assimp/code/B3DImporter.cpp

/*
---------------------------------------------------------------------------
Open Asset Import Library (ASSIMP)
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Copyright (c) 2006-2008, ASSIMP Development Team

All rights reserved.

Redistribution and use of this software in source and binary forms, 
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* Redistributions of source code must retain the above
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  following disclaimer.

* Redistributions in binary form must reproduce the above
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  derived from this software without specific prior
  written permission of the ASSIMP Development Team.

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"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 
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OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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*/

/** @file Implementation of the b3d importer class */

#include "AssimpPCH.h"
#ifndef ASSIMP_BUILD_NO_B3D_IMPORTER

// internal headers
#include "B3DImporter.h"
#include "TextureTransform.h"

using namespace Assimp;
using namespace std;

// ------------------------------------------------------------------------------------------------
bool B3DImporter::CanRead( const std::string& pFile, IOSystem* pIOHandler) const{

	int pos=pFile.find_last_of( '.' );
	if( pos==string::npos ) return false;

	string ext=pFile.substr( pos+1 );
	if( ext.size()!=3 ) return false;

	return (ext[0]=='b' || ext[0]=='B') && (ext[1]=='3') && (ext[2]=='d' || ext[2]=='D');
}

// ------------------------------------------------------------------------------------------------
void B3DImporter::GetExtensionList( std::string& append ){
	append.append("*.b3d");
}

// ------------------------------------------------------------------------------------------------
void B3DImporter::InternReadFile( const std::string& pFile, aiScene* pScene, IOSystem* pIOHandler){

	boost::scoped_ptr<IOStream> file( pIOHandler->Open( pFile));

	// Check whether we can read from the file
	if( file.get() == NULL)
		throw new ImportErrorException( "Failed to open B3D file " + pFile + ".");

	// check whether the .b3d file is large enough to contain
	// at least one chunk.
	size_t fileSize = file->FileSize();
	if( fileSize < 8) throw new ImportErrorException( "B3D File is too small.");

	_pos=0;
	_buf.resize( fileSize );
	file->Read( &_buf[0],1,fileSize );
	_stack.clear();
	_textures.clear();
	_materials.size();
	_vertices.clear();
	_meshes.clear();

	ReadBB3D();

	//materials
	aiMaterial **mats=new aiMaterial*[_materials.size()];
	for( unsigned i=0;i<_materials.size();++i ){
		mats[i]=_materials[i];
	}
	pScene->mNumMaterials=_materials.size();
	pScene->mMaterials=mats;

	//meshes
	aiMesh **meshes=new aiMesh*[_meshes.size()];
	for( unsigned i=0;i<_meshes.size();++i ){
		meshes[i]=_meshes[i];
	}
	pScene->mNumMeshes=_meshes.size();
	pScene->mMeshes=meshes;

	//nodes - NOTE: Have to create mMeshes array here or crash 'n' burn.
	aiNode *node=new aiNode( "root" );
	node->mNumMeshes=_meshes.size();
	node->mMeshes=new unsigned[_meshes.size()];
	for( unsigned i=0;i<_meshes.size();++i ){
		node->mMeshes[i]=i;
	}
	pScene->mRootNode=node;
}

// ------------------------------------------------------------------------------------------------
int B3DImporter::ReadByte(){
	if( _pos<_buf.size() ) return _buf[_pos++];
	throw new ImportErrorException( "B3D EOF Error" );
}

// ------------------------------------------------------------------------------------------------
int B3DImporter::ReadInt(){
	if( _pos+4<=_buf.size() ){
		int n=*(int*)&_buf[_pos];
		_pos+=4;
		return n;
	}
	throw new ImportErrorException( "B3D EOF Error" );
}

// ------------------------------------------------------------------------------------------------
float B3DImporter::ReadFloat(){
	if( _pos+4<=_buf.size() ){
		float n=*(float*)&_buf[_pos];
		_pos+=4;
		return n;
	}
	throw new ImportErrorException( "B3D EOF Error" );
}

