
380	cout << "trianglesPerVirtualLeaf: " << trianglesPerVirtualLeaf << endl;
381
382	cout << "keyForwardMotion: " << keyForwardMotion << endl;
383	cout << "keyRotation: " << keyRotation << endl;
384	cout << "winWidth: " << winWidth << endl;
385	cout << "winHeight: " << winHeight << endl;
386	cout << "useFullScreen: " << useFullScreen << endl;
387	cout << "useLODs: " << useLODs << endl;
388	cout << "camPosition: " << camPos << endl;
389	cout << "temporal coherence: " << ssaoTempCohFactor << endl;
390	cout << "shadow size: " << shadowSize << endl;
391
392	//cout << "model path: " << model_path << endl;
393
394	cout << "** end parameters **" << endl << endl;
395	}
396
397	///////////////////////////
398
399	camera = new Camera(winWidth, winHeight, fov);
400	camera->SetNear(nearDist);
401	camera->SetFar(1000);
402
403	camera->SetDirection(camDir);
404	camera->SetPosition(camPos);
405
406	visCamera = new Camera(winWidth, winHeight, fov);
407	visCamera->SetNear(0.0f);
408	visCamera->Yaw(.5 * M_PI);
409
410	// create a new light
411	light = new DirectionalLight(lightDir, RgbaColor(1, 1, 1, 1), RgbaColor(1, 1, 1, 1));
412
413
414	renderQueue = new RenderQueue(&state, camera);
415
416	glutInitWindowSize(winWidth, winHeight);
417	glutInit(&argc, argv);
418	glutInitDisplayMode(GLUT_DOUBLE \| GLUT_RGBA \| GLUT_DEPTH \| GLUT_MULTISAMPLE);
419	//glutInitDisplayMode(GLUT_DOUBLE \| GLUT_RGBA \| GLUT_DEPTH);
420	//glutInitDisplayString("samples=2");
421
422	SceneEntity::SetUseLODs(useLODs);
423
424	if (!useFullScreen)
425	{
426	glutCreateWindow("FriendlyCulling");
427	}
428	else
429	{
430	glutGameModeString( "1024x768:32@75" );
431	glutEnterGameMode();
432	}
433
434	glutDisplayFunc(Display);
435	glutKeyboardFunc(KeyBoard);
436	glutSpecialFunc(Special);
437	glutReshapeFunc(Reshape);
438	glutMouseFunc(Mouse);
439	glutIdleFunc(Display);
440	glutKeyboardUpFunc(KeyUp);
441	glutSpecialUpFunc(SpecialKeyUp);
442	glutIgnoreKeyRepeat(true);
443
444	// initialise gl graphics
445	InitExtensions();
446	InitGLstate();
447
448	glEnable(GL_MULTISAMPLE_ARB);
449	glHint(GL_MULTISAMPLE_FILTER_HINT_NV, GL_NICEST);
450
451	LeftMotion(0, 0);
452	MiddleMotion(0, 0);
453
454	// init cg shader programs
455	InitCg();
456
457	perfGraph = new PerformanceGraph(1000);
458
459	loader = ResourceManager::GetSingleton();
460
461	const string filename = string(model_path + "city.dem");
462
463	if (loader->Load(filename, sceneEntities))
464	cout << "model " << filename << " loaded" << endl;
465	else
466	{
467	cerr << "loading model " << filename << " failed" << endl;
468	CleanUp();
469	exit(0);
470	}
471
472
473	const string bvh_filename = string(model_path + "city.bvh");
474	BvhLoader bvhLoader;
475	bvh = bvhLoader.Load(bvh_filename, sceneEntities);
476
477	if (!bvh)
478	{
479	cerr << "loading bvh " << bvh_filename << " failed" << endl;
480	CleanUp();
481	exit(0);
482	}
483
484	// set far plane based on scene extent
485	farDist = 10.0f * Magnitude(bvh->GetBox().Diagonal());
486	bvh->SetVirtualLeaves(trianglesPerVirtualLeaf);
487
488	camera->SetFar(Magnitude(bvh->GetBox().Diagonal()));
489
490	Vector3 cubeCenter(470.398f, 240.364f, 182.5f);
491
492	Matrix4x4 transl = TranslationMatrix(cubeCenter);
493
494	SceneEntityContainer dummy;
495
496	string skyDomeStr(model_path + "sky.dem");
497
498	if (loader->Load(skyDomeStr, sceneEntities))
499	{
500	cout << "successfully loaded " << sceneEntities.size() << " scene entities" << endl;
501	}
502	else
503	{
504	cerr << "loading file " << skyDomeStr << " failed" << endl;
505
506	CleanUp();
507	exit(0);
508	}
509
510	skyDome = sceneEntities.back();
511
512	//InitCg();
513
514	const float turbitiy = 5.0f;
515	preetham = new SkyPreetham(turbitiy, skyDome);
516
517	// initialize the render traverser
518	traverser = CreateTraverser(camera);
519
520	visualization = new Visualization(bvh, camera, NULL, &state);
521
522	state.SetRenderPassType(RenderState::FIXED);
523
524	// frame time is restarted every frame
525	frameTimer.Start();
526
527	// the rendering loop
528	glutMainLoop();
529
530	// clean up
531	CleanUp();
532
533	return 0;
534	}
535
536
537	void InitCg(void)
538	{
539	// setup cg
540	cgSetErrorCallback(cgErrorCallback);
541
542	// create context.
