static picoShader_t *_obj_default_shader (picoModel_t *model) { picoShader_t *picoShader = PicoNewShader(model); char *skinname = _pico_clone_alloc(model->fileName); _pico_setfext(skinname, ""); PicoSetShaderName(picoShader, skinname); _pico_free(skinname); return picoShader; }
/* _ms3d_load: * loads a milkshape3d model file. */ static picoModel_t *_ms3d_load( PM_PARAMS_LOAD ){ picoModel_t *model; unsigned char *bufptr, *bufptr0; int shaderRefs[ MS3D_MAX_GROUPS ]; int numGroups; int numMaterials; // unsigned char *ptrToGroups; int numVerts; unsigned char *ptrToVerts; int numTris; unsigned char *ptrToTris; int i,k,m; /* create new pico model */ model = PicoNewModel(); if ( model == NULL ) { return NULL; } /* do model setup */ PicoSetModelFrameNum( model, frameNum ); PicoSetModelName( model, fileName ); PicoSetModelFileName( model, fileName ); bufptr0 = bufptr = (picoByte_t*) _pico_alloc( bufSize ); memcpy( bufptr, buffer, bufSize ); /* skip header */ bufptr += sizeof( TMsHeader ); /* get number of vertices */ bufptr = GetWord( bufptr,&numVerts ); ptrToVerts = bufptr; #ifdef DEBUG_PM_MS3D printf( "NumVertices: %d\n",numVerts ); #endif /* swap verts */ for ( i = 0; i < numVerts; i++ ) { TMsVertex *vertex; vertex = (TMsVertex *)bufptr; bufptr += sizeof( TMsVertex ); vertex->xyz[ 0 ] = _pico_little_float( vertex->xyz[ 0 ] ); vertex->xyz[ 1 ] = _pico_little_float( vertex->xyz[ 1 ] ); vertex->xyz[ 2 ] = _pico_little_float( vertex->xyz[ 2 ] ); #ifdef DEBUG_PM_MS3D_EX_ printf( "Vertex: x: %f y: %f z: %f\n", msvd[i]->vertex[0], msvd[i]->vertex[1], msvd[i]->vertex[2] ); #endif } /* get number of triangles */ bufptr = GetWord( bufptr,&numTris ); ptrToTris = bufptr; #ifdef DEBUG_PM_MS3D printf( "NumTriangles: %d\n",numTris ); #endif /* swap tris */ for ( i = 0; i < numTris; i++ ) { TMsTriangle *triangle; triangle = (TMsTriangle *)bufptr; bufptr += sizeof( TMsTriangle ); triangle->flags = _pico_little_short( triangle->flags ); /* run through all tri verts */ for ( k = 0; k < 3; k++ ) { /* swap tex coords */ triangle->s[ k ] = _pico_little_float( triangle->s[ k ] ); triangle->t[ k ] = _pico_little_float( triangle->t[ k ] ); /* swap fields */ triangle->vertexIndices[ k ] = _pico_little_short( triangle->vertexIndices[ k ] ); triangle->vertexNormals[ 0 ][ k ] = _pico_little_float( triangle->vertexNormals[ 0 ][ k ] ); triangle->vertexNormals[ 1 ][ k ] = _pico_little_float( triangle->vertexNormals[ 1 ][ k ] ); triangle->vertexNormals[ 2 ][ k ] = _pico_little_float( triangle->vertexNormals[ 2 ][ k ] ); /* check for out of range indices */ if ( triangle->vertexIndices[ k ] >= numVerts ) { _pico_printf( PICO_ERROR,"Vertex %d index %d out of range (%d, max %d)",i,k,triangle->vertexIndices[k],numVerts - 1 ); PicoFreeModel( model ); _pico_free( bufptr0 ); return NULL; /* yuck */ } } } /* get number of groups */ bufptr = GetWord( bufptr,&numGroups ); // ptrToGroups = bufptr; #ifdef DEBUG_PM_MS3D printf( "NumGroups: %d\n",numGroups ); #endif /* run through all groups in model */ for ( i = 0; i < numGroups && i < MS3D_MAX_GROUPS; i++ ) { picoSurface_t *surface; TMsGroup *group; group = (TMsGroup *)bufptr; bufptr += sizeof( TMsGroup ); /* we ignore hidden groups */ if ( group->flags & MS3D_HIDDEN ) { bufptr += ( group->numTriangles * 2 ) + 1; continue; } /* forced null term of group name */ group->name[ 31 ] = '\0'; /* create new pico surface */ surface = PicoNewSurface( model ); if ( surface == NULL ) { PicoFreeModel( model ); _pico_free( bufptr0 ); return NULL; } /* do surface setup */ PicoSetSurfaceType( surface,PICO_TRIANGLES ); PicoSetSurfaceName( surface,group->name ); /* process triangle indices */ for ( k = 0; k < group->numTriangles; k++ ) { TMsTriangle *triangle; unsigned int triangleIndex; /* get triangle index */ bufptr = GetWord( bufptr,(int *)&triangleIndex ); /* get ptr to triangle data */ triangle = (TMsTriangle *)( ptrToTris + ( sizeof( TMsTriangle ) * triangleIndex ) ); /* run through triangle vertices */ for ( m = 0; m < 3; m++ ) { TMsVertex *vertex; unsigned int vertexIndex; picoVec2_t texCoord; /* get ptr to vertex data */ vertexIndex = triangle->vertexIndices[ m ]; vertex = (TMsVertex *)( ptrToVerts + ( sizeof( TMsVertex ) * vertexIndex ) ); /* store vertex origin */ PicoSetSurfaceXYZ( surface,vertexIndex,vertex->xyz ); /* store vertex color */ PicoSetSurfaceColor( surface,0,vertexIndex,white ); /* store vertex normal */ PicoSetSurfaceNormal( surface,vertexIndex,triangle->vertexNormals[ m ] ); /* store current face vertex index */ PicoSetSurfaceIndex( surface,( k * 3 + ( 2 - m ) ),(picoIndex_t)vertexIndex ); /* get texture vertex coord */ texCoord[ 0 ] = triangle->s[ m ]; texCoord[ 1 ] = -triangle->t[ m ]; /* flip t */ /* store texture vertex coord */ PicoSetSurfaceST( surface,0,vertexIndex,texCoord ); } } /* store material */ shaderRefs[ i ] = *bufptr++; #ifdef DEBUG_PM_MS3D printf( "Group %d: '%s' (%d tris)\n",i,group->name,group->numTriangles ); #endif } /* get number of materials */ bufptr = GetWord( bufptr,&numMaterials ); #ifdef DEBUG_PM_MS3D printf( "NumMaterials: %d\n",numMaterials ); #endif /* run through all materials in model */ for ( i = 0; i < numMaterials; i++ ) { picoShader_t *shader; picoColor_t ambient,diffuse,specular; TMsMaterial *material; int k; material = (TMsMaterial *)bufptr; bufptr += sizeof( TMsMaterial ); /* null term strings */ material->name [ 31 ] = '\0'; material->texture [ 127 ] = '\0'; material->alphamap[ 127 ] = '\0'; /* ltrim strings */ _pico_strltrim( material->name ); _pico_strltrim( material->texture ); _pico_strltrim( material->alphamap ); /* rtrim strings */ _pico_strrtrim( material->name ); _pico_strrtrim( material->texture ); _pico_strrtrim( material->alphamap ); /* create new pico shader */ shader = PicoNewShader( model ); if ( shader == NULL ) { PicoFreeModel( model ); _pico_free( bufptr0 ); return NULL; } /* scale shader colors */ for ( k = 0; k < 4; k++ ) { ambient [ k ] = (picoByte_t) ( material->ambient[ k ] * 255 ); diffuse [ k ] = (picoByte_t) ( material->diffuse[ k ] * 255 ); specular[ k ] = (picoByte_t) ( material->specular[ k ] * 255 ); } /* set shader colors */ PicoSetShaderAmbientColor( shader,ambient ); PicoSetShaderDiffuseColor( shader,diffuse ); PicoSetShaderSpecularColor( shader,specular ); /* set shader transparency */ PicoSetShaderTransparency( shader,material->transparency ); /* set shader shininess (0..127) */ PicoSetShaderShininess( shader,material->shininess ); /* set shader name */ PicoSetShaderName( shader,material->name ); /* set shader texture map name */ PicoSetShaderMapName( shader,material->texture ); #ifdef DEBUG_PM_MS3D printf( "Material %d: '%s' ('%s','%s')\n",i,material->name,material->texture,material->alphamap ); #endif } /* assign shaders to surfaces */ for ( i = 0; i < numGroups && i < MS3D_MAX_GROUPS; i++ ) { picoSurface_t *surface; picoShader_t *shader; /* sanity check */ if ( shaderRefs[ i ] >= MS3D_MAX_MATERIALS || shaderRefs[ i ] < 0 ) { continue; } /* get surface */ surface = PicoGetModelSurface( model,i ); if ( surface == NULL ) { continue; } /* get shader */ shader = PicoGetModelShader( model,shaderRefs[ i ] ); if ( shader == NULL ) { continue; } /* assign shader */ PicoSetSurfaceShader( surface,shader ); #ifdef DEBUG_PM_MS3D printf( "Mapped: %d ('%s') to %d (%s)\n", shaderRefs[i],shader->name,i,surface->name ); #endif } /* return allocated pico model */ _pico_free( bufptr0 ); return model; // return NULL; }
/* _ase_load: * loads a 3dsmax ase model file. */ static picoModel_t *_ase_load( PM_PARAMS_LOAD ) { picoModel_t *model; picoParser_t *p; char lastNodeName[ 1024 ]; aseVertex_t* vertices = NULL; aseTexCoord_t* texcoords = NULL; aseColor_t* colors = NULL; aseFace_t* faces = NULL; int numVertices = 0; int numFaces = 0; int numTextureVertices = 0; int numTextureVertexFaces = 0; int numColorVertices = 0; int numColorVertexFaces = 0; int vertexId = 0; int currentVertexFace=0; int currentVertexIndex=0; int counter=0; int submodel=0; aseMaterial_t* materials = NULL; #ifdef DEBUG_PM_ASE clock_t start, finish; double elapsed; start = clock(); #endif /* helper */ #define _ase_error_return(m) \ { \ _pico_printf( PICO_ERROR,"%s in ASE, line %d.",m,p->curLine); \ _pico_free_parser( p ); \ PicoFreeModel( model ); \ return NULL; \ } /* create a new pico parser */ p = _pico_new_parser( (picoByte_t *)buffer,bufSize ); if (p == NULL) return NULL; /* create a new pico model */ model = PicoNewModel(); if (model == NULL) { _pico_free_parser( p ); return NULL; } /* do model setup */ PicoSetModelFrameNum( model, frameNum ); PicoSetModelName( model, fileName ); PicoSetModelFileName( model, fileName ); /* initialize some stuff */ memset( lastNodeName,0,sizeof(lastNodeName) ); /* parse ase model file */ while( 1 ) { /* get first token on line */ if (_pico_parse_first( p ) == NULL) break; /* we just skip empty lines */ if (p->token == NULL || !strlen( p->token )) continue; /* we skip invalid ase statements */ if (p->token[0] != '*' && p->token[0] != '{' && p->token[0] != '}') { _pico_parse_skip_rest( p ); continue; } /* remember node name */ if (!_pico_stricmp(p->token,"*node_name")) { /* read node name */ char *ptr = _pico_parse( p,0 ); if (ptr == NULL) _ase_error_return("Node name parse error"); /* remember node name */ strncpy( lastNodeName,ptr,sizeof(lastNodeName) ); } /* model mesh (originally contained within geomobject) */ else if (!_pico_stricmp(p->token,"*mesh")) { /* finish existing surface */ _ase_submit_triangles(model, materials, vertices, texcoords, colors, faces, numFaces,numVertices,submodel++); _pico_free(faces); _pico_free(vertices); _pico_free(texcoords); _pico_free(colors); } else if (!_pico_stricmp(p->token,"*mesh_numvertex")) { if (!_pico_parse_int( p, &numVertices) ) _ase_error_return("Missing MESH_NUMVERTEX value"); vertices = _pico_calloc(numVertices, sizeof(aseVertex_t)); currentVertexIndex=0; } else if (!_pico_stricmp(p->token,"*mesh_numfaces")) { if (!_pico_parse_int( p, &numFaces) ) _ase_error_return("Missing MESH_NUMFACES value"); faces = _pico_calloc(numFaces, sizeof(aseFace_t)); } else if (!_pico_stricmp(p->token,"*mesh_numtvertex")) { if (!_pico_parse_int( p, &numTextureVertices) ) _ase_error_return("Missing MESH_NUMTVERTEX value"); texcoords = _pico_calloc(numTextureVertices, sizeof(aseTexCoord_t)); } else if (!_pico_stricmp(p->token,"*mesh_numtvfaces")) { if (!_pico_parse_int( p, &numTextureVertexFaces) ) _ase_error_return("Missing MESH_NUMTVFACES value"); } else if (!_pico_stricmp(p->token,"*mesh_numcvertex")) { if (!_pico_parse_int( p, &numColorVertices) ) _ase_error_return("Missing MESH_NUMCVERTEX value"); colors = _pico_calloc(numColorVertices, sizeof(aseColor_t)); memset( colors, 255, numColorVertices * sizeof( aseColor_t ) ); /* ydnar: force colors to white initially */ } else if (!_pico_stricmp(p->token,"*mesh_numcvfaces")) { if (!_pico_parse_int( p, &numColorVertexFaces) ) _ase_error_return("Missing MESH_NUMCVFACES value"); } /* mesh material reference. this usually comes at the end of */ /* geomobjects after the mesh blocks. we must assume that the */ /* new mesh was already created so all we can do here is assign */ /* the material reference id (shader index) now. */ else if (!_pico_stricmp(p->token,"*material_ref")) { int mtlId; /* get the material ref (0..n) */ if (!_pico_parse_int( p,&mtlId) ) _ase_error_return("Missing material reference ID"); { int i = 0; /* fix up all of the aseFaceList in the surface to point to the parent material */ /* we've already saved off their subMtl */ for(; i < numFaces; ++i) { faces[i].materialId = mtlId; } } } /* model mesh vertex */ else if (!_pico_stricmp(p->token,"*mesh_vertex")) { int index; if( numVertices == 0 ) _ase_error_return("Vertex parse error"); /* get vertex data (orig: index +y -x +z) */ if (!_pico_parse_int( p,&index )) _ase_error_return("Vertex parse error"); if (!_pico_parse_vec( p,vertices[index].xyz )) _ase_error_return("Vertex parse error"); vertices[index].id = vertexId++; } else if (!_pico_stricmp(p->token,"*mesh_facenormal")) { //Grab the faceindex for the next vertex normals. if( numVertices == 0 ) _ase_error_return("Vertex parse error (facenormals)"); if (!_pico_parse_int( p,¤tVertexFace )) _ase_error_return("Vertex parse error"); if (!_pico_parse_vec( p,faces[currentVertexFace].facenormal )) _ase_error_return("Vertex parse error"); } /* model mesh vertex normal */ else if (!_pico_stricmp(p->token,"*mesh_vertexnormal")) { int index; if( numVertices == 0 ) _ase_error_return("Vertex parse error"); /* get vertex data (orig: index +y -x +z) */ if (!_pico_parse_int( p,&index )) _ase_error_return("Vertex parse error"); //^^ Index is 'wrong' in .ase models. they reference the same vert index with multiple normals.. // I've tried, this is a lost cause. Use the SG's // /* if (!_pico_parse_vec( p,vertices[counter].normal )) _ase_error_return("Vertex parse error"); vertices[counter].faceid=index; counter++; */ } /* model mesh face */ else if (!_pico_stricmp(p->token,"*mesh_normals")) { // counter=0; //part of the above vertex normals fix } /* model mesh face */ else if (!_pico_stricmp(p->token,"*mesh_face")) { picoIndex_t indexes[3]; int index; if( numFaces == 0 ) _ase_error_return("Face parse error"); /* get face index */ if (!_pico_parse_int( p,&index )) _ase_error_return("Face parse error"); /* get 1st vertex index */ _pico_parse( p,0 ); if (!_pico_parse_int( p,&indexes[0] )) _ase_error_return("Face parse error"); /* get 2nd vertex index */ _pico_parse( p,0 ); if (!_pico_parse_int( p,&indexes[1] )) _ase_error_return("Face parse error"); /* get 3rd vertex index */ _pico_parse( p,0 ); if (!_pico_parse_int( p,&indexes[2] )) _ase_error_return("Face parse error"); /* parse to the subMaterial ID */ while ( 1 ) { if (!_pico_parse (p,0)) /* EOL */ { break; } if (!_pico_stricmp (p->token,"*MESH_SMOOTHING" )) { int total=0; char* point; char* start; _pico_parse(p,0); point=p->token; start=point; faces[index].smoothingGroup=0; //Super dodgy comma delimited string parse while (*point<'A') { if (*point<=32 || *point==',') { total=atoi(start); if (total!=0) { faces[index].smoothingGroup+=1<<total; } start=point+1; } point++; } } if (!_pico_stricmp (p->token,"*MESH_MTLID" )) { _pico_parse_int ( p , &faces[index].subMaterialId ); } } faces[index].materialId = 0; faces[index].indices[0] = indexes[2]; faces[index].indices[1] = indexes[1]; faces[index].indices[2] = indexes[0]; } /* model texture vertex */ else if (!