Context Navigation

← Previous Revision
Latest Revision
Next Revision →
Blame
Revision Log

DXUTMesh.cpp @ 1777

Revision 1777, 34.2 KB checked in by szirmay, 18 years ago (diff)

Line
1	//-----------------------------------------------------------------------------
2	// File: DXUTMesh.cpp
3	//
4	// Desc: Support code for loading DirectX .X files.
5	//
6	// Copyright (c) Microsoft Corporation. All rights reserved.
7	//-----------------------------------------------------------------------------
8	#include "dxstdafx.h"
9	#include <dxfile.h>
10	#include <rmxfguid.h>
11	#include <rmxftmpl.h>
12	#include "DXUTMesh.h"
13	#undef min // use __min instead
14	#undef max // use __max instead
15
16
17
18
19	//-----------------------------------------------------------------------------
20	CDXUTMesh::CDXUTMesh( LPCWSTR strName )
21	{
22	StringCchCopy( m_strName, 512, strName );
23	m_pMesh = NULL;
24	m_pMaterials = NULL;
25	m_pTextures = NULL;
26	m_bUseMaterials = TRUE;
27	m_pVB = NULL;
28	m_pIB = NULL;
29	m_pDecl = NULL;
30	m_strMaterials = NULL;
31	m_dwNumMaterials = 0;
32	m_dwNumVertices = 0;
33	m_dwNumFaces = 0;
34	m_dwBytesPerVertex = 0;
35	}
36
37
38
39
40	//-----------------------------------------------------------------------------
41	CDXUTMesh::~CDXUTMesh()
42	{
43	Destroy();
44	}
45
46
47
48
49	//-----------------------------------------------------------------------------
50	HRESULT CDXUTMesh::Create( LPDIRECT3DDEVICE9 pd3dDevice, LPCWSTR strFilename )
51	{
52	WCHAR strPath[MAX_PATH];
53	LPD3DXBUFFER pAdjacencyBuffer = NULL;
54	LPD3DXBUFFER pMtrlBuffer = NULL;
55	HRESULT hr;
56
57	// Cleanup previous mesh if any
58	Destroy();
59
60	// Find the path for the file, and convert it to ANSI (for the D3DX API)
61	DXUTFindDXSDKMediaFileCch( strPath, sizeof(strPath) / sizeof(WCHAR), strFilename );
62
63	// Load the mesh
64	if( FAILED( hr = D3DXLoadMeshFromX( strPath, D3DXMESH_MANAGED, pd3dDevice,
65	&pAdjacencyBuffer, &pMtrlBuffer, NULL,
66	&m_dwNumMaterials, &m_pMesh ) ) )
67	{
68	return hr;
69	}
70
71	// Optimize the mesh for performance
72	if( FAILED( hr = m_pMesh->OptimizeInplace(
73	D3DXMESHOPT_COMPACT \| D3DXMESHOPT_ATTRSORT \| D3DXMESHOPT_VERTEXCACHE,
74	(DWORD*)pAdjacencyBuffer->GetBufferPointer(), NULL, NULL, NULL ) ) )
75	{
76	SAFE_RELEASE( pAdjacencyBuffer );
77	SAFE_RELEASE( pMtrlBuffer );
78	return hr;
79	}
80
81	// Set strPath to the path of the mesh file
82	WCHAR *pLastBSlash = wcsrchr( strPath, L'\\' );
83	if( pLastBSlash )
84	*(pLastBSlash + 1) = L'\0';
85	else
86	*strPath = L'\0';
87
88	D3DXMATERIAL* d3dxMtrls = (D3DXMATERIAL*)pMtrlBuffer->GetBufferPointer();
89	hr = CreateMaterials( strPath, pd3dDevice, d3dxMtrls, m_dwNumMaterials );
90
91	SAFE_RELEASE( pAdjacencyBuffer );
92	SAFE_RELEASE( pMtrlBuffer );
93
94	// Extract data from m_pMesh for easy access
95	D3DVERTEXELEMENT9 decl[MAX_FVF_DECL_SIZE];
96	m_dwNumVertices = m_pMesh->GetNumVertices();
97	m_dwNumFaces = m_pMesh->GetNumFaces();
98	m_dwBytesPerVertex = m_pMesh->GetNumBytesPerVertex();
99	m_pMesh->GetIndexBuffer( &m_pIB );
100	m_pMesh->GetVertexBuffer( &m_pVB );
101	m_pMesh->GetDeclaration( decl );
102	pd3dDevice->CreateVertexDeclaration( decl, &m_pDecl );
103
104	return hr;
105	}
106
107
108	//-----------------------------------------------------------------------------
109	HRESULT CDXUTMesh::Create( LPDIRECT3DDEVICE9 pd3dDevice,
110	LPD3DXFILEDATA pFileData )
111	{
112	LPD3DXBUFFER pMtrlBuffer = NULL;
113	LPD3DXBUFFER pAdjacencyBuffer = NULL;
114	HRESULT hr;
115
116	// Cleanup previous mesh if any
117	Destroy();
118
119	// Load the mesh from the DXFILEDATA object
120	if( FAILED( hr = D3DXLoadMeshFromXof( pFileData, D3DXMESH_MANAGED, pd3dDevice,
121	&pAdjacencyBuffer, &pMtrlBuffer, NULL,
122	&m_dwNumMaterials, &m_pMesh ) ) )
123	{
124	return hr;
125	}
126
127	// Optimize the mesh for performance
128	if( FAILED( hr = m_pMesh->OptimizeInplace(