543	sCgContext = cgCreateContext();
544
545	// get the optimal profile
546	RenderState::sCgFragmentProfile = cgGLGetLatestProfile(CG_GL_FRAGMENT);
547	cgGLSetOptimalOptions(RenderState::sCgFragmentProfile);
548
549	RenderState::sCgVertexProfile = cgGLGetLatestProfile(CG_GL_VERTEX);
550	cgGLSetOptimalOptions(RenderState::sCgVertexProfile);
551
552	// set textures to auto load
553	cgGLSetManageTextureParameters(sCgContext, false);
554
555	RenderState::sCgMrtVertexProgram =
556	new ShaderProgram(sCgContext, "src/shaders/mrt.cg", RenderState::sCgVertexProfile, "vtx");
557
558	if (!RenderState::sCgMrtVertexProgram->IsValid())
559	cerr << "fragment program failed to load" << endl;
560
561	RenderState::sCgMrtFragmentTexProgram =
562	new ShaderProgram(sCgContext, "src/shaders/mrt.cg", RenderState::sCgFragmentProfile, "fragtex");
563
564
565	if (!RenderState::sCgMrtFragmentTexProgram->IsValid())
566	cerr << "fragment tex program failed to load" << endl;
567
568	RenderState::sCgMrtFragmentTexProgram->AddParameter("tex", 0);
569
570	RenderState::sCgMrtFragmentProgram =
571	new ShaderProgram(sCgContext, "src/shaders/mrt.cg", RenderState::sCgFragmentProfile, "frag");
572
573	if (!RenderState::sCgMrtFragmentProgram->IsValid())
574	cerr << "fragment program failed to load" << endl;
575
576
577	PrintGLerror("init");
578
579	DeferredRenderer::InitCG(sCgContext);
580	SkyPreetham::InitCG(sCgContext);
581
582	cout << "cg initialization successful" << endl;
583	}
584
585
586	void InitFBO()
587	{
588	PrintGLerror("fbo start");
589
590	// this fbo basicly stores the scene information we get from standard rendering of a frame
591	// we store colors, normals, positions (for the ssao)
592	fbo = new FrameBufferObject(texWidth, texHeight, FrameBufferObject::DEPTH_32);
593	//fbo = new FrameBufferObject(texWidth, texHeight, FrameBufferObject::DEPTH_24);
594
595	// the diffuse color buffer
596	fbo->AddColorBuffer(ColorBufferObject::RGBA_FLOAT_32, ColorBufferObject::WRAP_CLAMP_TO_EDGE, ColorBufferObject::FILTER_LINEAR, ColorBufferObject::FILTER_NEAREST);
597	// the normals buffer
598	fbo->AddColorBuffer(ColorBufferObject::RGB_FLOAT_16, ColorBufferObject::WRAP_CLAMP_TO_EDGE, ColorBufferObject::FILTER_NEAREST);
599	// the positions buffer
600	//fbo->AddColorBuffer(ColorBufferObject::RGBA_FLOAT_32, ColorBufferObject::WRAP_CLAMP_TO_EDGE, ColorBufferObject::FILTER_NEAREST);
601	fbo->AddColorBuffer(ColorBufferObject::RGB_UBYTE, ColorBufferObject::WRAP_CLAMP_TO_EDGE, ColorBufferObject::FILTER_NEAREST);
602	// another color buffer
603	fbo->AddColorBuffer(ColorBufferObject::RGBA_FLOAT_32, ColorBufferObject::WRAP_CLAMP_TO_EDGE, ColorBufferObject::FILTER_LINEAR, ColorBufferObject::FILTER_NEAREST);
604
605	PrintGLerror("fbo");
606	}
607
608
609	bool InitFont(void)
610	{
611	glEnable(GL_TEXTURE_2D);
612
613	glGenTextures(1, &fontTex);
614	glBindTexture(GL_TEXTURE_2D, fontTex);
615
616	if (!myfont.Create("data/fonts/verdana.glf", fontTex))
617	return false;
618
619	glDisable(GL_TEXTURE_2D);
620
621	return true;
622	}
623
624
625	void InitGLstate()
626	{
627	glClearColor(0.4f, 0.4f, 0.4f, 1.0f);
628
629	glPixelStorei(GL_UNPACK_ALIGNMENT, 1);
630	glPixelStorei(GL_PACK_ALIGNMENT,1);
631
632	glDepthFunc(GL_LESS);
633	glEnable(GL_DEPTH_TEST);
634
635	glColor3f(1.0f, 1.0f, 1.0f);
636	glShadeModel(GL_SMOOTH);
637
638	glMaterialf(GL_FRONT, GL_SHININESS, 64);
639	glEnable(GL_NORMALIZE);
640
641	glDisable(GL_ALPHA_TEST);
642	glAlphaFunc(GL_GEQUAL, 0.5f);
643
644	glFrontFace(GL_CCW);
645	glCullFace(GL_BACK);
646	glEnable(GL_CULL_FACE);
647
648	glDisable(GL_TEXTURE_2D);
649
650	GLfloat ambientColor[] = {0.2, 0.2, 0.2, 1.0};
651	GLfloat diffuseColor[] = {1.0, 0.0, 0.0, 1.0};
652	GLfloat specularColor[] = {0.0, 0.0, 0.0, 1.0};
653
654	glMaterialfv(GL_FRONT, GL_AMBIENT, ambientColor);
655	glMaterialfv(GL_FRONT, GL_DIFFUSE, diffuseColor);
656	glMaterialfv(GL_FRONT, GL_SPECULAR, specularColor);
657
658	glDepthFunc(GL_LESS);
659
660	if (!InitFont())
661	cerr << "font creation failed" << endl;
662	else
663	cout << "successfully created font" << endl;
664
665
666	//////////////////////////////
667
668	//GLfloat lmodel_ambient[] = {1.0f, 1.0f, 1.0f, 1.0f};
669	GLfloat lmodel_ambient[] = {0.7f, 0.7f, 0.8f, 1.0f};
670
671	glLightModelfv(GL_LIGHT_MODEL_AMBIENT, lmodel_ambient);
672	//glLightModeli(GL_LIGHT_MODEL_LOCAL_VIEWER, GL_TRUE);
673	glLightModeli(GL_LIGHT_MODEL_LOCAL_VIEWER, GL_FALSE);
674	glLightModeli(GL_LIGHT_MODEL_COLOR_CONTROL_EXT, GL_SINGLE_COLOR_EXT);
675	}
676
677
678	void DrawHelpMessage()
679	{
680	const char *message[] =
681	{
682	"Help information",
683	"",
684	"'F1' - shows/dismisses this message",
685	"'F2' - shows/hides bird eye view",
686	"'F3' - shows/hides bounds (boxes or tight bounds)",
687	"'F4', - shows/hides parameters",
688	"'F5' - shows/hides statistics",
689	"'F6', - toggles between fly/walkmode",
690	"'F7', - cycles throw render modes",
691	"'F8', - enables/disables ambient occlusion (only deferred)",
692	"'F9', - shows pure algorithm render time (using glFinish)",
693	"'SPACE' - cycles through occlusion culling algorithms",
694	"",
695	"'MOUSE LEFT' - turn left/right, move forward/backward",
696	"'MOUSE RIGHT' - turn left/right, move forward/backward",
697	"'MOUSE MIDDLE' - move up/down, left/right",
698	"'CURSOR UP/DOWN' - move forward/backward",
699	"'CURSOR LEFT/RIGHT' - turn left/right",
700	"",
701	"'-'/'+' - decreases/increases max batch size",
702	"'1'/'2' - downward/upward motion",
703	"'3'/'4' - decreases/increases triangles per virtual bvh leaf (sets bvh depth)",
704	"'5'/'6' - decreases/increases assumed visible frames",
705	"",
706	"'R' - use render queue",
707	"'B' - use tight bounds",
708	"'M' - use multiqueries",
709	"'O' - use CHC optimization (geometry queries for leaves)",
710	0,
711	};
712
713
714	glColor4f(0.0f, 1.0f , 0.0f, 0.2f); // 20% green.