_pico_stricmp(p->token,"*mesh_tvert")) { int index; if( numVertices == 0 ) _ase_error_return("Vertex parse error"); /* get uv vertex index */ if (!_pico_parse_int( p,&index )) _ase_error_return("UV vertex parse error"); /* get uv vertex s */ if (!_pico_parse_float( p,&texcoords[index].texcoord[0] )) _ase_error_return("UV vertex parse error"); /* get uv vertex t */ if (!_pico_parse_float( p,&texcoords[index].texcoord[1] )) _ase_error_return("UV vertex parse error"); /* ydnar: invert t */ texcoords[index].texcoord[ 1 ] = 1.0f - texcoords[index].texcoord[ 1 ]; } /* ydnar: model mesh texture face */ else if( !_pico_stricmp( p->token, "*mesh_tface" ) ) { picoIndex_t indexes[3]; int index; if( numFaces == 0 ) _ase_error_return("Texture face parse error"); /* get face index */ if (!_pico_parse_int( p,&index )) _ase_error_return("Texture face parse error"); /* get 1st vertex index */ if (!_pico_parse_int( p,&indexes[0] )) _ase_error_return("Texture face parse error"); /* get 2nd vertex index */ if (!_pico_parse_int( p,&indexes[1] )) _ase_error_return("Texture face parse error"); /* get 3rd vertex index */ if (!_pico_parse_int( p,&indexes[2] )) _ase_error_return("Texture face parse error"); faces[index].indices[3] = indexes[2]; faces[index].indices[4] = indexes[1]; faces[index].indices[5] = indexes[0]; } /* model color vertex */ else if (!_pico_stricmp(p->token,"*mesh_vertcol")) { int index; float colorInput; if( numVertices == 0 ) _ase_error_return("Color Vertex parse error"); /* get color vertex index */ if (!_pico_parse_int( p,&index )) _ase_error_return("Color vertex parse error"); /* get R component */ if (!_pico_parse_float( p,&colorInput )) _ase_error_return("Color vertex parse error"); colors[index].color[0] = (picoByte_t)(colorInput * 255); /* get G component */ if (!_pico_parse_float( p,&colorInput )) _ase_error_return("Color vertex parse error"); colors[index].color[1] = (picoByte_t)(colorInput * 255); /* get B component */ if (!_pico_parse_float( p,&colorInput )) _ase_error_return("Color vertex parse error"); colors[index].color[2] = (picoByte_t)(colorInput * 255); /* leave alpha alone since we don't get any data from the ASE format */ colors[index].color[3] = 255; /* 27 hack, red as alpha */ colors[index].color[3]=colors[index].color[0]; colors[index].color[0]=255; colors[index].color[1]=255; colors[index].color[2]=255; } /* model color face */ else if (!_pico_stricmp(p->token,"*mesh_cface")) { picoIndex_t indexes[3]; int index; if( numFaces == 0 ) _ase_error_return("Face parse error"); /* get face index */ if (!_pico_parse_int( p,&index )) _ase_error_return("Face parse error"); /* get 1st cvertex index */ // _pico_parse( p,0 ); if (!_pico_parse_int( p,&indexes[0] )) _ase_error_return("Face parse error"); /* get 2nd cvertex index */ // _pico_parse( p,0 ); if (!_pico_parse_int( p,&indexes[1] )) _ase_error_return("Face parse error"); /* get 3rd cvertex index */ // _pico_parse( p,0 ); if (!_pico_parse_int( p,&indexes[2] )) _ase_error_return("Face parse error"); faces[index].indices[6] = indexes[2]; faces[index].indices[7] = indexes[1]; faces[index].indices[8] = indexes[0]; } /* model material */ else if( !_pico_stricmp( p->token, "*material" ) ) { aseSubMaterial_t* subMaterial = NULL; picoShader_t *shader; int level = 1, index; char materialName[ 1024 ]; float transValue = 0.0f, shineValue = 1.0f; picoColor_t ambientColor, diffuseColor, specularColor; char *mapname = NULL; int subMtlId, subMaterialLevel = -1; /* get material index */ _pico_parse_int( p,&index ); /* check brace */ if (!_pico_parse_check(p,1,"{")) _ase_error_return("Material missing opening brace"); /* parse material block */ while( 1 ) { /* get next token */ if (_pico_parse(p,1) == NULL) break; if (!strlen(p->token)) continue; /* handle levels */ if (p->token[0] == '{') level++; if (p->token[0] == '}') level--; if (!level) break; if( level == subMaterialLevel ) { /* set material name */ _pico_first_token( materialName ); PicoSetShaderName( shader, materialName); /* set shader's transparency */ PicoSetShaderTransparency( shader,transValue ); /* set shader's ambient color */ PicoSetShaderAmbientColor( shader,ambientColor ); /* set diffuse alpha to transparency */ diffuseColor[3] = (picoByte_t)( transValue * 255.0 ); /* set shader's diffuse color */ PicoSetShaderDiffuseColor( shader,diffuseColor ); /* set shader's specular color */ PicoSetShaderSpecularColor( shader,specularColor ); /* set shader's shininess */ PicoSetShaderShininess( shader,shineValue ); /* set material map name */ PicoSetShaderMapName( shader, mapname ); subMaterial = _ase_add_submaterial( &materials, index, subMtlId, shader ); subMaterialLevel = -1; } /* parse submaterial index */ if (!_pico_stricmp(p->token,"*submaterial")) { /* allocate new pico shader */ _pico_parse_int( p , &subMtlId ); shader = PicoNewShader( model ); if (shader == NULL) { PicoFreeModel( model ); return NULL; } subMaterialLevel = level; } /* parse material name */ else if (!_pico_stricmp(p->token,"*material_name")) { char* name = _pico_parse(p,0); if ( name == NULL) _ase_error_return("Missing material name"); strcpy ( materialName , name ); /* skip rest and continue with next token */ _pico_parse_skip_rest( p ); continue; } /* parse material transparency */ else if (!_pico_stricmp(p->token,"*material_transparency")) { /* get transparency value from ase */ if (!_pico_parse_float( p,&transValue )) _ase_error_return("Material transparency parse error"); /* skip rest and continue with next token */ _pico_parse_skip_rest( p ); continue; } /* parse material shininess */ else if (!_pico_stricmp(p->token,"*material_shine")) { /* remark: * - not sure but instead of '*material_shine' i might * need to use '*material_shinestrength' */ /* get shine value from ase */ if (!_pico_parse_float( p,&shineValue )) _ase_error_return("Material shine parse error"); /* scale ase shine range 0..1 to pico range 0..127 */ shineValue *= 128.0; /* skip rest and continue with next token */ _pico_parse_skip_rest( p ); continue; } /* parse ambient material color */ else if (!_pico_stricmp(p->token,"*material_ambient")) { picoVec3_t vec; /* get r,g,b float values from ase */ if (!_pico_parse_vec( p,vec )) _ase_error_return("Material color parse error"); /* setup 0..255 range color values */ ambientColor[ 0 ] = (int)( vec[ 0 ] * 255.0 ); ambientColor[ 1 ] = (int)( vec[ 1 ] * 255.0 ); ambientColor[ 2 ] = (int)( vec[ 2 ] * 255.0 ); ambientColor[ 3 ] = (int)( 255 ); /* skip rest and continue with next token */ _pico_parse_skip_rest( p ); continue; } /* parse diffuse material color */ else if (!_pico_stricmp(p->token,"*material_diffuse")) { picoVec3_t vec; /* get r,g,b float values from ase */ if (!_pico_parse_vec( p,vec )) _ase_error_return("Material color parse error"); /* setup 0..255 range color */ diffuseColor[ 0 ] = (int)( vec[ 0 ] * 255.0 ); diffuseColor[ 1 ] = (int)( vec[ 1 ] * 255.0 ); diffuseColor[ 2 ] = (int)( vec[ 2 ] * 255.0 ); diffuseColor[ 3 ] = (int)( 255 ); /* skip rest and continue with next token */ _pico_parse_skip_rest( p ); continue; } /* parse specular material color */ else if (!_pico_stricmp(p->token,"*material_specular")) { picoVec3_t vec; /* get r,g,b float values from ase */ if (!_pico_parse_vec( p,vec )) _ase_error_return("Material color parse error"); /* setup 0..255 range color */ specularColor[ 0 ] = (int)( vec[ 0 ] * 255 ); specularColor[ 1 ] = (int)( vec[ 1 ] * 255 ); specularColor[ 2 ] = (int)( vec[ 2 ] * 255 ); specularColor[ 3 ] = (int)( 255 ); /* skip rest and continue with next token */ _pico_parse_skip_rest( p ); continue; } /* material diffuse map */ else if (!_pico_stricmp(p->token,"*map_diffuse") ) { int sublevel = 0; /* parse material block */ while( 1 ) { /* get next token */ if (_pico_parse(p,1) == NULL) break; if (!strlen(p->token)) continue; /* handle levels */ if (p->token[0] == '{') sublevel++; if (p->token[0] == '}') sublevel--; if (!sublevel) break; /* parse diffuse map bitmap */ if (!_pico_stricmp(p->token,"*bitmap")) { char* name = _pico_parse(p,0); if (name == NULL) _ase_error_return("Missing material map bitmap name"); mapname = _pico_alloc ( strlen ( name ) + 1 ); strcpy ( mapname, name ); /* skip rest and continue with next token */ _pico_parse_skip_rest( p ); continue; } } } /* end map_diffuse block */ } /* end material block */ if( subMaterial == NULL ) { /* allocate new pico shader */ shader = PicoNewShader( model ); if (shader == NULL) { PicoFreeModel( model ); return NULL; } /* set material name */ PicoSetShaderName( shader,materialName ); /* set shader's transparency */ PicoSetShaderTransparency( shader,transValue ); /* set shader's ambient color */ PicoSetShaderAmbientColor( shader,ambientColor ); /* set diffuse alpha to transparency */ diffuseColor[3] = (picoByte_t)( transValue * 255.0 ); /* set shader's diffuse color */ PicoSetShaderDiffuseColor( shader,diffuseColor ); /* set shader's specular color */ PicoSetShaderSpecularColor( shader,specularColor ); /* set shader's shininess */ PicoSetShaderShininess( shader,shineValue ); /* set material map name */ PicoSetShaderMapName( shader, mapname ); /* extract shadername from bitmap path */ if(mapname != NULL) { char* p = mapname; /* convert to shader-name format */ { /* unix-style path separators */ char* s = mapname; for(; *s != '\0'; ++s) { if(*s == '\\') { *s = '/'; } } } { /* remove extension */ char* last_period = strrchr(p, '.'); if(last_period != NULL) { *last_period = '\0'; } } /* find game root */ for(; *p != '\0'; ++p) { if(_pico_strnicmp(p, "quake", 5) == 0 || _pico_strnicmp(p, "doom", 4) == 0) { break; } } /* root-relative */ for(; *p != '\0'; ++p) { if(*p == '/') { ++p; break; } } /* game-relative */ for(; *p != '\0'; ++p) { if(*p == '/') { ++p; break; } } if(*p != '\0') { /* set material name */ PicoSetShaderName( shader,p ); } } /* this is just a material with 1 submaterial */ subMaterial = _ase_add_submaterial( &materials, index, 0, shader ); } /* ydnar: free mapname */ if( mapname != NULL ) _pico_free( mapname ); } // !_pico_stricmp ( "*material" ) /* skip unparsed rest of line and continue */ _pico_parse_skip_rest( p ); } /* ydnar: finish existing surface */ _ase_submit_triangles(model, materials, vertices, texcoords, colors, faces, numFaces,numVertices,submodel++); _pico_free(faces); _pico_free(vertices); _pico_free(texcoords); _pico_free(colors); #ifdef DEBUG_PM_ASE _ase_print_materials(materials); finish = clock(); elapsed = (double)(finish - start) / CLOCKS_PER_SEC; _pico_printf( PICO_NORMAL, "Loaded model in in %-.2f second(s)\n", elapsed ); #endif //DEBUG_PM_ASE _ase_free_materials(&materials); _pico_free_parser( p ); /* return allocated pico model */ return model; }
// _fm_load() loads a Heretic 2 model file. static picoModel_t *_fm_load( PM_PARAMS_LOAD ) { int i, j, dups, dup_index; int fm_file_pos; index_LUT_t *p_index_LUT, *p_index_LUT2, *p_index_LUT3; index_DUP_LUT_t *p_index_LUT_DUPS; fm_vert_normal_t *vert; char skinname[FM_SKINPATHSIZE]; fm_t fm; fm_header_t *fm_head; fm_st_t *texCoord; fm_xyz_st_t *tri_verts; fm_xyz_st_t *triangle; fm_frame_t *frame; picoByte_t *bb, *bb0; picoModel_t *picoModel; picoSurface_t *picoSurface; picoShader_t *picoShader; picoVec3_t xyz, normal; picoVec2_t st; picoColor_t color; bb0 = bb = (picoByte_t*) _pico_alloc(bufSize); memcpy(bb, buffer, bufSize); // Header Header fm.fm_header_hdr = (fm_chunk_header_t *) bb; fm_file_pos = sizeof(fm_chunk_header_t) + fm.fm_header_hdr->size; if( (strcmp(fm.fm_header_hdr->ident, FM_HEADERCHUNKNAME)) ) { _pico_printf( PICO_WARNING, "FM Header Ident incorrect\n"); _pico_free(bb0); return NULL; } if( _pico_little_long( fm.fm_header_hdr->version ) != FM_HEADERCHUNKVER ) { _pico_printf( PICO_WARNING, "FM Header Version incorrect\n"); _pico_free(bb0); return NULL; } // Skin Header fm.fm_skin_hdr = (fm_chunk_header_t *) (bb + fm_file_pos); fm_file_pos += sizeof(fm_chunk_header_t) + fm.fm_skin_hdr->size; if( (strcmp(fm.fm_skin_hdr->ident, FM_SKINCHUNKNAME)) ) { _pico_printf( PICO_WARNING, "FM Skin Ident incorrect\n"); _pico_free(bb0); return NULL; } if( _pico_little_long( fm.fm_skin_hdr->version ) != FM_SKINCHUNKVER ) { _pico_printf( PICO_WARNING, "FM Skin Version incorrect\n"); _pico_free(bb0); return NULL; } // ST Header fm.fm_st_hdr = (fm_chunk_header_t *) (bb + fm_file_pos); fm_file_pos += sizeof(fm_chunk_header_t) + fm.fm_st_hdr->size; if( (strcmp(fm.fm_st_hdr->ident, FM_STCOORDCHUNKNAME)) ) { _pico_printf( PICO_WARNING, "FM ST Ident incorrect\n"); _pico_free(bb0); return NULL; } if( _pico_little_long( fm.fm_st_hdr->version ) != FM_STCOORDCHUNKVER ) { _pico_printf( PICO_WARNING, "FM ST Version incorrect\n"); _pico_free(bb0); return NULL; } // Tris Header fm.fm_tri_hdr = (fm_chunk_header_t *) (bb + fm_file_pos); fm_file_pos += sizeof(fm_chunk_header_t) + fm.fm_tri_hdr->size; if( (strcmp(fm.fm_tri_hdr->ident, FM_TRISCHUNKNAME)) ) { _pico_printf( PICO_WARNING, "FM Tri Ident incorrect\n"); _pico_free(bb0); return NULL; } if( _pico_little_long( fm.fm_tri_hdr->version ) != FM_TRISCHUNKVER ) { _pico_printf( PICO_WARNING, "FM Tri Version incorrect\n"); _pico_free(bb0); return NULL; } // Frame Header fm.fm_frame_hdr = (fm_chunk_header_t *) (bb + fm_file_pos); fm_file_pos += sizeof(fm_chunk_header_t); if( (strcmp(fm.fm_frame_hdr->ident, FM_FRAMESCHUNKNAME)) ) { _pico_printf( PICO_WARNING, "FM Frame Ident incorrect\n"); _pico_free(bb0); return NULL; } if( _pico_little_long( fm.fm_frame_hdr->version ) != FM_FRAMESCHUNKVER ) { _pico_printf( PICO_WARNING, "FM Frame Version incorrect\n"); _pico_free(bb0); return NULL; } // Header fm_file_pos = sizeof(fm_chunk_header_t); fm_head = fm.fm_header = (fm_header_t *) (bb + fm_file_pos); fm_file_pos += fm.fm_header_hdr->size; // Skin fm_file_pos += sizeof(fm_chunk_header_t); fm.fm_skin = (fm_skinpath_t *) (bb + fm_file_pos); fm_file_pos += fm.fm_skin_hdr->size; // ST fm_file_pos += sizeof(fm_chunk_header_t); texCoord = fm.fm_st = (fm_st_t *) (bb + fm_file_pos); fm_file_pos += fm.fm_st_hdr->size; // Tri fm_file_pos += sizeof(fm_chunk_header_t); tri_verts = fm.fm_tri = (fm_xyz_st_t *) (bb + fm_file_pos); fm_file_pos += fm.fm_tri_hdr->size; // Frame fm_file_pos += sizeof(fm_chunk_header_t); frame = fm.fm_frame = (fm_frame_t *) (bb + fm_file_pos); // do frame check if( fm_head->numFrames < 1 ) { _pico_printf( PICO_ERROR, "%s has 0 frames!", fileName ); _pico_free(bb0); return NULL; } if( frameNum < 0 || frameNum >= fm_head->numFrames ) { _pico_printf( PICO_ERROR, "Invalid or out-of-range FM frame specified" ); _pico_free(bb0); return NULL; } // swap fm fm_head->skinWidth = _pico_little_long( fm_head->skinWidth ); fm_head->skinHeight = _pico_little_long( fm_head->skinHeight ); fm_head->frameSize = _pico_little_long( fm_head->frameSize ); fm_head->numSkins = _pico_little_long( fm_head->numSkins ); fm_head->numXYZ = _pico_little_long( fm_head->numXYZ ); fm_head->numST = _pico_little_long( fm_head->numST ); fm_head->numTris = _pico_little_long( fm_head->numTris ); fm_head->numGLCmds = _pico_little_long( fm_head->numGLCmds ); fm_head->numFrames = _pico_little_long( fm_head->numFrames ); // swap frame scale and translation for( i = 0; i < 3; i++ ) { frame->header.scale[ i ] = _pico_little_float( frame->header.scale[ i ] ); frame->header.translate[ i ] = _pico_little_float( frame->header.translate[ i ] ); } // swap triangles triangle = tri_verts; for( i = 0; i < fm_head->numTris; i++, triangle++ ) { for( j = 0; j < 3; j++ ) { triangle->index_xyz[ j ] = _pico_little_short( triangle->index_xyz[ j ] ); triangle->index_st[ j ] = _pico_little_short( triangle->index_st[ j ] ); } } // swap st coords for( i = 0; i < fm_head->numST; i++ ) { texCoord->s = _pico_little_short( texCoord[i].s ); texCoord->t = _pico_little_short( texCoord[i].t ); } // set Skin Name strncpy(skinname, (const char *) fm.fm_skin, FM_SKINPATHSIZE ); #ifdef FM_VERBOSE_DBG // Print out md2 values _pico_printf(PICO_VERBOSE,"numSkins->%d numXYZ->%d numST->%d numTris->%d numFrames->%d\nSkin Name \"%s\"\n", fm_head->numSkins, fm_head->numXYZ, fm_head->numST, fm_head->numTris, fm_head->numFrames, &skinname ); #endif // detox Skin name _pico_setfext( skinname, "" ); _pico_unixify( skinname ); /* create new pico model */ picoModel = PicoNewModel(); if( picoModel == NULL ) { _pico_printf( PICO_ERROR, "Unable to allocate a new model" ); _pico_free(bb0); return NULL; } /* do model setup */ PicoSetModelFrameNum( picoModel, frameNum ); PicoSetModelNumFrames( picoModel, fm_head->numFrames ); /* sea */ PicoSetModelName( picoModel, fileName ); PicoSetModelFileName( picoModel, fileName ); // allocate new pico surface picoSurface = PicoNewSurface( picoModel ); if( picoSurface == NULL ) { _pico_printf( PICO_ERROR, "Unable to allocate a new model surface" ); PicoFreeModel( picoModel ); _pico_free(bb0); return NULL; } PicoSetSurfaceType( picoSurface, PICO_TRIANGLES ); PicoSetSurfaceName( picoSurface, frame->header.name ); picoShader = PicoNewShader( picoModel ); if( picoShader == NULL ) { _pico_printf( PICO_ERROR, "Unable to allocate a new model shader" ); PicoFreeModel( picoModel ); _pico_free(bb0); return NULL; } PicoSetShaderName( picoShader, skinname ); // associate current surface with newly created shader PicoSetSurfaceShader( picoSurface, picoShader ); // Init LUT for Verts p_index_LUT = (index_LUT_t *)_pico_alloc(sizeof(index_LUT_t) * fm_head->numXYZ); for(i=0; i<fm_head->numXYZ; i++) { p_index_LUT[i].Vert = -1; p_index_LUT[i].ST = -1; p_index_LUT[i].next = NULL; } // Fill in Look Up Table, and allocate/fill Linked List from vert array as needed for dup STs per Vert. dups = 0; triangle = tri_verts; for(i=0; i<fm_head->numTris; i++) { for(j=0; j<3; j++) { if (p_index_LUT[triangle->index_xyz[j]].ST == -1) // No Main Entry p_index_LUT[triangle->index_xyz[j]].ST = triangle->index_st[j]; else if (triangle->index_st[j] == p_index_LUT[triangle->index_xyz[j]].ST ) // Equal to Main Entry { #ifdef FM_VERBOSE_DBG _pico_printf( PICO_NORMAL, "-> Tri #%d, Vert %d:\t XYZ:%d ST:%d\n", i, j, triangle->index_xyz[j], triangle->index_st[j]); #endif continue; } else if ( (p_index_LUT[triangle->index_xyz[j]].next == NULL) ) // Not equal to Main entry, and no LL entry { // Add first entry of LL from Main p_index_LUT2 = (index_LUT_t *)_pico_alloc(sizeof(index_LUT_t)); if (p_index_LUT2 == NULL) _pico_printf( PICO_NORMAL, " Couldn't allocate memory!