129	D3DXMESHOPT_COMPACT \| D3DXMESHOPT_ATTRSORT \| D3DXMESHOPT_VERTEXCACHE,
130	(DWORD*)pAdjacencyBuffer->GetBufferPointer(), NULL, NULL, NULL ) ) )
131	{
132	SAFE_RELEASE( pAdjacencyBuffer );
133	SAFE_RELEASE( pMtrlBuffer );
134	return hr;
135	}
136
137	D3DXMATERIAL* d3dxMtrls = (D3DXMATERIAL*)pMtrlBuffer->GetBufferPointer();
138	hr = CreateMaterials( L"", pd3dDevice, d3dxMtrls, m_dwNumMaterials );
139
140	SAFE_RELEASE( pAdjacencyBuffer );
141	SAFE_RELEASE( pMtrlBuffer );
142
143	// Extract data from m_pMesh for easy access
144	D3DVERTEXELEMENT9 decl[MAX_FVF_DECL_SIZE];
145	m_dwNumVertices = m_pMesh->GetNumVertices();
146	m_dwNumFaces = m_pMesh->GetNumFaces();
147	m_dwBytesPerVertex = m_pMesh->GetNumBytesPerVertex();
148	m_pMesh->GetIndexBuffer( &m_pIB );
149	m_pMesh->GetVertexBuffer( &m_pVB );
150	m_pMesh->GetDeclaration( decl );
151	pd3dDevice->CreateVertexDeclaration( decl, &m_pDecl );
152
153	return hr;
154	}
155
156
157	//-----------------------------------------------------------------------------
158	HRESULT CDXUTMesh::Create( LPDIRECT3DDEVICE9 pd3dDevice, ID3DXMesh* pInMesh,
159	D3DXMATERIAL* pd3dxMaterials, DWORD dwMaterials )
160	{
161	// Cleanup previous mesh if any
162	Destroy();
163
164	// Optimize the mesh for performance
165	DWORD *rgdwAdjacency = NULL;
166	rgdwAdjacency = new DWORD[pInMesh->GetNumFaces() * 3];
167	if( rgdwAdjacency == NULL )
168	return E_OUTOFMEMORY;
169	pInMesh->GenerateAdjacency(1e-6f,rgdwAdjacency);
170
171	D3DVERTEXELEMENT9 decl[MAX_FVF_DECL_SIZE];
172	pInMesh->GetDeclaration( decl );
173
174	DWORD dwOptions = pInMesh->GetOptions();
175	dwOptions &= ~(D3DXMESH_32BIT \| D3DXMESH_SYSTEMMEM \| D3DXMESH_WRITEONLY);
176	dwOptions \|= D3DXMESH_MANAGED;
177	dwOptions \|= D3DXMESHOPT_COMPACT \| D3DXMESHOPT_ATTRSORT \| D3DXMESHOPT_VERTEXCACHE;
178
179	ID3DXMesh* pTempMesh = NULL;
180	if( FAILED( pInMesh->Optimize( dwOptions, rgdwAdjacency, NULL, NULL, NULL, &pTempMesh ) ) )
181	{
182	SAFE_DELETE_ARRAY( rgdwAdjacency );
183	return E_FAIL;
184	}
185
186	SAFE_DELETE_ARRAY( rgdwAdjacency );
187	SAFE_RELEASE( m_pMesh );
188	m_pMesh = pTempMesh;
189
190	HRESULT hr;
191	hr = CreateMaterials( L"", pd3dDevice, pd3dxMaterials, dwMaterials );
192
193	// Extract data from m_pMesh for easy access
194	m_dwNumVertices = m_pMesh->GetNumVertices();
195	m_dwNumFaces = m_pMesh->GetNumFaces();
196	m_dwBytesPerVertex = m_pMesh->GetNumBytesPerVertex();
197	m_pMesh->GetIndexBuffer( &m_pIB );
198	m_pMesh->GetVertexBuffer( &m_pVB );
199	m_pMesh->GetDeclaration( decl );
200	pd3dDevice->CreateVertexDeclaration( decl, &m_pDecl );
201
202	return hr;
203	}
204
205
206	//-----------------------------------------------------------------------------
207	HRESULT CDXUTMesh::CreateMaterials( LPCWSTR strPath, IDirect3DDevice9 pd3dDevice, D3DXMATERIAL d3dxMtrls, DWORD dwNumMaterials )
208	{
209	// Get material info for the mesh
210	// Get the array of materials out of the buffer
211	m_dwNumMaterials = dwNumMaterials;
212	if( d3dxMtrls && m_dwNumMaterials > 0 )
213	{
214	// Allocate memory for the materials and textures
215	m_pMaterials = new D3DMATERIAL9[m_dwNumMaterials];
216	if( m_pMaterials == NULL )
217	return E_OUTOFMEMORY;
218	m_pTextures = new LPDIRECT3DBASETEXTURE9[m_dwNumMaterials];
219	if( m_pTextures == NULL )
220	return E_OUTOFMEMORY;
221	m_strMaterials = new CHAR[m_dwNumMaterials][MAX_PATH];
222	if( m_strMaterials == NULL )
223	return E_OUTOFMEMORY;
224
225	// Copy each material and create its texture
226	for( DWORD i=0; i<m_dwNumMaterials; i++ )
227	{
228	// Copy the material
229	m_pMaterials[i] = d3dxMtrls[i].MatD3D;
230	m_pTextures[i] = NULL;
231
232	// Create a texture
233	if( d3dxMtrls[i].pTextureFilename )
234	{
235	StringCchCopyA( m_strMaterials[i], MAX_PATH, d3dxMtrls[i].pTextureFilename );
236
237	WCHAR strTexture[MAX_PATH];
238	WCHAR strTextureTemp[MAX_PATH];
239	D3DXIMAGE_INFO ImgInfo;
240
241	// First attempt to look for texture in the same folder as the input folder.