715
716	glRecti(30, 30, winWidth - 30, winHeight - 30);
717
718	glEnd();
719
720	glColor3f(1.0f, 1.0f, 1.0f);
721
722	glEnable(GL_TEXTURE_2D);
723	myfont.Begin();
724
725	int x = 40, y = 30;
726
727	for(int i = 0; message[i] != 0; ++ i)
728	{
729	if(message[i][0] == '\0')
730	{
731	y += 15;
732	}
733	else
734	{
735	myfont.DrawString(message[i], x, winHeight - y);
736	y += 25;
737	}
738	}
739	glDisable(GL_TEXTURE_2D);
740	}
741
742
743	RenderTraverser CreateTraverser(Camera cam)
744	{
745	RenderTraverser *tr;
746
747	bvh->ResetNodeClassifications();
748
749	switch (renderMode)
750	{
751	case RenderTraverser::CULL_FRUSTUM:
752	tr = new FrustumCullingTraverser();
753	break;
754	case RenderTraverser::STOP_AND_WAIT:
755	tr = new StopAndWaitTraverser();
756	break;
757	case RenderTraverser::CHC:
758	tr = new CHCTraverser();
759	break;
760	case RenderTraverser::CHCPLUSPLUS:
761	tr = new CHCPlusPlusTraverser();
762	break;
763
764	default:
765	tr = new FrustumCullingTraverser();
766	}
767
768	tr->SetCamera(cam);
769	tr->SetHierarchy(bvh);
770	tr->SetRenderQueue(renderQueue);
771	tr->SetRenderState(&state);
772	tr->SetUseOptimization(useOptimization);
773	tr->SetUseRenderQueue(useRenderQueue);
774	tr->SetVisibilityThreshold(threshold);
775	tr->SetAssumedVisibleFrames(assumedVisibleFrames);
776	tr->SetMaxBatchSize(maxBatchSize);
777	tr->SetUseMultiQueries(useMultiQueries);
778	tr->SetUseTightBounds(useTightBounds);
779	tr->SetUseDepthPass((renderMethod == RENDER_DEPTH_PASS) \|\| (renderMethod == RENDER_DEPTH_PASS_DEFERRED));
780	tr->SetRenderQueue(renderQueue);
781
782	return tr;
783	}
784
785
786	void SetupLighting()
787	{
788	glEnable(GL_LIGHT0);
789	glDisable(GL_LIGHT1);
790
791	Vector3 lightDir = -light->GetDirection();
792
793
794	///////////
795	//-- first light: sunlight
796
797	GLfloat ambient[] = {0.25f, 0.25f, 0.3f, 1.0f};
798	GLfloat diffuse[] = {1.0f, 0.95f, 0.85f, 1.0f};
799	GLfloat specular[] = {1.0f, 1.0f, 1.0f, 1.0f};
800
801
802	const bool useToneMapping = ((renderMethod == RENDER_DEPTH_PASS_DEFERRED) \|\| (renderMethod == RENDER_DEFERRED)) && useHDR;
803
804	Vector3 sunAmbient;
805	Vector3 sunDiffuse;
806
807	preetham->ComputeSunColor(lightDir, sunAmbient, sunDiffuse, !useToneMapping);
808
809	ambient[0] = sunAmbient.x;
810	ambient[1] = sunAmbient.y;
811	ambient[2] = sunAmbient.z;
812
813	// no tone mapping => scale
814	if (!useToneMapping)
815	{
816	const float maxComponent = sunDiffuse.MaxComponent();
817	sunDiffuse /= maxComponent;
818	}
819
820	diffuse[0] = sunDiffuse.x;
821	diffuse[1] = sunDiffuse.y;
822	diffuse[2] = sunDiffuse.z;
823
824	glLightfv(GL_LIGHT0, GL_AMBIENT, ambient);
825	glLightfv(GL_LIGHT0, GL_DIFFUSE, diffuse);
826	glLightfv(GL_LIGHT0, GL_SPECULAR, specular);
827
828	GLfloat position[] = {lightDir.x, lightDir.y, lightDir.z, 0.0f};
829	glLightfv(GL_LIGHT0, GL_POSITION, position);
830	}
831
832
833	void SetupEyeView()
834	{
835	// store matrix of last frame
836	oldViewProjMat = viewProjMat;
837
838	glMatrixMode(GL_PROJECTION);
839	glLoadIdentity();
840	gluPerspective(fov, winAspectRatio, nearDist, farDist);
841
842	glMatrixMode(GL_MODELVIEW);
843
844	// set up the camera view
845	camera->SetupCameraView();
846
847
848	/////////////////
849
850	Matrix4x4 matViewing, matProjection;
851
852	camera->GetModelViewMatrix(matViewing);
853	camera->GetProjectionMatrix(matProjection);
854
855	// store matrix for later use
856	viewProjMat = matViewing * matProjection;
857	}
858
859
860	void KeyHorizontalMotion(float shift)
861	{
862	Vector3 hvec = -camera->GetDirection();
863	hvec.z = 0;
864
865	Vector3 pos = camera->GetPosition();
866	pos += hvec * shift;
867
868	camera->SetPosition(pos);
869	}
870
871
872	void KeyVerticalMotion(float shift)
873	{
874	Vector3 uvec = Vector3(0, 0, shift);
875
876	Vector3 pos = camera->GetPosition();
877	pos += uvec;
878
879	camera->SetPosition(pos);
880	}
881
882
883	static void ComputeViewVectors(Vector3 &tl, Vector3 &tr, Vector3 &bl, Vector3 &br)
884	{
885	Vector3 ftl, ftr, fbl, fbr, ntl, ntr, nbl, nbr;
886
887	camera->ComputePoints(ftl, ftr, fbl, fbr, ntl, ntr, nbl, nbr);
888
889	bl = Normalize(nbl - fbl);
890	br = Normalize(nbr - fbr);
891	tl = Normalize(ntl - ftl);
892	tr = Normalize(ntr - ftr);
893	}
894
895
896	void InitDeferredRendering()
897	{
898	if (!fbo) InitFBO();
899	fbo->Bind();
900
901	// multisampling does not work with deferred shading
902	glDisable(GL_MULTISAMPLE_ARB);
903
904	state.SetRenderPassType(RenderState::DEFERRED);
905
906	cgGLEnableProfile(RenderState::sCgVertexProfile);
907	RenderState::sCgMrtVertexProgram->Bind();
908
909	cgGLEnableProfile(RenderState::sCgFragmentProfile);
910	RenderState::sCgMrtFragmentProgram->Bind();
911
912	const Vector3 pos = camera->GetPosition();
913
914
915	// draw to 3 color buffers
916	// a color, normal, and positions buffer
917	if (sCurrentMrtSet == 0)
918	{
919	DeferredRenderer::colorBufferIdx = 0;
920	glDrawBuffers(2, mrt);
921	}
922	else
923	{
924	DeferredRenderer::colorBufferIdx = 3;
925	glDrawBuffers(2, mrt2);
926	}
927
928	sCurrentMrtSet = 1 - sCurrentMrtSet;
929	}
930
931
932	// the main rendering loop
933	void Display()
934	{
935	Vector3 oldPos = camera->GetPosition();
936
937	if (leftKeyPressed)
938	camera->Pitch(KeyRotationAngle());
939	if (rightKeyPressed)
940	camera->Pitch(-KeyRotationAngle());
941	if (upKeyPressed)
942	KeyHorizontalMotion(-KeyShift());
943	if (downKeyPressed)
944	KeyHorizontalMotion(KeyShift());
945	if (ascendKeyPressed)
946	KeyVerticalMotion(KeyShift());
947	if (descendKeyPressed)
948	KeyVerticalMotion(-KeyShift());
949
950	// place view on ground
951	if (!flyMode) PlaceViewer(oldPos);
952
