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source: trunk/src/gfx/mesh_creator.cc @ 293

Last change on this file since 293 was 293, checked in by epyon, 11 years ago
mesh_creator class, currently for transforms, later for const safety pre_transform and transformation moved out of assimp_loader pre_transfrom and transformation works on ANY mesh_data/mesh_nodes_data cleanups
File size: 5.1 KB

Rev	Line
[293]	1	// Copyright (C) 2012-2014 ChaosForge Ltd
	2	// http://chaosforge.org/
	3	//
	4	// This file is part of NV Libraries.
	5	// For conditions of distribution and use, see copyright notice in nv.hh
	6
	7	#include "nv/gfx/mesh_creator.hh"
	8
	9	struct nv_key_transform { nv::transform tform; };
	10
	11	void nv::mesh_nodes_creator::pre_transform_keys()
	12	{
	13	if ( m_data->m_flat ) return;
	14	merge_keys();
	15	uint32 max_frames = 0;
	16	for ( size_t i = 0; i < m_data->get_count(); ++i )
	17	{
	18	sint16 parent_id = m_data->m_nodes[i].parent_id;
	19	key_data* keys = m_data->m_nodes[i].data;
	20	key_data* pkeys = ( parent_id != -1 ? m_data->m_nodes[parent_id].data : nullptr );
	21	size_t count = ( keys ? keys->get_channel(0)->count : 0 );
	22	size_t pcount = ( pkeys ? pkeys->get_channel(0)->count : 0 );
	23	max_frames = glm::max<uint32>( count, max_frames );
	24	if ( pkeys && pkeys->get_channel_count() > 0 && keys && keys->get_channel_count() > 0 )
	25	{
	26	nv_key_transform* channel = ((nv_key_transform*)(keys->get_channel(0)->data));
	27	nv_key_transform* pchannel = ((nv_key_transform*)(pkeys->get_channel(0)->data));
	28	for ( unsigned n = 0; n < count; ++n )
	29	{
	30	channel[n].tform = pchannel[ glm::min( n, pcount-1 ) ].tform * channel[n].tform;
	31	}
	32	}
	33	}
	34
	35	// DAE pre_transform hack
	36	if ( m_data->m_frame_rate == 1 )
	37	{
	38	m_data->m_frame_rate = 32;
	39	m_data->m_duration = (float)max_frames;
	40	}
	41
	42	m_data->m_flat = true;
	43	}
	44
	45	// TODO: DELETE
	46	struct assimp_key_p { float time; nv::vec3 position; };
	47	struct assimp_key_r { float time; nv::quat rotation; };
	48
	49
	50	void nv::mesh_nodes_creator::merge_keys()
	51	{
	52	for ( size_t i = 0; i < m_data->get_count(); ++i )
	53	{
	54	key_data* old_keys = m_data->m_nodes[i].data;
	55	if ( old_keys && old_keys->get_channel_count() > 0 )
	56	{
	57	size_t chan_count = old_keys->get_channel_count();
	58	if ( chan_count == 1
	59	&& old_keys->get_channel(0)->desc.count == 1
	60	&& old_keys->get_channel(0)->desc.slots[0].etype == TRANSFORM ) continue;
	61
	62	size_t max_keys = 0;
	63	for ( size_t c = 0; c < chan_count; ++c )
	64	{
	65	max_keys = glm::max( max_keys, old_keys->get_channel(c)->count );
	66	}
	67
	68	key_raw_channel* raw_channel = key_raw_channel::create<nv_key_transform>( max_keys );
	69	key_data* new_keys = new key_data;
	70	new_keys->add_channel( raw_channel );
	71	nv_key_transform* channel = ((nv_key_transform*)(raw_channel->data));
	72	key_descriptor final_key = old_keys->get_final_key();
	73
	74	for ( unsigned n = 0; n < max_keys; ++n )
	75	{
	76	float key[ 16 ];
	77	float* pkey = key;
	78
	79	for ( uint16 c = 0; c < chan_count; ++c )
	80	{
	81	size_t idx = glm::min( old_keys->get_channel(c)->count - 1, n );
	82	pkey += old_keys->get_channel(c)->get_raw( idx, pkey );
	83	}
	84	channel[n].tform = extract_transform_raw( final_key, key );
	85	}
	86
	87	delete old_keys;
	88	m_data->m_nodes[i].data = new_keys;
	89	}
	90	}
	91	}
	92
	93	void nv::mesh_nodes_creator::transform( float scale, const mat3& r33 )
	94	{
	95	mat3 ri33 = glm::inverse( r33 );
	96	mat4 pre_transform ( scale * r33 );
	97	mat4 post_transform( 1.f/scale * ri33 );
	98
	99	for ( size_t i = 0; i < m_data->get_count(); ++i )
	100	{
	101	mesh_node_data& node = m_data->m_nodes[i];
	102	node.transform = pre_transform * node.transform * post_transform;
	103	if ( node.data )
	104	{
	105	key_data* kdata = node.data;
	106	for ( size_t c = 0; c < kdata->get_channel_count(); ++c )
	107	{
	108	const key_raw_channel* channel = kdata->get_channel(c);
	109	size_t key_size = channel->desc.size;
	110	for ( size_t n = 0; n < channel->count; ++n )
	111	{
	112	transform_key_raw( channel->desc, (uint8)(channel->data + n key_size), scale, r33, ri33 );
	113	}
	114	}
	115	}
	116	}
	117	}
	118
	119	void nv::mesh_data_creator::transform( float scale, const mat3& r33 )
	120	{
	121	vec3 vertex_offset = glm::vec3();
	122	mat3 vertex_transform = scale * r33;
	123	mat3 normal_transform = r33;
	124
	125	for ( uint32 c = 0; c < m_data->get_channel_count(); ++c )
	126	{
	127	const mesh_raw_channel* channel = m_data->get_channel(c);
	128	const vertex_descriptor& desc = channel->desc;
	129	uint8* raw_data = channel->data;
	130	int vtx_size = desc.size;
	131	int p_offset = -1;
	132	int n_offset = -1;
	133	int t_offset = -1;
	134	for ( uint32 i = 0; i < desc.count; ++i )
	135	switch ( desc.slots[i].vslot )
	136	{
	137	case slot::POSITION : if ( desc.slots[i].etype == FLOAT_VECTOR_3 ) p_offset = desc.slots[i].offset; break;
	138	case slot::NORMAL : if ( desc.slots[i].etype == FLOAT_VECTOR_3 ) n_offset = desc.slots[i].offset; break;
	139	case slot::TANGENT : if ( desc.slots[i].etype == FLOAT_VECTOR_4 ) t_offset = desc.slots[i].offset; break;
	140	default : break;
	141	}
	142
	143	if ( p_offset != -1 )
	144	for ( uint32 i = 0; i < channel->count; i++)
	145	{
	146	vec3& p = ((vec3)(raw_data + vtx_size*i + p_offset ));
	147	p = vertex_transform * p + vertex_offset;
	148	}
	149
	150	if ( n_offset != -1 )
	151	for ( uint32 i = 0; i < channel->count; i++)
	152	{
	153	vec3& n = ((vec3)(raw_data + vtx_size*i + n_offset ));
	154	n = glm::normalize( normal_transform * n );
	155	}
	156	if ( t_offset != -1 )
	157	for ( uint32 i = 0; i < channel->count; i++)
	158	{
	159	vec4& t = ((vec4)(raw_data + vtx_size*i + t_offset ));
	160	t = vec4( glm::normalize( normal_transform * vec3(t) ), t[3] );
	161	}
	162	}
	163	}

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