242	MultiByteToWideChar( CP_ACP, 0, d3dxMtrls[i].pTextureFilename, -1, strTextureTemp, MAX_PATH );
243	strTextureTemp[MAX_PATH-1] = 0;
244
245	StringCchCopy( strTexture, MAX_PATH, strPath );
246	StringCchCat( strTexture, MAX_PATH, strTextureTemp );
247
248	// Inspect the texture file to determine the texture type.
249	if( FAILED( D3DXGetImageInfoFromFile( strTexture, &ImgInfo ) ) )
250	{
251	// Search the media folder
252	if( FAILED( DXUTFindDXSDKMediaFileCch( strTexture, MAX_PATH, strTextureTemp ) ) )
253	continue; // Can't find. Skip.
254
255	D3DXGetImageInfoFromFile( strTexture, &ImgInfo );
256	}
257
258	// Call the appropriate loader according to the texture type.
259	switch( ImgInfo.ResourceType )
260	{
261	case D3DRTYPE_TEXTURE:
262	{
263	IDirect3DTexture9 *pTex;
264	if( SUCCEEDED( D3DXCreateTextureFromFile( pd3dDevice, strTexture, &pTex ) ) )
265	{
266	// Obtain the base texture interface
267	pTex->QueryInterface( IID_IDirect3DBaseTexture9, (LPVOID*)&m_pTextures[i] );
268	// Release the specialized instance
269	pTex->Release();
270	}
271	break;
272	}
273	case D3DRTYPE_CUBETEXTURE:
274	{
275	IDirect3DCubeTexture9 *pTex;
276	if( SUCCEEDED( D3DXCreateCubeTextureFromFile( pd3dDevice, strTexture, &pTex ) ) )
277	{
278	// Obtain the base texture interface
279	pTex->QueryInterface( IID_IDirect3DBaseTexture9, (LPVOID*)&m_pTextures[i] );
280	// Release the specialized instance
281	pTex->Release();
282	}
283	break;
284	}
285	case D3DRTYPE_VOLUMETEXTURE:
286	{
287	IDirect3DVolumeTexture9 *pTex;
288	if( SUCCEEDED( D3DXCreateVolumeTextureFromFile( pd3dDevice, strTexture, &pTex ) ) )
289	{
290	// Obtain the base texture interface
291	pTex->QueryInterface( IID_IDirect3DBaseTexture9, (LPVOID*)&m_pTextures[i] );
292	// Release the specialized instance
293	pTex->Release();
294	}
295	break;
296	}
297	}
298	}
299	}
300	}
301	return S_OK;
302	}
303
304
305	//-----------------------------------------------------------------------------
306	HRESULT CDXUTMesh::SetFVF( LPDIRECT3DDEVICE9 pd3dDevice, DWORD dwFVF )
307	{
308	LPD3DXMESH pTempMesh = NULL;
309
310	if( m_pMesh )
311	{
312	if( FAILED( m_pMesh->CloneMeshFVF( m_pMesh->GetOptions(), dwFVF,
313	pd3dDevice, &pTempMesh ) ) )
314	{
315	SAFE_RELEASE( pTempMesh );
316	return E_FAIL;
317	}
318
319	DWORD dwOldFVF = 0;
320	dwOldFVF = m_pMesh->GetFVF();
321	SAFE_RELEASE( m_pMesh );
322	m_pMesh = pTempMesh;
323
324	// Compute normals if they are being requested and
325	// the old mesh does not have them.
326	if( !(dwOldFVF & D3DFVF_NORMAL) && dwFVF & D3DFVF_NORMAL )
327	{
328	D3DXComputeNormals( m_pMesh, NULL );
329	}
330	}
331
332	return S_OK;
333	}
334
335
336
337
338	//-----------------------------------------------------------------------------
339	// Convert the mesh to the format specified by the given vertex declarations.
340	//-----------------------------------------------------------------------------
341	HRESULT CDXUTMesh::SetVertexDecl( LPDIRECT3DDEVICE9 pd3dDevice, const D3DVERTEXELEMENT9 *pDecl,
342	bool bAutoComputeNormals, bool bAutoComputeTangents,
343	bool bSplitVertexForOptimalTangents )
344	{
345	LPD3DXMESH pTempMesh = NULL;
346
347	if( m_pMesh )
348	{
349	if( FAILED( m_pMesh->CloneMesh( m_pMesh->GetOptions(), pDecl,
350	pd3dDevice, &pTempMesh ) ) )
351	{
352	SAFE_RELEASE( pTempMesh );
353	return E_FAIL;
354	}
355	}
356
357
358	// Check if the old declaration contains a normal.
