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source: GTP/trunk/App/Demos/Illum/PathMap/PathMapEffect.cpp @ 1480

Revision 1480, 59.1 KB checked in by szirmay, 18 years ago (diff)

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1	#include "dxstdafx.h"
2	#include ".\pathmapeffect.h"
3	#include "Material.hpp"
4	#include "TexturedMaterial.h"
5	#include "WoodMaterial.hpp"
6	#include "TriangleMesh.h"
7	#include "Transformed.h"
8	#include "shlwapi.h"
9	#include <queue>
10	#include <fstream>
11
12	#define TEST_CLUST 0
13	//#define GENERATE_PATH_MAPS
14
15	//! D3D vector-matrix multiplication
16	D3DVECTOR operator *(const D3DVECTOR& v, const D3DMATRIX& m)
17	{
18	D3DVECTOR r;
19	r.x = v.x * m._11 + v.y * m._21 + v.z * m._31 + m._41;
20	r.y = v.x * m._12 + v.y * m._22 + v.z * m._32 + m._42;
21	r.z = v.x * m._13 + v.y * m._23 + v.z * m._33 + m._43;
22	float h = v.x * m._14 + v.y * m._24 + v.z * m._34 + m._44;
23	if(h > 0.00001f \|\| h < 0.00001f)
24	{
25	r.x /= h;
26	r.y /= h;
27	r.z /= h;
28	}
29	return r;
30	}
31
32	//! method name strings to be displayed on screen
33	const wchar_t* PathMapEffect::Method::methodNames[10] =
34	{
35	L"PRM",
36	L"PRM texture",
37	L"_",
38	L"_"
39	, NULL, NULL, NULL, NULL, NULL, NULL
40	};
41
42	//! method constants
43	const PathMapEffect::Method PathMapEffect::Method::PRM(0);
44	const PathMapEffect::Method PathMapEffect::Method::SHOWTEX(1);
45	const PathMapEffect::Method PathMapEffect::Method::LAST(2);
46
47	//! constructor
48	PathMapEffect::PathMapEffect(LPDIRECT3DDEVICE9 device)
49	:method(Method::PRM)
50	{
51	rayId = 1;
52	this->device = device;
53
54	//first person camera allows more freedom of movement
55	camera = new CFirstPersonCamera();
56	lightCamera = new CFirstPersonCamera();
57
58	HRESULT hr;
59	DWORD effectCompileFlag=0;
60
61	LPD3DXBUFFER compilationErrors;
62	if(FAILED(
63	hr =
64	D3DXCreateEffectFromFile(
65	device,
66	L"pathMap.fx",
67	NULL,
68	NULL,
69	0,
70	NULL,
71	&effect,
72	&compilationErrors) )){
73	MessageBoxA( NULL, (LPSTR)compilationErrors->GetBufferPointer(), "Failed to load effect file!", MB_OK);
74	exit(-1);
75	}
76
77	//store buffers so we can reset them after rendering to texture render targets
78	device->GetRenderTarget(0, &frameColorBuffer);
79	device->GetDepthStencilSurface(&frameDepthStencilBuffer);
80
81	//load empty texture
82	D3DXCreateTextureFromFile(device, L"media\\empty.bmp", &emptyTexture);
83
84	//set up a scene
85
86	loadScene("media\\level.txt");
87
88	//load hangar mesh
89	loadMesh( L"media\\hangar.x" );
90	// loadMesh( L"media\\fulltexchamber.x" );
91
92	/* //create hangar entity
93	Entity e1;
94	e1.owner = this;
95	e1.renderMesh = renderMeshes.at(0);
96	D3DXMatrixIdentity(&e1.modelWorldTransform);
97	// D3DXMatrixScaling(&e1.modelWorldTransform, 20.0f, 20.0f, 20.0f);
98	D3DXMatrixScaling(&e1.modelWorldTransform, 0.5f, 1.0f, 0.5f);
99	D3DXMatrixIdentity(&e1.inverseTransposedModelWorldTransform);
100	// D3DXMatrixScaling(&e1.inverseTransposedModelWorldTransform, 1.0f/20.0f, 1.0f/20.0f, 1.0f/20.0f);
101	D3DXMatrixScaling(&e1.inverseTransposedModelWorldTransform, 1.0f/0.5f, 1.0f, 1.0f/0.5f);
102
103	e1.createRayTraceEntity();
104
105	entities.push_back(e1);
106
107
108	//load 'steps' mesh
109	loadMesh( L"media\\steps.x" );
110
111	//create step entities
112	for(int eitor=0; eitor < 4; eitor++)
113	{
114	D3DXMATRIX urr;
115	D3DXMATRIX rx; D3DXMatrixRotationY(&rx, Vector::PI * 0.5f * eitor);
116	Entity e2;
117	e2.owner = this;
118	e2.renderMesh = renderMeshes.at(1);
119
120	D3DXMatrixTranslation(&urr, -15.0f, -14.0f, -7.0f);
121	D3DXMatrixMultiply( &e2.modelWorldTransform, &urr, &rx);
122	D3DXMatrixInverse(&e2.inverseTransposedModelWorldTransform, NULL, &e2.modelWorldTransform);
123
124	e2.createRayTraceEntity();
125	entities.push_back(e2);
126
127	D3DXMATRIX trasi, roti;
128	D3DXMatrixTranslation(&trasi, -15.0f + 7.0f, 14.0f, -7.0f -7.0f); //7.25f, 13.5, -7.25); //rot 90 -90 90 trans 7.25 13.5 -7.25
129	D3DXMatrixRotationYawPitchRoll(&roti, -Vector::PI * 0.5, Vector::PI, 0.0);
130	D3DXMatrixMultiply(&urr, &roti, &trasi);
131
132	D3DXMatrixMultiply( &e2.modelWorldTransform, &urr, &rx);
133
134	D3DXMatrixInverse(&e2.inverseTransposedModelWorldTransform, NULL, &e2.modelWorldTransform);
135	e2.createRayTraceEntity();
136	entities.push_back(e2);
137	}
138	*/
139	/* for(int eitor=0; eitor < 6; eitor++)
140	{
141	Entity e2;
142	e2.owner = this;
143	e2.renderMesh = renderMeshes.at(1);
144	D3DXMatrixIdentity(&e2.modelWorldTransform);
145	D3DXMatrixScaling(&e2.modelWorldTransform, -0.5, 0.5, -0.5);
146	D3DXMATRIX trmx;
147	D3DXMatrixTranslation(&trmx, -8.0 + eitor * 2.8f, -3.2f, -8.6f + eitor * 0.6f);
148	e2.modelWorldTransform *= trmx;
149	D3DXMatrixIdentity(&e2.inverseTransposedModelWorldTransform);
150	D3DXMatrixScaling(&e2.inverseTransposedModelWorldTransform, -2.0, 2.0, -2.0);
151	D3DXMatrixTranslation(&trmx, +8.0 - eitor * 2.8f, 3.2f, 8.6f - eitor * 0.6f);
152	e2.inverseTransposedModelWorldTransform *= trmx;
153	e2.createRayTraceEntity();
154	entities.push_back(e2);
155	}*/
156
157	loadMesh( L"media\\torch.x" );
158
159	//compute the surface area of the complete geometry. useful for random sampling.
160	sumSurfaceArea = 0.0;
161	std::vector<PathMapEffect::Entity>::iterator entityIterator = entities.begin();
162	while(entityIterator != entities.end())
163	{
164	sumSurfaceArea += entityIterator->rayTraceEntity->getSurfaceArea();
165	entityIterator++;
166	}
167
168	//initialize camera
169	camera->SetViewParams( &D3DXVECTOR3(0.0f, 0.0f, 4.0f), &D3DXVECTOR3(0.0f, 0.0f, 0.0f));
170	D3DSURFACE_DESC fbdesc;
171	frameColorBuffer->GetDesc(&fbdesc);
172	camera->SetProjParams( D3DX_PI/2, (float)fbdesc.Width / fbdesc.Height, 0.1f, 300.0f );
173
174	//create resources for entities
175	createPRMTextures();
176
177	//set up spotlight
178	lightCamera->SetViewParams( &D3DXVECTOR3(5.0f, 0.0f, 0.0f), &D3DXVECTOR3(0.0f, 0.0f, 0.0f));
179	lightCamera->SetProjParams( D3DX_PI/1.9, 1.0f, 0.1f, 300.0f );
180
181	//create ray tracing kd-tree containing ray-traceable versions of entities
182	Intersectable** objs = new Intersectable*[entities.size()];
183	for(int u=0; u<entities.size(); u++)
184	objs[u] = entities.at(u).rayTraceEntity;
185	kdtree = new KDTree(objs, entities.size());
186	delete [] objs;
187
188	//create dummy render target texture for depth map rendering
189	device->CreateTexture(DEPTHMAPRES, DEPTHMAPRES, 1, D3DUSAGE_RENDERTARGET, D3DFMT_R32F, D3DPOOL_DEFAULT, &fakeTexture, NULL);
190	fakeTexture->GetSurfaceLevel(0, &fakeSurface);
191
192	//create a depthstencil texture for depth map rendering
193	device->CreateTexture(DEPTHMAPRES, DEPTHMAPRES, 1,
194	D3DUSAGE_DEPTHSTENCIL, D3DFMT_D24X8, D3DPOOL_DEFAULT, &depthMapTexture, NULL);
195	depthMapTexture->GetSurfaceLevel(0, &depthMapDepthStencilBuffer);
196
197	//create a stencil surface for PRM rendering (to avoid blend-adding to the same pixel for the same lightsource muliple times)
198	device->CreateDepthStencilSurface(128 * 32, 128 * NCLUSTERSPERENTITY / 32, D3DFMT_D24S8, D3DMULTISAMPLE_NONE, 0, true, &prmBlendingDepthStencilBuffer, NULL);
199
200	#ifdef GENERATE_PATH_MAPS
201	precompute();
202	#else
203	loadPathMaps();
204	#endif
205
206	//create a texture for radion data (will be used for weight computations on the GPU)
207	device->CreateTexture(2 * NRADIONS / 4096, 4096, 1, 0, D3DFMT_A32B32G32R32F, D3DPOOL_DEFAULT, &radionTexture, NULL);
208	radionTexture->GetSurfaceLevel(0, &radionSurface);
209
210	//fill texture with data
211	uploadRadions();
212
213	//create weights render target
214	device->CreateTexture(4096, NRADIONS / 4096, 1, D3DUSAGE_RENDERTARGET, D3DFMT_R32F, D3DPOOL_DEFAULT, &weightsTexture, NULL);
215	weightsTexture->GetSurfaceLevel(0, &weightsSurface);
216
217	//create a sytem memory duplicate of the weights render target to be able to read back weights data
218	device->CreateTexture(4096, NRADIONS / 4096, 1, 0, D3DFMT_R32F, D3DPOOL_SYSTEMMEM, &sysMemWeightsTexture, NULL);
