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source: trunk/src/formats/md5_loader.cc @ 413

Last change on this file since 413 was 413, checked in by epyon, 10 years ago
data_descriptor creators ( buggy )
File size: 15.3 KB

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1	// Copyright (C) 2012-2015 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/md5_loader.hh"
8
9	#include "nv/core/logging.hh"
10	#include "nv/stl/vector.hh"
11	#include "nv/io/std_stream.hh"
12
13	#include <stdio.h> // sscanf
14	#include <stdlib.h> // atof
15
16	using namespace nv;
17
18	static void next_line( std::istream& stream )
19	{
20	stream.ignore( 1024*1024, '\n' );
21	}
22
23	static inline void discard( std::istream& stream, const std::string& token )
24	{
25	std::string discarded;
26	stream >> discarded;
27	assert( discarded == token );
28	}
29
30	static void remove_quotes( std::string& str )
31	{
32	nv::size_t n;
33	while ( ( n = str.find('\"') ) != std::string::npos ) str.erase(n,1);
34	}
35
36	static void unit_quat_w( nv::quat& quat )
37	{
38	float t = 1.0f - ( quat.x * quat.x ) - ( quat.y * quat.y ) - ( quat.z * quat.z );
39	quat.w = ( t < 0.0f ? 0.0f : -sqrtf(t) );
40	}
41
42	bool md5_loader::load( stream& source )
43	{
44	reset();
45	std_stream sstream( &source );
46	std::string command;
47	mesh_node_data* nodes = nullptr;
48	size_t num_joints = 0;
49
50	// MESH data
51	dynamic_array< md5_weight > weights;
52	dynamic_array< md5_weight_info > weight_info;
53	size_t num_meshes = 0;
54
55	// MESH data
56	dynamic_array< md5_joint_info > joint_infos;
57	vector< transform > base_frames;
58	size_t num_animated_components = 0;
59	size_t frame_rate = 0;
60	size_t num_frames = 0;
61
62	sstream >> command;
63	while ( !sstream.eof() )
64	{
65	if ( command == "MD5Version" )
66	{
67	sstream >> m_md5_version;
68	assert( m_md5_version == 10 );
69	}
70	else if ( command == "commandline" )
71	{
72	next_line( sstream );
73	}
74	else if ( command == "numJoints" )
75	{
76	sstream >> num_joints;
77	next_line( sstream );
78	}
79	else if ( command == "numMeshes" )
80	{
81	assert( m_type == UNKNOWN );
82	m_type = MESH;
83	sstream >> num_meshes;
84	m_meshes.resize( num_meshes );
85	num_meshes = 0;
86	}
87	else if ( command == "numFrames" )
88	{
89	assert( m_type == UNKNOWN \|\| m_type == ANIMATION );
90	m_type = ANIMATION;
91	sstream >> num_frames;
92	next_line( sstream );
93	}
94	else if ( command == "frameRate" )
95	{
96	assert( m_type == UNKNOWN \|\| m_type == ANIMATION );
97	m_type = ANIMATION;
98	sstream >> frame_rate;
99	next_line( sstream );
100	}
101	else if ( command == "numAnimatedComponents" )
102	{
103	assert( m_type == UNKNOWN \|\| m_type == ANIMATION );
104	m_type = ANIMATION;
105	sstream >> num_animated_components;
106	next_line( sstream );
107	}
108	else if ( command == "joints" )
109	{
110	assert( m_type == MESH );
111	assert( m_nodes == nullptr );
112	nodes = new mesh_node_data[ num_joints ];
113	m_nodes = new mesh_nodes_data( "md5_bones", num_joints, nodes );
114	discard( sstream, "{" );
115	for ( size_t i = 0; i < m_nodes->get_count(); ++i )
116	{
117	sstream >> nodes[i].name >> nodes[i].parent_id;
118	vec3 pos;