359	bool bHadNormal = false;
360	bool bHadTangent = false;
361	D3DVERTEXELEMENT9 aOldDecl[MAX_FVF_DECL_SIZE];
362	if( m_pMesh && SUCCEEDED( m_pMesh->GetDeclaration( aOldDecl ) ) )
363	{
364	for( UINT index = 0; index < D3DXGetDeclLength( aOldDecl ); ++index )
365	{
366	if( aOldDecl[index].Usage == D3DDECLUSAGE_NORMAL )
367	{
368	bHadNormal = true;
369	}
370	if( aOldDecl[index].Usage == D3DDECLUSAGE_TANGENT )
371	{
372	bHadTangent = true;
373	}
374	}
375	}
376
377	// Check if the new declaration contains a normal.
378	bool bHaveNormalNow = false;
379	bool bHaveTangentNow = false;
380	D3DVERTEXELEMENT9 aNewDecl[MAX_FVF_DECL_SIZE];
381	if( pTempMesh && SUCCEEDED( pTempMesh->GetDeclaration( aNewDecl ) ) )
382	{
383	for( UINT index = 0; index < D3DXGetDeclLength( aNewDecl ); ++index )
384	{
385	if( aNewDecl[index].Usage == D3DDECLUSAGE_NORMAL )
386	{
387	bHaveNormalNow = true;
388	}
389	if( aNewDecl[index].Usage == D3DDECLUSAGE_TANGENT )
390	{
391	bHaveTangentNow = true;
392	}
393	}
394	}
395
396	SAFE_RELEASE( m_pMesh );
397
398	if( pTempMesh )
399	{
400	m_pMesh = pTempMesh;
401
402	if( !bHadNormal && bHaveNormalNow && bAutoComputeNormals )
403	{
404	// Compute normals in case the meshes have them
405	D3DXComputeNormals( m_pMesh, NULL );
406	}
407
408	if( bHaveNormalNow && !bHadTangent && bHaveTangentNow && bAutoComputeTangents )
409	{
410	ID3DXMesh* pNewMesh;
411	HRESULT hr;
412
413	DWORD *rgdwAdjacency = NULL;
414	rgdwAdjacency = new DWORD[m_pMesh->GetNumFaces() * 3];
415	if( rgdwAdjacency == NULL )
416	return E_OUTOFMEMORY;
417	V( m_pMesh->GenerateAdjacency(1e-6f,rgdwAdjacency) );
418
419	float fPartialEdgeThreshold;
420	float fSingularPointThreshold;
421	float fNormalEdgeThreshold;
422	if( bSplitVertexForOptimalTangents )
423	{
424	fPartialEdgeThreshold = 0.01f;
425	fSingularPointThreshold = 0.25f;
426	fNormalEdgeThreshold = 0.01f;
427	}
428	else
429	{
430	fPartialEdgeThreshold = -1.01f;
431	fSingularPointThreshold = 0.01f;
432	fNormalEdgeThreshold = -1.01f;
433	}
434
435	// Compute tangents, which are required for normal mapping
436	hr = D3DXComputeTangentFrameEx( m_pMesh,
437	D3DDECLUSAGE_TEXCOORD, 0,
438	D3DDECLUSAGE_TANGENT, 0,
439	D3DX_DEFAULT, 0,
440	D3DDECLUSAGE_NORMAL, 0,
441	0, rgdwAdjacency,
442	fPartialEdgeThreshold, fSingularPointThreshold, fNormalEdgeThreshold,
443	&pNewMesh, NULL );
444
445	SAFE_DELETE_ARRAY( rgdwAdjacency );
446	if( FAILED(hr) )
447	return hr;
448
449	SAFE_RELEASE( m_pMesh );
450	m_pMesh = pNewMesh;
451	}
452	}
453
454	return S_OK;
455	}
456
457
458
459
460	//-----------------------------------------------------------------------------
461	HRESULT CDXUTMesh::RestoreDeviceObjects( LPDIRECT3DDEVICE9 pd3dDevice )
462	{
463	return S_OK;
464	}
465
466
467
468
469	//-----------------------------------------------------------------------------
470	HRESULT CDXUTMesh::InvalidateDeviceObjects()
471	{
472	SAFE_RELEASE( m_pIB );
473	SAFE_RELEASE( m_pVB );
474	SAFE_RELEASE( m_pDecl );
475
476	return S_OK;
477	}
478
479
480
481
482	//-----------------------------------------------------------------------------
483	HRESULT CDXUTMesh::Destroy()
484	{
485	InvalidateDeviceObjects();
486	for( UINT i=0; i<m_dwNumMaterials; i++ )
487	SAFE_RELEASE( m_pTextures[i] );
488	SAFE_DELETE_ARRAY( m_pTextures );
489	SAFE_DELETE_ARRAY( m_pMaterials );
490	SAFE_DELETE_ARRAY( m_strMaterials );
491
492	SAFE_RELEASE( m_pMesh );
493
494	m_dwNumMaterials = 0L;
495
496	return S_OK;
497	}
498
499
500
501
502	//-----------------------------------------------------------------------------
503	HRESULT CDXUTMesh::Render( LPDIRECT3DDEVICE9 pd3dDevice, bool bDrawOpaqueSubsets,
504	bool bDrawAlphaSubsets )
505	{
506	if( NULL == m_pMesh )
507	return E_FAIL;
508
509	// Frist, draw the subsets without alpha
510	if( bDrawOpaqueSubsets )
511	{
512	for( DWORD i=0; i<m_dwNumMaterials; i++ )
513	{
514	if( m_bUseMaterials )
515	{
516	if( m_pMaterials[i].Diffuse.a < 1.0f )
517	continue;
518	pd3dDevice->SetMaterial( &m_pMaterials[i] );
519	pd3dDevice->SetTexture( 0, m_pTextures[i] );
520	}
521	m_pMesh->DrawSubset( i );
522	}
523	}
524
525	// Then, draw the subsets with alpha
526	if( bDrawAlphaSubsets && m_bUseMaterials )