219	sysMemWeightsTexture->GetSurfaceLevel(0, &sysMemWeightsSurface);
220
221	//create a vertex buffer to be able to visualize entry radion positions
222	device->CreateVertexBuffer(NRADIONS * sizeof(float) * 6, D3DUSAGE_WRITEONLY, D3DFVF_XYZ \| D3DFVF_NORMAL, D3DPOOL_DEFAULT,
223	&starterVertexBuffer, NULL);
224	void* pData;
225	starterVertexBuffer->Lock(0, 0, &pData, 0);
226	fillRadionPosArray(pData);
227	starterVertexBuffer->Unlock();
228
229
230	exportEntityData();
231
232	#ifdef GENERATE_PATH_MAPS
233	savePathMaps();
234	#endif
235	}
236
237	PathMapEffect::~PathMapEffect(void)
238	{
239	//release all resources allocated in the constructor
240	starterVertexBuffer->Release();
241
242	depthMapTexture->Release();
243	depthMapDepthStencilBuffer->Release();
244	fakeTexture->Release();
245	fakeSurface->Release();
246
247	sysMemWeightsTexture->Release();
248	sysMemWeightsSurface->Release();
249	weightsTexture->Release();
250	weightsSurface->Release();
251	radionTexture->Release();
252	radionSurface->Release();
253
254	prmBlendingDepthStencilBuffer->Release();
255	delete kdtree;
256	emptyTexture->Release();
257	releaseTextures();
258	releaseMeshes();
259	releaseEntities();
260
261	frameColorBuffer->Release();
262	frameDepthStencilBuffer->Release();
263
264	effect->Release();
265	delete camera;
266	delete lightCamera;
267	}
268
269	void PathMapEffect::loadMesh(LPCWSTR fileName)
270	{
271	RenderMesh* renderMesh = new RenderMesh();
272
273	if(S_OK !=
274	D3DXLoadMeshFromX( fileName,
275	D3DXMESH_MANAGED,
276	device,
277	NULL,
278	&renderMesh->materialBuffer,
279	NULL,
280	(DWORD*)&renderMesh->nSubsets,
281	&renderMesh->mesh))
282	{
283	MessageBox(NULL, fileName, L"Could not load mesh file!", MB_OK);
284	return;
285	}
286	//convert mesh into a vertex format using a position, a normal and a texture register
287	//this is the only data our vertex shaders will require
288	renderMesh->setVertexFormat(D3DFVF_XYZ \|
289	D3DFVF_NORMAL \|
290	D3DFVF_TEX1, device);
291
292	//extract the D3DXMATERIAL* pointer from the generic D3DXBUFFER
293	renderMesh->materials = (D3DXMATERIAL*)renderMesh->materialBuffer->GetBufferPointer();
294
295	//for every material, load the specified texture
296	renderMesh->textures = new LPDIRECT3DTEXTURE9[renderMesh->nSubsets];
297	for(unsigned int i=0; i<renderMesh->nSubsets; i++)
298	{
299	wchar_t* wideTextureFileName = NULL;
300	if(renderMesh->materials[i].pTextureFilename)
301	{
302	wideTextureFileName = new wchar_t[MultiByteToWideChar(CP_ACP, 0, renderMesh->materials[i].pTextureFilename, -1, NULL, 0)];
303	MultiByteToWideChar(CP_ACP, 0, renderMesh->materials[i].pTextureFilename, -1, wideTextureFileName, 511);
304	}
305	renderMesh->textures[i] = loadTexture( wideTextureFileName );
306	if(wideTextureFileName)
307	delete wideTextureFileName;
308	}
309
310	//lock the buffers and create ray tracing meshes from the data
311	LPDIRECT3DVERTEXBUFFER9 vertexBuffer;
312	renderMesh->mesh->GetVertexBuffer(&vertexBuffer);
313	D3DVERTEX* vertexData;
314	vertexBuffer->Lock(0,renderMesh->mesh->GetNumVertices()renderMesh->mesh->GetNumBytesPerVertex(),(void*)&vertexData,0);
315	LPDIRECT3DINDEXBUFFER9 indexBuffer;
316	renderMesh->mesh->GetIndexBuffer(&indexBuffer);
317	unsigned short* indexData;
318	indexBuffer->Lock(0,renderMesh->mesh->GetNumFaces()3sizeof(unsigned short),(void**)&indexData,0);
319
320	//create a ray-tracing Material for the texture
321	if(renderMesh->textures[0])
322	{
323	D3DLOCKED_RECT lrect;
324	HRESULT hr = renderMesh->textures[0]->LockRect(0, &lrect, NULL, D3DLOCK_READONLY);
325	LPDIRECT3DSURFACE9 texsurf;
326	renderMesh->textures[0]->GetSurfaceLevel(0, &texsurf);
327	D3DSURFACE_DESC desc;
328	texsurf->GetDesc(&desc);
329	renderMesh->rayTraceMaterial = new TexturedMaterial(lrect.pBits, lrect.Pitch, desc.Width);
330	texsurf->Release();
331	renderMesh->textures[0]->UnlockRect(0);
332	}
333	else
334	renderMesh->rayTraceMaterial = new Material(Vector(1.0f, 1.0f, 1.0f), Vector(0.0f, 0.0f, 0.0f), 1.0);
335
336	//create a TriangleMesh for ray-tracing
337	renderMesh->rayTraceMesh = new TriangleMesh(renderMesh->rayTraceMaterial, indexData, renderMesh->mesh->GetNumFaces(),
338	vertexData, renderMesh->mesh->GetNumVertices());
339
340	vertexBuffer->Unlock();
341	indexBuffer->Unlock();
342	vertexBuffer->Release();
343	indexBuffer->Release();
344
345	//generate edge lines for seamless texture atlas rendering
346	renderMesh->buildEdgeVertexBuffer(device);
347
348	//store completed mesh
349	renderMeshes.push_back(renderMesh);
350	}
351
352	LPDIRECT3DTEXTURE9 PathMapEffect::loadTexture(LPCWSTR fileName)
353	{
354	if(fileName == NULL \|\| wcscmp(fileName, L"") == 0)
355	return NULL;
356	wchar_t* mediaFileName = new wchar_t[wcslen(fileName) + 64];
357	//we assume the x file was in folder .\media
358	wcscpy(mediaFileName, L"media\\");
359	wcscat(mediaFileName, fileName);
360	LPDIRECT3DTEXTURE9 tex;
361
362	D3DXIMAGE_INFO bobo;
363	if(S_OK !=
364	D3DXCreateTextureFromFileEx(device, mediaFileName, D3DX_DEFAULT, D3DX_DEFAULT, 1, 0,
365	D3DFMT_FROM_FILE, D3DPOOL_MANAGED, D3DX_DEFAULT, D3DX_DEFAULT, 0, &bobo, NULL, &tex
366	))
367	{
368	MessageBox(NULL, mediaFileName, L"Could not load texture file!", MB_OK);
369	return NULL;
370	}
371
372	materialTextures.push_back(tex);
373	return tex;
374	}
375
376	void PathMapEffect::releaseTextures()
377	{
378	std::vector<LPDIRECT3DTEXTURE9>::iterator i = materialTextures.begin();
379	while(i != materialTextures.end())
380	{
381	(*i)->Release();
382	i++;
383	}
384	}
385
386	void PathMapEffect::releaseMeshes()
387	{
388	std::vector<PathMapEffect::RenderMesh*>::iterator i = renderMeshes.begin();
389	while(i != renderMeshes.end())
390	{
391	(*i)->mesh->Release();
392	(*i)->materialBuffer->Release();
393	delete (*i)->rayTraceMesh;
394	delete (*i)->rayTraceMaterial;
395	if((*i)->edgeVertexBuffer)
396	(*i)->edgeVertexBuffer->Release();
397	delete *i;
398	i++;
399	}
400	}
401
402	void PathMapEffect::renderWithPRM()
403	{
404	// first pass: render depth
405
406	device->SetRenderTarget(0, fakeSurface);
407	device->SetDepthStencilSurface(depthMapDepthStencilBuffer);
408	device->Clear( 0, NULL, D3DCLEAR_ZBUFFER, D3DCOLOR_ARGB(255, 0, 0, 0), 1.0f, 0 );
409	//no color writes
410	device->SetRenderState(D3DRS_COLORWRITEENABLE, 0);
411	//render back faces (avoids Z-fighting, no need for comparison bias)
412	device->SetRenderState(D3DRS_CULLMODE, D3DCULL_CW);
413
414	if( SUCCEEDED( device->BeginScene() ) )
415	{
416	effect->SetTechnique("Depth");
417	UINT nPasses;
418	effect->Begin(&nPasses, 0);
419	effect->BeginPass(0);
420	//loop through all entities, all mesh subsets, set proper transformations
421
422	std::vector<PathMapEffect::Entity>::iterator entityIterator = entities.begin();
423	while(entityIterator != entities.end())
424	{
425	effect->SetMatrix("modelToProjMatrix",
426	&( entityIterator->modelWorldTransform * lightCamera->GetViewMatrix() *lightCamera->GetProjMatrix() ) );
427	effect->CommitChanges();
428	unsigned int nSubsets = entityIterator->renderMesh->nSubsets;
429	for(int i = 0; i< nSubsets; i++)
430	{
431	entityIterator->renderMesh->mesh->DrawSubset(i);
432	}
433	entityIterator++;
434	}
435
436	effect->EndPass();
437	effect->End();
438	device->EndScene();
439	}
440
441	//reset front face rendering, color writes
442	device->SetRenderState(D3DRS_CULLMODE, D3DCULL_CCW);
443	HRESULT hr = S_OK;
444	hr = device->SetRenderState(D3DRS_COLORWRITEENABLE, D3DCOLORWRITEENABLE_ALPHA\| D3DCOLORWRITEENABLE_BLUE\| D3DCOLORWRITEENABLE_GREEN \| D3DCOLORWRITEENABLE_RED);
445
446	// 2. pass: compute weights
447
448	// simple parallel computation for all pixels: no 3D, depth, shadows, only a full-texture quad
449	hr = device->SetRenderState(D3DRS_ZENABLE, D3DZB_FALSE);
450	hr = device->SetRenderState(D3DRS_STENCILENABLE, false);
451	hr = device->SetRenderTarget(0,weightsSurface);
