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source: trunk/src/formats/assimp_loader.cc @ 425

Last change on this file since 425 was 425, checked in by epyon, 10 years ago
mesh formats now support string loading via string_table nmd string_table dump fixes all around
File size: 15.3 KB

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1	// Copyright (C) 2014-2015 ChaosForge Ltd
2	// http://chaosforge.org/
3	//
4	// This file is part of Nova libraries.
5	// For conditions of distribution and use, see copying.txt file in root folder.
6
7	#include "nv/formats/assimp_loader.hh"
8
9	#include "nv/interface/data_channel_access.hh"
10	#include "nv/stl/unordered_map.hh"
11	#include "nv/lib/assimp.hh"
12
13	using namespace nv;
14
15	const unsigned MAX_BONES = 64;
16
17	struct assimp_plain_vtx
18	{
19	vec3 position;
20	vec3 normal;
21	vec2 texcoord;
22	vec4 tangent;
23
24	assimp_plain_vtx() {}
25	assimp_plain_vtx( const vec3& v, const vec2& t, const vec3& n, const vec4& g )
26	{
27	position = v;
28	texcoord = t;
29	normal = n;
30	tangent = g;
31	}
32	};
33
34	struct assimp_skinned_vtx
35	{
36	vec3 position;
37	vec3 normal;
38	vec2 texcoord;
39	vec4 tangent;
40	ivec4 boneindex;
41	vec4 boneweight;
42
43	assimp_skinned_vtx() {}
44	assimp_skinned_vtx( const vec3& v, const vec2& t, const vec3& n, const vec4& g )
45	{
46	position = v;
47	texcoord = t;
48	normal = n;
49	tangent = g;
50	}
51	};
52
53	struct assimp_key_p { float time; vec3 translation; };
54	struct assimp_key_r { float time; quat rotation; };
55	struct assimp_key_s { float time; vec3 scale; };
56	struct assimp_key_tr { transform tform; };
57
58
59	nv::assimp_loader::assimp_loader( string_table* strings, const string_view& a_ext, uint32 a_assimp_flags /= 0 / )
60	: mesh_loader( strings ), m_scene( nullptr ), m_mesh_count(0)
61	{
62	m_ext = a_ext;
63	m_assimp_flags = a_assimp_flags;
64	if ( m_assimp_flags == 0 )
65	{
66	m_assimp_flags = (
67	aiProcess_CalcTangentSpace \|
68	aiProcess_GenSmoothNormals \|
69	aiProcess_JoinIdenticalVertices \|
70	aiProcess_ImproveCacheLocality \|
71	aiProcess_LimitBoneWeights \|
72	aiProcess_RemoveRedundantMaterials \|
73	aiProcess_SplitLargeMeshes \|
74	aiProcess_Triangulate \|
75	aiProcess_GenUVCoords \|
76	aiProcess_SortByPType \|
77	aiProcess_FindDegenerates \|
78	aiProcess_FindInvalidData \|
79	0 );
80	}
81	}
82
83
84	bool nv::assimp_loader::load( stream& source )
85	{
86	load_assimp_library();
87	if ( m_scene != nullptr ) aiReleaseImport( reinterpret_cast<const aiScene*>( m_scene ) );
88	m_scene = nullptr;
89	m_mesh_count = 0;
90	NV_LOG_NOTICE( "AssImp loading file..." );
91	size_t size = source.size();
92	char* data = new char[ size ];
93	source.read( data, size, 1 );
94	const aiScene* scene = aiImportFileFromMemory( data, size, m_assimp_flags, m_ext.data() );
95
96	if( !scene)
97	{
98	NV_LOG_ERROR( aiGetErrorString() );
99	return false;
100	}
101	m_scene = scene;
102	m_mesh_count = scene->mNumMeshes;
103	NV_LOG_NOTICE( "Loading successfull" );
104	return true;
105	}
106
107	data_channel_set* nv::assimp_loader::release_mesh_data( size_t index /= 0 / )
108	{
109	if ( index >= m_mesh_count ) return nullptr;
110	data_channel_set* result = data_channel_set_creator::create_set( 2 );