527	{
528	for( DWORD i=0; i<m_dwNumMaterials; i++ )
529	{
530	if( m_pMaterials[i].Diffuse.a == 1.0f )
531	continue;
532
533	// Set the material and texture
534	pd3dDevice->SetMaterial( &m_pMaterials[i] );
535	pd3dDevice->SetTexture( 0, m_pTextures[i] );
536	m_pMesh->DrawSubset( i );
537	}
538	}
539
540	return S_OK;
541	}
542
543
544
545
546	//-----------------------------------------------------------------------------
547	HRESULT CDXUTMesh::Render( ID3DXEffect *pEffect,
548	D3DXHANDLE hTexture,
549	D3DXHANDLE hDiffuse,
550	D3DXHANDLE hAmbient,
551	D3DXHANDLE hSpecular,
552	D3DXHANDLE hEmissive,
553	D3DXHANDLE hPower,
554	bool bDrawOpaqueSubsets,
555	bool bDrawAlphaSubsets )
556	{
557	if( NULL == m_pMesh )
558	return E_FAIL;
559
560	UINT cPasses;
561	// Frist, draw the subsets without alpha
562	if( bDrawOpaqueSubsets )
563	{
564	pEffect->Begin( &cPasses, 0 );
565	for( UINT p = 0; p < cPasses; ++p )
566	{
567	pEffect->BeginPass( p );
568	for( DWORD i=0; i<m_dwNumMaterials; i++ )
569	{
570	if( m_bUseMaterials )
571	{
572	if( m_pMaterials[i].Diffuse.a < 1.0f )
573	continue;
574	if( hTexture )
575	pEffect->SetTexture( hTexture, m_pTextures[i] );
576	// D3DCOLORVALUE and D3DXVECTOR4 are data-wise identical.
577	// No conversion is needed.
578	if( hDiffuse )
579	pEffect->SetVector( hDiffuse, (D3DXVECTOR4*)&m_pMaterials[i].Diffuse );
580	if( hAmbient )
581	pEffect->SetVector( hAmbient, (D3DXVECTOR4*)&m_pMaterials[i].Ambient );
582	if( hSpecular )
583	pEffect->SetVector( hSpecular, (D3DXVECTOR4*)&m_pMaterials[i].Specular );
584	if( hEmissive )
585	pEffect->SetVector( hEmissive, (D3DXVECTOR4*)&m_pMaterials[i].Emissive );
586	if( hPower )
587	pEffect->SetFloat( hPower, m_pMaterials[i].Power );
588	pEffect->CommitChanges();
589	}
590	m_pMesh->DrawSubset( i );
591	}
592	pEffect->EndPass();
593	}
594	pEffect->End();
595	}
596
597	// Then, draw the subsets with alpha
598	if( bDrawAlphaSubsets && m_bUseMaterials )
599	{
600	pEffect->Begin( &cPasses, 0 );
601	for( UINT p = 0; p < cPasses; ++p )
602	{
603	pEffect->BeginPass( p );
604	for( DWORD i=0; i<m_dwNumMaterials; i++ )
605	{
606	if( m_bUseMaterials )
607	{
608	if( m_pMaterials[i].Diffuse.a == 1.0f )
609	continue;
610	if( hTexture )
611	pEffect->SetTexture( hTexture, m_pTextures[i] );
612	// D3DCOLORVALUE and D3DXVECTOR4 are data-wise identical.
613	// No conversion is needed.
614	if( hDiffuse )
615	pEffect->SetVector( hDiffuse, (D3DXVECTOR4*)&m_pMaterials[i].Diffuse );
616	if( hAmbient )
617	pEffect->SetVector( hAmbient, (D3DXVECTOR4*)&m_pMaterials[i].Ambient );
618	if( hSpecular )
619	pEffect->SetVector( hSpecular, (D3DXVECTOR4*)&m_pMaterials[i].Specular );
620	if( hEmissive )
621	pEffect->SetVector( hEmissive, (D3DXVECTOR4*)&m_pMaterials[i].Emissive );
622	if( hPower )
623	pEffect->SetFloat( hPower, m_pMaterials[i].Power );
624	pEffect->CommitChanges();
625	}
626	m_pMesh->DrawSubset( i );
627	}
628	pEffect->EndPass();
629	}
630	pEffect->End();
631	}
632
633	return S_OK;
634	}
635
636
637
638
639	//-----------------------------------------------------------------------------
640	CDXUTMeshFrame::CDXUTMeshFrame( LPCWSTR strName )
641	{
642	StringCchCopy( m_strName, 512, strName );
643	D3DXMatrixIdentity( &m_mat );
644	m_pMesh = NULL;
645
646	m_pChild = NULL;
647	m_pNext = NULL;
648	}
649
650
651
652
653	//-----------------------------------------------------------------------------
654	CDXUTMeshFrame::~CDXUTMeshFrame()
655	{
656	SAFE_DELETE( m_pChild );
657	SAFE_DELETE( m_pNext );
658	}
659
660
661
662
663	//-----------------------------------------------------------------------------
664	bool CDXUTMeshFrame::EnumMeshes( bool (EnumMeshCB)(CDXUTMesh,void*),
665	void* pContext )
666	{
667	if( m_pMesh )
668	EnumMeshCB( m_pMesh, pContext );
669	if( m_pChild )
670	m_pChild->EnumMeshes( EnumMeshCB, pContext );
671	if( m_pNext )
672	m_pNext->EnumMeshes( EnumMeshCB, pContext );
673
674	return TRUE;
675	}
676
677
678
679
680	//-----------------------------------------------------------------------------
681	CDXUTMesh* CDXUTMeshFrame::FindMesh( LPCWSTR strMeshName )
682	{
683	CDXUTMesh* pMesh;
684
685	if( m_pMesh )