// ------------------------------------------------------------------------------------------------
B3DImporter::Vec2 B3DImporter::ReadVec2(){
	Vec2 t;
	t.x=ReadFloat();
	t.y=ReadFloat();
	return t;
}

// ------------------------------------------------------------------------------------------------
B3DImporter::Vec3 B3DImporter::ReadVec3(){
	Vec3 t;
	t.x=ReadFloat();
	t.y=ReadFloat();
	t.z=ReadFloat();
	return t;
}

// ------------------------------------------------------------------------------------------------
B3DImporter::Vec4 B3DImporter::ReadVec4(){
	Vec4 t;
	t.x=ReadFloat();
	t.y=ReadFloat();
	t.z=ReadFloat();
	t.w=ReadFloat();
	return t;
}

// ------------------------------------------------------------------------------------------------
string B3DImporter::ReadString(){
	string str;
	while( _pos<_buf.size() ){
		char c=(char)ReadByte();
		if( !c ) return str;
		str+=c;
	}
	throw new ImportErrorException( "B3D EOF Error" );
}

// ------------------------------------------------------------------------------------------------
string B3DImporter::ReadChunk(){
	string tag;
	for( int i=0;i<4;++i ){
		tag+=char( ReadByte() );
	}
//	cout<<"ReadChunk:"<<tag<<endl;
	unsigned sz=(unsigned)ReadInt();
	_stack.push_back( _pos+sz );
	return tag;
}

// ------------------------------------------------------------------------------------------------
void B3DImporter::ExitChunk(){
	_pos=_stack.back();
	_stack.pop_back();
}

// ------------------------------------------------------------------------------------------------
unsigned B3DImporter::ChunkSize(){
	return _stack.back()-_pos;
}

// ------------------------------------------------------------------------------------------------
void B3DImporter::ReadTEXS(){
	while( ChunkSize() ){
		string name=ReadString();
		int flags=ReadInt();
		int blend=ReadInt();
		Vec2 pos=ReadVec2();
		Vec2 scale=ReadVec2();
		float rot=ReadFloat();

		Texture tex;
		tex.name=name;
		_textures.push_back( tex );
	}
}

// ------------------------------------------------------------------------------------------------
void B3DImporter::ReadBRUS(){
	int n_texs=ReadInt();
	while( ChunkSize() ){
		string name=ReadString();
		Vec4 color=ReadVec4();
		float shiny=ReadFloat();
		int blend=ReadInt();
		int fx=ReadInt();

		MaterialHelper *mat=new MaterialHelper;
		_materials.push_back( mat );
		
		// Name
		aiString ainame( name );
		mat->AddProperty( &ainame,AI_MATKEY_NAME );
		
		// Diffuse color 
		aiColor3D diffcolor( color.x,color.y,color.z ); 
		mat->AddProperty( &diffcolor,1,AI_MATKEY_COLOR_DIFFUSE );

		// Opacity
		mat->AddProperty( &color.w,1,AI_MATKEY_OPACITY );

		// Specular color
		aiColor3D speccolor( shiny,shiny,shiny );
		mat->AddProperty( &speccolor,1,AI_MATKEY_COLOR_SPECULAR );
		
		// Specular power
		float specpow=shiny*128;
		mat->AddProperty( &specpow,1,AI_MATKEY_SHININESS );
		
		// Double sided
		if( fx & 0x10 ){
			int i=1; 
			mat->AddProperty( &i,1,AI_MATKEY_TWOSIDED );
		} 		

		//Textures
		for( int i=0;i<n_texs;++i ){
			int texid=ReadInt();
			if( !i && texid>=0 && texid<(int)_textures.size() ){
				//just use tex 0 for now
				const Texture &tex=_textures[texid];
				aiString texname( tex.name );
				mat->AddProperty( &texname,AI_MATKEY_TEXTURE_DIFFUSE(0) );
			}
		}
	}
}