953	if (showAlgorithmTime)
954	{
955	glFinish();
956	algTimer.Start();
957	}
958
959
960
961	if ((!shadowMap \|\| !shadowTraverser) && (showShadowMap \|\| renderLightView))
962	{
963	if (!shadowMap)
964	shadowMap = new ShadowMap(light, shadowSize, bvh->GetBox(), camera);
965
966	if (!shadowTraverser)
967	shadowTraverser = CreateTraverser(shadowMap->GetShadowCamera());
968
969	}
970
971	// bring eye modelview matrix up-to-date
972	SetupEyeView();
973
974	// hack
975	int oldRenderMethod = renderMethod;
976
977	if (renderLightView)
978	renderMethod = RenderState::FIXED;
979
980	glEnableClientState(GL_VERTEX_ARRAY);
981
982
983	// render with the specified method (forward rendering, forward + depth, deferred)
984	switch (renderMethod)
985	{
986	case RENDER_FIXED:
987
988	glEnable(GL_MULTISAMPLE_ARB);
989
990	state.SetRenderPassType(RenderState::FIXED);
991	glEnable(GL_LIGHTING);
992
993	cgGLDisableProfile(RenderState::sCgFragmentProfile);
994	cgGLDisableProfile(RenderState::sCgVertexProfile);
995
996	glClear(GL_COLOR_BUFFER_BIT \| GL_DEPTH_BUFFER_BIT);
997
998	glEnableClientState(GL_NORMAL_ARRAY);
999
1000	break;
1001
1002	case RENDER_DEPTH_PASS_DEFERRED:
1003
1004	glDisable(GL_MULTISAMPLE_ARB);
1005	state.SetUseAlphaToCoverage(false);
1006
1007	state.SetRenderPassType(RenderState::DEPTH_PASS);
1008
1009	if (!fbo) InitFBO(); fbo->Bind();
1010
1011	glDrawBuffers(1, mrt);
1012
1013	cgGLDisableProfile(RenderState::sCgFragmentProfile);
1014	cgGLDisableProfile(RenderState::sCgVertexProfile);
1015
1016	glClear(GL_COLOR_BUFFER_BIT \| GL_DEPTH_BUFFER_BIT);
1017
1018	// the scene is rendered withouth any shading
1019	glShadeModel(GL_FLAT);
1020	glDisable(GL_LIGHTING);
1021	glColorMask(GL_FALSE, GL_FALSE, GL_FALSE, GL_FALSE);
1022
1023
1024	break;
1025
1026	case RENDER_DEPTH_PASS:
1027
1028	glEnable(GL_MULTISAMPLE_ARB);
1029
1030	cgGLDisableProfile(RenderState::sCgFragmentProfile);
1031	cgGLDisableProfile(RenderState::sCgVertexProfile);
1032
1033	state.SetRenderPassType(RenderState::DEPTH_PASS);
1034
1035	// the scene is rendered withouth any shading
1036	glShadeModel(GL_FLAT);
1037	glDisable(GL_LIGHTING);
1038
1039	glClear(GL_COLOR_BUFFER_BIT \| GL_DEPTH_BUFFER_BIT);
1040	glColorMask(GL_FALSE, GL_FALSE, GL_FALSE, GL_FALSE);
1041
1042
1043	break;
1044
1045	case RenderState::DEFERRED:
1046
1047	if (showShadowMap && !renderLightView)
1048	RenderShadowMap(camera->GetFar());
1049
1050	//glPushAttrib(GL_VIEWPORT_BIT);
1051	glViewport(0, 0, texWidth, texHeight);
1052
1053	InitDeferredRendering();
1054
1055	glEnableClientState(GL_NORMAL_ARRAY);
1056	glClear(GL_COLOR_BUFFER_BIT \| GL_DEPTH_BUFFER_BIT);
1057
1058	break;
1059	}
1060
1061	glDepthFunc(GL_LESS);
1062
1063	glDisable(GL_TEXTURE_2D);
1064	glDisableClientState(GL_TEXTURE_COORD_ARRAY);
1065
1066
1067	// reset lod levels for current frame
1068	LODLevel::InitFrame(camera->GetPosition());
1069
1070	// set up lights
1071	SetupLighting();
1072
1073
1074	if (renderLightView)
1075	{
1076	// change CHC++ set of state variables (must be done for each change of camera because
1077	// otherwise the temporal coherency is broken
1078	BvhNode::SetCurrentState(1);
1079	shadowMap->RenderShadowView(shadowTraverser, viewProjMat);
1080	BvhNode::SetCurrentState(0);
1081	}
1082	else
1083	{
1084	// actually render the scene geometry using the specified algorithm
1085	traverser->RenderScene();
1086	}
1087
1088
1089	/////////
1090	//-- do the rest of the rendering
1091
1092	// reset depth pass and render visible objects
1093	if ((renderMethod == RENDER_DEPTH_PASS) \|\|
1094	(renderMethod == RENDER_DEPTH_PASS_DEFERRED))
1095	{
1096	RenderVisibleObjects();
1097	}
1098
1099
1100	///////////////
1101	//-- render sky
1102
1103	// q: should we render sky after deferred shading?
1104	// this would conveniently solves some issues (e.g, skys without shadows)
1105
1106	RenderSky();
1107
1108
1109	if ((renderMethod == RENDER_DEFERRED) \|\|
1110	(renderMethod == RENDER_DEPTH_PASS_DEFERRED))
1111	{
1112	FrameBufferObject::Release();
1113
1114	cgGLDisableProfile(RenderState::sCgVertexProfile);
1115	cgGLDisableProfile(RenderState::sCgFragmentProfile);
1116
1117	if (!ssaoShader) ssaoShader =
1118	new DeferredRenderer(texWidth, texHeight, camera, farDist / MAX_DEPTH_CONST);
1119
1120	DeferredRenderer::SHADING_METHOD shadingMethod;
1121
1122	if (useAdvancedShading)
1123	{
1124	if (useGlobIllum)
1125	shadingMethod = DeferredRenderer::GI;
1126	else
1127	shadingMethod = DeferredRenderer::SSAO;
1128	}
1129	else
1130	shadingMethod = DeferredRenderer::DEFAULT;
1131
1132
1133	ssaoShader->SetShadingMethod(shadingMethod);
1134	ssaoShader->SetSamplingMethod(samplingMethod);
1135	ssaoShader->SetUseTemporalCoherence(useTemporalCoherence);
1136
1137	ShadowMap *sm = showShadowMap ? shadowMap : NULL;
1138	ssaoShader->Render(fbo, oldViewProjMat, viewProjMat, ssaoTempCohFactor, light, useHDR, sm);
1139	}
1140
1141
1142	state.SetRenderPassType(RenderState::FIXED);
1143	state.Reset();
1144
1145
1146	glDisableClientState(GL_VERTEX_ARRAY);
1147	glDisableClientState(GL_NORMAL_ARRAY);
1148
1149	renderMethod = oldRenderMethod;
1150
1151
1152	///////////
1153
1154
1155	if (showAlgorithmTime)
1156	{
1157	glFinish();
1158
1159	algTime = algTimer.Elapsedms();
1160	perfGraph->AddData(algTime);
1161
1162	perfGraph->Draw();
1163	}
1164	else
1165	{
1166	if (visMode) DisplayVisualization();
1167	}
1168
1169	glFlush();
1170
1171	const bool restart = true;
1172	elapsedTime = frameTimer.Elapsedms(restart);
1173
1174	DisplayStats();
1175
1176	glutSwapBuffers();
1177	}
1178
1179
1180	#pragma warning( disable : 4100 )
1181	void KeyBoard(unsigned char c, int x, int y)
1182	{