111	load_mesh_data( result, index );
112	return result;
113	}
114	void nv::assimp_loader::load_mesh_data( data_channel_set* data, size_t index )
115	{
116	const aiScene* scene = reinterpret_cast<const aiScene*>( m_scene );
117	const aiMesh* mesh = scene->mMeshes[ index ];
118
119	bool skinned = mesh->mNumBones > 0;
120
121	data_descriptor desc;
122	if ( skinned )
123	desc.initialize< assimp_skinned_vtx >();
124	else
125	desc.initialize< assimp_plain_vtx >();
126	data_channel_set_creator maccess( data );
127	const char* name = mesh->mName.data;
128	maccess.set_name( make_name( name ) );
129	uint8* cdata = maccess.add_channel( desc, mesh->mNumVertices ).raw_data();
130	uint16* indices = reinterpret_cast<uint16>( maccess.add_channel< index_u16 >( mesh->mNumFaces 3 ).raw_data() );
131
132	if ( mesh->mTangents && mesh->mBitangents )
133	for ( unsigned int i = 0; i < mesh->mNumVertices; i++ )
134	{
135	vec3 v = assimp_vec3_cast( mesh->mVertices[i] );
136	vec3 n = glm::normalize( assimp_vec3_cast( mesh->mNormals[i] ) );
137	vec3 t = glm::normalize( assimp_vec3_cast( mesh->mTangents[i] ) );
138	vec3 b = glm::normalize( assimp_vec3_cast( mesh->mBitangents[i] ) );
139	vec2 s = assimp_st_cast( mesh->mTextureCoords[0][i] );
140
141	glm::vec3 t_i = glm::normalize( t - n * glm::dot( n, t ) );
142	float det = ( glm::dot( glm::cross( n, t ), b ) );
143	det = ( det < 0.0f ? -1.0f : 1.0f );
144	nv::vec4 vt( t_i[0], t_i[1], t_i[2], det );
145	if ( skinned )
146	reinterpret_cast<assimp_skinned_vtx*>( cdata )[i] = assimp_skinned_vtx( v, s, n, vt );
147	else
148	reinterpret_cast<assimp_plain_vtx*>( cdata )[i] = assimp_plain_vtx( v, s, n, vt );
149	}
150
151	if ( skinned )
152	{
153	assimp_skinned_vtx* vtx = reinterpret_cast< assimp_skinned_vtx* >( cdata );
154	for (unsigned int m=0; m<mesh->mNumBones; m++)
155	{
156	aiBone* bone = mesh->mBones[m];
157	for (unsigned int w=0; w<bone->mNumWeights; w++)
158	{
159	assimp_skinned_vtx& v = vtx[ bone->mWeights[w].mVertexId ];
160	bool found = false;
161	for ( int i = 0 ; i < 4; ++i )
162	{
163	if ( v.boneweight[i] <= 0.0f )
164	{
165	v.boneindex[i] = int( m );
166	v.boneweight[i] = bone->mWeights[w].mWeight;
167	found = true;
168	break;
169	}
170	}
171	NV_ASSERT( found, "Too many weights!" );
172	}
173	}
174	}
175
176	for (unsigned int i=0; i<mesh->mNumFaces; i++)
177	{
178	const aiFace* face = &mesh->mFaces[i];
179	for (unsigned int j=0; j<face->mNumIndices; j++)
180	{
181	indices[ i*3 + j ] = uint16( face->mIndices[j] );
182	}
183	}
184
185	}
186
187	nv::assimp_loader::~assimp_loader()
188	{
189	if ( m_scene != nullptr ) aiReleaseImport( reinterpret_cast<const aiScene*>( m_scene ) );
190	}
191
192	bool nv::assimp_loader::load_bones( size_t index, array_ref< mesh_node_data > bones )
193	{
194	if ( m_scene == nullptr ) return false;
195	const aiScene* scene = reinterpret_cast<const aiScene*>( m_scene );
196	const aiMesh* mesh = scene->mMeshes[ index ];
197
198	for (unsigned int m=0; m<mesh->mNumBones; m++)
199	{
200	aiBone* bone = mesh->mBones[m];
201	mat4 offset = assimp_mat4_cast( bone->mOffsetMatrix );
202	bones[m].data = data_channel_set_creator::create_set( 0 );
203	data_channel_set_creator access( bones[m].data );
204	const char* name = bone->mName.data;
205	access.set_name( make_name( name ) );
206	access.set_transform( offset );
207	}
208	return true;
209	}
210
211	void nv::assimp_loader::scene_report() const
212	{
213	const aiScene* scene = reinterpret_cast<const aiScene*>( m_scene );
214	if ( scene == nullptr ) return;
215
216	NV_LOG_NOTICE( "------------------------" );
217	NV_LOG_NOTICE( "Texture count - ", scene->mNumTextures );
218	NV_LOG_NOTICE( "Animation count - ", scene->mNumAnimations );
219	NV_LOG_NOTICE( "Material count - ", scene->mNumMaterials );
220	NV_LOG_NOTICE( "Meshes count - ", scene->mNumMeshes );
221	NV_LOG_NOTICE( "------------------------" );
222
223	aiNode* root = scene->mRootNode;
224	if (root)
225	{
226	NV_LOG_NOTICE( "Root node - ", root->mName.data );
227	NV_LOG_NOTICE( " meshes - ", root->mNumMeshes );
228	NV_LOG_NOTICE( " children - ", root->mNumChildren );
229	}
230	else
231	{
232	NV_LOG_NOTICE( "No root node!" );
233	}
234	NV_LOG_NOTICE( "------------------------" );
235
236	if ( scene->mNumMeshes > 0 )
237	{
238	for ( nv::uint32 mc = 0; mc < scene->mNumMeshes; mc++ )
239	{
240	aiMesh* mesh = scene->mMeshes[mc];
241
242	NV_LOG_NOTICE( "Mesh #", mc, " - ", string_view( static_cast<char*>( mesh->mName.data ) ) );
243	NV_LOG_NOTICE( " bones - ", mesh->mNumBones );
244	NV_LOG_NOTICE( " uvs - ", mesh->mNumUVComponents[0] );
245	NV_LOG_NOTICE( " verts - ", mesh->mNumVertices );
246	NV_LOG_NOTICE( " faces - ", mesh->mNumFaces );
247
248	// NV_LOG_NOTICE( "Bones:" );
249	// for (unsigned int m=0; m<mesh->mNumBones; m++)
250	// {
251	// aiBone* bone = mesh->mBones[m];
252	// NV_LOG_NOTICE( bone->mName.C_Str() );
253	// }
254	}
255	}
256	else
257	{
258	NV_LOG_NOTICE( "No meshes!" );
259	}
260	NV_LOG_NOTICE( "------------------------" );
261
262
263	// if ( scene->mNumMaterials > 0 )
264	// {
265	// for (unsigned int m=0; m < scene->mNumMaterials; m++)
266	// {
267	// int texIndex = 0;
268	// aiReturn texFound = aiReturn_SUCCESS;
269	// aiString path; // filename
270	// while (texFound == aiReturn_SUCCESS)
271	// {
272	// texFound = scene->mMaterials[m]->GetTexture(aiTextureType_DIFFUSE, texIndex, &path);
273	// NV_LOG_NOTICE( " material - ", path.data );
274	// texIndex++;
275	// }
276	// }
277	// }
278	// else
279	// {
280	// NV_LOG_NOTICE( "No materials" );
281	// }
282	// NV_LOG_NOTICE( "------------------------" );
283
284	}
285
286	mesh_nodes_data* nv::assimp_loader::release_merged_bones( data_channel_set* meshes )
287	{
288	const aiScene* scene = reinterpret_cast<const aiScene*>( m_scene );
289	vector< mesh_node_data > final_bones;
290	unordered_map< uint64, uint16 > names;
291	for ( unsigned int m = 0; m < m_mesh_count; ++m )
292	{
293	uint16 translate[MAX_BONES];
294	vector< mesh_node_data > bones;
295	const aiMesh* mesh = scene->mMeshes[ m ];
296	if ( mesh->mNumBones != 0 )
297	{
298	bones.resize( mesh->mNumBones );
299	load_bones( m, bones );
300	for ( unsigned int b = 0; b < mesh->mNumBones; ++b )
301	{
302
303	mesh_node_data& bone = bones[b];
304	auto iname = names.find( bone.data->get_name() );
305	if ( iname == names.end() )
306	{
307	NV_ASSERT( final_bones.size() < MAX_BONES, "Too many bones to merge!" );
308	uint16 index = uint16( final_bones.size() );