452	hr = device->SetDepthStencilSurface(NULL);
453	D3DXVECTOR3 lightPos = *lightCamera->GetEyePt();
454	D3DXVECTOR3 lightDir = *lightCamera->GetWorldAhead();
455	lightDir /= D3DXVec3Length( &lightDir );
456	float ffl = parameters->Get(fLightScale) * 100.0f;
457	D3DXVECTOR3 lightPower(ffl, ffl, ffl);
458
459	device->Clear( 0, NULL, D3DCLEAR_TARGET, D3DCOLOR_XRGB(0,0,0), 1.0f, 0 );
460
461	if( SUCCEEDED( device->BeginScene() ) ){
462	if( effect != NULL ){
463	D3DXHANDLE hTechnique = NULL;
464	hTechnique = effect->GetTechniqueByName((LPSTR)"ComputeWeights");
465	if(hTechnique==NULL){
466	return;
467	}
468	effect->SetTechnique( hTechnique );
469
470	UINT nPasses = 0;
471	effect->Begin( &nPasses, 0 );
472	for(UINT j=0;j<nPasses;j++){
473	effect->BeginPass(j);
474	hr = effect->SetTexture("radions", radionTexture);
475	static float opttme[9] = {0.5f, 0.0f, 0.0f,
476	0.0f, -0.5f, 0.0f,
477	0.5f + (0.5f / DEPTHMAPRES), 0.5f + (0.5f / DEPTHMAPRES), 1.0f};
478
479	//set global params
480	effect->SetFloatArray("occProjToTexMatrix", opttme, 9);
481	effect->SetMatrix("occWorldToProjMatrix", &(lightCamera->GetViewMatrix() *lightCamera->GetProjMatrix()));
482
483	effect->SetTexture("depthMap", depthMapTexture);
484	hr = effect->SetInt("nRadionColumns", NRADIONS / 4096);
485	hr = effect->SetFloatArray("lightPower", (float*)&lightPower, 3);
486	hr = effect->SetFloatArray("lightPos", (float*)&lightPos, 3);
487	hr = effect->SetFloatArray("lightDir", (float*)&lightDir, 3);
488	effect->CommitChanges();
489	drawFullScreenQuad(device);
490	effect->EndPass();
491	}
492	effect->End();
493	}
494	device->EndScene();
495	}
496
497	// read the weights back
498
499	D3DLOCKED_RECT rData;
500	hr = device->GetRenderTargetData(weightsSurface, sysMemWeightsSurface);
501	hr = sysMemWeightsSurface->LockRect(&rData, NULL, D3DLOCK_READONLY);
502	float* allEntryWeights = (float*)rData.pBits;
503
504	// average weights per cluster
505	float sumWeightsAll = 0.0;
506	unsigned int iRadion = 0;
507	for(int iCluster=0; iCluster < NCLUSTERS; iCluster++)
508	{
509	weights[iCluster] = 0.0;
510	float clusterrad = 0.0;
511	for(int clusterSummer=0; clusterSummer < clusterLenghts[iCluster]; clusterSummer++, iRadion++)
512	{
513	float radrad = bushStarters[iRadion].radiance.sum();
514	weights[iCluster] += allEntryWeights[iRadion] * radrad;
515	clusterrad += radrad;
516	}
517	weights[iCluster] /= clusterrad; //(double)clusterLenghts[iCluster];
518	// if(iCluster != TEST_CLUST)
519	// weights[iCluster] = 0.0;
520	// if(weights[iCluster] > 0.005)
521	// weights[iCluster] = 0.005;
522	sumWeightsAll += weights[iCluster];
523	}
524	sysMemWeightsSurface->UnlockRect();
525
526	// 3. pass: render scene using weights to combine PRM texture atlases
527
528
529	device->SetRenderTarget(0, frameColorBuffer);
530	device->SetDepthStencilSurface(frameDepthStencilBuffer);
531	// use backface culling, depth test
532	hr = device->SetRenderState(D3DRS_CULLMODE, D3DCULL_CCW);
533	hr = device->SetRenderState(D3DRS_ZENABLE, D3DZB_TRUE);
534
535	device->Clear( 0, NULL, D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER, D3DCOLOR_XRGB(0,0,0), 1.0f, 0 );
536
537	if( SUCCEEDED( device->BeginScene() ) )
538	{
539	effect->SetTechnique("walk");
540	UINT nPasses;
541	effect->Begin(&nPasses, 0);
542	effect->BeginPass(0);
543
544	static float opttme[9] = {0.5f, 0.0f, 0.0f,
545	0.0f, -0.5f, 0.0f,
546	0.5f + (0.5f / DEPTHMAPRES), 0.5f + (0.5f / DEPTHMAPRES), 1.0f};
547
548	//set global params
549	effect->SetFloatArray("occProjToTexMatrix", opttme, 9);
550	effect->SetMatrix("occWorldToProjMatrix", &(lightCamera->GetViewMatrix() *lightCamera->GetProjMatrix()));
551
552	effect->SetTexture("depthMap", depthMapTexture);
553
554	//loop through entities
555	std::vector<PathMapEffect::Entity>::iterator entityIterator = entities.begin();
556	while(entityIterator != entities.end())
557	{
558	//set entity params
559	// nearestIdx -> bushId
560	float weightsa[NCLUSTERSPERENTITY];
561	for(unsigned int y=0; y<NCLUSTERSPERENTITY; y++)
562	weightsa[y] = weights[entityIterator->nearClusterIndices[y]];
563	hr = effect->SetFloatArray("weightsa", weightsa, NCLUSTERSPERENTITY);
564	effect->SetMatrix("modelToWorldMatrix", &entityIterator->modelWorldTransform);
565	effect->SetMatrix("inverseTransposedModelToWorldMatrix", &entityIterator->inverseTransposedModelWorldTransform);
566	D3DXMATRIX t = entityIterator->modelWorldTransform;
567	if(parameters->Get(bLookFromLight))
568	effect->SetMatrix("modelToProjMatrix", &(entityIterator->modelWorldTransform * lightCamera->GetViewMatrix() *lightCamera->GetProjMatrix() ));
569	else
570	effect->SetMatrix("modelToProjMatrix", &(entityIterator->modelWorldTransform * camera->GetViewMatrix() *camera->GetProjMatrix() ));
571
572	effect->SetTexture("filteredAtlas", entityIterator->prmTexture);
573	hr = effect->SetFloatArray("lightPower", (float*)&lightPower, 3);
574	hr = effect->SetFloatArray("lightPos", (float*)&lightPos, 3);
575	hr = effect->SetFloatArray("lightDir", (float*)&lightDir, 3);
576
577	unsigned int nSubsets = entityIterator->renderMesh->nSubsets;
578	for(int i = 0; i< nSubsets; i++)
579	{
580	//set subset material texture
581	if(entityIterator->renderMesh->textures[i])
582	effect->SetTexture("brdfMap", entityIterator->renderMesh->textures[i]);
583	else
584	effect->SetTexture("brdfMap", emptyTexture);
585	effect->CommitChanges();
586	entityIterator->renderMesh->mesh->DrawSubset(i);
587	}
588	entityIterator++;
589	}
590	effect->EndPass();
591	effect->End();
592	device->EndScene();
593	}
594
595	if(!parameters->Get(bLookFromLight))
596	if( SUCCEEDED( device->BeginScene() ) )
597	{
598	effect->SetTechnique("torch");
599	UINT nPasses;
600	effect->Begin(&nPasses, 0);
601	effect->BeginPass(0);
602
603	effect->SetMatrix("modelToProjMatrix", &(lightCamera->GetWorldMatrix() camera->GetViewMatrix() *camera->GetProjMatrix() ));
604
605	effect->CommitChanges();
606	renderMeshes[renderMeshes.size()-1]->mesh->DrawSubset(0);
607
608	effect->EndPass();
609	effect->End();
610	device->EndScene();
611	}
612
613	}
614
615	HRESULT PathMapEffect::RenderMesh::setVertexFormat(DWORD fvf, LPDIRECT3DDEVICE9 device)
616	{
617	LPD3DXMESH tempMesh;
618
619	//clone the mesh to the appropriate format
620	HRESULT hr = mesh->CloneMeshFVF( mesh->GetOptions(),
621	fvf ,
622	device, &tempMesh );
623	if(hr == S_OK)
624	{
625	DWORD* padj = new DWORD[mesh->GetNumFaces() * 3];
626	mesh->GenerateAdjacency(0.00001f, padj);
627	delete padj;
628	//forget he old mesh
629	mesh->Release();
630	//use the cloned mesh
631	mesh = tempMesh;
632	}
633	return hr;
634	}
635
636	void PathMapEffect::renderFullScreen(float depth)
637	{
638	float fLeftU = 0.0f, fTopV = 0.0f, fRightU = 1.0f, fBottomV = 1.0f;
639
640	D3DSURFACE_DESC dtdsdRT;
641	PDIRECT3DSURFACE9 pSurfRT;
642
643	// Acquire render target width and height
644	device->GetRenderTarget(0, &pSurfRT);
645	pSurfRT->GetDesc(&dtdsdRT);
646	pSurfRT->Release();
647
648	// Ensure that we're directly mapping texels to pixels by offset by 0.5
649	// For more info see the doc page titled "Directly Mapping Texels to Pixels"
650	FLOAT fWidth5 = (FLOAT)dtdsdRT.Width - 0.5f;
651	FLOAT fHeight5 = (FLOAT)dtdsdRT.Height - 0.5f;
652
653	// Draw the quad
654	struct D3DVERTEX{
655	D3DXVECTOR3 pos;
656	D3DXVECTOR2 tex0;
657	};
658
659	D3DVERTEX svQuad[4];
660
661	svQuad[0].pos=D3DXVECTOR3(-1, 1, depth);
662	svQuad[0].tex0 = D3DXVECTOR2(fLeftU, fTopV);
663
664	svQuad[1].pos = D3DXVECTOR3(1, 1, depth);
665	svQuad[1].tex0 = D3DXVECTOR2(fRightU, fTopV);
666
667	svQuad[2].pos = D3DXVECTOR3(-1, -1, depth);
668	svQuad[2].tex0 = D3DXVECTOR2(fLeftU, fBottomV);
669
670	svQuad[3].pos = D3DXVECTOR3(1, -1, depth);
671	svQuad[3].tex0 = D3DXVECTOR2(fRightU, fBottomV);
672
673	device->SetRenderState(D3DRS_CULLMODE,D3DCULL_NONE);
674	device->SetFVF(D3DFVF_XYZ \| D3DFVF_TEX1 \| D3DFVF_TEXCOORDSIZE2(0));
675	device->DrawPrimitiveUP(D3DPT_TRIANGLESTRIP, 2, svQuad, sizeof(D3DVERTEX));