// ------------------------------------------------------------------------------------------------
void B3DImporter::ReadVRTS(){
	int vertFlags=ReadInt();
	int tc_sets=ReadInt();
	int tc_size=ReadInt();

	if( tc_sets<0 || tc_sets>4 || tc_size<0 || tc_size>4 ) throw new ImportErrorException( "B3D Param Error" );

	while( ChunkSize() ){
		Vertex vert;

		vert.position=ReadVec3();

		if( vertFlags & 1 ){
			vert.normal=ReadVec3();
		}

		if( vertFlags & 2 ){
			Vec4 color=ReadVec4();
		}

		for( int i=0;i<tc_sets;++i ){
			float texcoords[4]={0,0,0,0};
			for( int j=0;j<tc_size;++j ){
				texcoords[j]=ReadFloat();
			}
			if( !i ) memcpy( &vert.texcoords.x,texcoords,12 );
		}
		_vertices.push_back( vert );
	}
}

// ------------------------------------------------------------------------------------------------
void B3DImporter::ReadTRIS(){
	int matid=ReadInt();

	unsigned n_tris=ChunkSize()/12;
	unsigned n_verts=n_tris*3;
	
	aiMesh *mesh=new aiMesh;
	_meshes.push_back( mesh );

	mesh->mMaterialIndex=matid;
	mesh->mNumVertices=n_verts;
	mesh->mNumFaces=n_tris;
	mesh->mPrimitiveTypes=aiPrimitiveType_TRIANGLE;

	aiVector3D *mv=mesh->mVertices=new aiVector3D[n_verts];
	aiVector3D *mn=mesh->mNormals=new aiVector3D[n_verts];
	aiVector3D *mc=mesh->mTextureCoords[0]=new aiVector3D[n_verts];

	aiFace *face=mesh->mFaces=new aiFace[n_tris];

	for( unsigned i=0;i<n_verts;i+=3 ){
		face->mNumIndices=3;
		unsigned *ip=face->mIndices=new unsigned[3];
		for( unsigned j=0;j<3;++j ){
			int k=ReadInt();
			const Vertex &v=_vertices[k];
			memcpy( mv++,&v.position.x,12 );
			memcpy( mn++,&v.normal.x,12 );
			memcpy( mc++,&v.texcoords.x,12 );
			*ip++=i+j;
		}
		++face;
	}
}

// ------------------------------------------------------------------------------------------------
void B3DImporter::ReadMESH(){
	int matid=ReadInt();

	_vertices.clear();

	while( ChunkSize() ){
		string t=ReadChunk();
		if( t=="VRTS" ){
			ReadVRTS();
		}else if( t=="TRIS" ){
			ReadTRIS();
		}
		ExitChunk();
	}

	_vertices.clear();
}

// ------------------------------------------------------------------------------------------------
void B3DImporter::ReadNODE(){

	string name=ReadString();
	Vec3 trans=ReadVec3();
	Vec3 scale=ReadVec3();
	Vec4 rot=ReadVec4();

	while( ChunkSize() ){
		string t=ReadChunk();
		if( t=="MESH" ){
			ReadMESH();
		}
		ExitChunk();
	}
}

// ------------------------------------------------------------------------------------------------
void B3DImporter::ReadBB3D(){
	string t=ReadChunk();
	if( t=="BB3D" ){
		int version=ReadInt();
		while( ChunkSize() ){
			string t=ReadChunk();
			if( t=="TEXS" ){
				ReadTEXS();
			}else if( t=="BRUS" ){
				ReadBRUS();
			}else if( t=="NODE" ){
				ReadNODE();
			}
			ExitChunk();
		}
	}
	ExitChunk();
}

#endif // !! ASSIMP_BUILD_NO_B3D_IMPORTER