119	quat orient;
120	discard( sstream, "(" );
121	sstream >> pos.x >> pos.y >> pos.z;
122	discard( sstream, ")" );
123	discard( sstream, "(" );
124	sstream >> orient.x >> orient.y >> orient.z;
125	unit_quat_w( orient );
126	remove_quotes( nodes[i].name );
127	nodes[i].target_id = -1;
128	nodes[i].parent_id = -1;
129	nodes[i].transform = transform( pos, orient ).inverse().extract();
130	nodes[i].data = nullptr;
131	next_line( sstream );
132	}
133	discard( sstream, "}" );
134	}
135	else if ( command == "mesh" )
136	{
137	assert( m_type == MESH );
138	mesh_data* mesh = new mesh_data("md5_mesh");
139	raw_data_channel* ch_pntiw = nullptr;
140
141	uint32 num_verts = 0;
142	uint32 num_tris = 0;
143	uint32 num_weights = 0;
144
145	discard( sstream, "{" );
146	sstream >> command;
147	while ( command != "}" )
148	{
149	if ( command == "shader" )
150	{
151	std::string shader;
152	sstream >> shader;
153	remove_quotes( shader );
154	next_line( sstream );
155	}
156	else if ( command == "numverts")
157	{
158	sstream >> num_verts;
159
160	md5_vtx_t* tdata = nullptr;
161	{
162	data_channel_creator<md5_vtx_pnt> ch_pnt( num_verts );
163	data_channel_creator<md5_vtx_t> ch_t( num_verts );
164	ch_pntiw = raw_data_channel::create<md5_vtx_pntiw>( num_verts );
165	tdata = ch_t.data();
166	mesh->add_channel( ch_pnt.release() );
167	mesh->add_channel( ch_t.release() );
168	// TODO: hack to prevent rendering
169	//ch_pntiw->m_count = 0;
170	mesh->add_channel( ch_pntiw );
171	}
172	weight_info.resize( num_verts );
173
174	next_line( sstream );
175	std::string line;
176	for ( uint32 i = 0; i < num_verts; ++i )
177	{
178	size_t weight_count;
179	size_t start_weight;
180	vec2 texcoord;
181
182	std::getline( sstream, line );
183	sscanf( line.c_str(), "%s %u ( %f %f ) %u %u", &(texcoord.x), &(texcoord.y), &(start_weight), &(weight_count) );
184	weight_info[i].start_weight = start_weight;
185	weight_info[i].weight_count = weight_count;
186	tdata[i].texcoord = texcoord;
187	}
188	}
189	else if ( command == "numtris" )
190	{
191	sstream >> num_tris;
192
193	data_channel_creator< index_u32 > ch_i( num_tris * 3 );
194	uint32* vtx_i = reinterpret_cast< uint32* >( ch_i.raw_data() );
195	uint32 idx = 0;
196
197	next_line( sstream );
198	std::string line;
199	for ( uint32 i = 0; i < num_tris; ++i )
200	{
201	unsigned ti0;
202	unsigned ti1;
203	unsigned ti2;
204
205	std::getline( sstream, line );
206	sscanf( line.c_str(), "%s %u %u %u %u )", &(ti0), &(ti1), &(ti2));
207
208	vtx_i[idx++] = ti0;
209	vtx_i[idx++] = ti1;
210	vtx_i[idx++] = ti2;
211	}
212
213	mesh->add_channel( ch_i.release() );
214	}
215	else if ( command == "numweights" )
216	{
217	sstream >> num_weights;
218	weights.resize( num_weights );
219	next_line( sstream );
220	std::string line;
221	for ( uint32 i = 0; i < num_weights; ++i )
222	{
223	md5_weight weight;
224
225	std::getline( sstream, line );
226	sscanf( line.c_str(), "%s %u %u %f ( %f %f %f )", &(weight.joint_id), &(weight.bias), &(weight.pos.x), &(weight.pos.y), &(weight.pos.z));
227	weights[i] = weight;
228	}
229	}
230	else
231	{
232	next_line( sstream );
233	}
234
235	sstream >> command;
236	}
237
238	prepare_mesh( reinterpret_cast< md5_vtx_pntiw* >( const_cast< uint8* >( ch_pntiw->raw_data() ) ), nodes, weight_info.size(), mesh, weights.data(), weight_info.data() );
239
240	m_meshes[ num_meshes ] = mesh;
241	num_meshes++;
242	} // mesh
243	else if ( command == "hierarchy" )
244	{
245	assert( m_type == ANIMATION );
246	assert( nodes == nullptr );
247	nodes = new mesh_node_data[ num_joints ];
248	m_nodes = new mesh_nodes_data( "md5_animation", num_joints, nodes, static_cast< nv::uint16 >( frame_rate ), static_cast< float >( num_frames ), true );
249	joint_infos.resize( num_joints );
250
251	discard( sstream, "{" );
252	for ( size_t i = 0; i < m_nodes->get_count(); ++i )
253	{
254	std::string name;
255	sstream >> nodes[i].name >> nodes[i].parent_id >> joint_infos[i].flags >> joint_infos[i].start_index;
256	remove_quotes( name );
257	nodes[i].transform = mat4();
258	nodes[i].target_id = -1;
259	nodes[i].data = new key_data;
260	nodes[i].data->add_channel( raw_data_channel::create< md5_key_t >( num_frames ) );
261	next_line( sstream );
262	}
263	discard( sstream, "}" );
264	}
265	else if ( command == "bounds" )
266	{
267	assert( m_type == ANIMATION );
268	discard( sstream, "{" );
269	next_line( sstream );
270	for ( size_t i = 0; i < num_frames; ++i )
271	{
272	// vec3 min;
273	// vec3 max;
274	// discard( sstream, "(" );
275	// sstream >> min.x >> min.y >> min.z;
276	// discard( sstream, ")" );
277	// discard( sstream, "(" );
278	// sstream >> max.x >> max.y >> max.z;
279	// m_bounds.push_back( bound );
280	next_line( sstream );
281	}
282
283	discard( sstream, "}" );
284	next_line( sstream );
285	}
286	else if ( command == "baseframe" )
287	{
288	assert( m_type == ANIMATION );
289	discard( sstream, "{" );
290	next_line( sstream );
291
292	for ( size_t i = 0; i < m_nodes->get_count(); ++i )
293	{
294	transform base_frame;
295	vec3 pos;
296	quat orient;
297	discard( sstream, "(" );
298	sstream >> pos.x >> pos.y >> pos.z;
299	discard( sstream, ")" );
300	discard( sstream, "(" );
301	sstream >> orient.x >> orient.y >> orient.z;
302	next_line( sstream );
303
304	base_frames.emplace_back( pos, orient );
305	}
306	discard( sstream, "}" );
307	next_line( sstream );
308	}
309	else if ( command == "frame" )
310	{
311	vector<float> frame;
312	uint32 frame_id;
313	sstream >> frame_id;
314	discard( sstream, "{" );
315	next_line( sstream );
316
317	frame.reserve( num_animated_components );
318	char buf[50];
319	for ( size_t i = 0; i < num_animated_components; ++i )
320	{
321	sstream >> buf;
322	frame.push_back( static_cast< float >( atof(buf) ) );
323	}
324
325	build_frame_skeleton( nodes, frame_id, joint_infos, base_frames, frame );
326
327	discard( sstream, "}" );
328	next_line( sstream );
329	}
330
331	sstream >> command;
332	}
333
334	return true;
335	}
336
337	bool md5_loader::prepare_mesh( md5_vtx_pntiw* vtx_data, mesh_node_data* nodes, uint32 vtx_count, mesh_data* mdata, md5_weight* weights, md5_weight_info* weight_info )
338	{
339	assert( m_type == MESH );
340	data_channel_creator< md5_vtx_pnt > pnt( const_cast< raw_data_channel* >( mdata->get_channel< md5_vtx_pnt >() ) );
341	md5_vtx_pnt* vtcs = pnt.data();
342
343	for ( uint32 i = 0; i < vtx_count; ++i )