1183	switch(c)
1184	{
1185	case 27:
1186	CleanUp();
1187	exit(0);
1188	break;
1189	case 32: // space
1190	renderMode = (renderMode + 1) % RenderTraverser::NUM_TRAVERSAL_TYPES;
1191
1192	DEL_PTR(traverser);
1193	traverser = CreateTraverser(camera);
1194
1195	if (shadowTraverser)
1196	{
1197	// shadow traverser has to be recomputed
1198	DEL_PTR(shadowTraverser);
1199	shadowTraverser = CreateTraverser(shadowMap->GetShadowCamera());
1200	}
1201
1202	break;
1203	case '+':
1204	if (maxBatchSize < 10)
1205	maxBatchSize = 10;
1206	else
1207	maxBatchSize += 10;
1208
1209	traverser->SetMaxBatchSize(maxBatchSize);
1210	break;
1211	case '-':
1212	maxBatchSize -= 10;
1213	if (maxBatchSize < 0) maxBatchSize = 1;
1214	traverser->SetMaxBatchSize(maxBatchSize);
1215	break;
1216	case 'M':
1217	case 'm':
1218	useMultiQueries = !useMultiQueries;
1219	traverser->SetUseMultiQueries(useMultiQueries);
1220	break;
1221	case '1':
1222	descendKeyPressed = true;
1223	break;
1224	case '2':
1225	ascendKeyPressed = true;
1226	break;
1227	case '3':
1228	if (trianglesPerVirtualLeaf >= 100)
1229	trianglesPerVirtualLeaf -= 100;
1230	bvh->SetVirtualLeaves(trianglesPerVirtualLeaf);
1231	break;
1232	case '4':
1233	trianglesPerVirtualLeaf += 100;
1234	bvh->SetVirtualLeaves(trianglesPerVirtualLeaf);
1235	break;
1236	case '5':
1237	assumedVisibleFrames -= 1;
1238	if (assumedVisibleFrames < 1) assumedVisibleFrames = 1;
1239	traverser->SetAssumedVisibleFrames(assumedVisibleFrames);
1240	break;
1241	case '6':
1242	assumedVisibleFrames += 1;
1243	traverser->SetAssumedVisibleFrames(assumedVisibleFrames);
1244	break;
1245	case '7':
1246	ssaoTempCohFactor *= 0.5f;
1247	break;
1248	case '8':
1249	ssaoTempCohFactor *= 2.0f;
1250	//if (ssaoTempCohFactor > 1.0f) ssaoExpFactor = 1.0f;
1251	break;
1252	case '9':
1253	useLODs = !useLODs;
1254	SceneEntity::SetUseLODs(useLODs);
1255	break;
1256	case 'P':
1257	case 'p':
1258	samplingMethod = DeferredRenderer::SAMPLING_METHOD((samplingMethod + 1) % 3);
1259	cout << "ssao sampling method: " << samplingMethod << endl;
1260	break;
1261	case 'Y':
1262	case 'y':
1263	showShadowMap = !showShadowMap;
1264	break;
1265	case 'g':
1266	case 'G':
1267	useGlobIllum = !useGlobIllum;
1268	break;
1269	case 't':
1270	case 'T':
1271	useTemporalCoherence = !useTemporalCoherence;
1272	break;
1273	case 'o':
1274	case 'O':
1275	useOptimization = !useOptimization;
1276	traverser->SetUseOptimization(useOptimization);
1277	break;
1278	case 'a':
1279	case 'A':
1280	leftKeyPressed = true;
1281	break;
1282	case 'd':
1283	case 'D':
1284	rightKeyPressed = true;
1285	break;
1286	case 'w':
1287	case 'W':
1288	upKeyPressed = true;
1289	break;
1290	case 's':
1291	case 'S':
1292	downKeyPressed = true;
1293	break;
1294	case 'r':
1295	case 'R':
1296	useRenderQueue = !useRenderQueue;
1297	traverser->SetUseRenderQueue(useRenderQueue);
1298
1299	break;
1300	case 'b':
1301	case 'B':
1302	useTightBounds = !useTightBounds;
1303	traverser->SetUseTightBounds(useTightBounds);
1304	break;
1305	case 'l':
1306	case 'L':
1307	renderLightView = !renderLightView;
1308	break;
1309	case 'h':
1310	case 'H':
1311	useHDR = !useHDR;
1312	break;
1313	default:
1314	return;
1315	}
1316
1317	glutPostRedisplay();
1318	}
1319
1320
1321	void SpecialKeyUp(int c, int x, int y)
1322	{
1323	switch (c)
1324	{
1325	case GLUT_KEY_LEFT:
1326	leftKeyPressed = false;
1327	break;
1328	case GLUT_KEY_RIGHT:
1329	rightKeyPressed = false;
1330	break;
1331	case GLUT_KEY_UP:
1332	upKeyPressed = false;
1333	break;
1334	case GLUT_KEY_DOWN:
1335	downKeyPressed = false;
1336	break;
1337	case GLUT_ACTIVE_ALT:
1338	altKeyPressed = false;
1339	break;
1340	default:
1341	return;
1342	}
1343	}
1344
1345
1346	void KeyUp(unsigned char c, int x, int y)
1347	{
1348	switch (c)
1349	{
1350
1351	case 'A':
1352	case 'a':
1353	leftKeyPressed = false;
1354	break;
1355	case 'D':
1356	case 'd':
1357	rightKeyPressed = false;
1358	break;
1359	case 'W':
1360	case 'w':
1361	upKeyPressed = false;
1362	break;
1363	case 'S':
1364	case 's':
1365	downKeyPressed = false;
1366	break;
1367	case '1':
1368	descendKeyPressed = false;
1369	break;
1370	case '2':
1371	ascendKeyPressed = false;
1372	break;
1373
1374	default:
1375	return;
1376	}
1377	//glutPostRedisplay();
1378	}
1379
1380
1381	void Special(int c, int x, int y)
1382	{
1383	switch(c)
1384	{
1385	case GLUT_KEY_F1:
1386	showHelp = !showHelp;
1387	break;
1388	case GLUT_KEY_F2:
1389	visMode = !visMode;
1390	break;
1391	case GLUT_KEY_F3:
1392	showBoundingVolumes = !showBoundingVolumes;
1393	traverser->SetShowBounds(showBoundingVolumes);
1394	break;
1395	case GLUT_KEY_F4:
1396	showOptions = !showOptions;
1397	break;
1398	case GLUT_KEY_F5:
1399	showStatistics = !showStatistics;
1400	break;
1401	case GLUT_KEY_F6:
1402	flyMode = !flyMode;
1403	break;
1404	case GLUT_KEY_F7:
1405
1406	renderMethod = (renderMethod + 1) % 4;
1407
1408	traverser->SetUseDepthPass(
1409	(renderMethod == RENDER_DEPTH_PASS) \|\|
1410	(renderMethod == RENDER_DEPTH_PASS_DEFERRED)
1411	);
1412
1413	break;
1414	case GLUT_KEY_F8:
1415	useAdvancedShading = !useAdvancedShading;
1416
1417	break;
1418	case GLUT_KEY_F9:
1419	showAlgorithmTime = !showAlgorithmTime;
1420	break;
1421	case GLUT_KEY_F10:
1422	moveLight = !moveLight;
1423	break;
1424	case GLUT_KEY_LEFT:
1425	{
1426	leftKeyPressed = true;
1427	camera->Pitch(KeyRotationAngle());
1428	}
1429	break;
1430	case GLUT_KEY_RIGHT:
1431	{
1432	rightKeyPressed = true;
1433	camera->Pitch(-KeyRotationAngle());
1434	}
1435	break;
1436	case GLUT_KEY_UP:
1437	{
1438	upKeyPressed = true;
1439	KeyHorizontalMotion(KeyShift());
1440	}
1441	break;
1442	case GLUT_KEY_DOWN:
1443	{
1444	downKeyPressed = true;