676	}
677
678	void PathMapEffect::move(float fElapsedTime)
679	{
680	//apply some rotation to one of the entities
681	if(parameters->Get(bTurbo))
682	{
683	camera->FrameMove(fElapsedTime * 10.0f);
684	lightCamera->FrameMove(fElapsedTime * 10.0f);
685	}
686	else
687	{
688	camera->FrameMove(fElapsedTime);
689	lightCamera->FrameMove(fElapsedTime);
690	}
691	/* D3DXMATRIX rot;
692	D3DXMatrixRotationY(&rot, fElapsedTime * 0.1f);
693	D3DXMatrixMultiply( &entities.at(0).modelWorldTransform,
694	&rot,
695	&entities.at(0).modelWorldTransform);
696	D3DXMatrixInverse( &entities.at(0).inverseTransposedModelWorldTransform, NULL,
697	&entities.at(0).modelWorldTransform);
698	D3DXMatrixTranspose( &entities.at(0).inverseTransposedModelWorldTransform, &entities.at(0).inverseTransposedModelWorldTransform);
699
700	if(entities.size() > 1)
701	{
702	D3DXMatrixTranslation(&entities.at(1).modelWorldTransform, 0.0f, parameters->Get(fSecondModelHeight) * 5.0f , 0.0f);
703	D3DXMatrixTranslation(&entities.at(1).inverseTransposedModelWorldTransform, 0.0f, -parameters->Get(fSecondModelHeight) * 5.0f , 0.0f);
704	}*/
705	}
706
707	LRESULT PathMapEffect::handleMessage( HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam)
708
709	{
710	if(parameters->Get(bMoveLight))
711	return lightCamera->HandleMessages(hWnd, uMsg, wParam, lParam);
712	else
713	return camera->HandleMessages(hWnd, uMsg, wParam, lParam);
714	}
715
716	void PathMapEffect::addUiParameters(Parameters* parameters)
717	{
718	PathMapEffect::parameters = parameters;
719	parameters->Add( bLookFromLight, "Look from light", 1);
720	parameters->Add( bMoveLight, "Move light", 1);
721	parameters->Add( bDots, "Entry points", 1);
722	parameters->Add( bTurbo, "Turbo", 1);
723	parameters->Add( fLightScale, "Tone scale", 100, 'V', 'B', convert100);
724	}
725
726	void PathMapEffect::setUiParameterDefaults(Parameters* parameters)
727	{
728	}
729
730	Parameters* PathMapEffect::parameters = NULL;
731
732	void PathMapEffect::render()
733	{
734	if(method == Method::PRM)
735	renderWithPRM();
736	else
737	showPRMTexture();
738	if(parameters->Get(bDots))
739	{
740	float psf = 8.0f;
741	HRESULT hr = device->SetRenderState(D3DRS_POINTSIZE, ((DWORD)&psf));
742	hr = device->SetRenderState(D3DRS_ZENABLE, D3DZB_TRUE);
743	if( SUCCEEDED( device->BeginScene() ) )
744	{
745	D3DXHANDLE hTechnique = NULL;
746	hTechnique = effect->GetTechniqueByName((LPSTR)"Dots");
747	effect->SetTechnique( hTechnique );
748	UINT nPasses = 0;
749	effect->Begin( &nPasses, 0 );
750	for(UINT j=0;j<nPasses;j++){
751	effect->BeginPass(j);
752	hr = effect->SetTexture("depthMap",depthMapTexture);
753	if(parameters->Get(bLookFromLight))
754	effect->SetMatrix("worldToProjMatrix", &(lightCamera->GetViewMatrix() *lightCamera->GetProjMatrix() ));
755	else
756	effect->SetMatrix("worldToProjMatrix", &(camera->GetViewMatrix() *camera->GetProjMatrix() ));
757
758	static float opttme[9] = {0.5f, 0.0f, 0.0f,
759	0.0f, -0.5f, 0.0f,
760	0.5f + (0.5f / DEPTHMAPRES), 0.5f + (0.5f / DEPTHMAPRES), 1.0f};
761
762	effect->SetFloatArray("occProjToTexMatrix", opttme, 9);
763	D3DXVECTOR3 lightPos = *lightCamera->GetEyePt();
764	hr = effect->SetFloatArray("lightPos", (float*)&lightPos, 3);
765	effect->CommitChanges();
766	hr = device->SetFVF(D3DFVF_XYZ \| D3DFVF_NORMAL);
767	hr = device->SetStreamSource(0, starterVertexBuffer, 0, sizeof(float) * 6);
768	UINT offset = 0;
769	for(int iClusterDraw=0; iClusterDraw < NCLUSTERS; iClusterDraw++)
770	{
771	hr = effect->SetFloat("aClusterWeight", weights[iClusterDraw] * 10.0);
772	effect->CommitChanges();
773	// if(iClusterDraw == TEST_CLUST)
774	device->DrawPrimitive(D3DPT_POINTLIST, offset, clusterLenghts[iClusterDraw]);
775	offset += clusterLenghts[iClusterDraw];
776	}
777	effect->EndPass();
778	}
779	effect->End();
780	}
781	device->EndScene();
782	}
783	}
784
785	void PathMapEffect::Entity::createRayTraceEntity()
786	{
787	rayTraceEntity = new Transformed(renderMesh->rayTraceMesh);
788	rayTraceEntity->setTransforms(modelWorldTransform, inverseTransposedModelWorldTransform);
789	}
790
791	void PathMapEffect::releaseEntities()
792	{
793	std::vector<PathMapEffect::Entity>::iterator entityIterator = entities.begin();
794	while(entityIterator != entities.end())
795	{
796	delete entityIterator->rayTraceEntity;
797	entityIterator->prmSurface->Release();
798	entityIterator->prmTexture->Release();
799	entityIterator++;
800	}
801	}
802
803	void PathMapEffect::sampleSphereDirection(Vector& outDir)
804	{
805	do{
806	outDir = Vector(-1.0 + 2.0 * (float)rand() / RAND_MAX, -1.0 + 2.0 * (float)rand() / RAND_MAX, -1.0 + 2.0 * (float)rand() / RAND_MAX);
807	}while(outDir.norm2() > 1.0);
808	outDir.normalize();
809	}
810
811	void PathMapEffect::sampleShootingDiffuseDirection(int depth, const Vector& normal, Vector& outDir)
812	{
813	Vector u, v;
814	if(fabsf(normal[0]) < 0.9f)
815	{
816	u.set(0.0f, -normal[2], normal[1]);
817	u = 1.0f / sqrtf(normal[2] normal[2] + normal[1] * normal[1]);
818	}
819	else
820	{
821	u.set(normal[2], 0.0f, -normal[0]);
822	u = 1.0f / sqrtf(normal[2] normal[2] + normal[0] * normal[0]);
823	}
824	v.setCrossProduct(normal, u);
825
826	float phi = 2.0f * 3.14159265358979323846f * (float)rand() / RAND_MAX;
827	float xi2 = (float)rand() / RAND_MAX;
828	float cosPhi = cos(phi);
829	float sinPhi = sin(phi);
830	float cosTheta = sqrtf(xi2);
831	float sinTheta = sqrtf(1.0f - xi2);
832
833	outDir.setScaled(sinTheta * cosPhi, v);
834	outDir.addScaled(sinTheta * sinPhi, u);
835	outDir.addScaled(cosTheta, normal);
836	}
837
838	void PathMapEffect::createPRMTextures()
839	{
840	std::vector<PathMapEffect::Entity>::iterator entityIterator = entities.begin();
841	while(entityIterator != entities.end())
842	{
843	device->CreateTexture(128 * 32, 128 * NCLUSTERSPERENTITY / 32, 1, D3DUSAGE_RENDERTARGET,D3DFMT_A16B16G16R16F,D3DPOOL_DEFAULT,&entityIterator->prmTexture,NULL);
844	entityIterator->prmTexture->GetSurfaceLevel(0,&entityIterator->prmSurface);
845	entityIterator++;
846	}
847	}
848
849	void PathMapEffect::precompute()
850	{
851	// generate entry points
852	for(unsigned int cRad=0; cRad < NRADIONS; cRad++)
853	{
854	Radion starter;
855	sampleSurfaceRadion(starter);
856	//sampleSurfaceRadionUniform(starter);
857	bushStarters.push_back(starter);
858	}
859
860	// sort entry radions into clusters
861	Radion* entryArray = (Radion)&bushStarters.begin();
862	clusterRadions(entryArray, bushStarters.size(), 0);
863	clusterRadionsKMeans();
864
865	// for every entity, find the most relevant clusters
866	std::vector<PathMapEffect::Entity>::iterator entityIterator = entities.begin();
867	while(entityIterator != entities.end())
868	{
869	entityIterator->findNearClusters(bushStarters, NCLUSTERS);
870	entityIterator++;
871	}
872
873	// for every entry radion, shoot a bush of radions, and add their
874	// contributions to all PRMs of all entities
875	unsigned int iCluster = 0;
876	std::vector<Radion> bushRadions;
877	for(int iStarter = 0; iStarter < NRADIONS; )
878	{
879	bushRadions.clear();
880	for(int iric=0; iric < clusterLenghts[iCluster]; iric++, iStarter++)
881	shootRadionBush(bushStarters[iStarter], bushRadions);
882	std::vector<PathMapEffect::Entity>::iterator entityIterator = entities.begin();
883	while(entityIterator != entities.end())
884	{
885	entityIterator->renderPRM(device, effect, bushRadions, iCluster, 1.0);
886	entityIterator++;
887	}
888	iCluster++;
889	}
890	}
891
892	int compareX(const void* a, const void* b)
893	{
894	if( ((const Radion)a)->position.x < ((const Radion)b)->position.x )
895	return -1;
896	else
897	return 1;
898	}
899
900	int compareY(const void* a, const void* b)
901	{
902	if( ((const Radion)a)->position.y < ((const Radion)b)->position.y )
903	return -1;
904	else
905	return 1;
906	}
907
908	int compareZ(const void* a, const void* b)
909	{
910	if( ((const Radion)a)->position.z < ((const Radion)b)->position.z )