686	if( !lstrcmpi( m_pMesh->m_strName, strMeshName ) )
687	return m_pMesh;
688
689	if( m_pChild )
690	if( NULL != ( pMesh = m_pChild->FindMesh( strMeshName ) ) )
691	return pMesh;
692
693	if( m_pNext )
694	if( NULL != ( pMesh = m_pNext->FindMesh( strMeshName ) ) )
695	return pMesh;
696
697	return NULL;
698	}
699
700
701
702
703	//-----------------------------------------------------------------------------
704	CDXUTMeshFrame* CDXUTMeshFrame::FindFrame( LPCWSTR strFrameName )
705	{
706	CDXUTMeshFrame* pFrame;
707
708	if( !lstrcmpi( m_strName, strFrameName ) )
709	return this;
710
711	if( m_pChild )
712	if( NULL != ( pFrame = m_pChild->FindFrame( strFrameName ) ) )
713	return pFrame;
714
715	if( m_pNext )
716	if( NULL != ( pFrame = m_pNext->FindFrame( strFrameName ) ) )
717	return pFrame;
718
719	return NULL;
720	}
721
722
723
724
725	//-----------------------------------------------------------------------------
726	HRESULT CDXUTMeshFrame::Destroy()
727	{
728	if( m_pMesh ) m_pMesh->Destroy();
729	if( m_pChild ) m_pChild->Destroy();
730	if( m_pNext ) m_pNext->Destroy();
731
732	SAFE_DELETE( m_pMesh );
733	SAFE_DELETE( m_pNext );
734	SAFE_DELETE( m_pChild );
735
736	return S_OK;
737	}
738
739
740
741
742	//-----------------------------------------------------------------------------
743	HRESULT CDXUTMeshFrame::RestoreDeviceObjects( LPDIRECT3DDEVICE9 pd3dDevice )
744	{
745	if( m_pMesh ) m_pMesh->RestoreDeviceObjects( pd3dDevice );
746	if( m_pChild ) m_pChild->RestoreDeviceObjects( pd3dDevice );
747	if( m_pNext ) m_pNext->RestoreDeviceObjects( pd3dDevice );
748	return S_OK;
749	}
750
751
752
753
754	//-----------------------------------------------------------------------------
755	HRESULT CDXUTMeshFrame::InvalidateDeviceObjects()
756	{
757	if( m_pMesh ) m_pMesh->InvalidateDeviceObjects();
758	if( m_pChild ) m_pChild->InvalidateDeviceObjects();
759	if( m_pNext ) m_pNext->InvalidateDeviceObjects();
760	return S_OK;
761	}
762
763
764
765
766	//-----------------------------------------------------------------------------
767	HRESULT CDXUTMeshFrame::Render( LPDIRECT3DDEVICE9 pd3dDevice, bool bDrawOpaqueSubsets,
768	bool bDrawAlphaSubsets, D3DXMATRIX* pmatWorldMatrix )
769	{
770	// For pure devices, specify the world transform. If the world transform is not
771	// specified on pure devices, this function will fail.
772
773	D3DXMATRIX matSavedWorld, matWorld;
774
775	if ( NULL == pmatWorldMatrix )
776	pd3dDevice->GetTransform( D3DTS_WORLD, &matSavedWorld );
777	else
778	matSavedWorld = *pmatWorldMatrix;
779
780	D3DXMatrixMultiply( &matWorld, &m_mat, &matSavedWorld );
781	pd3dDevice->SetTransform( D3DTS_WORLD, &matWorld );
782
783	if( m_pMesh )
784	m_pMesh->Render( pd3dDevice, bDrawOpaqueSubsets, bDrawAlphaSubsets );
785
786	if( m_pChild )
787	m_pChild->Render( pd3dDevice, bDrawOpaqueSubsets, bDrawAlphaSubsets, &matWorld );
788
789	pd3dDevice->SetTransform( D3DTS_WORLD, &matSavedWorld );
790
791	if( m_pNext )
792	m_pNext->Render( pd3dDevice, bDrawOpaqueSubsets, bDrawAlphaSubsets, &matSavedWorld );
793
794	return S_OK;
795	}
796
797
798
799
800	//-----------------------------------------------------------------------------
801	HRESULT CDXUTMeshFile::LoadFrame( LPDIRECT3DDEVICE9 pd3dDevice,
802	LPD3DXFILEDATA pFileData,
803	CDXUTMeshFrame* pParentFrame )
804	{
805	LPD3DXFILEDATA pChildData = NULL;
806	GUID Guid;
807	SIZE_T cbSize;
808	CDXUTMeshFrame* pCurrentFrame;
809	HRESULT hr;
810
811	// Get the type of the object
812	if( FAILED( hr = pFileData->GetType( &Guid ) ) )
813	return hr;
814
815	if( Guid == TID_D3DRMMesh )
816	{
817	hr = LoadMesh( pd3dDevice, pFileData, pParentFrame );
818	if( FAILED(hr) )
819	return hr;
820	}
821	if( Guid == TID_D3DRMFrameTransformMatrix )
822	{
823	D3DXMATRIX* pmatMatrix;
824	hr = pFileData->Lock(&cbSize, (LPCVOID*)&pmatMatrix );
825	if( FAILED(hr) )
826	return hr;
827
828	// Update the parent's matrix with the new one
829	pParentFrame->SetMatrix( pmatMatrix );
830	}
831	if( Guid == TID_D3DRMFrame )
832	{
833	// Get the frame name
834	CHAR strAnsiName[512] = "";
835	WCHAR strName[512];
836	SIZE_T dwNameLength = 512;
837	SIZE_T cChildren;
838	if( FAILED( hr = pFileData->GetName( strAnsiName, &dwNameLength ) ) )