1445	KeyHorizontalMotion(-KeyShift());
1446	}
1447	break;
1448	default:
1449	return;
1450
1451	}
1452
1453	glutPostRedisplay();
1454	}
1455
1456	#pragma warning( default : 4100 )
1457
1458
1459	void Reshape(int w, int h)
1460	{
1461	winAspectRatio = 1.0f;
1462
1463	glViewport(0, 0, w, h);
1464
1465	winWidth = w;
1466	winHeight = h;
1467
1468	if (w) winAspectRatio = (float) w / (float) h;
1469
1470	glMatrixMode(GL_PROJECTION);
1471	glLoadIdentity();
1472
1473	gluPerspective(fov, winAspectRatio, nearDist, farDist);
1474
1475	glMatrixMode(GL_MODELVIEW);
1476
1477	glutPostRedisplay();
1478	}
1479
1480
1481	void Mouse(int button, int state, int x, int y)
1482	{
1483	if ((button == GLUT_LEFT_BUTTON) && (state == GLUT_DOWN))
1484	{
1485	xEyeBegin = x;
1486	yMotionBegin = y;
1487
1488	glutMotionFunc(LeftMotion);
1489	}
1490	else if ((button == GLUT_RIGHT_BUTTON) && (state == GLUT_DOWN))
1491	{
1492	xEyeBegin = x;
1493	yEyeBegin = y;
1494	yMotionBegin = y;
1495
1496	if (!moveLight)
1497	glutMotionFunc(RightMotion);
1498	else
1499	glutMotionFunc(RightMotionLight);
1500	}
1501	else if ((button == GLUT_MIDDLE_BUTTON) && (state == GLUT_DOWN))
1502	{
1503	horizontalMotionBegin = x;
1504	verticalMotionBegin = y;
1505	glutMotionFunc(MiddleMotion);
1506	}
1507
1508	glutPostRedisplay();
1509	}
1510
1511
1512	/** rotation for left/right mouse drag
1513	motion for up/down mouse drag
1514	*/
1515	void LeftMotion(int x, int y)
1516	{
1517	Vector3 viewDir = camera->GetDirection();
1518	Vector3 pos = camera->GetPosition();
1519
1520	// don't move in the vertical direction
1521	Vector3 horView(viewDir[0], viewDir[1], 0);
1522
1523	float eyeXAngle = 0.2f * M_PI * (xEyeBegin - x) / 180.0;
1524
1525	camera->Pitch(eyeXAngle);
1526
1527	pos += horView * (yMotionBegin - y) * 0.2f;
1528
1529	camera->SetPosition(pos);
1530
1531	xEyeBegin = x;
1532	yMotionBegin = y;
1533
1534	glutPostRedisplay();
1535	}
1536
1537
1538	void RightMotionLight(int x, int y)
1539	{
1540	float theta = 0.2f * M_PI * (xEyeBegin - x) / 180.0f;
1541	float phi = 0.2f * M_PI * (yMotionBegin - y) / 180.0f;
1542
1543	Vector3 lightDir = light->GetDirection();
1544
1545	Matrix4x4 roty = RotationYMatrix(theta);
1546	Matrix4x4 rotx = RotationXMatrix(phi);
1547
1548	lightDir = roty * lightDir;
1549	lightDir = rotx * lightDir;
1550
1551	// normalize to avoid accumulating errors
1552	lightDir.Normalize();
1553
1554	light->SetDirection(lightDir);
1555
1556	xEyeBegin = x;
1557	yMotionBegin = y;
1558
1559	glutPostRedisplay();
1560	}
1561
1562
1563	/** rotation for left / right mouse drag
1564	motion for up / down mouse drag
1565	*/
1566	void RightMotion(int x, int y)
1567	{
1568	float eyeXAngle = 0.2f * M_PI * (xEyeBegin - x) / 180.0;
1569	float eyeYAngle = -0.2f * M_PI * (yEyeBegin - y) / 180.0;
1570
1571	camera->Yaw(eyeYAngle);
1572	camera->Pitch(eyeXAngle);
1573
1574	xEyeBegin = x;
1575	yEyeBegin = y;
1576
1577	glutPostRedisplay();
1578	}
1579
1580
1581	// strafe
1582	void MiddleMotion(int x, int y)
1583	{
1584	Vector3 viewDir = camera->GetDirection();
1585	Vector3 pos = camera->GetPosition();
1586
1587	// the 90 degree rotated view vector
1588	// y zero so we don't move in the vertical
1589	Vector3 rVec(viewDir[0], viewDir[1], 0);
1590
1591	Matrix4x4 rot = RotationZMatrix(M_PI * 0.5f);
1592	rVec = rot * rVec;
1593
1594	pos -= rVec * (x - horizontalMotionBegin) * 0.1f;
1595	pos[2] += (verticalMotionBegin - y) * 0.1f;
1596
1597	camera->SetPosition(pos);
1598
1599	horizontalMotionBegin = x;
1600	verticalMotionBegin = y;
1601
1602	glutPostRedisplay();
1603	}
1604
1605
1606	void InitExtensions(void)
1607	{
1608	GLenum err = glewInit();
1609
1610	if (GLEW_OK != err)
1611	{
1612	// problem: glewInit failed, something is seriously wrong
1613	fprintf(stderr,"Error: %s\n", glewGetErrorString(err));
1614	exit(1);
1615	}
1616	if (!GLEW_ARB_occlusion_query)
1617	{
1618	printf("I require the GL_ARB_occlusion_query to work.\n");
1619	exit(1);
1620	}
1621	}
1622
1623
1624	void Begin2D()
1625	{
1626	glDisable(GL_LIGHTING);
1627	glDisable(GL_DEPTH_TEST);
1628
1629	glMatrixMode(GL_PROJECTION);
1630	glPushMatrix();
1631	glLoadIdentity();
1632
1633	gluOrtho2D(0, winWidth, 0, winHeight);
1634
1635	glMatrixMode(GL_MODELVIEW);
1636	glPushMatrix();
1637	glLoadIdentity();
1638	}
1639
1640
1641	void End2D()
1642	{
1643	glMatrixMode(GL_PROJECTION);
1644	glPopMatrix();
1645
1646	glMatrixMode(GL_MODELVIEW);
1647	glPopMatrix();
1648
1649	glEnable(GL_LIGHTING);
1650	glEnable(GL_DEPTH_TEST);
1651	}
1652
1653
1654	// displays the visualisation of culling algorithm
1655	void DisplayVisualization()
1656	{
1657	visualization->SetFrameId(traverser->GetCurrentFrameId());
1658
1659	Begin2D();
1660	glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
1661	glEnable(GL_BLEND);
1662	glColor4f(0.0f ,0.0f, 0.0f, 0.5f);
1663
1664	glRecti(winWidth - winWidth / 3, winHeight - winHeight / 3, winWidth, winHeight);
1665	glDisable(GL_BLEND);
1666	End2D();
1667
1668
1669	AxisAlignedBox3 box = bvh->GetBox();
1670
1671	const float offs = box.Size().x * 0.3f;
1672
1673	Vector3 vizpos = Vector3(box.Min().x, box.Min().y - box.Size().y * 0.35f, box.Min().z + box.Size().z * 50);
1674
1675	visCamera->SetPosition(vizpos);
1676	visCamera->ResetPitchAndYaw();
1677
1678	glPushAttrib(GL_VIEWPORT_BIT);
1679	glViewport(winWidth - winWidth / 3, winHeight - winHeight / 3, winWidth / 3, winHeight / 3);
1680
1681	glMatrixMode(GL_PROJECTION);
1682	glPushMatrix();
1683
1684	glLoadIdentity();
1685
1686	glOrtho(-offs, offs, -offs, offs, 0.0f, box.Size().z * 100.0f);
1687
1688	glMatrixMode(GL_MODELVIEW);
1689	glPushMatrix();
1690
1691	visCamera->SetupCameraView();