911	return -1;
912	else
913	return 1;
914	}
915
916	int compareDirX(const void* a, const void* b)
917	{
918	if( ((const Radion)a)->normal.x < ((const Radion)b)->normal.x )
919	return -1;
920	else
921	return 1;
922	}
923
924	int compareDirY(const void* a, const void* b)
925	{
926	if( ((const Radion)a)->normal.y < ((const Radion)b)->normal.y )
927	return -1;
928	else
929	return 1;
930	}
931
932	int compareDirZ(const void* a, const void* b)
933	{
934	if( ((const Radion)a)->normal.z < ((const Radion)b)->normal.z )
935	return -1;
936	else
937	return 1;
938	}
939
940
941	void PathMapEffect::clusterRadionsKMeans()
942	{
943	Radion centroids[NCLUSTERS];
944	std::vector<Radion> clusters[NCLUSTERS];
945	//initial clusters: uniform length
946	for(unsigned int i=0; i<NCLUSTERS; i++)
947	clusterLenghts[i] = NRADIONS / NCLUSTERS;
948	for(unsigned int iKMeans = 0; iKMeans < 128; iKMeans++)
949	{
950	//find centroids
951	unsigned int iRadion = 0;
952	for(unsigned int i=0; i<NCLUSTERS; i++)
953	{
954	centroids[i].position = Vector::RGBBLACK;
955	centroids[i].normal = Vector::RGBBLACK;
956	for(unsigned int iRadionInCluster=0; iRadionInCluster < clusterLenghts[i]; iRadionInCluster++, iRadion++)
957	{
958	centroids[i].position += bushStarters.at(iRadion).position;
959	centroids[i].normal += bushStarters.at(iRadion).normal;
960	}
961	centroids[i].position *= 1.0f / (float)clusterLenghts[i];
962	centroids[i].normal.normalize();
963	}
964
965	for(unsigned int i=0; i<NCLUSTERS; i++)
966	clusters[i].clear();
967
968	//sort radions to centroids
969	iRadion = 0;
970	for(unsigned int i=0; i<NCLUSTERS; i++)
971	{
972	for(unsigned int iRadionInCluster=0; iRadionInCluster < clusterLenghts[i]; iRadionInCluster++, iRadion++)
973	{
974	unsigned int minimumDistanceClusterIndex = 0;
975	float minimumDistance = FLT_MAX;
976	for(unsigned int u=0; u<NCLUSTERS; u++)
977	{
978	float dirDist = (bushStarters.at(iRadion).normal * centroids[u].normal);
979	float dist = (bushStarters.at(iRadion).position - centroids[u].position).norm() * pow(6.0, 1.0 - (double)dirDist);
980	if(dist < minimumDistance)
981	{
982	minimumDistanceClusterIndex = u;
983	minimumDistance = dist;
984	}
985	}
986	clusters[minimumDistanceClusterIndex].push_back( bushStarters.at(iRadion) );
987	}
988	}
989	//refill bushStarters, set cluster lengths
990	iRadion = 0;
991	for(unsigned int i=0; i<NCLUSTERS; i++)
992	{
993	clusterLenghts[i] = clusters[i].size();
994	for(unsigned int iRadionInCluster=0; iRadionInCluster < clusterLenghts[i]; iRadionInCluster++, iRadion++)
995	{
996	bushStarters.at(iRadion) = clusters[i].at(iRadionInCluster);
997	}
998	}
999	//eliminate empty clusters
1000	for(unsigned int i=1; i<NCLUSTERS; i++)
1001	{
1002	if(clusterLenghts[i] == 0)
1003	{
1004	clusterLenghts[i] = clusterLenghts[i-1] >> 1;
1005	clusterLenghts[i-1] -= clusterLenghts[i-1] >> 1;
1006	}
1007	}
1008	for(int i=NCLUSTERS - 1; i >= 0; i--)
1009	{
1010	if(clusterLenghts[i] == 0)
1011	{
1012	clusterLenghts[i] = clusterLenghts[i+1] >> 1;
1013	clusterLenghts[i+1] -= clusterLenghts[i+1] >> 1;
1014	}
1015	}
1016	}
1017	}
1018
1019	int PathMapEffect::clusterRadions(Radion* partition, int psize, char axis)
1020	{
1021	/* if(psize < 2)
1022	return 1;
1023	if(axis == 0)
1024	qsort(partition, psize, sizeof(Radion), compareDirX);
1025	else if(axis == 1)
1026	qsort(partition, psize, sizeof(Radion), compareDirY);
1027	else if(axis == 2)
1028	qsort(partition, psize, sizeof(Radion), compareDirZ);
1029	else if(axis == 3)
1030	qsort(partition, psize, sizeof(Radion), compareX);
1031	else if(axis == 4)
1032	qsort(partition, psize, sizeof(Radion), compareY);
1033	else if(axis == 5)
1034	qsort(partition, psize, sizeof(Radion), compareZ);
1035	clusterRadions(partition, psize >> 1, (axis+1)%6);
1036	clusterRadions(partition + (psize >> 1), psize - (psize >> 1), (axis+1)%6);
1037	return 1;
1038	/*/ if(psize < 2)
1039	return 1;
1040	if(axis == 0)
1041	qsort(partition, psize, sizeof(Radion), compareX);
1042	else if(axis == 1)
1043	qsort(partition, psize, sizeof(Radion), compareY);
1044	else if(axis == 2)
1045	qsort(partition, psize, sizeof(Radion), compareZ);
1046	clusterRadions(partition, psize >> 1, (axis+1)%3);
1047	clusterRadions(partition + (psize >> 1), psize - (psize >> 1), (axis+1)%3);
1048	return 1;//*/
1049	}
1050
1051
1052	void PathMapEffect::shootRadionBush(Radion& starter, std::vector<Radion>& bushRadions)
1053	{
1054	bushRadions.push_back(starter);
1055
1056	int nPhotonsShotForLight = 1; //branching factor
1057	for(int iPhoton = 0; iPhoton < nPhotonsShotForLight; iPhoton++)
1058	{
1059	unsigned int depth = 0;
1060	ray.id = rayId++;
1061	ray.isShadowRay = false;
1062	ray.origin = starter.position;
1063	Vector power = starter.radiance;
1064	float prob = starter.probability;
1065	prob *= nPhotonsShotForLight;
1066	power *= 1.0f / nPhotonsShotForLight;
1067	sampleShootingDiffuseDirection(depth, starter.normal, ray.dir);
1068
1069	for(;;depth++)
1070	{
1071	kdtree->traverse(ray, hitRec, 0.0f, FLT_MAX);
1072	if(hitRec.isIntersect)
1073	{
1074	Radion nr;
1075	nr.position = hitRec.point;
1076	nr.normal = hitRec.normal;
1077	nr.radiance = power;
1078	nr.radiance %= hitRec.material->getTextureDiffuseBrdf(hitRec.texUV);
1079	nr.probability = prob;
1080	bushRadions.push_back(nr);
1081	}
1082	else
1083	break;
1084	if(depth >= 3)
1085	break;
1086	float rrRandom = (float)rand() / RAND_MAX;
1087	float diffuseAlbedo = hitRec.material->getTextureDiffuseAlbedo(hitRec.texUV);
1088	float idealAlbedo = hitRec.material->getTextureIdealAlbedo(hitRec.texUV);
1089	float refractiveAlbedo = hitRec.material->getRefractiveAlbedo();
1090	if(rrRandom < diffuseAlbedo)
1091	{
1092	ray.id = rayId++;
1093	ray.isShadowRay = false;
1094	ray.origin = hitRec.point;
1095	power %= hitRec.material->getTextureDiffuseBrdf(hitRec.texUV);
1096	power *= 1.0f / diffuseAlbedo;
1097	prob *= diffuseAlbedo;
1098	sampleShootingDiffuseDirection(depth, hitRec.normal, ray.dir);
1099	}
1100	else
1101	{
1102	rrRandom -= diffuseAlbedo;
1103	if(rrRandom < idealAlbedo)
1104	{
1105	ray.dir.setIdealReflectedDirection(ray.dir, hitRec.normal);
1106	ray.id = rayId++;
1107	ray.isShadowRay = false;
1108	ray.origin = hitRec.point;
1109	power %= hitRec.material->getIdealBrdf();
1110	power *= 1.0f / idealAlbedo;
1111	prob *= idealAlbedo;
1112	}
1113	else
1114	break;
1115	}
1116	}
1117	}
1118	}
1119
1120	void PathMapEffect::sampleSurfaceRadion(Radion& starter)
1121	{
1122	float randa = ((double)rand() / RAND_MAX) * entities.size();
1123	// float randa = ((double)rand() / RAND_MAX) * sumSurfaceArea;
1124	float uptonowSurfaceArea = 0.0;
1125	Entity* e = NULL;
1126	std::vector<PathMapEffect::Entity>::iterator entityIterator = entities.begin();
1127	while(entityIterator != entities.end())
1128	{
1129	uptonowSurfaceArea += 1.0f;
1130	// uptonowSurfaceArea += entityIterator->rayTraceEntity->getSurfaceArea();
1131	if(uptonowSurfaceArea >= randa)
1132	{
1133	e = &*entityIterator;
1134	break;
1135	}
1136	entityIterator++;
1137	}
1138
1139	e->rayTraceEntity->sampleSurface(starter);
1140
1141	float surfa = starter.radiance.z;
1142	starter.radiance = e->rayTraceEntity->getMaterial()->getTextureDiffuseBrdf(starter.radiance);
1143	starter.radiance = (surfa / NRADIONS) entities.size();
1144	// starter.radiance *= sumSurfaceArea / NRADIONS;
1145	starter.probability = (float)NRADIONS / (entities.size() * surfa );
1146	}
1147
1148	void PathMapEffect::sampleSurfaceRadionUniform(Radion& starter)
1149	{
1150	float randa = ((double)rand() / RAND_MAX) * sumSurfaceArea;
1151	float uptonowSurfaceArea = 0.0;
1152	Entity* e = NULL;
1153	std::vector<PathMapEffect::Entity>::iterator entityIterator = entities.begin();
1154	while(entityIterator != entities.end())
1155	{
1156	uptonowSurfaceArea += entityIterator->rayTraceEntity->getSurfaceArea();
1157	if(uptonowSurfaceArea >= randa)
1158	{
1159	e = &*entityIterator;
1160	break;
1161	}
1162	entityIterator++;
1163	}