839	return hr;
840
841	MultiByteToWideChar( CP_ACP, 0, strAnsiName, -1, strName, 512 );
842	strName[511] = 0;
843
844	// Create the frame
845	pCurrentFrame = new CDXUTMeshFrame( strName );
846	if( pCurrentFrame == NULL )
847	return E_OUTOFMEMORY;
848
849	pCurrentFrame->m_pNext = pParentFrame->m_pChild;
850	pParentFrame->m_pChild = pCurrentFrame;
851
852	// Enumerate child objects
853	pFileData->GetChildren(&cChildren);
854	for (UINT iChild = 0; iChild < cChildren; iChild++)
855	{
856	// Query the child for its FileData
857	hr = pFileData->GetChild(iChild, &pChildData );
858	if( SUCCEEDED(hr) )
859	{
860	hr = LoadFrame( pd3dDevice, pChildData, pCurrentFrame );
861	SAFE_RELEASE( pChildData );
862	}
863
864	if( FAILED(hr) )
865	return hr;
866	}
867	}
868
869	return S_OK;
870	}
871
872
873
874
875	//-----------------------------------------------------------------------------
876	HRESULT CDXUTMeshFile::LoadMesh( LPDIRECT3DDEVICE9 pd3dDevice,
877	LPD3DXFILEDATA pFileData,
878	CDXUTMeshFrame* pParentFrame )
879	{
880	// Currently only allowing one mesh per frame
881	if( pParentFrame->m_pMesh )
882	return E_FAIL;
883
884	// Get the mesh name
885	CHAR strAnsiName[512] = {0};
886	WCHAR strName[512];
887	SIZE_T dwNameLength = 512;
888	HRESULT hr;
889	if( FAILED( hr = pFileData->GetName( strAnsiName, &dwNameLength ) ) )
890	return hr;
891
892	MultiByteToWideChar( CP_ACP, 0, strAnsiName, -1, strName, 512 );
893	strName[511] = 0;
894
895	// Create the mesh
896	pParentFrame->m_pMesh = new CDXUTMesh( strName );
897	if( pParentFrame->m_pMesh == NULL )
898	return E_OUTOFMEMORY;
899	pParentFrame->m_pMesh->Create( pd3dDevice, pFileData );
900
901	return S_OK;
902	}
903
904
905
906
907	//-----------------------------------------------------------------------------
908	HRESULT CDXUTMeshFile::CreateFromResource( LPDIRECT3DDEVICE9 pd3dDevice, LPCWSTR strResource, LPCWSTR strType )
909	{
910	LPD3DXFILE pDXFile = NULL;
911	LPD3DXFILEENUMOBJECT pEnumObj = NULL;
912	LPD3DXFILEDATA pFileData = NULL;
913	HRESULT hr;
914	SIZE_T cChildren;
915
916	// Create a x file object
917	if( FAILED( hr = D3DXFileCreate( &pDXFile ) ) )
918	return E_FAIL;
919
920	// Register templates for d3drm and patch extensions.
921	if( FAILED( hr = pDXFile->RegisterTemplates( (void*)D3DRM_XTEMPLATES,
922	D3DRM_XTEMPLATE_BYTES ) ) )
923	{
924	SAFE_RELEASE( pDXFile );
925	return E_FAIL;
926	}
927
928	CHAR strTypeAnsi[MAX_PATH];
929	CHAR strResourceAnsi[MAX_PATH];
930
931	WideCharToMultiByte( CP_ACP, 0, strType, -1, strTypeAnsi, MAX_PATH, NULL, NULL );
932	strTypeAnsi[MAX_PATH-1] = 0;
933
934	WideCharToMultiByte( CP_ACP, 0, strResource, -1, strResourceAnsi, MAX_PATH, NULL, NULL );
935	strResourceAnsi[MAX_PATH-1] = 0;
936
937	D3DXF_FILELOADRESOURCE dxlr;
938	dxlr.hModule = NULL;
939	dxlr.lpName = strResourceAnsi;
940	dxlr.lpType = strTypeAnsi;
941
942	// Create enum object
943	hr = pDXFile->CreateEnumObject( (void*)&dxlr, D3DXF_FILELOAD_FROMRESOURCE,
944	&pEnumObj );
945	if( FAILED(hr) )
946	{
947	SAFE_RELEASE( pDXFile );
948	return hr;
949	}
950
951	// Enumerate top level objects (which are always frames)
952	pEnumObj->GetChildren(&cChildren);
953	for (UINT iChild = 0; iChild < cChildren; iChild++)
954	{
955	hr = pEnumObj->GetChild(iChild, &pFileData);
956	if (FAILED(hr))
957	return hr;
958
959	hr = LoadFrame( pd3dDevice, pFileData, this );
960	SAFE_RELEASE( pFileData );
961	if( FAILED(hr) )
962	{
963	SAFE_RELEASE( pEnumObj );
964	SAFE_RELEASE( pDXFile );
965	return E_FAIL;
966	}
967	}
968
969	SAFE_RELEASE( pFileData );
970	SAFE_RELEASE( pEnumObj );
971	SAFE_RELEASE( pDXFile );
972
973	return S_OK;
974	}
975
976
977
978
979	//-----------------------------------------------------------------------------
980	HRESULT CDXUTMeshFile::Create( LPDIRECT3DDEVICE9 pd3dDevice, LPCWSTR strFilename )
981	{
982	LPD3DXFILE pDXFile = NULL;
983	LPD3DXFILEENUMOBJECT pEnumObj = NULL;
984	LPD3DXFILEDATA pFileData = NULL;
985	HRESULT hr;
986	SIZE_T cChildren;
987
988	// Create a x file object
989	if( FAILED( hr = D3DXFileCreate( &pDXFile ) ) )
990	return E_FAIL;
991
992	// Register templates for d3drm and patch extensions.