344	{
345	size_t start_weight = weight_info[i].start_weight;
346	size_t weight_count = weight_info[i].weight_count;
347	md5_vtx_pntiw& vdata = vtx_data[i];
348	md5_vtx_pnt& vtc = vtcs[i];
349
350	vtc.position = vec3(0);
351	vtc.normal = vec3(0);
352	vtc.tangent = vec3(0);
353
354	stable_sort( weights + start_weight, weights + start_weight + weight_count, [] ( const md5_weight& a, const md5_weight& b ) -> bool { return a.bias > b.bias; } );
355	//std::sort( weights + start_weight, weights + start_weight + weight_count, [](const md5_weight& a, const md5_weight& b) -> bool { return a.bias > b.bias; } );
356
357	if ( weight_count > 4 )
358	{
359	float sum = 0.0f;
360	for ( size_t j = 0; j < 4; ++j )
361	{
362	sum += weights[start_weight + j].bias;
363	}
364	float ratio = 1.0f / sum;
365	for ( size_t j = 0; j < 4; ++j )
366	{
367	weights[start_weight + j].bias = ratio * weights[start_weight + j].bias;
368	}
369	weight_count = 4;
370	}
371
372	for ( int j = 0; j < 4; ++j )
373	{
374	if ( j < int(weight_count) )
375	{
376	vdata.boneindex[j] = int( weights[int(start_weight) + j].joint_id );
377	vdata.boneweight[j] = weights[int(start_weight) + j].bias;
378	}
379	else
380	{
381	vdata.boneindex[j] = 0;
382	vdata.boneweight[j] = 0.0f;
383	}
384	}
385
386	for ( size_t j = 0; j < 4; ++j )
387	{
388	if ( j < weight_count )
389	{
390	md5_weight& weight = weights[start_weight + j];
391	const mesh_node_data& joint = nodes[weight.joint_id];
392	const transform tr = transform( joint.transform ).inverse();
393	vec3 rot_pos = tr.get_orientation() * weight.pos;
394
395	vtc.position += ( tr.get_position() + rot_pos ) * weight.bias;
396	}
397	}
398	}
399
400	const uint32* idata = reinterpret_cast< uint32* >( const_cast< uint8* >( mdata->get_index_channel()->raw_data() ) );
401	const md5_vtx_t* tdata = mdata->get_channel_data<md5_vtx_t>();
402
403	// Prepare normals
404	uint32 tri_count = mdata->get_count() / 3;
405	for ( unsigned int i = 0; i < tri_count; ++i )
406	{
407	uint32 ti0 = idata[ i * 3 ];
408	uint32 ti1 = idata[ i * 3 + 1 ];
409	uint32 ti2 = idata[ i * 3 + 2 ];
410
411	vec3 v1 = vtcs[ ti0 ].position;
412	vec3 v2 = vtcs[ ti1 ].position;
413	vec3 v3 = vtcs[ ti2 ].position;
414	vec3 xyz1 = v3 - v1;
415	vec3 xyz2 = v2 - v1;
416
417	vec3 normal = glm::cross( xyz1, xyz2 );
418
419	vtcs[ ti0 ].normal += normal;
420	vtcs[ ti1 ].normal += normal;
421	vtcs[ ti2 ].normal += normal;
422
423	const vec2& w1 = tdata[ ti0 ].texcoord;
424	const vec2& w2 = tdata[ ti1 ].texcoord;
425	const vec2& w3 = tdata[ ti2 ].texcoord;
426
427	vec2 st1 = w3 - w1;
428	vec2 st2 = w2 - w1;
429
430	float coef = 1.0f / (st1.x * st2.y - st2.x * st1.y);
431
432	vec3 tangent = (( xyz1 * st2.y ) - ( xyz2 * st1.y )) * coef;
433
434	vtcs[ ti0 ].tangent += tangent;
435	vtcs[ ti1 ].tangent += tangent;
436	vtcs[ ti2 ].tangent += tangent;
437	}
438
439	for ( size_t i = 0; i < vtx_count; ++i )
440	{
441	md5_vtx_pntiw& vdata = vtx_data[i];
442
443	vec3 normal = glm::normalize( vtcs[i].normal );
444	vec3 tangent = glm::normalize( vtcs[i].tangent );
445	vtcs[i].normal = normal;
446	vtcs[i].tangent = tangent;
447
448	vdata.position = vtcs[i].position;
449	vdata.normal = vec3(0);
450	vdata.tangent = vec3(0);
451
452	for ( int j = 0; j < 4; ++j )
453	{
454	const mesh_node_data& joint = nodes[vdata.boneindex[j]];
455	const transform tr = transform( joint.transform ).inverse();
456	vdata.normal += ( normal * tr.get_orientation() ) * vdata.boneweight[j];
457	vdata.tangent += ( tangent * tr.get_orientation() ) * vdata.boneweight[j];
458	}
459	}
460
461	return true;
462	}
463
464	void md5_loader::build_frame_skeleton( mesh_node_data* nodes, uint32 index, const array_view<md5_joint_info>& joint_infos, const array_view<transform>& base_frames, const array_view<float>& frame_data )
465	{
466	assert( m_type == ANIMATION );
467	for ( unsigned int i = 0; i < joint_infos.size(); ++i )
468	{
469	unsigned int j = 0;
470
471	const md5_joint_info& jinfo = joint_infos[i];
472	mesh_node_data& joint = nodes[i];
473	int parent_id = joint.parent_id;
474
475	vec3 pos = base_frames[i].get_position();
476	quat orient = base_frames[i].get_orientation();
477	if ( jinfo.flags & 1 ) pos.x = frame_data[ jinfo.start_index + j++ ];
478	if ( jinfo.flags & 2 ) pos.y = frame_data[ jinfo.start_index + j++ ];
479	if ( jinfo.flags & 4 ) pos.z = frame_data[ jinfo.start_index + j++ ];
480	if ( jinfo.flags & 8 ) orient.x = frame_data[ jinfo.start_index + j++ ];
481	if ( jinfo.flags & 16 ) orient.y = frame_data[ jinfo.start_index + j++ ];
482	if ( jinfo.flags & 32 ) orient.z = frame_data[ jinfo.start_index + j++ ];
483	unit_quat_w( orient );
484
485	if ( parent_id >= 0 ) // Has a parent joint
486	{
487	const mesh_node_data& pjoint = nodes[parent_id];
488	const transform* ptv = reinterpret_cast< const transform* >( pjoint.data->get_channel(0)->raw_data() );
489	transform ptr;
490	if ( pjoint.data->get_channel(0)->element_count() > index ) ptr = ptv[ index ];
491	vec3 rot_pos = ptr.get_orientation() * pos;
492
493	pos = ptr.get_position() + rot_pos;
494	orient = ptr.get_orientation() * orient;
495
496	orient = glm::normalize( orient );
497	}
498
499	reinterpret_cast< transform* >( const_cast< uint8* >( joint.data->get_channel(0)->raw_data() ) )[index] = transform( pos, orient );
500	}
501	}
502
503	mesh_data* nv::md5_loader::release_mesh_data( size_t index )
504	{
505	mesh_data* result = m_meshes[ index ];
506	m_meshes[ index ] = nullptr;
507	return result;
508	}
509
510	mesh_nodes_data* nv::md5_loader::release_mesh_nodes_data( size_t )
511	{
512	mesh_nodes_data* nodes = m_nodes;
513	m_nodes = nullptr;
514	return nodes;
515	}
516
517	mesh_data_pack* nv::md5_loader::release_mesh_data_pack()
518	{
519	uint32 size = m_meshes.size();
520	mesh_data* meshes = new mesh_data[ size ];
521	for ( uint32 i = 0; i < size; ++i )
522	{
523	m_meshes[i]->move_to( meshes[i] );
524	delete m_meshes[i];
525	m_meshes[i] = nullptr;
526	}
527	return new mesh_data_pack( size, meshes, release_mesh_nodes_data() );
528	}
529
530
531	nv::md5_loader::~md5_loader()
532	{
533	reset();
534	}
535
536	void nv::md5_loader::reset()
537	{
538	if ( m_nodes ) delete m_nodes;
539	for ( auto m : m_meshes ) { if (m) delete m; }
540	m_meshes.resize(0);
541	m_nodes = nullptr;
542	}
543

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