1164
1165	e->rayTraceEntity->sampleSurface(starter);
1166
1167	float surfa = starter.radiance.z;
1168	starter.radiance = e->rayTraceEntity->getMaterial()->getTextureDiffuseBrdf(starter.radiance);
1169	starter.radiance *= sumSurfaceArea / NRADIONS;
1170	starter.probability = NRADIONS / sumSurfaceArea;
1171	}
1172
1173
1174	void PathMapEffect::Entity::renderPRM(LPDIRECT3DDEVICE9 device,
1175	LPD3DXEFFECT effect,
1176	std::vector<Radion>& bushRadions,
1177	unsigned int bushId,
1178	float scaleFactor
1179	)
1180	{
1181	HRESULT hr; UINT nPasses=1;
1182
1183	//# bushId -> nearestIdx
1184	int radinx = 0xffffff;
1185	for(int i=0; i<NCLUSTERSPERENTITY; i++)
1186	if(nearClusterIndices[i] == bushId)
1187	radinx = i;
1188	if(radinx == 0xffffff)
1189	return;
1190
1191	hr = device->SetRenderTarget(0, prmSurface);
1192	int tilex = radinx % 32;
1193	int tiley = radinx / 32;
1194
1195	D3DVIEWPORT9 vp;
1196	vp.X = tilex * 128; vp.Y = tiley * 128;
1197	vp.Width = vp.Height = 128;
1198	vp.MinZ = 0.0; vp.MaxZ = 1.0;
1199
1200	//clear everything
1201	device->SetRenderTarget(0, prmSurface);
1202	device->SetDepthStencilSurface(owner->prmBlendingDepthStencilBuffer);
1203	device->SetViewport(&vp);
1204
1205	device->Clear( 0, NULL, D3DCLEAR_TARGET,
1206	D3DCOLOR_RGBA(0,0,0,0), 1.0f, 0 );
1207
1208	unsigned int nRadions = bushRadions.size();
1209	for(int ir=0; ir < nRadions; ir++)
1210	{
1211	// 1. pass render depth map for virtual light source
1212	device->SetRenderTarget(0, owner->fakeSurface);
1213	device->SetDepthStencilSurface(owner->depthMapDepthStencilBuffer);
1214
1215	device->SetRenderState(D3DRS_COLORWRITEENABLE, 0);
1216
1217	device->Clear( 0, NULL, D3DCLEAR_ZBUFFER, D3DCOLOR_ARGB(255, 0, 0, 0), 1.0f, 0 );
1218
1219	CFirstPersonCamera radionCamera;
1220	radionCamera.SetViewParams((D3DXVECTOR3)&bushRadions[ir].position, (D3DXVECTOR3)&(bushRadions[ir].position + bushRadions[ir].normal));
1221	radionCamera.SetProjParams( D3DX_PI/1.9, 1.0f, 0.1f, 300.0f );
1222
1223	// render backfaces to avoid z-fighting
1224	device->SetRenderState(D3DRS_CULLMODE, D3DCULL_CW);
1225	if( SUCCEEDED( device->BeginScene() ) )
1226	{
1227	effect->SetTechnique("Depth");
1228	UINT nPasses;
1229	effect->Begin(&nPasses, 0);
1230	effect->BeginPass(0);
1231	//loop through all entities, all mesh subsets, set proper transformations
1232
1233	std::vector<PathMapEffect::Entity>::iterator entityIterator = owner->entities.begin();
1234	while(entityIterator != owner->entities.end())
1235	{
1236	effect->SetMatrix("modelToProjMatrix",
1237	&( entityIterator->modelWorldTransform * radionCamera.GetViewMatrix() *radionCamera.GetProjMatrix() ) );
1238	effect->CommitChanges();
1239	unsigned int nSubsets = entityIterator->renderMesh->nSubsets;
1240	for(int i = 0; i< nSubsets; i++)
1241	{
1242	entityIterator->renderMesh->mesh->DrawSubset(i);
1243	}
1244	entityIterator++;
1245	}
1246
1247	effect->EndPass();
1248	effect->End();
1249	device->EndScene();
1250	}
1251
1252	device->SetRenderState(D3DRS_CULLMODE, D3DCULL_CCW);
1253	device->SetRenderState(D3DRS_COLORWRITEENABLE, D3DCOLORWRITEENABLE_RED \| D3DCOLORWRITEENABLE_GREEN \| D3DCOLORWRITEENABLE_BLUE \| D3DCOLORWRITEENABLE_ALPHA);
1254
1255	// blend-add contribution of virtual light source to PRM
1256	device->SetRenderTarget(0, prmSurface);
1257	device->SetDepthStencilSurface(owner->prmBlendingDepthStencilBuffer);
1258	device->SetViewport(&vp);
1259	device->SetRenderState(D3DRS_CULLMODE, D3DCULL_NONE);
1260	device->SetRenderState(D3DRS_ALPHABLENDENABLE, true);
1261	device->SetRenderState(D3DRS_SRCBLEND, D3DBLEND_ONE);
1262	device->SetRenderState(D3DRS_DESTBLEND, D3DBLEND_ONE);
1263	device->SetRenderState(D3DRS_BLENDOP, D3DBLENDOP_ADD);
1264	device->SetRenderState(D3DRS_ZENABLE, D3DZB_FALSE);
1265
1266	// use stencil to avoid adding contribution twice
1267	HRESULT hr = device->Clear( 0, NULL, D3DCLEAR_STENCIL,
1268	D3DCOLOR_RGBA(0,0,0,0), 1.0f, 0 );
1269	if( SUCCEEDED( device->BeginScene() ) )
1270	{
1271	Radion radion = bushRadions[ir];
1272
1273	if( effect != NULL ){
1274	D3DXHANDLE hTechnique = effect->GetTechniqueByName((LPSTR)"BushToAtlas");
1275	if(hTechnique==NULL){
1276	return;
1277	}
1278	effect->SetTechnique( hTechnique );
1279
1280	effect->Begin( &nPasses, 0 );
1281	for(UINT j=0;j<nPasses;j++){
1282	effect->BeginPass(j);
1283	Vector fakejake = bushRadions[ir].position;
1284	fakejake = bushRadions[ir].normal;
1285	fakejake = bushRadions[ir].radiance;
1286	hr=effect->SetFloatArray("lightPos", (float*)&bushRadions[ir].position, 3);
1287	hr=effect->SetFloatArray("lightDir", (float*)&bushRadions[ir].normal, 3);
1288	static float opttme[9] = {0.5f, 0.0f, 0.0f,
1289	0.0f, -0.5f, 0.0f,
1290	0.5f + (0.5f / DEPTHMAPRES), 0.5f + (0.5f / DEPTHMAPRES), 1.0f};
1291	effect->SetTexture("depthMap", owner->depthMapTexture);
1292
1293	Vector bb0 = this->rayTraceEntity->bbox.minPoint;
1294	Vector bb1 = this->rayTraceEntity->bbox.maxPoint;
1295	//effect->SetFloat("cutNearness2", (bb1 - bb0).norm2() / 200.0f);
1296	float nne = 5.0f / bushRadions[ir].probability;
1297	float onne = (bb1 - bb0).norm2() / 200.0f;
1298	effect->SetFloat("cutNearness2", nne);
1299	//effect->SetFloat("cutNearness2", 0.0f);
1300
1301	//set global params
1302	effect->SetFloatArray("occProjToTexMatrix", opttme, 9);
1303	effect->SetMatrix("occWorldToProjMatrix", &(radionCamera.GetViewMatrix() *radionCamera.GetProjMatrix()));
1304	effect->SetMatrix("modelToWorldMatrix", &(this->modelWorldTransform));
1305	effect->SetMatrix("inverseTransposedModelToWorldMatrix", &(this->inverseTransposedModelWorldTransform));
1306	Vector scaledPower = bushRadions[ir].radiance * scaleFactor;
1307	hr=effect->SetFloatArray("lightPower", (float*)&scaledPower, 3);
1308
1309	hr = device->SetRenderState(D3DRS_STENCILENABLE, true);
1310	hr = device->SetRenderState(D3DRS_STENCILREF, 0xffffffff);
1311	hr = device->SetRenderState(D3DRS_STENCILFUNC, D3DCMP_ALWAYS);
1312	hr = device->SetRenderState(D3DRS_STENCILPASS, D3DSTENCILOP_REPLACE);
1313
1314	effect->CommitChanges();
1315
1316	renderMesh->mesh->DrawSubset(0);
1317
1318	hr = device->SetRenderState(D3DRS_STENCILFUNC, D3DCMP_NOTEQUAL);
1319	scaledPower = bushRadions[ir].radiance * 1.0f ;
1320	hr=effect->SetFloatArray("lightPower", (float*)&scaledPower, 3);
1321	effect->CommitChanges();
1322
1323	if(renderMesh->nEdges)
1324	{
1325	device->SetStreamSource(0, renderMesh->edgeVertexBuffer, 0, sizeof(D3DVERTEX));
1326	device->DrawPrimitive(D3DPT_LINELIST, 0, renderMesh->nEdges);
1327	}
1328
1329	effect->EndPass();
1330	}
1331	effect->End();
1332	}
1333	device->EndScene();
1334	device->SetRenderState(D3DRS_STENCILENABLE, false);
1335	device->SetRenderState(D3DRS_CULLMODE, D3DCULL_CCW);
1336	device->SetRenderState(D3DRS_ALPHABLENDENABLE, false);
1337	device->SetRenderState(D3DRS_ZENABLE, D3DZB_TRUE);
1338	}
1339	}
1340	}
1341
1342	void PathMapEffect::drawFullScreenQuad(LPDIRECT3DDEVICE9 device, float depth, float fLeftU, float fTopV, float fRightU, float fBottomV)
1343	{
1344	D3DSURFACE_DESC dtdsdRT;
1345	PDIRECT3DSURFACE9 pSurfRT;
1346
1347	// Acquire render target width and height
1348	device->GetRenderTarget(0, &pSurfRT);
1349	pSurfRT->GetDesc(&dtdsdRT);
1350	pSurfRT->Release();
1351
1352	// Ensure that we're directly mapping texels to pixels by offset by 0.5
1353	// For more info see the doc page titled "Directly Mapping Texels to Pixels"
1354	FLOAT fWidth5 = (FLOAT)dtdsdRT.Width - 0.5f;
1355	FLOAT fHeight5 = (FLOAT)dtdsdRT.Height - 0.5f;
1356
1357	// Draw the quad
1358	D3DVERTEX svQuad[4];
1359
1360	svQuad[0].pos=D3DXVECTOR3(-1, 1, depth);
1361	svQuad[0].normal=D3DXVECTOR3(0,0,0);
1362	svQuad[0].tex0 = D3DXVECTOR2(fLeftU, fTopV);
1363
1364	svQuad[1].pos = D3DXVECTOR3(1, 1, depth);
1365	svQuad[1].normal = D3DXVECTOR3(0,0,0);
1366	svQuad[1].tex0 = D3DXVECTOR2(fRightU, fTopV);
1367
1368	svQuad[2].pos = D3DXVECTOR3(-1, -1, depth);
1369	svQuad[2].normal = D3DXVECTOR3(0,0,0);
1370	svQuad[2].tex0 = D3DXVECTOR2(fLeftU, fBottomV);
1371
1372	svQuad[3].pos = D3DXVECTOR3(1, -1, depth);
1373	svQuad[3].normal = D3DXVECTOR3(0,0,0);
1374	svQuad[3].tex0 = D3DXVECTOR2(fRightU, fBottomV);
1375
1376	device->SetRenderState(D3DRS_CULLMODE,D3DCULL_NONE);
1377	device->SetFVF(D3DFVF_XYZ \| D3DFVF_NORMAL \| D3DFVF_TEX1 \| D3DFVF_TEXCOORDSIZE2(0));
1378	device->DrawPrimitiveUP(D3DPT_TRIANGLESTRIP, 2, svQuad, sizeof(D3DVERTEX));
1379	}
1380
1381	void PathMapEffect::showPRMTexture()
1382	{
1383	device->SetRenderTarget(0, frameColorBuffer);
1384	device->SetDepthStencilSurface(frameDepthStencilBuffer);
1385
1386	device->Clear( 0, NULL, D3DCLEAR_TARGET \| D3DCLEAR_ZBUFFER, D3DCOLOR_XRGB(0,0,0), 1.0f, 0 );
1387
1388	if( SUCCEEDED( device->BeginScene() ) ){
1389	if( effect != NULL ){
1390	D3DXHANDLE hTechnique = effect->GetTechniqueByName((LPSTR)"ShowTex");
1391	if(hTechnique==NULL){
1392	return;
1393	}
1394	effect->SetTechnique( hTechnique );
1395	UINT nPasses = 0;
1396	effect->Begin( &nPasses, 0 );
1397	for(UINT j=0;j<nPasses;j++){
1398	effect->BeginPass(j);
1399
1400	//loop through entities
1401	std::vector<PathMapEffect::Entity>::iterator entityIterator = entities.begin();
1402	//while(entityIterator != entities.end())
1403	{
1404	//set entity params
1405	effect->SetMatrix("modelToWorldMatrix", &entityIterator->modelWorldTransform);
1406	effect->SetMatrix("inverseTransposedModelToWorldMatrix", &entityIterator->inverseTransposedModelWorldTransform);
1407	D3DXMATRIX t = entityIterator->modelWorldTransform;
1408	if(parameters->Get(bLookFromLight))
1409	effect->SetMatrix("modelToProjMatrix", &(entityIterator->modelWorldTransform * lightCamera->GetViewMatrix() *lightCamera->GetProjMatrix() ));
1410	else
1411	effect->SetMatrix("modelToProjMatrix", &(entityIterator->modelWorldTransform * camera->GetViewMatrix() *camera->GetProjMatrix() ));
1412
1413	effect->SetTexture("filteredAtlas", entityIterator->prmTexture);
1414
1415	unsigned int nSubsets = entityIterator->renderMesh->nSubsets;
1416	for(int i = 0; i< nSubsets; i++)
1417	{
1418	//set subset material texture
1419	effect->SetTexture("texToShow", entityIterator->prmTexture);
1420	effect->CommitChanges();
1421	drawFullScreenQuad(device);
1422	// effect->CommitChanges();
1423	// entityIterator->renderMesh->mesh->DrawSubset(i);
1424	}
1425	entityIterator++;
1426	}
1427	effect->EndPass();
1428	}
1429	effect->End();
1430	}
1431	device->EndScene();
1432	}
1433
1434	}
1435
1436	void PathMapEffect::RenderMesh::buildEdgeVertexBuffer(LPDIRECT3DDEVICE9 device)
1437	{
1438	LPD3DXMESH pMesh = this->mesh;
1439	DWORD* pAdj = new DWORD[3 * pMesh->GetNumFaces()];
1440	for(int r=0; r<pMesh->GetNumFaces()*3; r++)
1441	pAdj[r] = 0xffff;
1442	pMesh->ConvertPointRepsToAdjacency(NULL, pAdj);
1443
1444	LPDIRECT3DVERTEXBUFFER9 vertexBuffer;
1445	pMesh->GetVertexBuffer(&vertexBuffer);
1446	D3DVERTEX* vertexData;
1447	vertexBuffer->Lock(0,pMesh->GetNumVertices()pMesh->GetNumBytesPerVertex(),(void*)&vertexData,0);
1448	LPDIRECT3DINDEXBUFFER9 indexBuffer;
1449	pMesh->GetIndexBuffer(&indexBuffer);
1450	unsigned short* indexData;
1451	indexBuffer->Lock(0,pMesh->GetNumFaces()3sizeof(unsigned short),(void**)&indexData,0);
1452
1453
1454	int countEdges = 0;
1455	for(int u=0; u<pMesh->GetNumFaces(); u++)
1456	for(int t=0; t<3; t++)
1457	if(pAdj[u * 3 + t] >= pMesh->GetNumFaces())
1458	countEdges++;
1459
1460	if(countEdges == 0)
1461	{
1462	edgeVertexBuffer = NULL;
1463	nEdges = 0;
1464	vertexBuffer->Unlock();
1465	indexBuffer->Unlock();
1466	SAFE_RELEASE(vertexBuffer);
1467	SAFE_RELEASE(indexBuffer);
1468	return;
1469	}
1470
1471	device->CreateVertexBuffer(2 * countEdges * pMesh->GetNumBytesPerVertex(),
1472	D3DUSAGE_WRITEONLY, pMesh->GetFVF(), D3DPOOL_DEFAULT,
1473	&edgeVertexBuffer, NULL);
1474	D3DVERTEX* pevData;
1475	edgeVertexBuffer->Lock(0, 0, (void**)&pevData, 0);
1476
1477	int iEdge = 0;
1478	for(int u=0; u<pMesh->GetNumFaces(); u++)
1479	{
1480	for(int t=0; t<3; t++)
1481	{
1482	if(pAdj[u * 3 + t] >= pMesh->GetNumFaces())
1483	{
1484	unsigned short edge0 = indexData[u * 3 + t];
1485	unsigned short edge1 = indexData[u * 3 + (t+1)%3];
1486	unsigned short inner = indexData[u * 3 + (t+2)%3];
1487
1488	//push vertex edge0, edge1
1489	pevData[iEdge * 2] = vertexData[edge0];
1490	pevData[iEdge * 2 + 1] = vertexData[edge1];
1491
1492	D3DXVECTOR2 ediff = vertexData[edge1].tex0 - vertexData[edge0].tex0;
1493	if(fabsf(ediff.x) > fabsf(ediff.y))
1494	{
1495	if(vertexData[inner].tex0.y <= vertexData[edge0].tex0.y +
1496	(vertexData[inner].tex0.x - vertexData[edge0].tex0.x) *
1497	(vertexData[edge1].tex0.y - vertexData[edge0].tex0.y) /
1498	(vertexData[edge1].tex0.x - vertexData[edge0].tex0.x))
1499	{
1500	pevData[iEdge * 2].tex0.y += 1.0/DBLATLASSIZE;
1501	pevData[iEdge * 2 + 1].tex0.y += 1.0/DBLATLASSIZE;
1502	}
1503	else
1504	{
1505	pevData[iEdge * 2].tex0.y -= 1.0/DBLATLASSIZE;
1506	pevData[iEdge * 2 + 1].tex0.y -= 1.0/DBLATLASSIZE;
1507	}
1508	D3DXVECTOR2 edgeDirUnitExt(1.0f, (vertexData[edge1].tex0.y - vertexData[edge0].tex0.y) /
1509	(vertexData[edge1].tex0.x - vertexData[edge0].tex0.x));
1510	edgeDirUnitExt *= 1.0/ATLASSIZE;
1511	if(vertexData[edge1].tex0.x > vertexData[edge0].tex0.x)
1512	{
1513	pevData[iEdge * 2].tex0 -= edgeDirUnitExt;
1514	pevData[iEdge * 2 + 1].tex0 += edgeDirUnitExt;
1515	}
1516	else
1517	{
1518	pevData[iEdge * 2].tex0 += edgeDirUnitExt;
1519	pevData[iEdge * 2 + 1].tex0 -= edgeDirUnitExt;
1520	}
1521	}
1522	else
1523	{
1524	if(vertexData[inner].tex0.x <= vertexData[edge0].tex0.x +
1525	(vertexData[inner].tex0.y - vertexData[edge0].tex0.y) *
1526	(vertexData[edge1].tex0.x - vertexData[edge0].tex0.x) /
1527	(vertexData[edge1].tex0.y - vertexData[edge0].tex0.y))
1528	{
1529	pevData[iEdge * 2].tex0.x += 1.0/DBLATLASSIZE;
1530	pevData[iEdge * 2 + 1].tex0.x += 1.0/DBLATLASSIZE;
1531	}
1532	else
1533	{
1534	pevData[iEdge * 2].tex0.x -= 1.0/DBLATLASSIZE;
1535	pevData[iEdge * 2 + 1].tex0.x -= 1.0/DBLATLASSIZE;
1536	}
1537	D3DXVECTOR2 edgeDirUnitExt((vertexData[edge1].tex0.x - vertexData[edge0].tex0.x) /
1538	(vertexData[edge1].tex0.y - vertexData[edge0].tex0.y), 1.0f);
1539	edgeDirUnitExt *= 1.0/ATLASSIZE;
1540	if(vertexData[edge1].tex0.y > vertexData[edge0].tex0.y)
1541	{
1542	pevData[iEdge * 2].tex0 -= edgeDirUnitExt;
1543	pevData[iEdge * 2 + 1].tex0 += edgeDirUnitExt;
1544	}
1545	else
1546	{
1547	pevData[iEdge * 2].tex0 += edgeDirUnitExt;
1548	pevData[iEdge * 2 + 1].tex0 -= edgeDirUnitExt;
1549	}
1550	}
1551
1552	iEdge++;
1553	}
1554	}
1555	}
1556	nEdges = iEdge;
1557
1558	edgeVertexBuffer->Unlock();
1559	vertexBuffer->Unlock();
1560	indexBuffer->Unlock();
1561	SAFE_RELEASE(vertexBuffer);
1562	SAFE_RELEASE(indexBuffer);
1563
1564	delete pAdj;
1565	}
1566
1567	void PathMapEffect::uploadRadions()
1568	{
1569	int nRadions = bushStarters.size();
1570	struct TMR{
1571	float pos[4];
1572	float dir[4];
1573	// float pow[4];
1574	};
1575	TMR* tm = new TMR[nRadions];
1576	for(int i=0; i<nRadions; i++)
1577	{
1578	//*
1579	tm[i].pos[0] = bushStarters[i].position[0];
1580	tm[i].pos[1] = bushStarters[i].position[1];
1581	tm[i].pos[2] = bushStarters[i].position[2];
1582	tm[i].pos[3] = 1.0;
1583	tm[i].dir[0] = bushStarters[i].normal[0];
1584	tm[i].dir[1] = bushStarters[i].normal[1];
1585	tm[i].dir[2] = bushStarters[i].normal[2];
1586	tm[i].dir[3] = 1.0;
1587	// tm[i].pow[0] = bushStarters[i].radiance[0];
1588	// tm[i].pow[1] = bushStarters[i].radiance[1];
1589	// tm[i].pow[2] = bushStarters[i].radiance[2];
1590	// tm[i].pow[3] = 1.0;
1591	/*/
1592	tm[i].pos[0] = 0.9;
1593	tm[i].pos[1] = 0.2;
1594	tm[i].pos[2] = 0.2;
1595	tm[i].pos[3] = 1.0;
1596	tm[i].dir[0] = 0.2;
1597	tm[i].dir[1] = 0.9;
1598	tm[i].dir[2] = 0.2;
1599	tm[i].dir[3] = 1.0;
1600	tm[i].pow[0] = 0.2;
1601	tm[i].pow[1] = 0.2;
1602	tm[i].pow[2] = 0.9; //blue
1603	tm[i].pow[3] = 0.99;
1604	//*/
1605	}
1606
1607	RECT imgSize;
1608	imgSize.top = imgSize.left = 0;
1609	imgSize.bottom = nRadions;
1610	imgSize.right = 2 * nRadions / 4096;
1611	D3DXLoadSurfaceFromMemory(radionSurface, NULL, NULL, tm, D3DFMT_A32B32G32R32F,
1612	imgSize.right * 4 * sizeof(float), NULL, &imgSize, D3DX_FILTER_NONE, 0);
1613
1614	delete [] tm;
1615	}
1616
1617	void PathMapEffect::fillRadionPosArray(void* pData)
1618	{
1619	int nRadions = NRADIONS;
1620	struct TMR{
1621	float pos[3];
1622	float rad[3];
1623	};
1624	TMR* tm = (TMR*)pData;
1625	for(int i=0; i<nRadions; i++)
1626	{
1627	tm[i].pos[0] = bushStarters[i].position[0];
1628	tm[i].pos[1] = bushStarters[i].position[1];
1629	tm[i].pos[2] = bushStarters[i].position[2];
1630	tm[i].rad[0] = bushStarters[i].radiance[0];
1631	tm[i].rad[1] = bushStarters[i].radiance[1];
1632	tm[i].rad[2] = bushStarters[i].radiance[2];
1633	}
1634	}
1635
1636	const wchar_t* PathMapEffect::getWeightsString()
1637	{
1638	static wchar_t ws[512];
1639	ws[0] = 0;
1640	char wan[64];
1641	float sumw = 0.0f;
1642	for(int i=0; i<33; i++)
1643	{
1644	// StrCpy(wan, L"%f ");
1645	if(i == 32)
1646	sprintf(wan, "%.3f ", (double)sumw);
1647	else
1648	{
1649	sumw += weights[i];
1650	sprintf(wan, "%.3f ", (double)weights[i]);
1651	}
1652	wchar_t* wideValue = new wchar_t[MultiByteToWideChar(CP_ACP, 0, wan, -1, NULL, 0)];
1653	MultiByteToWideChar(CP_ACP, 0, wan, -1, wideValue, 511);
1654	StrCatW(ws, wideValue);
1655	delete wideValue;
1656	}
1657	return ws;
1658	}
1659
1660	struct ClusterDist2{
1661	unsigned int index;
1662	double dist2;
1663	ClusterDist2(unsigned int index, double dist2) {this->index = index; this->dist2 = dist2;}
1664	bool operator<(const ClusterDist2& o) const {return dist2 > o.dist2;}
1665	bool operator>(const ClusterDist2& o) const {return dist2 < o.dist2;}
1666	bool operator<=(const ClusterDist2& o) const {return dist2 >= o.dist2;}
1667	bool operator>=(const ClusterDist2& o) const {return dist2 <= o.dist2;}
1668	};
1669
1670	void PathMapEffect::Entity::findNearClusters(const std::vector<Radion>& starters, unsigned int nClusters)
1671	{
1672	D3DXVECTOR3 cc = (D3DXVECTOR3&)rayTraceEntity->bbox.getCentre();
1673
1674	std::priority_queue<ClusterDist2> nearestClusterDists;
1675
1676	for(unsigned int iCluster = 0; iCluster < NCLUSTERS; iCluster++)
1677	{
1678	unsigned int iRadion = 0;
1679	unsigned int nRadionsPerCluster = owner->clusterLenghts[iCluster];
1680	double aClusterDist2 = 0.0;
1681	for(unsigned int iric=0; iric < nRadionsPerCluster; iric++, iRadion++)
1682	{
1683	aClusterDist2 += (starters[iRadion++].position - cc).norm2();
1684	}
1685	nearestClusterDists.push( ClusterDist2(iCluster, aClusterDist2) );
1686	}
1687	for(unsigned int i=0; i<32; i++)
1688	{
1689	nearClusterIndices[i] = 31 - i;// nearestClusterDists.top().index;
1690	nearestClusterDists.pop();
1691	}
1692	}
1693
1694
1695
1696	void PathMapEffect::savePathMaps()
1697	{
1698	std::fstream entryPointFile("prm\\prmEntryPoints.dat", std::ios::out \| std::ios::binary);
1699
1700	for(unsigned int u=0; u < NRADIONS; u++)
1701	{
1702	entryPointFile << bushStarters.at(u);
1703	}
1704
1705	for(unsigned int c=0; c < NCLUSTERS; c++)
1706	{
1707	entryPointFile.write((char*)&clusterLenghts[c], sizeof(unsigned int));
1708	}
1709
1710	entryPointFile.flush();
1711	entryPointFile.close();
1712
1713	unsigned int iEntity = 0;
1714	std::vector<PathMapEffect::Entity>::iterator entityIterator = entities.begin();
1715	while(entityIterator != entities.end())
1716	{
1717	wchar_t prmFileName[256];
1718	// wsprintf(prmFileName, L"prm\\prm_%08d.hdr", iEntity);
1719	MultiByteToWideChar(CP_ACP, 0, entityIterator->prmfilename, -1, prmFileName, 255);
1720
1721	D3DXSaveSurfaceToFile(prmFileName, D3DXIFF_HDR, entityIterator->prmSurface, NULL, NULL);
1722	entityIterator++;
1723	iEntity++;
1724	}
1725	}
1726
1727	void PathMapEffect::loadPathMaps()
1728	{
1729	std::fstream entryPointFile("prm\\prmEntryPoints.dat", std::ios::in \| std::ios::binary);
1730
1731	bushStarters.clear();
1732
1733	for(unsigned int u=0; u < NRADIONS; u++)
1734	{
1735	Radion ri;
1736	entryPointFile >> ri;
1737	bushStarters.push_back(ri);
1738	}
1739
1740	for(unsigned int c=0; c < NCLUSTERS; c++)
1741	{
1742	entryPointFile.read((char*)&clusterLenghts[c], sizeof(unsigned int));
1743	}
1744
1745	entryPointFile.close();
1746
1747	unsigned int iEntity = 0;
1748	std::vector<PathMapEffect::Entity>::iterator entityIterator = entities.begin();
1749	while(entityIterator != entities.end())
1750	{
1751	entityIterator->findNearClusters(bushStarters, NCLUSTERS);
1752
1753	wchar_t prmFileName[256];
1754	// wsprintf(prmFileName, L"prm\\prm_%08d.hdr", iEntity);
1755	MultiByteToWideChar(CP_ACP, 0, entityIterator->prmfilename, -1, prmFileName, 255);
1756	D3DXLoadSurfaceFromFile(entityIterator->prmSurface, NULL, NULL, prmFileName, NULL, D3DX_DEFAULT, 0, NULL);
1757	entityIterator++;
1758	iEntity++;
1759	}
1760	}
1761
1762	void PathMapEffect::exportEntityData()
1763	{
1764	std::fstream entryPointFile("media\\entityPathMapData.txt", std::ios::out);
1765
1766	unsigned int iEntity = 0;
1767	std::vector<PathMapEffect::Entity>::iterator entityIterator = entities.begin();
1768	while(entityIterator != entities.end())
1769	{
1770	entryPointFile << "entity " << entityIterator->name << '\n';
1771	entryPointFile << "{" << '\n';
1772	entryPointFile << " pathmapfile " << entityIterator->prmfilename << '\n';
1773	entryPointFile << " clusters ";
1774	for(int i=0; i<NCLUSTERSPERENTITY; i++)
1775	entryPointFile << entityIterator->nearClusterIndices[i] << " ";
1776	entryPointFile << '\n';
1777	entryPointFile << "}" << '\n';
1778	entryPointFile << '\n';
1779
1780	// for(int i=0; i<16; i++)
1781	// entryPointFile << entityIterator->modelWorldTransform.m[i%4][i/4] << " ";
1782	entryPointFile << '\n';
1783	entityIterator++;
1784	iEntity++;
1785	}
1786
1787	entryPointFile.flush();
1788	entryPointFile.close();
1789
1790	}
1791
1792	void PathMapEffect::loadScene(const char* sceneFileName)
1793	{
1794	std::fstream sceneFile(sceneFileName, std::ios::in);
1795
1796	char keyword[256];
1797	while(!sceneFile.eof())
1798	{
1799	sceneFile >> keyword;
1800	if(strcmp(keyword, "mesh") == 0)
1801	{
1802	char meshname[256];
1803	sceneFile >> meshname;
1804	if(strcmp(meshname, "{") == 0)
1805	strcpy(meshname, "mesh");
1806	while(strcmp(keyword, "}") != 0 && !sceneFile.eof())
1807	{
1808	sceneFile >> keyword;
1809	if(strcmp(keyword, "xfile") == 0)
1810	{
1811	sceneFile >> keyword;
1812	wchar_t* wide = NULL;
1813	if(keyword)
1814	{
1815	wide = new wchar_t[MultiByteToWideChar(CP_ACP, 0, keyword, -1, NULL, 0)];
1816	MultiByteToWideChar(CP_ACP, 0, keyword, -1, wide, 511);
1817	}
1818	loadMesh(wide);
1819	strcpy(renderMeshes[renderMeshes.size()-1]->name, meshname);
1820	delete wide;
1821	}
1822	}
1823	}
1824
1825	if(strcmp(keyword, "entity") == 0)
1826	{
1827	Entity e;
1828	e.owner = this;
1829
1830	char entityname[256];
1831	sceneFile >> entityname;
1832	if(strcmp(entityname, "{") == 0)
1833	strcpy(entityname, "noname");
1834
1835	strcpy(e.name, entityname);
1836
1837	while(strcmp(keyword, "}") != 0 && !sceneFile.eof())
1838	{
1839	sceneFile >> keyword;
1840	if(strcmp(keyword, "pathmapfile") == 0)
1841	{
1842	sceneFile >> keyword;
1843	strcpy(e.prmfilename, keyword);
1844	}
1845	if(strcmp(keyword, "mesh") == 0)
1846	{
1847	sceneFile >> keyword;
1848
1849	std::vector<PathMapEffect::RenderMesh*>::iterator i = renderMeshes.begin();
1850	while(i != renderMeshes.end())
1851	{
1852	if(strcmp((*i)->name, keyword) == 0)
1853	{
1854	e.renderMesh = *i;
1855	break;
1856	}
1857	i++;
1858	}
1859	}
1860	if(strcmp(keyword, "transformation") == 0)
1861	{
1862	for(int i=0; i<16; i++)
1863	sceneFile >> e.modelWorldTransform.m[i%4][i/4];
1864	D3DXMatrixInverse(&e.inverseTransposedModelWorldTransform, NULL, &e.modelWorldTransform);
1865	}
1866	}
1867
1868	e.createRayTraceEntity();
1869	entities.push_back(e);
1870	}
1871	}
1872	sceneFile.close();
1873	}

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