993	if( FAILED( hr = pDXFile->RegisterTemplates( (void*)D3DRM_XTEMPLATES,
994	D3DRM_XTEMPLATE_BYTES ) ) )
995	{
996	SAFE_RELEASE( pDXFile );
997	return E_FAIL;
998	}
999
1000	// Find the path to the file, and convert it to ANSI (for the D3DXOF API)
1001	WCHAR strPath[MAX_PATH];
1002	CHAR strPathANSI[MAX_PATH];
1003	DXUTFindDXSDKMediaFileCch( strPath, sizeof(strPath) / sizeof(WCHAR), strFilename );
1004
1005
1006	WideCharToMultiByte( CP_ACP, 0, strPath, -1, strPathANSI, MAX_PATH, NULL, NULL );
1007	strPathANSI[MAX_PATH-1] = 0;
1008
1009
1010	// Create enum object
1011	hr = pDXFile->CreateEnumObject( (void*)strPathANSI, D3DXF_FILELOAD_FROMFILE,
1012	&pEnumObj );
1013	if( FAILED(hr) )
1014	{
1015	SAFE_RELEASE( pDXFile );
1016	return hr;
1017	}
1018
1019	// Enumerate top level objects (which are always frames)
1020	pEnumObj->GetChildren(&cChildren);
1021	for (UINT iChild = 0; iChild < cChildren; iChild++)
1022	{
1023	hr = pEnumObj->GetChild(iChild, &pFileData);
1024	if (FAILED(hr))
1025	return hr;
1026
1027	hr = LoadFrame( pd3dDevice, pFileData, this );
1028	SAFE_RELEASE( pFileData );
1029	if( FAILED(hr) )
1030	{
1031	SAFE_RELEASE( pEnumObj );
1032	SAFE_RELEASE( pDXFile );
1033	return E_FAIL;
1034	}
1035	}
1036
1037	SAFE_RELEASE( pFileData );
1038	SAFE_RELEASE( pEnumObj );
1039	SAFE_RELEASE( pDXFile );
1040
1041	return S_OK;
1042	}
1043
1044
1045
1046
1047	//-----------------------------------------------------------------------------
1048	HRESULT CDXUTMeshFile::Render( LPDIRECT3DDEVICE9 pd3dDevice, D3DXMATRIX* pmatWorldMatrix )
1049	{
1050
1051	// For pure devices, specify the world transform. If the world transform is not
1052	// specified on pure devices, this function will fail.
1053
1054	// Set up the world transformation
1055	D3DXMATRIX matSavedWorld, matWorld;
1056
1057	if ( NULL == pmatWorldMatrix )
1058	pd3dDevice->GetTransform( D3DTS_WORLD, &matSavedWorld );
1059	else
1060	matSavedWorld = *pmatWorldMatrix;
1061
1062	D3DXMatrixMultiply( &matWorld, &matSavedWorld, &m_mat );
1063	pd3dDevice->SetTransform( D3DTS_WORLD, &matWorld );
1064
1065	// Render opaque subsets in the meshes
1066	if( m_pChild )
1067	m_pChild->Render( pd3dDevice, TRUE, FALSE, &matWorld );
1068
1069	// Enable alpha blending
1070	pd3dDevice->SetRenderState( D3DRS_ALPHABLENDENABLE, TRUE );
1071	pd3dDevice->SetRenderState( D3DRS_SRCBLEND, D3DBLEND_SRCALPHA );
1072	pd3dDevice->SetRenderState( D3DRS_DESTBLEND, D3DBLEND_INVSRCALPHA );
1073
1074	// Render alpha subsets in the meshes
1075	if( m_pChild )
1076	m_pChild->Render( pd3dDevice, FALSE, TRUE, &matWorld );
1077
1078	// Restore state
1079	pd3dDevice->SetRenderState( D3DRS_ALPHABLENDENABLE, FALSE );
1080	pd3dDevice->SetTransform( D3DTS_WORLD, &matSavedWorld );
1081
1082	return S_OK;
1083	}
1084
1085
1086
1087

Note: See TracBrowser for help on using the repository browser.

Context Navigation

source: GTP-Internal/trunk/App/Demos/Illum/Ocean/Common/DXUTMesh.cpp @ 1777

Download in other formats: