netradiant-custom/plugins/md3model/md2.cpp

/*
   Copyright (C) 2001-2006, William Joseph.
   All Rights Reserved.

   This file is part of GtkRadiant.

   GtkRadiant is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 2 of the License, or
   (at your option) any later version.

   GtkRadiant is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with GtkRadiant; if not, write to the Free Software
   Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
 */

#include "md2.h"

#include "ifilesystem.h"
#include "imodel.h"

#include "imagelib.h"
#include "bytestreamutils.h"

#include "model.h"
#include "ident.h"
#include "mdlnormals.h"

typedef unsigned char byte;

/*
   ========================================================================

   .MD2 triangle model file format

   ========================================================================
 */
#define MD2_NUMVERTEXNORMALS 162

const unsigned char MD2_IDENT[4] = { 'I', 'D', 'P', '2', };
#define MD2_VERSION 8

#define MD2_MAX_TRIANGLES   4096
#define MD2_MAX_VERTS       2048
#define MD2_MAX_FRAMES      512
#define MD2_MAX_MD2SKINS    32
#define MD2_MAX_SKINNAME    64

typedef struct
{
	short s;
	short t;
} md2St_t;

void istream_read_md2St( PointerInputStream& inputStream, md2St_t& st ){
	st.s = istream_read_int16_le( inputStream );
	st.t = istream_read_int16_le( inputStream );
}

typedef struct
{
	short index_xyz[3];
	short index_st[3];
} md2Triangle_t;

void istream_read_md2Triangle( PointerInputStream& inputStream, md2Triangle_t& triangle ){
	triangle.index_xyz[0] = istream_read_int16_le( inputStream );
	triangle.index_xyz[1] = istream_read_int16_le( inputStream );
	triangle.index_xyz[2] = istream_read_int16_le( inputStream );
	triangle.index_st[0] = istream_read_int16_le( inputStream );
	triangle.index_st[1] = istream_read_int16_le( inputStream );
	triangle.index_st[2] = istream_read_int16_le( inputStream );
}

typedef struct
{
	byte v[3];              // scaled byte to fit in frame mins/maxs
	byte lightnormalindex;
} md2XyzNormal_t;

void istream_read_md2XyzNormal( PointerInputStream& inputStream, md2XyzNormal_t& xyz ){
	inputStream.read( xyz.v, 3 );
	inputStream.read( &xyz.lightnormalindex, 1 );
}

#define MD2_XYZNORMAL_V0   0
#define MD2_XYZNORMAL_V1   1
#define MD2_XYZNORMAL_V2   2
#define MD2_XYZNORMAL_LNI  3
#define MD2_XYZNORMAL_SIZE 4

typedef struct
{
	float scale[3];         // multiply byte verts by this
	float translate[3];         // then add this
	char name[16];          // frame name from grabbing
	md2XyzNormal_t verts[1];    // variable sized
} md2Frame_t;

void istream_read_md2Frame( PointerInputStream& inputStream, md2Frame_t& frame ){
	frame.scale[0] = istream_read_float32_le( inputStream );
	frame.scale[1] = istream_read_float32_le( inputStream );
	frame.scale[2] = istream_read_float32_le( inputStream );
	frame.translate[0] = istream_read_float32_le( inputStream );
	frame.translate[1] = istream_read_float32_le( inputStream );
	frame.translate[2] = istream_read_float32_le( inputStream );
	inputStream.read( reinterpret_cast<unsigned char*>( frame.name ), 16 );
}


// the glcmd format:
// a positive integer starts a tristrip command, followed by that many
// vertex structures.
// a negative integer starts a trifan command, followed by -x vertexes
// a zero indicates the end of the command list.
// a vertex consists of a floating point s, a floating point t,
// and an integer vertex index.


typedef struct
{
	unsigned char ident[4];
	int version;

	int skinwidth;
	int skinheight;
	int framesize;              // byte size of each frame

	int num_skins;
	int num_xyz;
	int num_st;                 // greater than num_xyz for seams
	int num_tris;
	int num_glcmds;             // dwords in strip/fan command list
	int num_frames;

	int ofs_skins;              // each skin is a MAX_SKINNAME string
	int ofs_st;                 // byte offset from start for md2St_t
	int ofs_tris;               // offset for md2triangle_t
	int ofs_frames;             // offset for first md2Frame_t
	int ofs_glcmds;
	int ofs_end;                // end of file

} md2Header_t;

void istream_read_md2Header( PointerInputStream& inputStream, md2Header_t& header ){
	inputStream.read( header.ident, 4 );
	header.version = istream_read_int32_le( inputStream );
	header.skinwidth = istream_read_int32_le( inputStream );
	header.skinheight = istream_read_int32_le( inputStream );
	header.framesize = istream_read_int32_le( inputStream );
	header.num_skins = istream_read_int32_le( inputStream );
	header.num_xyz = istream_read_int32_le( inputStream );
	header.num_st = istream_read_int32_le( inputStream );
	header.num_tris = istream_read_int32_le( inputStream );
	header.num_glcmds = istream_read_int32_le( inputStream );
	header.num_frames = istream_read_int32_le( inputStream );
	header.ofs_skins = istream_read_int32_le( inputStream );
	header.ofs_st = istream_read_int32_le( inputStream );
	header.ofs_tris = istream_read_int32_le( inputStream );
	header.ofs_frames = istream_read_int32_le( inputStream );
	header.ofs_glcmds = istream_read_int32_le( inputStream );
	header.ofs_end = istream_read_int32_le( inputStream );
}


ArbitraryMeshVertex MD2Vertex_construct( const md2Header_t* pHeader, const md2Frame_t* pFrame, const md2XyzNormal_t* xyz, const md2St_t* st ){
	return ArbitraryMeshVertex(
	           Vertex3f(
	               xyz->v[0] * pFrame->scale[0] + pFrame->translate[0],
	               xyz->v[1] * pFrame->scale[1] + pFrame->translate[1],
	               xyz->v[2] * pFrame->scale[2] + pFrame->translate[2]
	           ),
	           Normal3f(
	               g_mdl_normals[xyz->lightnormalindex][0],
	               g_mdl_normals[xyz->lightnormalindex][1],
	               g_mdl_normals[xyz->lightnormalindex][2]
	           ),
	           TexCoord2f(
	               (float)st->s / pHeader->skinwidth,
	               (float)st->t / pHeader->skinheight
	           )
	       );
}

void MD2Surface_read( Model& model, const byte* buffer, ArchiveFile& file ){
	Surface& surface = model.newSurface();
	md2Header_t header;
	{
		PointerInputStream inputStream( buffer );
		istream_read_md2Header( inputStream, header );
	}

	{

		md2Frame_t frame;
		PointerInputStream frameStream( buffer + header.ofs_frames );
		istream_read_md2Frame( frameStream, frame );


		surface.indices().reserve( header.num_tris * 3 );

		Array<md2XyzNormal_t> md2Xyz( header.num_xyz );
		for ( Array<md2XyzNormal_t>::iterator i = md2Xyz.begin(); i != md2Xyz.end(); ++i )
		{
			istream_read_md2XyzNormal( frameStream, *i );
		}

		Array<md2St_t> md2St( header.num_st );
		PointerInputStream stStream( buffer + header.ofs_st );
		for ( Array<md2St_t>::iterator i = md2St.begin(); i != md2St.end(); ++i )
		{
			istream_read_md2St( stStream, *i );
		}

		UniqueVertexBuffer<ArbitraryMeshVertex> inserter( surface.vertices() );
		inserter.reserve( header.num_st );

		PointerInputStream triangleStream( buffer + header.ofs_tris );
		for ( int i = 0; i < header.num_tris; ++i )
		{
			md2Triangle_t triangle;
			istream_read_md2Triangle( triangleStream, triangle );
			surface.indices().insert( inserter.insert( MD2Vertex_construct( &header, &frame, &md2Xyz[triangle.index_xyz[0]], &md2St[triangle.index_st[0]] ) ) );
			surface.indices().insert( inserter.insert( MD2Vertex_construct( &header, &frame, &md2Xyz[triangle.index_xyz[1]], &md2St[triangle.index_st[1]] ) ) );
			surface.indices().insert( inserter.insert( MD2Vertex_construct( &header, &frame, &md2Xyz[triangle.index_xyz[2]], &md2St[triangle.index_st[2]] ) ) );
		}
	}

	char skinname[MD2_MAX_SKINNAME];
	char skinnameRelative[MD2_MAX_SKINNAME];
	char path[MD2_MAX_SKINNAME + 1];
	path[MD2_MAX_SKINNAME] = '\0';
	int i = MD2_MAX_SKINNAME;
	PointerInputStream inputStream( buffer + header.ofs_skins );
	inputStream.read( reinterpret_cast<byte*>( skinnameRelative ), MD2_MAX_SKINNAME );
	// relative texture path - allows moving of models in game dir structure without changing the skinpath
	// e.g. used in ufo:ai
	if ( skinnameRelative[0] == '.' ) {
		strncpy( path, file.getName(), MD2_MAX_SKINNAME );
		for (; i--; )
		{
			// skip filename
			if ( path[i] == '/' || path[i] == '\\' ) {
				break;
			}
			path[i] = '\0';
		}
//	globalErrorStream() << "modified skinname: " << path << " (path) and " << skinnameRelative << " (texture)" << '\n';
		snprintf( skinname, MD2_MAX_SKINNAME, "%s%s", path, &skinnameRelative[1] );
//	globalErrorStream() << skinname << '\n';
	}
	else
	{
		strncpy( skinname, skinnameRelative, MD2_MAX_SKINNAME - 1 );
		skinname[MD2_MAX_SKINNAME - 1] = '\0';
	}
	surface.setShader( skinname );
	surface.updateAABB();
}

void MD2Model_read( Model& model, const byte* buffer, ArchiveFile& file ){
	MD2Surface_read( model, buffer, file );
	model.updateAABB();
}

scene::Node& MD2Model_new( const byte* buffer, ArchiveFile& file ){
	ModelNode* modelNode = new ModelNode();
	MD2Model_read( modelNode->model(), buffer, file );
	return modelNode->node();
}

scene::Node& MD2Model_default(){
	ModelNode* modelNode = new ModelNode();
	Model_constructNull( modelNode->model() );
	return modelNode->node();
}

scene::Node& MD2Model_fromBuffer( unsigned char* buffer, ArchiveFile& file ){
	if ( !ident_equal( buffer, MD2_IDENT ) ) {
		globalErrorStream() << "MD2 read error: incorrect ident\n";
		return MD2Model_default();
	}
	else
	{
		return MD2Model_new( buffer, file );
	}
}

scene::Node& loadMD2Model( ArchiveFile& file ){
	ScopedArchiveBuffer buffer( file );
	return MD2Model_fromBuffer( buffer.buffer, file );
}