309	final_bones.push_back( bone );
310	names[ bone.data->get_name() ] = index;
311	translate[b] = index;
312	}
313	else
314	{
315	translate[b] = iname->second;
316	}
317	}
318	if ( m > 0 && bones.size() > 0 )
319	{
320	data_channel_access< assimp_skinned_vtx > channel( const_cast< raw_data_channel* >( meshes[m].get_channel(0) ) );
321	for ( unsigned v = 0; v < channel.size(); ++v )
322	{
323	assimp_skinned_vtx& vertex = channel.data()[v];
324
325	for ( int i = 0 ; i < 4; ++i)
326	{
327	if ( vertex.boneweight[i] > 0.0f )
328	{
329	vertex.boneindex[i] = int( translate[vertex.boneindex[i]] );
330	}
331	}
332	}
333	}
334	}
335	}
336	mesh_node_data* bones = new mesh_node_data[ final_bones.size() ];
337	raw_copy( final_bones.begin(), final_bones.end(), bones );
338	return new mesh_nodes_data( make_name( "bones" ), final_bones.size(), bones );
339	}
340
341	mesh_nodes_data* nv::assimp_loader::release_mesh_nodes_data( size_t index /= 0/ )
342	{
343	if ( m_scene == nullptr ) return nullptr;
344	const aiScene* scene = reinterpret_cast<const aiScene*>( m_scene );
345	if ( scene->mRootNode == nullptr \|\| scene->mAnimations == nullptr \|\| scene->mAnimations[index] == nullptr) return nullptr;
346
347	const aiNode* root = scene->mRootNode;
348	const aiAnimation* anim = scene->mAnimations[index];
349
350	uint32 count = count_nodes( scene->mRootNode );
351	mesh_node_data* data = new mesh_node_data[count];
352
353	uint16 frame_rate = static_cast<uint16>( anim->mTicksPerSecond );
354	float duration = static_cast<float>( anim->mDuration );
355	bool flat = false;
356
357	load_node( index, data, root, 0, -1 );
358
359	return new mesh_nodes_data( make_name( static_cast<const char*>( anim->mName.data ) ), count, data, frame_rate, duration, flat );
360	}
361
362	nv::uint32 nv::assimp_loader::count_nodes( const void* node ) const
363	{
364	const aiNode* ainode = reinterpret_cast< const aiNode* >( node );
365	nv::uint32 count = 1;
366	for ( unsigned i = 0; i < ainode->mNumChildren; ++i )
367	{
368	count += count_nodes( ainode->mChildren[i] );
369	}
370	return count;
371	}
372
373	nv::sint16 nv::assimp_loader::load_node( uint32 anim_id, mesh_node_data* nodes, const void* vnode, sint16 this_id, sint16 parent_id )
374	{
375	const aiScene* scene = reinterpret_cast<const aiScene*>( m_scene );
376	const aiNode* node = reinterpret_cast<const aiNode*>( vnode );
377	string_view name( static_cast< const char* >( node->mName.data ) );
378	const aiAnimation* anim = scene->mAnimations[anim_id];
379	const aiNodeAnim* anode = nullptr;
380
381	for ( unsigned i = 0 ; i < anim->mNumChannels ; i++ )
382	{
383	anode = anim->mChannels[i];
384	if ( string_view( static_cast< const char* >( anode->mNodeName.data ) ) == name ) break;
385	anode = nullptr;
386	}
387
388	mesh_node_data& a_data = nodes[ this_id ];
389
390	if (anode)
391	create_keys( &a_data, anode );
392	else
393	a_data.data = data_channel_set_creator::create_set( 0 );
394
395	data_channel_set_creator access( a_data.data );
396	access.set_name( make_name( name ) );
397	access.set_parent_id( parent_id );
398	// This value is ignored by the create_transformed_keys, but needed by create_direct_keys!
399	// TODO: find a common solution!
400	// This is bad because create_transformed_keys never uses node-transformations for
401	// node's without keys
402	access.set_transform( nv::assimp_mat4_cast( node->mTransformation ) );
403	if ( this_id == 0 ) access.set_transform( mat4() );
404
405	nv::sint16 next = this_id + 1;
406	for ( unsigned i = 0; i < node->mNumChildren; ++i )
407	{
408	next = load_node( anim_id, nodes, node->mChildren[i], next, this_id );
409	}
410
411	return next;
412	}
413
414	void nv::assimp_loader::create_keys( mesh_node_data* data, const void* vnode )
415	{
416	const aiNodeAnim* node = reinterpret_cast< const aiNodeAnim* >( vnode );
417	if ( node->mNumPositionKeys == 0 && node->mNumRotationKeys == 0 && node->mNumScalingKeys == 0 )
418	{
419	return;
420	}
421
422	data->data = data_channel_set_creator::create_set( 2 );
423	data_channel_set_creator key_set( data->data );
424
425	assimp_key_p* pchannel = key_set.add_channel< assimp_key_p >( node->mNumPositionKeys ).data();
426	assimp_key_r* rchannel = key_set.add_channel< assimp_key_r >( node->mNumRotationKeys ).data();
427	// assimp_key_s* schannel = key_set.add_channel< assimp_key_s >( node->mNumScalingKeys ).data();
428
429	for ( unsigned np = 0; np < node->mNumPositionKeys; ++np )
430	{
431	pchannel[np].time = static_cast<float>( node->mPositionKeys[np].mTime );
432	pchannel[np].translation = assimp_vec3_cast(node->mPositionKeys[np].mValue);
433	}
434	for ( unsigned np = 0; np < node->mNumRotationKeys; ++np )
435	{
436	rchannel[np].time = static_cast<float>( node->mRotationKeys[np].mTime );
437	rchannel[np].rotation = assimp_quat_cast(node->mRotationKeys[np].mValue );
438	}
439	// if ( node->mNumScalingKeys > 0 )
440	// {
441	// nv::vec3 scale_vec0 = assimp_vec3_cast( node->mScalingKeys[0].mValue );
442	// float scale_value = glm::length( glm::abs( scale_vec0 - nv::vec3(1,1,1) ) );
443	// if ( node->mNumScalingKeys > 1 \|\| scale_value > 0.001 )
444	// {
445	// NV_LOG( nv::LOG_WARNING, "scale key significant!" );
446	// for ( unsigned np = 0; np < node->mNumRotationKeys; ++np )
447	// {
448	// schannel[np].time = (float)node->mScalingKeys[np].mTime;
449	// schannel[np].scale = assimp_vec3_cast(node->mScalingKeys[np].mValue);
450	// }
451	// }
452	// else
453	// {
454	// schannel[0].time = (float)node->mScalingKeys[0].mTime;
455	// schannel[0].scale = assimp_vec3_cast(node->mScalingKeys[0].mValue);
456	// }
457	// }
458
459	}
460
461	mesh_data_pack* nv::assimp_loader::release_mesh_data_pack()
462	{
463	if ( m_scene == nullptr \|\| m_mesh_count == 0 ) return nullptr;
464	const aiScene* scene = reinterpret_cast<const aiScene*>( m_scene );
465	bool has_bones = false;
466	data_channel_set* meshes = data_channel_set_creator::create_set_array( m_mesh_count, 2 );
467	for ( size_t m = 0; m < m_mesh_count; ++m )
468	{
469	const aiMesh* mesh = scene->mMeshes[ m ];
470	data_channel_set_creator( &meshes[m] ).set_name( make_name( static_cast<const char*>( mesh->mName.data ) ) );
471	if ( mesh->mNumBones > 0 ) has_bones = true;
472	load_mesh_data(&meshes[m],m);
473	}
474
475	mesh_nodes_data* nodes = ( has_bones ? release_merged_bones( meshes ) : release_mesh_nodes_data(0) );
476	return new mesh_data_pack( m_mesh_count, meshes, nodes );
477	}
478
479	nv::size_t nv::assimp_loader::get_nodes_data_count() const
480	{
481	if ( m_scene == nullptr ) return 0;
482	const aiScene* scene = reinterpret_cast<const aiScene*>( m_scene );
483	return scene->mNumAnimations;
484	}
485
486

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