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RadiosityAlgorithm.cpp @ 1808

Revision 1808, 41.4 KB checked in by szirmay, 18 years ago (diff)

Line
1	#include "dxstdafx.h"
2	#include "d3ddefs.h"
3	#include <ctime>
4	#include <fstream>
5	#include <cstdio>
6	#include <vector>
7	#include "vector4d.h"
8	#include "color.h"
9	#include "object.h"
10	#include "ObjectVector.h"
11	#include "RadiosityAlgorithm.h"
12
13
14	HRESULT RadiosityAlgorithm::moveObjects(float x,float y,float z){
15	HRESULT hr=S_OK;
16	D3DXMATRIX trafomatrix;
17	D3DXMatrixIdentity(&trafomatrix);
18	D3DXMatrixTranslation(&trafomatrix,x,y,z);
19	ObjectModel* box2=objectVector->getObjectModel(1);
20	box2->setTransformMatrix(trafomatrix);
21	return hr;
22	}
23
24	HRESULT RadiosityAlgorithm::moveCamera(float eyeX,float eyeY,float eyeZ,float lookAtX,float lookAtY,float lookAtZ){
25	HRESULT hr=S_OK;
26	eyePos.x=eyeX;
27	eyePos.y=eyeY;
28	eyePos.z=eyeZ;
29	camLookAt.x=lookAtX;
30	camLookAt.y=lookAtY;
31	camLookAt.z=lookAtZ;
32	return hr;
33	}
34
35	RadiosityAlgorithm::RadiosityAlgorithm(UINT textureWidth,UINT textureHeight,UINT mipMapLevels,_D3DFORMAT vismapFormat,_D3DFORMAT iterationVismapFormat,_D3DFORMAT renderTextureFormat,_D3DFORMAT mipmapFormat,_D3DFORMAT depthStencilFormat){
36
37	/*********************/
38	eyePos.x=0;
39	eyePos.y=2.5;
40	eyePos.z=10.0f;
41	/*********************/
42	shootcolors=NULL;
43	pQuadVB=NULL;
44	pPointVB=NULL;
45	emissionSurface=NULL;
46	emissionTexture=NULL;
47	pOrigVisibilityTexture=NULL;
48	pIterationVisibilityTexture=NULL;
49	pRadiosityTexture=NULL;
50	pRadiosityTexture2=NULL;
51	pActualRadianceTexture=NULL;
52	pActualRadianceTexture2=NULL;
53	shootTexture=NULL;
54	radCopyTexture=NULL;
55	visCopyTexture=NULL;
56	tempTexture=NULL;
57	shootColorTexture=NULL;
58	textureDecl=NULL;
59	shootColorSurface=NULL;
60	tempSurface=NULL;
61	visCopySurface=NULL;
62	radCopySurface=NULL;
63	pRenderSurface=NULL;
64	pBackBuffer=NULL;
65	pRadRenderSurface=NULL;
66	pRadRenderSurface2=NULL;
67	pActualRadianceSurface=NULL;
68	pActualRadianceSurface2=NULL;
69
70	rttDepthSurface=NULL;
71	origDepthSurface=NULL;
72
73	pIterationVisibilityRenderSurface=NULL;
74	shootSurface=NULL;
75	pBRDFTexture=NULL;
76	pBRDFSurface=NULL;
77
78	m_pEffect=NULL;
79	nPasses=0;
80	fiRes2=0;
81	fiOld=0;
82	mipmapTexturesArray=NULL;
83	pMipmapSurfaces=NULL;
84
85
86	pData=NULL;
87	visMapData=NULL;
88	textureVertices1=NULL;
89	this->textureHeight=textureHeight;
90	this->textureWidth=textureWidth;
91	this->mipMapLevels=mipMapLevels;
92	this->vismapFormat=vismapFormat;
93	this->iterationVismapFormat=iterationVismapFormat;
94	this->renderTextureFormat=renderTextureFormat;
95	this->mipmapFormat=mipmapFormat;
96	this->depthStencilFormat=depthStencilFormat;
97
98	//errLogger=new ofstream("log.txt");
99	objectVector=new ObjectVector();
100
101	ObjectModel* box1=new ObjectModel();
102	box1->Load("boxl6.obj", true,false,false, 0.5, 1, 0, 0);
103
104	ObjectModel* box2=new ObjectModel();
105	box2->Load("kiskocka6.obj", true,true,false, 0.45, 1, 0.51, 0);
106
107	D3DXMATRIX trafomatrix;
108	D3DXMatrixIdentity(&trafomatrix);
109	D3DXMatrixTranslation(&trafomatrix,0,0.01f,0);
110	box2->setTransformMatrix(trafomatrix);
111	ObjectModel* light=new ObjectModel();
112	light->Load("light.obj",true,true,true,0.2,0.2,0.35,0.4);
113
114	objectVector->addObjectModel(*box1);
115
116	objectVector->addObjectModel(*box2);
117
118	objectVector->addObjectModel(*light);
119
120	}
121
122	RadiosityAlgorithm::~RadiosityAlgorithm(){
123	SAFE_DELETE(objectVector);
124	SAFE_DELETE_ARRAY(textureVertices1);
125	this->deleteObjects();
126	}
127
128	HRESULT RadiosityAlgorithm::initObjects(LPDIRECT3DDEVICE9 d3dDevice){
129	shootcolors=new float[4];
130	DWORD effectCompileFlag=0;
131
132	this->d3dDevice=d3dDevice;
133	#ifdef DEBUG_SHADER
134	effectCompileFlag\|=D3DXSHADER_DEBUG;
135	effectCompileFlag \|= D3DXSHADER_FORCE_PS_SOFTWARE_NOOPT;
136	effectCompileFlag \|= D3DXSHADER_FORCE_VS_SOFTWARE_NOOPT;
137
138	#endif
139
140	if( FAILED( hr = D3DXCreateEffectFromFile( d3dDevice, L"hlsl.fx", NULL, NULL, effectCompileFlag, NULL, &m_pEffect, NULL))){
141	//*errLogger << "Error reading effect file.\n";
142	return hr;
143	}
144
145
146
147	lShoot=D3DXVECTOR4(0.0f,0.0f,0.0f,0.0f);
148	textureVertices1=new D3DVERTEX_1[6];
149
150	textureVertices1[0]=D3DVERTEX_1(-1.0f,1.0f,0.0f, 0.0f,0.0f);
151	textureVertices1[1]=D3DVERTEX_1(1.0f,1.0f,0.0f, 1.0f,0.0f);
152	textureVertices1[2]=D3DVERTEX_1(-1.0f,-1.0f,0.0f, 0.0f,1.0f);
153	textureVertices1[3]=D3DVERTEX_1(-1.0f,-1.0f,0.0f, 0.0f,1.0f);
154	textureVertices1[4]=D3DVERTEX_1(1.0f,1.0f,0.0f, 1.0f,0.0f);
155	textureVertices1[5]=D3DVERTEX_1(1.0f,-1.0f,0.0f, 1.0f,1.0f);
156
157	pointVertices=D3DVERTEX_1(0.0f,0.0f,0.0f,0.5f,0.5f);
158
159
160
161	D3DVERTEXELEMENT9 _texturedecl[]=
162	{
163	{0,0,D3DDECLTYPE_FLOAT3, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_POSITION,0 },
164	{0,12,D3DDECLTYPE_FLOAT2, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_TEXCOORD,0 },
165	D3DDECL_END()
166	};
167
168	objectVector->initAllObjects(d3dDevice);
169
170	hr=d3dDevice->CreateVertexDeclaration(_texturedecl,&textureDecl);
171
172	hr=d3dDevice->CreateVertexBuffer(sizeof(D3DVERTEX_1)*6,D3DUSAGE_WRITEONLY,D3DFVF_CUSTOMVERTEX,D3DPOOL_MANAGED,&pQuadVB,NULL);
173
174	hr=d3dDevice->CreateVertexBuffer(sizeof(D3DVERTEX_1),D3DUSAGE_WRITEONLY,D3DFVF_CUSTOMVERTEX,D3DPOOL_MANAGED,&pPointVB,NULL);
175
176	pQuadVB->Lock(0,sizeof(pData),(void**)&pData,0);
177	memcpy(pData,textureVertices1,sizeof(D3DVERTEX_1)*6);
178	pQuadVB->Unlock();
179
180	pPointVB->Lock(0,sizeof(pData),(void**)&pData,0);
181	memcpy(pData,&pointVertices,sizeof(pointVertices));
182	pPointVB->Unlock();
183
184	d3dDevice->GetRenderTarget(0,&pBackBuffer);
185
186	//create visibility render-to-texture objects
187	d3dDevice->CreateTexture(textureWidth,textureHeight,1,D3DUSAGE_RENDERTARGET,vismapFormat,D3DPOOL_DEFAULT,&pOrigVisibilityTexture,NULL);
188	pOrigVisibilityTexture->GetSurfaceLevel(0,&pRenderSurface);
189
190
191	//create radiosity render-to-texture objects
192	d3dDevice->CreateTexture(textureWidth/2,textureHeight/2,1,D3DUSAGE_RENDERTARGET,renderTextureFormat,D3DPOOL_DEFAULT,&pRadiosityTexture,NULL);
193	pRadiosityTexture->GetSurfaceLevel(0,&pRadRenderSurface);
194
195	//create radiosity render-to-texture objects
196	d3dDevice->CreateTexture(textureWidth/2,textureHeight/2,1,D3DUSAGE_RENDERTARGET,renderTextureFormat,D3DPOOL_DEFAULT,&pRadiosityTexture2,NULL);
197	pRadiosityTexture2->GetSurfaceLevel(0,&pRadRenderSurface2);
198
199	//create radiosity render-to-texture objects
200	d3dDevice->CreateTexture(textureWidth,textureHeight,1,D3DUSAGE_RENDERTARGET,renderTextureFormat,D3DPOOL_DEFAULT,&pActualRadianceTexture,NULL);
201	pActualRadianceTexture->GetSurfaceLevel(0,&pActualRadianceSurface);
202
203	//create radiosity render-to-texture objects
204	d3dDevice->CreateTexture(textureWidth,textureHeight,1,D3DUSAGE_RENDERTARGET,renderTextureFormat,D3DPOOL_DEFAULT,&pActualRadianceTexture2,NULL);
205	pActualRadianceTexture2->GetSurfaceLevel(0,&pActualRadianceSurface2);
206
207	d3dDevice->CreateTexture(textureWidth,textureHeight,1,D3DUSAGE_RENDERTARGET,renderTextureFormat,D3DPOOL_DEFAULT,&emissionTexture,NULL);
208	emissionTexture->GetSurfaceLevel(0,&emissionSurface);
209
210	//create iteration visibility render-to-texture objects
211	d3dDevice->CreateTexture(textureWidth,textureHeight,1,D3DUSAGE_RENDERTARGET,iterationVismapFormat,D3DPOOL_DEFAULT,&pIterationVisibilityTexture,NULL);
212	pIterationVisibilityTexture->GetSurfaceLevel(0,&pIterationVisibilityRenderSurface);
213
214	//create choice visibility render-to-texture objects
215	d3dDevice->CreateTexture(1,1,1,D3DUSAGE_RENDERTARGET,renderTextureFormat,D3DPOOL_DEFAULT,&shootTexture,NULL);
216	shootTexture->GetSurfaceLevel(0,&shootSurface);
217
218	d3dDevice->CreateTexture(textureWidth,textureHeight,1,D3DUSAGE_RENDERTARGET,renderTextureFormat,D3DPOOL_DEFAULT,&pBRDFTexture,NULL);
219	pBRDFTexture->GetSurfaceLevel(0,&pBRDFSurface);
220
221	//create mipmap render-to-texture objects
222	mipmapTexturesArray=new LPDIRECT3DTEXTURE9[this->mipMapLevels];
223	pMipmapSurfaces=new LPDIRECT3DSURFACE9[this->mipMapLevels];
224	int levels[12];
225	levels[0]=1;
226	for(UINT i=1;i<this->mipMapLevels;i++){
227	levels[i]=levels[i-1]*2;
228	}
229
230	mipmapTexturesArray[0]=pActualRadianceTexture;
231	mipmapTexturesArray[0]->AddRef();
232	mipmapTexturesArray[0]->GetSurfaceLevel(0,&pMipmapSurfaces[0]);
233	for(int i=1;i<this->mipMapLevels;i++){
234	hr=d3dDevice->CreateTexture(textureWidth/levels[i],textureHeight/levels[i],1,D3DUSAGE_RENDERTARGET,this->mipmapFormat,D3DPOOL_DEFAULT,&mipmapTexturesArray[i],NULL);
235	if(FAILED(hr)){
236	return 0;
237	}
238	hr=mipmapTexturesArray[i]->GetSurfaceLevel(0,&pMipmapSurfaces[i]);
239	if(FAILED(hr)){
240	//*errLogger << "GetSurfaceLevel error.";
241	return 0;
242	}
243	}
244
245	hr=d3dDevice->CreateDepthStencilSurface(this->textureWidth,this->textureHeight,this->depthStencilFormat,D3DMULTISAMPLE_NONE ,0,true,&rttDepthSurface,NULL);
246
247	return S_OK;
248	}
249
250	HRESULT RadiosityAlgorithm::deleteObjects(){
251
252	SAFE_DELETE_ARRAY(shootcolors);
253
254	SAFE_RELEASE(rttDepthSurface)
255	SAFE_RELEASE(origDepthSurface)
256
257	SAFE_RELEASE(pBackBuffer)
258
259	SAFE_RELEASE(m_pEffect)
260
261	SAFE_RELEASE(textureDecl)
262
263	SAFE_RELEASE(visCopyTexture)
264	SAFE_RELEASE(visCopySurface)
265
266	SAFE_RELEASE(tempTexture)
267	SAFE_RELEASE(tempSurface)
268
269	SAFE_RELEASE(shootColorTexture)
270	SAFE_RELEASE(shootColorSurface)
271
272	SAFE_RELEASE(pOrigVisibilityTexture)
273	SAFE_RELEASE(pRenderSurface)
274
275	SAFE_RELEASE(pIterationVisibilityTexture)
276	SAFE_RELEASE(pIterationVisibilityRenderSurface)
277
278	SAFE_RELEASE(pRadiosityTexture)
279	SAFE_RELEASE(pRadRenderSurface)
280
281
282	SAFE_RELEASE(pBRDFTexture)
283	SAFE_RELEASE(pBRDFSurface)
284
285
286	SAFE_RELEASE(pActualRadianceTexture)
287	SAFE_RELEASE(pActualRadianceSurface)
288
289	SAFE_RELEASE(shootTexture)
290	SAFE_RELEASE(shootSurface)
291
292
293	if((mipmapTexturesArray!=NULL)&&(mipmapTexturesArray!=NULL)){
294	for(UINT i=0;i<this->mipMapLevels;i++){
295	SAFE_RELEASE(mipmapTexturesArray[i])
296	SAFE_RELEASE(pMipmapSurfaces[i])
297	}
298	}
299	SAFE_DELETE_ARRAY(mipmapTexturesArray);
300	SAFE_DELETE_ARRAY(pMipmapSurfaces);
301
302
303	SAFE_RELEASE(pRadRenderSurface2);
304	SAFE_RELEASE(pRadiosityTexture2)
305
306	SAFE_RELEASE(pActualRadianceSurface2);
307	SAFE_RELEASE(pActualRadianceTexture2);
308
309	SAFE_RELEASE(pQuadVB)
310	SAFE_RELEASE(pPointVB)
311
312	SAFE_RELEASE(emissionSurface)
313	SAFE_RELEASE(emissionTexture)
314
315	return S_OK;
316	}
317
318
319	HRESULT RadiosityAlgorithm::doEmissionMapPass(bool doDebugPicture,TCHAR* fileName){
320
321	//hr=d3dDevice->GetDepthStencilSurface(&origDepthSurface);
322
323	hr=d3dDevice->SetRenderTarget(0,pRadRenderSurface);
324
325	hr=d3dDevice->SetDepthStencilSurface(rttDepthSurface);
326
327	d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_ARGB(0x00,0,0,0),1.0f,0);
328
329	d3dDevice->BeginScene();
330	if( m_pEffect != NULL ){
331	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "EmissionMapTech" );
332	m_pEffect->SetTechnique( hTechnique );
333	m_pEffect->Begin( &nPasses, 0 );
334	for(UINT i=0;i<nPasses;i++){
335	m_pEffect->BeginPass(i);
336
337	objectVector->RenderAllWithFX(m_pEffect,true,matWorld,matViewWorldProjection);
338
339	m_pEffect->EndPass();
340	}
341	m_pEffect->End();
342	}
343	d3dDevice->EndScene();
344
345
346	hr=d3dDevice->SetRenderTarget(0,pActualRadianceSurface);
347
348	d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_ARGB(0x00,0,0,0),1.0f,0);
349
350	//hr=d3dDevice->SetVertexDeclaration(this->decl);
351
352	d3dDevice->BeginScene();
353	if( m_pEffect != NULL ){
354	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "EmissionMapTech" );
355	m_pEffect->SetTechnique( hTechnique );
356	m_pEffect->Begin( &nPasses, 0 );
357	for(UINT i=0;i<nPasses;i++){
358	m_pEffect->BeginPass(i);
359
360	objectVector->RenderAllWithFX(m_pEffect,true,matWorld,matViewWorldProjection);
361
362	m_pEffect->EndPass();
363	}
364	m_pEffect->End();
365	}
366	d3dDevice->EndScene();
367
368	hr=d3dDevice->SetRenderTarget(0,emissionSurface);
369
370	d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_ARGB(0x00,0,0,0),1.0f,0);
371
372	//hr=d3dDevice->SetVertexDeclaration(decl);
373
374
375
376
377	d3dDevice->BeginScene();
378	if( m_pEffect != NULL ){
379	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "EmissionMapTech" );
380	m_pEffect->SetTechnique( hTechnique );
381	m_pEffect->Begin( &nPasses, 0 );
382	for(UINT i=0;i<nPasses;i++){
383	m_pEffect->BeginPass(i);
384
385	objectVector->RenderAllWithFX(m_pEffect,true,matWorld,matViewWorldProjection);
386
387	m_pEffect->EndPass();
388	}
389	m_pEffect->End();
390	}
391	d3dDevice->EndScene();
392	/******************Save***********/
393	if(doDebugPicture){
394	fileFormat=D3DXIFF_HDR;
395	D3DXSaveTextureToFile(fileName,fileFormat,emissionTexture,NULL);
396	}
397	/*************************************/
398	return S_OK;
399	}
400
401	HRESULT RadiosityAlgorithm::doOriginalVisibilityMapPass(bool doDebugPicture,TCHAR* fileName){
402	//Render scene with specific HLSL shaders (hemisphere and writethrough)
403
404	hr=d3dDevice->GetDepthStencilSurface(&origDepthSurface);
405
406
407
408	hr=d3dDevice->SetRenderTarget(0,pRenderSurface);
409	hr=d3dDevice->SetDepthStencilSurface(rttDepthSurface);
410
411	if(FAILED(hr)){
412	//*errLogger << "setRendertarget error.\n";
413	}
414
415	d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_ARGB(0x00,0,0,0),1.0f,0);
416
417	//hr=d3dDevice->SetVertexDeclaration(decl);
418
419	d3dDevice->BeginScene();
420
421	if( m_pEffect != NULL ){
422	D3DXHANDLE hTechnique = NULL;
423	hTechnique = m_pEffect->GetTechniqueByName((LPSTR)"OriginalVisibilityMapShader");
424	if(hTechnique==NULL){
425	//*errLogger << "Cannot find technique. Quitting.\n";
426	return -1;
427	}
428	m_pEffect->SetTechnique( hTechnique );
429	m_pEffect->Begin( &nPasses, 0 );
430	for(UINT i=0;i<nPasses;i++){
431	m_pEffect->BeginPass(i);
432
433	objectVector->RenderAllWithFX(m_pEffect,true,matWorld,matViewWorldProjection);
434
435	m_pEffect->EndPass();
436	}
437	m_pEffect->End();
438	}
439
440	d3dDevice->EndScene();
441
442
443	/******************Save***********/
444	if(doDebugPicture){
445	fileFormat=D3DXIFF_HDR;
446	hr=D3DXSaveTextureToFile(fileName,fileFormat,pOrigVisibilityTexture,NULL);
447	}
448	/*************************************/
449
450	//Vismap surface data extraction.
451
452
453
454	pRenderSurface->GetDesc(&visSurfaceDesc);
455
456	d3dDevice->CreateTexture(this->textureWidth,textureHeight,1,D3DUSAGE_DYNAMIC,vismapFormat,D3DPOOL_SYSTEMMEM,&visCopyTexture,NULL);
457
458	visCopyTexture->GetSurfaceLevel(0,&visCopySurface);
459
460	d3dDevice->GetRenderTargetData(pRenderSurface,visCopySurface);
461
462
463	visCopySurface->LockRect(&visRectangleToLock,NULL,0);
464
465	visMapData=(D3DXFLOAT16*)visRectangleToLock.pBits;
466
467	visCopySurface->UnlockRect();
468
469	hr=d3dDevice->SetDepthStencilSurface(origDepthSurface);
470
471	return S_OK;
472	}
473
474
475	HRESULT RadiosityAlgorithm::initActualRadianceMap(){
476	HRESULT hr;
477	V_RETURN(d3dDevice->SetRenderTarget(0,pActualRadianceSurface))
478	V_RETURN(d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_ARGB(0x00,0,0,0),1.0f,0))
479	return hr;
480	}
481
482	HRESULT RadiosityAlgorithm::initBRDFAndSpecularMap(){
483	HRESULT hr;
484	LPDIRECT3DTEXTURE9 origBRDFTexture;
485	V_RETURN(d3dDevice->SetRenderTarget(0,pActualRadianceSurface))
486	V_RETURN(d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_ARGB(0x00,0,0,0),1.0f,0))
487	d3dDevice->BeginScene();
488
489
490
491	if( m_pEffect != NULL ){
492	D3DXHANDLE hTechnique = NULL;
493	hTechnique = m_pEffect->GetTechniqueByName((LPSTR)"BRDFShader");
494	if(hTechnique==NULL){
495	//*errLogger << "Cannot find technique. Quitting.\n";
496	return -1;
497	}
498	m_pEffect->SetTechnique( hTechnique );
499	m_pEffect->Begin( &nPasses, 0 );
500	for(UINT i=0;i<nPasses;i++){
501	m_pEffect->BeginPass(i);
502
503	vector<ObjectModel*>::iterator iter;
504	vector<ObjectModel*> models=objectVector->getAllObjectModels();
505	for(iter=models.begin();iter!=models.end();iter++){
506	LPCTSTR textureName=(*iter)->getTextureName();
507	float shininess=(*iter)->getShininess();
508	hr=D3DXCreateTextureFromFile(d3dDevice,(LPCTSTR)textureName,&origBRDFTexture);
509	if(SUCCEEDED(hr)){
510	m_pEffect->SetTexture("BRDFTexture",origBRDFTexture);
511	m_pEffect->SetFloat("shininess",shininess);
512	V_RETURN((*iter)->RenderWithFX(m_pEffect,true,matWorld,matViewWorldProjection))
513	SAFE_RELEASE(origBRDFTexture)
514	}
515	else{
516	return hr;
517	}
518	}
519
520	m_pEffect->EndPass();
521	}
522	m_pEffect->End();
523	}
524
525	d3dDevice->EndScene();
526	return hr;
527	}
528
529
530	HRESULT RadiosityAlgorithm::iterate(UINT niterations,UINT iterationToSave){
531	bool doIterationSave=false;
532	timeBefore=timeGetTime();
533
534	for(UINT i=1;i<=niterations;i++){
535	if(i==iterationToSave) doIterationSave=true;
536	else doIterationSave=false;
537	//if(i<10\|\|i%10==0){
538	createRadiosityMipMap(i);
539	//}
540
541
542	chooseShooter(i);
543	//return E_FAIL;
544	initActualRadianceMap();
545	this->doIterationVisibilityMapPass(doIterationSave,L"itVisMap1.hdr",fromD3D,dirD3D,upD3D,true);
546
547	this->doRadiosityMapPass(i,doIterationSave,L"itRadMap1.hdr");
548
549
550	this->doIterationVisibilityMapPass(doIterationSave,L"itVisMap2.hdr",fromD3D,upD3D,dirD3D,false);
551	this->doRadiosityMapPass(i,doIterationSave,L"itRadMap2.hdr");
552
553	this->doIterationVisibilityMapPass(doIterationSave,L"itVisMap3.hdr",fromD3D,-upD3D,dirD3D,false);
554	this->doRadiosityMapPass(i,doIterationSave,L"itRadMap3.hdr");
555
556	D3DXVECTOR3 dirUpCross;
557	D3DXVec3Cross(&dirUpCross,&upD3D,&dirD3D);
558
559	this->doIterationVisibilityMapPass(doIterationSave,L"itVisMap4.hdr",fromD3D,dirUpCross,dirD3D,false);
560	this->doRadiosityMapPass(i,doIterationSave,L"itRadMap4.hdr");
561
562	this->doIterationVisibilityMapPass(doIterationSave,L"itVisMap5.hdr",fromD3D,-dirUpCross,dirD3D,false);
563	this->doRadiosityMapPass(i,doIterationSave,L"itRadMap5.hdr");
564	this->doRadiosityActualAveragingPass(i,doIterationSave,L"actavgrad.hdr");
565	}
566	timeAfter==timeGetTime();
567	char buffer1[200];
568	memset(buffer1,0,200);
569	sprintf(buffer1,"%ld",timeAfter-timeBefore);
570	FILE* logger=fopen("log.txt","a+");
571	fprintf(logger,"Time: %s\n",buffer1);
572	fclose(logger);
573	//*errLogger << "Iteration time in seconds: " << buffer1 << "\n";
574	return S_OK;
575	}
576
577	HRESULT RadiosityAlgorithm::createRadiosityMipMap(UINT niteration){
578	recres2=1.0f/(float)(this->textureWidth);
579	hr=d3dDevice->SetVertexDeclaration(textureDecl);
580	//hr=d3dDevice->SetDepthStencilSurface(rttDepthSurface);
581	if(niteration==1){
582	hr=d3dDevice->SetRenderTarget(0,pMipmapSurfaces[1]);
583	if(FAILED(hr)){
584	//*errLogger << "setRenderTarget error.\n";
585	}
586	d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_ARGB(0x00,0,0,0),1.0f,0);
587	d3dDevice->BeginScene();
588	if( m_pEffect != NULL ){
589	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "MipmapBaseCreate" );
590	m_pEffect->SetTechnique( hTechnique );
591	m_pEffect->Begin( &nPasses, 0 );
592	for(UINT j=0;j<nPasses;j++){
593	m_pEffect->BeginPass(j);
594	m_pEffect->SetFloat("recres2",recres2);
595	m_pEffect->SetFloat("niteration",niteration);
596	m_pEffect->SetTexture("radiosity_map",pActualRadianceTexture);
597
598	hr=d3dDevice->SetRenderState(D3DRS_CULLMODE,D3DCULL_NONE);
599	hr=d3dDevice->SetStreamSource(0,pQuadVB,0,sizeof(D3DVERTEX_1));
600
601	if(FAILED(hr)){
602	//*errLogger << "setstreamsource error.\n";
603	}
604	m_pEffect->CommitChanges();
605	hr=d3dDevice->DrawPrimitive(D3DPT_TRIANGLELIST,0,2);
606
607	if(FAILED(hr)){
608	//*errLogger << "drawprimitive error.\n";
609	}
610
611	m_pEffect->EndPass();
612	}
613	m_pEffect->End();
614	}
615	d3dDevice->EndScene();
616	}
617	recres2*=2.0f;
618
619
620
621	for(UINT i=1;i<this->mipMapLevels-1;i++){
622	hr=d3dDevice->SetRenderTarget(0,pMipmapSurfaces[i+1]);
623	if(FAILED(hr)){
624	//*errLogger << "setRenderTarget error.\n";
625	}
626	d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_ARGB(0x00,0,0,0),1.0f,0);
627	d3dDevice->BeginScene();
628	if( m_pEffect != NULL ){
629	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "MipmapLevelCreate" );
630	m_pEffect->SetTechnique( hTechnique );
631	m_pEffect->Begin( &nPasses, 0 );
632	for(UINT j=0;j<nPasses;j++){
633	m_pEffect->BeginPass(j);
634	m_pEffect->SetFloat("recres2",recres2);
635	m_pEffect->SetTexture("luminance_map",mipmapTexturesArray[i]);
636
637	hr=d3dDevice->SetRenderState(D3DRS_CULLMODE,D3DCULL_NONE);
638	hr=d3dDevice->SetStreamSource(0,pQuadVB,0,sizeof(D3DVERTEX_1));
639
640	if(FAILED(hr)){
641	//*errLogger << "setstreamsource error.\n";
642	}
643	m_pEffect->CommitChanges();
644	hr=d3dDevice->DrawPrimitive(D3DPT_TRIANGLELIST,0,2);
645
646	if(FAILED(hr)){
647	//*errLogger << "drawprimitive error.\n";
648	}
649
650	m_pEffect->EndPass();
651	}
652	m_pEffect->End();
653	}
654	d3dDevice->EndScene();
655	recres2*=2.0f;
656	}
657
658	return S_OK;
659	}
660
661	HRESULT RadiosityAlgorithm::doRadiosityAveragingPass(bool doDebugPicture,TCHAR* fileName,UINT niteration){
662	hr=d3dDevice->SetVertexDeclaration(textureDecl);
663	hr=d3dDevice->SetRenderTarget(0,pRadRenderSurface2);
664	if(FAILED(hr)){
665	//*errLogger << "setRenderTarget error.\n";
666	}
667	d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_ARGB(0x00,0,0,0),1.0f,0);
668	d3dDevice->BeginScene();
669	if( m_pEffect != NULL ){
670	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "RadAveragingTech" );
671	m_pEffect->SetTechnique( hTechnique );
672	m_pEffect->Begin( &nPasses, 0 );
673	for(UINT j=0;j<nPasses;j++){
674	m_pEffect->BeginPass(j);
675	m_pEffect->SetTexture("radiosity_map",pRadiosityTexture);
676	m_pEffect->SetTexture("emission_map",emissionTexture);
677	m_pEffect->SetFloat("niteration",niteration);
678	hr=d3dDevice->SetRenderState(D3DRS_CULLMODE,D3DCULL_NONE);
679	hr=d3dDevice->SetStreamSource(0,pQuadVB,0,sizeof(D3DVERTEX_1));
680
681	if(FAILED(hr)){
682	//*errLogger << "setstreamsource error.\n";
683	}
684	m_pEffect->CommitChanges();
685	hr=d3dDevice->DrawPrimitive(D3DPT_TRIANGLELIST,0,2);
686
687	if(FAILED(hr)){
688	//*errLogger << "drawprimitive error.\n";
689	}
690
691	m_pEffect->EndPass();
692	}
693	m_pEffect->End();
694	}
695	d3dDevice->EndScene();
696	if(doDebugPicture){
697	fileFormat=D3DXIFF_HDR;
698	D3DXSaveTextureToFile(fileName,fileFormat,pRadiosityTexture2,NULL);
699	}
700
701	return S_OK;
702	}
703
704
705	HRESULT RadiosityAlgorithm::chooseShooter(UINT iterations){
706
707
708	recres2=1.0f/2.0f;
709
710	pMipmapSurfaces[this->mipMapLevels-1]->GetDesc(&surfaceDesc);
711
712	hr=d3dDevice->CreateTexture(1,1,1,D3DUSAGE_DYNAMIC,this->mipmapFormat,D3DPOOL_SYSTEMMEM,&radCopyTexture,NULL);
713	if(FAILED(hr)){
714	//*errLogger << "Create texture.\n";
715	}
716	radCopyTexture->GetSurfaceLevel(0,&radCopySurface);
717
718	hr=d3dDevice->GetRenderTargetData(pMipmapSurfaces[this->mipMapLevels-1],radCopySurface);
719	if(FAILED(hr)){
720	//*errLogger << "Get render target data.\n";
721	}
722	hr=radCopySurface->LockRect(&rectangleToLock,0,0);
723	if(FAILED(hr)){
724	//*errLogger << "Lock rect failiure.\n";
725	}
726	imageData=(float*)rectangleToLock.pBits;
727
728	hr=radCopySurface->UnlockRect();
729	if(FAILED(hr)){
730	//*errLogger << "Unlock rect failiure.\n";
731	}
732
733	fiRes2=imageData[0];
734
735	if(_isnan(fiRes2)){
736	return(E_FAIL);
737	}
738
739	SAFE_RELEASE(radCopySurface);
740	SAFE_RELEASE(radCopyTexture);
741
742
743
744	hr=d3dDevice->SetRenderTarget(0,shootSurface);
745	if(FAILED(hr)){
746	//*errLogger << "setRenderTarget error.\n";
747	}
748	d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_XRGB(0,0,0),1.0f,0);
749	hr= d3dDevice->BeginScene();
750	if( m_pEffect != NULL ){
751	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "SearchStartTech" );
752	m_pEffect->SetTechnique( hTechnique );
753	m_pEffect->Begin( &nPasses, 0 );
754	for(UINT j=0;j<nPasses;j++){
755	m_pEffect->BeginPass(j);
756	m_pEffect->SetFloat("recres2",recres2);
757	float searchCoords[2]={0,0};
758	m_pEffect->SetFloatArray("searchCoords",searchCoords,2);
759	m_pEffect->SetFloat("firstsum",fiRes2*(float)rand()/(float)RAND_MAX);
760	m_pEffect->SetTexture("sum_map",mipmapTexturesArray[this->mipMapLevels-1]);
761	m_pEffect->SetTexture("mipmap",mipmapTexturesArray[this->mipMapLevels-2]);
762
763	hr=d3dDevice->SetVertexDeclaration(textureDecl);
764	hr=d3dDevice->SetStreamSource(0,pPointVB,0,sizeof(D3DVERTEX_1));
765
766	if(FAILED(hr)){
767	//*errLogger << "setstreamsource error.\n";
768	}
769	m_pEffect->CommitChanges();
770	hr=d3dDevice->DrawPrimitive(D3DPT_POINTLIST,0,1);
771
772	if(FAILED(hr)){
773	//*errLogger << "drawprimitive error.\n";
774	}
775
776	m_pEffect->EndPass();
777	}
778	m_pEffect->End();
779	}
780	d3dDevice->EndScene();
781	recres2/=2.0f;
782
783
784	//shootSurface->GetDesc(&surfaceDesc);
785
786	hr=d3dDevice->CreateTexture(1,1,1,D3DUSAGE_DYNAMIC,this->renderTextureFormat,D3DPOOL_SYSTEMMEM,&radCopyTexture,NULL);
787	if(FAILED(hr)){
788	//*errLogger << "Create texture.\n";
789	}
790	radCopyTexture->GetSurfaceLevel(0,&radCopySurface);
791
792	hr=d3dDevice->GetRenderTargetData(shootSurface,radCopySurface);
793	if(FAILED(hr)){
794	//*errLogger << "Get render target data.\n";
795	}
796
797	hr=radCopySurface->LockRect(&rectangleToLock,0,0);
798	if(FAILED(hr)){
799	//*errLogger << "Lock rect failiure.\n";
800	}
801	//float*
802
803
804	imageData=(float*)rectangleToLock.pBits;
805
806	hr=radCopySurface->UnlockRect();
807	if(FAILED(hr)){
808	//*errLogger << "Unlock rect failiure.\n";
809	}
810
811	SAFE_RELEASE(radCopySurface);
812	SAFE_RELEASE(radCopyTexture);
813
814
815
816	int levelToGo=iterations>0 ? 1 : 2;
817
818	//return E_FAIL;
819	d3dDevice->CreateTexture(1,1,1,D3DUSAGE_RENDERTARGET,this->renderTextureFormat,D3DPOOL_DEFAULT,&radCopyTexture,NULL);
820	radCopyTexture->GetSurfaceLevel(0,&radCopySurface);
821
822
823	for(int i=this->mipMapLevels-3;i>=levelToGo;i--){
824	hr=d3dDevice->SetRenderTarget(0,radCopySurface);
825	if(FAILED(hr)){
826	//*errLogger << "setRenderTarget error.\n";
827	}
828
829	d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_XRGB(0,0,0),1.0f,0);
830
831	d3dDevice->BeginScene();
832	if( m_pEffect != NULL ){
833	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "SearchTech" );
834	m_pEffect->SetTechnique( hTechnique );
835	m_pEffect->Begin( &nPasses, 0 );
836	for(UINT j=0;j<nPasses;j++){
837	m_pEffect->BeginPass(j);
838	m_pEffect->SetFloat("recres2",recres2);
839	//m_pEffect->SetFloat("RandomNum",(float)rand()/(float)RAND_MAX);
840	m_pEffect->SetTexture("sum_map",shootTexture);
841	m_pEffect->SetTexture("mipmap",mipmapTexturesArray[i]);
842	hr=d3dDevice->SetStreamSource(0,pPointVB,0,sizeof(D3DVERTEX_1));
843
844	if(FAILED(hr)){
845	//*errLogger << "setstreamsource error.\n";
846	}
847	m_pEffect->CommitChanges();
848	hr=d3dDevice->DrawPrimitive(D3DPT_POINTLIST,0,1);
849	if(FAILED(hr)){
850	//*errLogger << "drawprimitive error.\n";
851	}
852	m_pEffect->EndPass();
853	}
854	m_pEffect->End();
855	}
856	d3dDevice->EndScene();
857	recres2/=2.0f;
858
859	tempTexture=radCopyTexture;
860	tempTexture->AddRef();
861	SAFE_RELEASE(radCopyTexture)
862	radCopyTexture=shootTexture;
863	radCopyTexture->AddRef();
864	SAFE_RELEASE(shootTexture)
865	shootTexture=tempTexture;
866	shootTexture->AddRef();
867	SAFE_RELEASE(tempTexture)
868	SAFE_RELEASE(radCopySurface);
869	SAFE_RELEASE(shootSurface);
870	SAFE_RELEASE(tempSurface);
871
872
873	shootTexture->GetSurfaceLevel(0,&shootSurface);
874	radCopyTexture->GetSurfaceLevel(0,&radCopySurface);
875
876	//return E_FAIL;
877	}
878
879	//SAFE_RELEASE(radCopyTexture);
880	//SAFE_RELEASE(radCopySurface);
881
882
883	d3dDevice->CreateTexture(1,1,1,D3DUSAGE_RENDERTARGET,this->renderTextureFormat,D3DPOOL_DEFAULT,&shootColorTexture,NULL);
884	shootColorTexture->GetSurfaceLevel(0,&shootColorSurface);
885	hr=d3dDevice->SetRenderTarget(0,radCopySurface);
886	if(FAILED(hr)){
887	//*errLogger << "setRenderTarget error.\n";
888	}
889	hr=d3dDevice->SetRenderTarget(1,shootColorSurface);
890	if(FAILED(hr)){
891	//*errLogger << "setRenderTarget error.\n";
892	}
893	d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_XRGB(0,0,0),1.0f,0);
894
895	d3dDevice->BeginScene();
896	if( m_pEffect != NULL ){
897	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "SearchEndTech" );
898	hr=m_pEffect->SetTechnique( hTechnique );
899	m_pEffect->Begin( &nPasses, 0 );
900	for(UINT j=0;j<nPasses;j++){
901	m_pEffect->BeginPass(j);
902	m_pEffect->SetFloat("recres2",recres2);
903	m_pEffect->SetTexture("sum_map",shootTexture);
904	if(iterations==1){
905	m_pEffect->SetTexture("mipmap",mipmapTexturesArray[levelToGo-1]);
906	}
907	else{
908	m_pEffect->SetTexture("mipmap",pRadiosityTexture);
909	}
910	hr=d3dDevice->SetStreamSource(0,pPointVB,0,sizeof(D3DVERTEX_1));
911
912	if(FAILED(hr)){
913	//*errLogger << "setstreamsource error.\n";
914	}
915	m_pEffect->CommitChanges();
916	hr=d3dDevice->DrawPrimitive(D3DPT_POINTLIST,0,1);
917	if(FAILED(hr)){
918	//*errLogger << "drawprimitive error.\n";
919	}
920	m_pEffect->EndPass();
921	}
922	m_pEffect->End();
923	}
924	d3dDevice->EndScene();
925	hr=d3dDevice->SetRenderTarget(1,NULL);
926
927	recres2/=2.0f;
928
929
930	//shootSurface->GetDesc(&surfaceDesc);
931
932	hr=d3dDevice->CreateTexture(1,1,1,D3DUSAGE_DYNAMIC,this->renderTextureFormat,D3DPOOL_SYSTEMMEM,&tempTexture,NULL);
933	if(FAILED(hr)){
934	//*errLogger << "Create texture.\n";
935	}
936	tempTexture->GetSurfaceLevel(0,&tempSurface);
937
938	hr=d3dDevice->GetRenderTargetData(radCopySurface,tempSurface);
939	if(FAILED(hr)){
940	//*errLogger << "Get render target data.\n";
941	}
942
943	hr=tempSurface->LockRect(&rectangleToLock,0,0);
944	if(FAILED(hr)){
945	//*errLogger << "Lock rect failiure.\n";
946	}
947
948	imageData=(float*)rectangleToLock.pBits;
949
950	hr=tempSurface->UnlockRect();
951	if(FAILED(hr)){
952	//*errLogger << "Unlock rect failiure.\n";
953	}
954
955	Vector chosenTexelCoords(imageData[1],imageData[2],0);
956	index2=(int)(imageData[2]this->textureWidth(visRectangleToLock.Pitch/4) + imageData[1]*this->textureHeight);
957	index2*=2;
958	shooter = visMapData[index2];
959	//shooter = shooter&0x00ffffff;
960	/*
961	*errLogger << "Sum: " << imageData[0] << "\n";
962
963	errLogger << "Coord_x: " << imageData[1]this->textureWidth<< "\n";
964	errLogger << "Coord_y: " << imageData[2]this->textureHeight << "\n";
965	*errLogger << "Shooter: " << index2 << "\n";
966	*errLogger << "Shooter from visMap: " << shooter << "\n";
967	*/
968	shootColorSurface->GetDesc(&surfaceDesc);
969
970	SAFE_RELEASE(tempTexture);
971	SAFE_RELEASE(tempSurface);
972
973	hr=d3dDevice->CreateTexture(1,1,1,D3DUSAGE_DYNAMIC,this->renderTextureFormat,D3DPOOL_SYSTEMMEM,&tempTexture,NULL);
974	if(FAILED(hr)){
975	//*errLogger << "Create texture.\n";
976	}
977	tempTexture->GetSurfaceLevel(0,&tempSurface);
978
979	hr=d3dDevice->GetRenderTargetData(shootColorSurface,tempSurface);
980	if(FAILED(hr)){
981	//*errLogger << "Get render target data.\n";
982	return 0;
983	}
984
985	hr=tempSurface->LockRect(&rectangleToLock,0,0);
986	if(FAILED(hr)){
987	//*errLogger << "Lock rect failiure.\n";
988	}
989
990	imageData=(float*)rectangleToLock.pBits;
991
992	hr=tempSurface->UnlockRect();
993	if(FAILED(hr)){
994	//*errLogger << "Unlock rect failiure.\n";
995	}
996
997	//*errLogger << "fiRes2: " << fiRes2/this->textureWidth/this->textureHeight << "\n";
998	Color pShoot(imageData[0],imageData[1],imageData[2],1.0f);
999	py=pShoot.Lum()/(fiRes2/this->textureWidth/this->textureHeight);
1000
1001
1002
1003	pShoot=pShoot/py;
1004
1005	SAFE_RELEASE(tempTexture);
1006	SAFE_RELEASE(tempSurface);
1007	SAFE_RELEASE(shootColorSurface);
1008	SAFE_RELEASE(shootColorTexture);
1009	SAFE_RELEASE(radCopySurface)
1010	SAFE_RELEASE(radCopyTexture)
1011
1012
1013
1014
1015	//hr=d3dDevice->SetVertexDeclaration(decl);
1016
1017
1018
1019	Vector from, dir, up;
1020	Triangle tri;
1021	Vector vertex1,vertex2,vertex3;
1022	Vector texcoord1,texcoord2,texcoord3;
1023	objectVector->getTriangleByIndex((UINT)shooter,tri,vertex1,vertex2,vertex3,texcoord1,texcoord2,texcoord3);
1024
1025	shooterDisc=tri.area/tri.texarea/M_PI/(float)this->textureWidth/(float)this->textureHeight;
1026	chosenTexelCoords.y=1-chosenTexelCoords.y;
1027	float detbeta=(texcoord2.x-texcoord3.x)(texcoord3.y-texcoord1.y)-(texcoord2.y-texcoord3.y)(texcoord3.x-texcoord1.x);
1028	float detalpha=(texcoord1.x-texcoord3.x)(texcoord3.y-texcoord2.y)-(texcoord1.y-texcoord3.y)(texcoord3.x-texcoord2.x);
1029	float det1=(texcoord3.y-chosenTexelCoords.y)(texcoord3.x-texcoord1.x)-(texcoord3.x-chosenTexelCoords.x)(texcoord3.y-texcoord1.y);
1030	float det2=(texcoord3.y-chosenTexelCoords.y)(texcoord3.x-texcoord2.x)-(texcoord3.x-chosenTexelCoords.x)(texcoord3.y-texcoord2.y);
1031	float beta= det1/detbeta;
1032	//float alpha= (beta*(texcoord2.x-texcoord3.x)+texcoord3.x-chosenTexelCoords.x)/(texcoord3.x-texcoord1.x);
1033	float alpha= det2/detalpha;
1034	dir=tri.normal;
1035	up=tri.up;
1036	from=vertex1alpha+vertex2beta+vertex3*(1.0f-alpha-beta);
1037
1038	/*
1039	from=Vector(0,5,0);
1040	dir=Vector(0,-1,0);
1041	up=Vector(1,0,0);
1042	*/
1043
1044	Vector lookat = from + dir;
1045
1046	dirD3D.x=dir.x;
1047	dirD3D.y=dir.y;
1048	dirD3D.z=dir.z;
1049	fromD3D.x=from.x;
1050	fromD3D.y=from.y;
1051	fromD3D.z=from.z;
1052	lookatD3D.x=lookat.x;
1053	lookatD3D.y=lookat.y;
1054	lookatD3D.z=lookat.z;
1055	upD3D.x=up.x;
1056	upD3D.y=up.y;
1057	upD3D.z=up.z;
1058	/*
1059	*errLogger << "From" << from.x << " " << from.y << " " << from.z << "\n";
1060	*errLogger << "Lookat" << lookat.x << " " << lookat.y << " " << lookat.z << "\n";
1061	*errLogger << "Up" << up.x << " " << up.y << " " << up.z << "\n";
1062	*/
1063
1064	D3DXMatrixIdentity(&matWorld);
1065
1066
1067
1068
1069
1070	shootcolors[0]=pShoot.R;
1071	shootcolors[1]=pShoot.G;
1072	shootcolors[2]=pShoot.B;
1073	shootcolors[3]=shooterDisc;
1074
1075	return S_OK;
1076	}
1077
1078	HRESULT RadiosityAlgorithm::doIterationVisibilityMapPass(bool doDebugPicture,TCHAR* fileName,D3DXVECTOR3 center,D3DXVECTOR3 dir,D3DXVECTOR3 up,bool fullScreen){
1079	D3DXVECTOR3 lookat=center+dir;
1080	D3DXMatrixLookAtLH(&matWorld,&center,&lookat,&up);
1081	D3DXMatrixPerspectiveFovLH(&matProjection,D3DX_PI/2.0,1,0.1,20);
1082	D3DXMatrixMultiply(&matViewWorldProjection,&matWorld,&matProjection);
1083
1084	hr=d3dDevice->SetRenderTarget(0,pIterationVisibilityRenderSurface);
1085
1086	if(FAILED(hr)){
1087	//*errLogger << "setRendertarget error.\n";
1088	}
1089	d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_XRGB(0,0,0),1.0f,0);
1090
1091	//hr=d3dDevice->SetVertexDeclaration(decl);
1092	if(FAILED(hr)){
1093	//*errLogger << "setVertexDecl error.\n";
1094	}
1095
1096	d3dDevice->BeginScene();
1097
1098
1099
1100	if( m_pEffect != NULL ){
1101	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "ITVisShader" );
1102	m_pEffect->SetTechnique( hTechnique );
1103	m_pEffect->Begin( &nPasses, 0 );
1104	for(UINT i=0;i<nPasses;i++){
1105	m_pEffect->BeginPass(i);
1106	m_pEffect->SetFloat("fullScreen",fullScreen);
1107	m_pEffect->SetFloatArray("eyePos",(float*)fromD3D,3);
1108
1109	m_pEffect->SetMatrix("modelview",&matWorld);
1110	hr=m_pEffect->SetMatrix("modelviewproj",&matViewWorldProjection);
1111
1112	objectVector->RenderAllWithFX(m_pEffect,false,matWorld,matViewWorldProjection);
1113
1114	m_pEffect->EndPass();
1115	}
1116	m_pEffect->End();
1117	}
1118
1119	d3dDevice->EndScene();
1120	if(doDebugPicture){
1121	fileFormat=D3DXIFF_HDR;
1122	D3DXSaveTextureToFile(fileName,fileFormat,pIterationVisibilityTexture,NULL);
1123	}
1124
1125	return S_OK;
1126	}
1127
1128	HRESULT RadiosityAlgorithm::doRadiosityMapPass(UINT iterations,bool doDebugPicture,TCHAR* fileName){
1129	D3DXMatrixInverse(&inverseWorldMatrix,NULL,&matWorld);
1130
1131
1132	hr=d3dDevice->SetRenderTarget(0,pActualRadianceSurface2);
1133
1134	d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_ARGB(0x00,0,0,0),1.0f,0);
1135
1136	d3dDevice->BeginScene();
1137
1138	if( m_pEffect != NULL ){
1139	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "Shoot" );
1140	m_pEffect->SetTechnique( hTechnique );
1141	m_pEffect->Begin( &nPasses, 0 );
1142	for(UINT i=0;i<nPasses;i++){
1143	m_pEffect->BeginPass(i);
1144	//m_pEffect->SetFloat("niteration",(float)iterations);
1145	m_pEffect->SetFloat("py",py);
1146	m_pEffect->SetFloatArray("Lshoot",shootcolors,4);
1147	//m_pEffect->SetFloat("shininess",0.1);
1148	D3DXVECTOR4 eyePos1;
1149	D3DXVec3Transform(&eyePos1,&eyePos,&matViewWorldProjection);
1150	eyePos1.x/=eyePos1.w;
1151	eyePos1.y/=eyePos1.w;
1152	eyePos1.z/=eyePos1.w;
1153	m_pEffect->SetFloatArray("eyePos",eyePos1,3);
1154	m_pEffect->SetMatrix("modelview",&matWorld);
1155	m_pEffect->SetMatrix("modelviewproj",&matViewWorldProjection);
1156	m_pEffect->SetMatrixTranspose("modelviewIT",&inverseWorldMatrix);
1157	m_pEffect->SetTexture("visibility_map",pIterationVisibilityTexture);
1158	m_pEffect->SetTexture("act_radiosity_map",pActualRadianceTexture);
1159	m_pEffect->SetTexture("BRDFMap",pBRDFTexture);
1160
1161	objectVector->RenderAllWithFX(m_pEffect,true,matWorld,matViewWorldProjection);
1162
1163	m_pEffect->EndPass();
1164	}
1165	m_pEffect->End();
1166	}
1167	d3dDevice->EndScene();
1168
1169
1170
1171	pActualRadianceTempTexture=pActualRadianceTexture;
1172	pActualRadianceTempTexture->AddRef();
1173	SAFE_RELEASE(pActualRadianceTexture);
1174	pActualRadianceTexture=pActualRadianceTexture2;
1175	pActualRadianceTexture->AddRef();
1176	SAFE_RELEASE(pActualRadianceTexture2);
1177
1178	pActualRadianceTexture2=pActualRadianceTempTexture;
1179	pActualRadianceTexture2->AddRef();
1180	SAFE_RELEASE(pActualRadianceTempTexture)
1181	SAFE_RELEASE(pActualRadianceSurface);
1182	SAFE_RELEASE(pActualRadianceSurface2);
1183	pActualRadianceTexture2->GetSurfaceLevel(0,&pActualRadianceSurface2);
1184	pActualRadianceTexture->GetSurfaceLevel(0,&pActualRadianceSurface);
1185
1186	SAFE_RELEASE(mipmapTexturesArray[0])
1187	SAFE_RELEASE(pMipmapSurfaces[0])
1188
1189	mipmapTexturesArray[0]=pActualRadianceTexture;
1190	mipmapTexturesArray[0]->AddRef();
1191	mipmapTexturesArray[0]->GetSurfaceLevel(0,&pMipmapSurfaces[0]);
1192
1193	if(doDebugPicture){
1194	fileFormat=D3DXIFF_HDR;
1195	D3DXSaveTextureToFile(fileName,fileFormat,pActualRadianceTexture,NULL);
1196	}
1197
1198	return S_OK;
1199	}
1200
1201	HRESULT RadiosityAlgorithm::doRadiosityActualAveragingPass(UINT iterations,bool doDebugPicture,TCHAR* fileName){
1202
1203	hr=d3dDevice->SetRenderTarget(0,pMipmapSurfaces[1]);
1204
1205	hr=d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_ARGB(0x00,0,0,0),1.0f,0);
1206
1207	d3dDevice->BeginScene();
1208
1209	if( m_pEffect != NULL ){
1210	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "ActualAveragingTech" );
1211	m_pEffect->SetTechnique( hTechnique );
1212	m_pEffect->Begin( &nPasses, 0 );
1213	for(UINT i=0;i<nPasses;i++){
1214
1215	m_pEffect->BeginPass(i);
1216
1217	m_pEffect->SetTexture("visibility_map",pOrigVisibilityTexture);
1218
1219	m_pEffect->SetTexture("act_radiosity_map",pActualRadianceTexture);
1220
1221	m_pEffect->SetTexture("emission_map",emissionTexture);
1222
1223	objectVector->RenderAllWithFX(m_pEffect,true,matWorld,matViewWorldProjection);
1224
1225	m_pEffect->EndPass();
1226	}
1227	m_pEffect->End();
1228	}
1229	d3dDevice->EndScene();
1230	hr=d3dDevice->SetRenderTarget(0,pRadRenderSurface2);
1231
1232	hr=d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_ARGB(0x00,0,0,0),1.0f,0);
1233
1234	d3dDevice->BeginScene();
1235
1236	if( m_pEffect != NULL ){
1237	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "ActualAveragingTech2" );
1238	m_pEffect->SetTechnique( hTechnique );
1239	m_pEffect->Begin( &nPasses, 0 );
1240	for(UINT i=0;i<nPasses;i++){
1241
1242	m_pEffect->BeginPass(i);
1243
1244	m_pEffect->SetTexture("radiosity_map",this->pRadiosityTexture);
1245	m_pEffect->SetTexture("act_radiosity_map",pActualRadianceTexture);
1246	hr=m_pEffect->SetTexture("visibility_map",pOrigVisibilityTexture);
1247	/*
1248	m_pEffect->SetTexture("emission_map",emissionTexture);
1249	if(iterations==1){
1250	hr=m_pEffect->SetBool("notFirstRun",0);
1251	}
1252	else{
1253	hr=m_pEffect->SetBool("notFirstRun",1);
1254	}
1255	*/
1256	objectVector->RenderAllWithFX(m_pEffect,true,matWorld,matViewWorldProjection);
1257
1258	m_pEffect->EndPass();
1259	}
1260	m_pEffect->End();
1261	}
1262	d3dDevice->EndScene();
1263
1264	tempTexture=pRadiosityTexture;
1265	tempTexture->AddRef();
1266	SAFE_RELEASE(pRadiosityTexture)
1267	pRadiosityTexture=pRadiosityTexture2;
1268	pRadiosityTexture->AddRef();
1269	SAFE_RELEASE(pRadiosityTexture2)
1270	pRadiosityTexture2=tempTexture;
1271	pRadiosityTexture2->AddRef();
1272	SAFE_RELEASE(tempTexture)
1273
1274	SAFE_RELEASE(pRadRenderSurface);
1275	SAFE_RELEASE(pRadRenderSurface2);
1276	pRadiosityTexture->GetSurfaceLevel(0,&pRadRenderSurface);
1277	pRadiosityTexture2->GetSurfaceLevel(0,&pRadRenderSurface2);
1278
1279	if(doDebugPicture){
1280	fileFormat=D3DXIFF_HDR;
1281	D3DXSaveTextureToFile(L"mipmap1.hdr",fileFormat,this->mipmapTexturesArray[1],NULL);
1282	}
1283
1284	if(doDebugPicture){
1285	fileFormat=D3DXIFF_HDR;
1286	D3DXSaveTextureToFile(fileName,fileFormat,this->pRadiosityTexture,NULL);
1287	}
1288	//hr=d3dDevice->SetRenderTarget(1,NULL);
1289	return hr;
1290	}
1291
1292	HRESULT RadiosityAlgorithm::doFinalPicturePass(bool doDebugPicture,TCHAR* fileName){
1293	/*
1294	eyePos.x=0;
1295	eyePos.y=2.5;
1296	eyePos.z=10.0f;
1297	camLookAt.x=0;
1298	camLookAt.y=2.5f;
1299	camLookAt.z=9.0f;
1300	*/
1301	camDir.x=0;
1302	camDir.y=1;
1303	camDir.z=0;
1304
1305	D3DXMatrixIdentity(&matWorld);
1306	D3DXMatrixLookAtLH(&matWorld,&eyePos,&camLookAt,&camDir);
1307	/*
1308	*errLogger << "World matrix final \n" << matWorld._11;
1309	*errLogger << " " << matWorld._12;
1310	*errLogger << " " << matWorld._13;
1311	*errLogger << " " << matWorld._14 << "\n";
1312	*errLogger << " " << matWorld._21;
1313	*errLogger << " " << matWorld._22;
1314	*errLogger << " " << matWorld._23;
1315	*errLogger << " " << matWorld._24 << "\n";
1316	*errLogger << " " << matWorld._31;
1317	*errLogger << " " << matWorld._32;
1318	*errLogger << " " << matWorld._33;
1319	*errLogger << " " << matWorld._34 << "\n";
1320	*errLogger << " " << matWorld._41;
1321	*errLogger << " " << matWorld._42;
1322	*errLogger << " " << matWorld._43;
1323	*errLogger << " " << matWorld._44 << "\n";
1324	*/
1325	//D3DXMatrixInverse(&inverseWorldMatrix,NULL,&matWorld);
1326
1327	//D3DXMatrixIdentity(&matWorld);
1328	//D3DXMatrixLookAtLH(&matWorld,&fromD3D,&lookatD3D,&upD3D);
1329	D3DXMatrixIdentity(&matProjection);
1330	D3DXMatrixPerspectiveFovLH(&matProjection,D3DX_PI/3.0f,1024.0f/768.0f,0.1f,100);
1331	D3DXMatrixIdentity(&inverseWorldMatrix);
1332	D3DXMatrixMultiply(&inverseWorldMatrix,&matWorld,&matProjection);
1333
1334	hr=d3dDevice->SetRenderTarget(0,pBackBuffer);
1335	hr=d3dDevice->SetDepthStencilSurface(origDepthSurface);
1336	if(FAILED(hr)){
1337	//*errLogger << "setRendertarget error.\n";
1338	}
1339	d3dDevice->Clear(0,NULL,D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER,D3DCOLOR_XRGB(0,0,0),1.0f,0);
1340
1341	//hr=d3dDevice->SetVertexDeclaration(decl);
1342	if(FAILED(hr)){
1343	//*errLogger << "setVertexDecl error.\n";
1344	}
1345
1346	d3dDevice->BeginScene();
1347
1348	if( m_pEffect != NULL ){
1349	D3DXHANDLE hTechnique = m_pEffect->GetTechniqueByName( "RenderFinal" );
1350	m_pEffect->SetTechnique( hTechnique );
1351	m_pEffect->Begin( &nPasses, 0 );
1352	for(UINT i=0;i<nPasses;i++){
1353	m_pEffect->BeginPass(i);
1354	m_pEffect->SetMatrix("modelview",&matWorld);
1355	m_pEffect->SetMatrix("modelviewproj",&inverseWorldMatrix);
1356	m_pEffect->SetTexture("final_map",pRadiosityTexture2);
1357	//m_pEffect->SetTexture("emission_map",emissionTexture);
1358
1359	objectVector->RenderAllWithFX(m_pEffect,false,matWorld,inverseWorldMatrix);
1360
1361	m_pEffect->EndPass();
1362	}
1363	m_pEffect->End();
1364	}
1365
1366	d3dDevice->EndScene();
1367
1368	//Save final scene.
1369	if(doDebugPicture){
1370	fileFormat=D3DXIFF_BMP;
1371	D3DXSaveSurfaceToFile(fileName,fileFormat,pBackBuffer,NULL,NULL);
1372	}
1373	//End save final scene.
1374
1375	return S_OK;
1376	}

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source: GTP/trunk/App/Demos/Illum/StochasticIteration/RadiosityAlgorithm.cpp @ 1808

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