1692
1693	Matrix4x4 rotZ = RotationZMatrix(-camera->GetPitch());
1694	glMultMatrixf((float *)rotZ.x);
1695
1696	// inverse translation in order to fix current position
1697	Vector3 pos = camera->GetPosition();
1698	glTranslatef(-pos.x, -pos.y, -pos.z);
1699
1700
1701	GLfloat position[] = {0.8f, 1.0f, 1.5f, 0.0f};
1702	glLightfv(GL_LIGHT0, GL_POSITION, position);
1703
1704	GLfloat position1[] = {bvh->GetBox().Center().x, bvh->GetBox().Max().y, bvh->GetBox().Center().z, 1.0f};
1705	glLightfv(GL_LIGHT1, GL_POSITION, position1);
1706
1707	glClear(GL_DEPTH_BUFFER_BIT);
1708
1709
1710	////////////
1711	//-- visualization of the occlusion culling
1712
1713	visualization->Render();
1714
1715
1716	// reset previous settings
1717	glPopAttrib();
1718
1719	glMatrixMode(GL_PROJECTION);
1720	glPopMatrix();
1721	glMatrixMode(GL_MODELVIEW);
1722	glPopMatrix();
1723	}
1724
1725
1726	// cleanup routine after the main loop
1727	void CleanUp()
1728	{
1729	DEL_PTR(traverser);
1730	DEL_PTR(sceneQuery);
1731	DEL_PTR(bvh);
1732	DEL_PTR(visualization);
1733	DEL_PTR(camera);
1734	DEL_PTR(renderQueue);
1735	DEL_PTR(perfGraph);
1736	DEL_PTR(fbo);
1737	DEL_PTR(ssaoShader);
1738	DEL_PTR(light);
1739	DEL_PTR(visCamera);
1740	DEL_PTR(preetham);
1741	DEL_PTR(shadowMap);
1742	DEL_PTR(shadowTraverser);
1743	DEL_PTR(RenderState::sCgMrtFragmentProgram);
1744	DEL_PTR(RenderState::sCgMrtFragmentTexProgram);
1745	DEL_PTR(RenderState::sCgMrtVertexProgram);
1746
1747	ResourceManager::DelSingleton();
1748	loader = NULL;
1749
1750	DeferredRenderer::ReleaseCG();
1751	SkyPreetham::ReleaseCG();
1752
1753	if (sCgContext)
1754	cgDestroyContext(sCgContext);
1755	}
1756
1757
1758	// this function inserts a dezimal point after each 1000
1759	void CalcDecimalPoint(string &str, int d, int len)
1760	{
1761	static vector<int> numbers;
1762	numbers.clear();
1763
1764	static string shortStr;
1765	shortStr.clear();
1766
1767	static char hstr[100];
1768
1769	while (d != 0)
1770	{
1771	numbers.push_back(d % 1000);
1772	d /= 1000;
1773	}
1774
1775	// first element without leading zeros
1776	if (numbers.size() > 0)
1777	{
1778	sprintf(hstr, "%d", numbers.back());
1779	shortStr.append(hstr);
1780	}
1781
1782	for (int i = (int)numbers.size() - 2; i >= 0; i--)
1783	{
1784	sprintf(hstr, ",%03d", numbers[i]);
1785	shortStr.append(hstr);
1786	}
1787
1788	int dif = len - (int)shortStr.size();
1789
1790	for (int i = 0; i < dif; ++ i)
1791	{
1792	str += " ";
1793	}
1794
1795	str.append(shortStr);
1796	}
1797
1798
1799	void DisplayStats()
1800	{
1801	static char msg[9][300];
1802
1803	static double frameTime = elapsedTime;
1804	static double renderTime = algTime;
1805
1806	const float expFactor = 0.1f;
1807
1808	// if some strange render time spike happened in this frame => don't count
1809	if (elapsedTime < 500) frameTime = elapsedTime * expFactor + (1.0f - expFactor) * elapsedTime;
1810
1811	static float rTime = 1000.0f;
1812
1813	if (showAlgorithmTime)
1814	{
1815	if (algTime < 500) renderTime = algTime * expFactor + (1.0f - expFactor) * renderTime;
1816	}
1817
1818	accumulatedTime += elapsedTime;
1819
1820	if (accumulatedTime > 500) // update every fraction of a second
1821	{
1822	accumulatedTime = 0;
1823
1824	if (frameTime) fps = 1e3f / (float)frameTime;
1825
1826	rTime = renderTime;
1827
1828	if (renderLightView && shadowTraverser)
1829	{
1830	renderedTriangles = shadowTraverser->GetStats().mNumRenderedTriangles;
1831	renderedObjects = shadowTraverser->GetStats().mNumRenderedGeometry;
1832	renderedNodes = shadowTraverser->GetStats().mNumRenderedNodes;
1833	}
1834	else if (showShadowMap && shadowTraverser)
1835	{
1836	renderedNodes = traverser->GetStats().mNumRenderedNodes + shadowTraverser->GetStats().mNumRenderedNodes;
1837	renderedObjects = traverser->GetStats().mNumRenderedGeometry + shadowTraverser->GetStats().mNumRenderedGeometry;
1838	renderedTriangles = traverser->GetStats().mNumRenderedTriangles + shadowTraverser->GetStats().mNumRenderedTriangles;
1839	}
1840	else
1841	{
1842	renderedTriangles = traverser->GetStats().mNumRenderedTriangles;
1843	renderedObjects = traverser->GetStats().mNumRenderedGeometry;
1844	renderedNodes = traverser->GetStats().mNumRenderedNodes;
1845	}
1846
1847	traversedNodes = traverser->GetStats().mNumTraversedNodes;
1848	frustumCulledNodes = traverser->GetStats().mNumFrustumCulledNodes;
1849	queryCulledNodes = traverser->GetStats().mNumQueryCulledNodes;
1850	issuedQueries = traverser->GetStats().mNumIssuedQueries;
1851	stateChanges = traverser->GetStats().mNumStateChanges;
1852	numBatches = traverser->GetStats().mNumBatches;
1853	}
1854
1855
1856	Begin2D();
1857
1858	glEnable(GL_BLEND);
1859	glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
1860
1861	if (showHelp)
1862	{
1863	DrawHelpMessage();
1864	}
1865	else
1866	{
1867	if (showOptions)
1868	{
1869	glColor4f(0.0f, 0.0f, 0.0f, 0.5f);
1870	glRecti(5, winHeight - 95, winWidth * 2 / 3 - 5, winHeight - 5);
1871	}
1872
1873	if (showStatistics)
1874	{
1875	glColor4f(0.0f, 0.0f, 0.0f, 0.5f);
1876	glRecti(5, winHeight - 165, winWidth * 2 / 3 - 5, winHeight - 100);
1877	}
1878
1879	glEnable(GL_TEXTURE_2D);
1880
1881	myfont.Begin();
1882
1883	if (showOptions)
1884	{
1885	glColor3f(0.0f, 1.0f, 0.0f);
1886
1887	int i = 0;
1888
1889	static char *renderMethodStr[] = {"forward", "depth pass + forward", "deferred shading", "depth pass + deferred"};
1890
1891	sprintf(msg[i ++], "multiqueries: %d, tight bounds: %d, render queue: %d",
1892	useMultiQueries, useTightBounds, useRenderQueue);
1893
1894	sprintf(msg[i ++], "render technique: %s, SSAO: %d", renderMethodStr[renderMethod], useAdvancedShading);
1895
1896	sprintf(msg[i ++], "triangles per virtual leaf: %5d", trianglesPerVirtualLeaf);
1897
1898	sprintf(msg[i ++], "assumed visible frames: %4d, max batch size: %4d",
1899	assumedVisibleFrames, maxBatchSize);
1900
1901	for (int j = 0; j < 4; ++ j)
1902	myfont.DrawString(msg[j], 10.0f, winHeight - 5 - j * 20);
1903	}
1904
1905	if (showStatistics)
1906	{
1907	glColor3f(1.0f, 1.0f, 0.0f);
1908
1909	string objStr, totalObjStr;
1910	string triStr, totalTriStr;
1911
1912	int len = 10;
1913	CalcDecimalPoint(objStr, renderedObjects, len);
1914	CalcDecimalPoint(totalObjStr, (int)loader->GetNumEntities(), len);
1915
1916	CalcDecimalPoint(triStr, renderedTriangles, len);
1917	CalcDecimalPoint(totalTriStr, bvh->GetBvhStats().mTriangles, len);
1918
1919	int i = 4;
1920
1921	if (0)
1922	{
1923	sprintf(msg[i ++], "rendered: %s of %s objects, %s of %s triangles",
1924	objStr.c_str(), totalObjStr.c_str(), triStr.c_str(), totalTriStr.c_str());
1925	}
1926	else
1927	{
1928	sprintf(msg[i ++], "rendered: %6d of %6d nodes, %s of %s triangles",
1929	renderedNodes, bvh->GetNumVirtualNodes(), triStr.c_str(), totalTriStr.c_str());
1930	}
1931
1932	sprintf(msg[i ++], "traversed: %5d, frustum culled: %5d, query culled: %5d",
1933	traversedNodes, frustumCulledNodes, queryCulledNodes);
1934
1935	sprintf(msg[i ++], "issued queries: %5d, state changes: %5d, render batches: %5d",
1936	issuedQueries, stateChanges, numBatches);
1937
1938	for (int j = 4; j < 7; ++ j)
1939	myfont.DrawString(msg[j], 10.0f, winHeight - (j + 1) * 20);
1940	}
1941
1942	glColor3f(1.0f, 1.0f, 1.0f);
1943	static char *alg_str[] = {"Frustum Cull", "Stop and Wait", "CHC", "CHC ++"};
1944
1945	if (!showAlgorithmTime)
1946	sprintf(msg[7], "%s: %6.1f fps", alg_str[renderMode], fps);
1947	else
1948	sprintf(msg[7], "%s: %6.1f ms", alg_str[renderMode], rTime);
1949
1950	myfont.DrawString(msg[7], 1.3f, 690.0f, 760.0f);//, top_color, bottom_color);
1951
1952	//sprintf(msg[8], "algorithm time: %6.1f ms", rTime);
1953	//myfont.DrawString(msg[8], 720.0f, 730.0f);
1954	}
1955
1956	glDisable(GL_BLEND);
1957	glDisable(GL_TEXTURE_2D);
1958
1959	End2D();
1960	}
1961
1962
1963	void RenderSky()
1964	{
1965	cgGLEnableProfile(RenderState::sCgVertexProfile);
1966
1967	if ((renderMethod == RENDER_DEFERRED) \|\| (renderMethod == RENDER_DEPTH_PASS_DEFERRED))
1968	state.SetRenderPassType(RenderState::DEFERRED);
1969
1970	const bool useToneMapping =
1971	((renderMethod == RENDER_DEPTH_PASS_DEFERRED) \|\|
1972	(renderMethod == RENDER_DEFERRED)) && useHDR;
1973
1974	preetham->RenderSkyDome(-light->GetDirection(), camera, &state, !useToneMapping);
1975
1976	cgGLDisableProfile(RenderState::sCgVertexProfile);
1977	cgGLDisableProfile(RenderState::sCgFragmentProfile);
1978	}
1979
1980
1981	// render visible object from depth pass
1982	void RenderVisibleObjects()
1983	{
1984	if (renderMethod == RENDER_DEPTH_PASS_DEFERRED)
1985	{
1986	if (showShadowMap && !renderLightView)
1987	{
1988	float minVisibleDist = min(camera->GetFar(), traverser->GetMaxVisibleDistance());
1989	RenderShadowMap(minVisibleDist);
1990	}
1991
1992	glDisable(GL_LIGHTING);
1993	glViewport(0, 0, texWidth, texHeight);
1994
1995	InitDeferredRendering();
1996	}
1997	else
1998	{
1999	glEnable(GL_LIGHTING);
2000	state.SetRenderPassType(RenderState::FIXED);
2001	}
2002
2003	glShadeModel(GL_SMOOTH);
2004	glEnableClientState(GL_NORMAL_ARRAY);
2005
2006	// draw all objects that have exactly the same depth as the current sample
2007	glDepthFunc(GL_LEQUAL);
2008	glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
2009
2010	glClear(GL_COLOR_BUFFER_BIT);
2011
2012	state.SetUseAlphaToCoverage(true);
2013	state.Reset();
2014
2015	//cout << "visible: " << (int)traverser->GetVisibleObjects().size() << endl;
2016
2017	SceneEntityContainer::const_iterator sit,
2018	sit_end = traverser->GetVisibleObjects().end();
2019
2020	for (sit = traverser->GetVisibleObjects().begin(); sit != sit_end; ++ sit)
2021	{
2022	renderQueue->Enqueue(*sit);
2023	}
2024
2025	renderQueue->Apply();
2026
2027	glDepthFunc(GL_LESS);
2028	state.Reset();
2029
2030	PrintGLerror("visibleobjects");
2031	}
2032
2033
2034	void PlaceViewer(const Vector3 &oldPos)
2035	{
2036	if (!sceneQuery)
2037	sceneQuery = new SceneQuery(bvh->GetBox(), traverser);
2038
2039	Vector3 playerPos = camera->GetPosition();
2040	bool validIntersect = sceneQuery->CalcIntersection(playerPos);
2041
2042	if (validIntersect)
2043	// && ((playerPos.z - oldPos.z) < bvh->GetBox().Size(2) * 1e-1f))
2044	{
2045	camera->SetPosition(playerPos);
2046	}
2047	}
2048
2049
2050	void RenderShadowMap(float newfar)
2051	{
2052	cgGLDisableProfile(RenderState::sCgFragmentProfile);
2053	cgGLDisableProfile(RenderState::sCgVertexProfile);
2054
2055	glDisableClientState(GL_NORMAL_ARRAY);
2056
2057	state.SetRenderPassType(RenderState::DEPTH_PASS);
2058	state.LockCullFaceEnabled(true);
2059	state.SetUseAlphaToCoverage(false);
2060
2061	// change CHC++ set of state variables
2062	// this must be done for each change of camera because
2063	// otherwise the temporal coherency is broken
2064	BvhNode::SetCurrentState(1);
2065
2066	// hack: temporarily change camera far plane
2067	camera->SetFar(newfar);
2068	glDisable(GL_CULL_FACE);
2069
2070	// the scene is rendered withouth any shading
2071	shadowMap->ComputeShadowMap(shadowTraverser, viewProjMat);
2072
2073	glEnable(GL_CULL_FACE);
2074	camera->SetFar(farDist);
2075
2076	state.SetUseAlphaToCoverage(true);
2077	state.LockCullFaceEnabled(false);
2078
2079	glEnableClientState(GL_NORMAL_ARRAY);
2080
2081	// change back state
2082	BvhNode::SetCurrentState(0);
2083	}

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