\n"); p_index_LUT[triangle->index_xyz[j]].next = (index_LUT_t *)p_index_LUT2; p_index_LUT2->Vert = dups; p_index_LUT2->ST = triangle->index_st[j]; p_index_LUT2->next = NULL; #ifdef FM_VERBOSE_DBG _pico_printf( PICO_NORMAL, " ADDING first LL XYZ:%d DUP:%d ST:%d\n", triangle->index_xyz[j], dups, triangle->index_st[j]); #endif triangle->index_xyz[j] = dups + fm_head->numXYZ; // Make change in Tri hunk dups++; } else // Try to find in LL from Main Entry { p_index_LUT3 = p_index_LUT2 = p_index_LUT[triangle->index_xyz[j]].next; while ( (p_index_LUT2 != NULL) && (triangle->index_xyz[j] != p_index_LUT2->Vert) ) // Walk down LL { p_index_LUT3 = p_index_LUT2; p_index_LUT2 = p_index_LUT2->next; } p_index_LUT2 = p_index_LUT3; if ( triangle->index_st[j] == p_index_LUT2->ST ) // Found it { triangle->index_xyz[j] = p_index_LUT2->Vert + fm_head->numXYZ; // Make change in Tri hunk #ifdef FM_VERBOSE_DBG _pico_printf( PICO_NORMAL, "--> Tri #%d, Vert %d:\t XYZ:%d ST:%d\n", i, j, triangle->index_xyz[j], triangle->index_st[j]); #endif continue; } if ( p_index_LUT2->next == NULL) // Didn't find it. Add entry to LL. { // Add the Entry p_index_LUT3 = (index_LUT_t *)_pico_alloc(sizeof(index_LUT_t)); if (p_index_LUT3 == NULL) _pico_printf( PICO_NORMAL, " Couldn't allocate memory!\n"); p_index_LUT2->next = (index_LUT_t *)p_index_LUT3; p_index_LUT3->Vert = dups; p_index_LUT3->ST = triangle->index_st[j]; p_index_LUT3->next = NULL; #ifdef FM_VERBOSE_DBG _pico_printf( PICO_NORMAL, " ADDING additional LL XYZ:%d DUP:%d NewXYZ:%d ST:%d\n", triangle->index_xyz[j], dups, dups + (fm_head->numXYZ), triangle->index_st[j]); #endif triangle->index_xyz[j] = dups + fm_head->numXYZ; // Make change in Tri hunk dups++; } } #ifdef FM_VERBOSE_DBG _pico_printf( PICO_NORMAL, "---> Tri #%d, Vert %d:\t XYZ:%d ST:%d\n", i, j, triangle->index_xyz[j], triangle->index_st[j]); #endif } triangle++; } // malloc and build array for Dup STs p_index_LUT_DUPS = (index_DUP_LUT_t *)_pico_alloc(sizeof(index_DUP_LUT_t) * dups); if (p_index_LUT_DUPS == NULL) _pico_printf( PICO_NORMAL, " Couldn't allocate memory!\n"); dup_index = 0; for(i=0; i<fm_head->numXYZ; i++) { p_index_LUT2 = p_index_LUT[i].next; while (p_index_LUT2 != NULL) { p_index_LUT_DUPS[p_index_LUT2->Vert].OldVert = i; p_index_LUT_DUPS[p_index_LUT2->Vert].ST = p_index_LUT2->ST; dup_index++; p_index_LUT2 = p_index_LUT2->next; } } #ifdef FM_VERBOSE_DBG _pico_printf( PICO_NORMAL, " Dups = %d\n", dups); _pico_printf( PICO_NORMAL, " Dup Index = %d\n", dup_index); #endif for(i=0; i<fm_head->numXYZ; i++) { #ifdef FM_VERBOSE_DBG _pico_printf( PICO_NORMAL, "Vert: %4d\t%4d",i, p_index_LUT[i].ST); #endif if (p_index_LUT[i].next != NULL) { p_index_LUT2 = p_index_LUT[i].next; do { #ifdef FM_VERBOSE_DBG _pico_printf( PICO_NORMAL, " %4d %4d", p_index_LUT2->Vert, p_index_LUT2->ST); #endif p_index_LUT2 = p_index_LUT2->next; } while ( p_index_LUT2 != NULL); } #ifdef FM_VERBOSE_DBG _pico_printf( PICO_NORMAL, "\n"); #endif } #ifdef FM_VERBOSE_DBG for(i=0; i<dup_index; i++) _pico_printf( PICO_NORMAL, " Dup Index #%d OldVert: %d ST: %d\n", i, p_index_LUT_DUPS[i].OldVert, p_index_LUT_DUPS[i].ST); triangle = tri_verts; for(i=0; i<fm_head->numTris; i++) { for(j=0; j<3; j++) _pico_printf( PICO_NORMAL, "Tri #%d, Vert %d:\t XYZ:%d ST:%d\n", i, j, triangle->index_xyz[j], triangle->index_st[j]); _pico_printf( PICO_NORMAL, "\n"); triangle++; } #endif // Build Picomodel triangle = tri_verts; for( j = 0; j < fm_head->numTris; j++, triangle++ ) { PicoSetSurfaceIndex( picoSurface, j*3 , triangle->index_xyz[0] ); PicoSetSurfaceIndex( picoSurface, j*3+1 , triangle->index_xyz[1] ); PicoSetSurfaceIndex( picoSurface, j*3+2 , triangle->index_xyz[2] ); } vert = (fm_vert_normal_t*) ((picoByte_t*) (frame->verts) ); for(i=0; i< fm_head->numXYZ; i++, vert++) { /* set vertex origin */ xyz[ 0 ] = vert->v[0] * frame->header.scale[0] + frame->header.translate[0]; xyz[ 1 ] = vert->v[1] * frame->header.scale[1] + frame->header.translate[1]; xyz[ 2 ] = vert->v[2] * frame->header.scale[2] + frame->header.translate[2]; PicoSetSurfaceXYZ( picoSurface, i , xyz ); /* set normal */ normal[ 0 ] = fm_normals[vert->lightnormalindex][0]; normal[ 1 ] = fm_normals[vert->lightnormalindex][1]; normal[ 2 ] = fm_normals[vert->lightnormalindex][2]; PicoSetSurfaceNormal( picoSurface, i , normal ); /* set st coords */ st[ 0 ] = ((texCoord[p_index_LUT[i].ST].s) / ((float)fm_head->skinWidth)); st[ 1 ] = (texCoord[p_index_LUT[i].ST].t / ((float)fm_head->skinHeight)); PicoSetSurfaceST( picoSurface, 0, i , st ); } if (dups) { for(i=0; i<dups; i++) { j = p_index_LUT_DUPS[i].OldVert; /* set vertex origin */ xyz[ 0 ] = frame->verts[j].v[0] * frame->header.scale[0] + frame->header.translate[0]; xyz[ 1 ] = frame->verts[j].v[1] * frame->header.scale[1] + frame->header.translate[1]; xyz[ 2 ] = frame->verts[j].v[2] * frame->header.scale[2] + frame->header.translate[2]; PicoSetSurfaceXYZ( picoSurface, i + fm_head->numXYZ , xyz ); /* set normal */ normal[ 0 ] = fm_normals[frame->verts[j].lightnormalindex][0]; normal[ 1 ] = fm_normals[frame->verts[j].lightnormalindex][1]; normal[ 2 ] = fm_normals[frame->verts[j].lightnormalindex][2]; PicoSetSurfaceNormal( picoSurface, i + fm_head->numXYZ , normal ); /* set st coords */ st[ 0 ] = ((texCoord[p_index_LUT_DUPS[i].ST].s) / ((float)fm_head->skinWidth)); st[ 1 ] = (texCoord[p_index_LUT_DUPS[i].ST].t / ((float)fm_head->skinHeight)); PicoSetSurfaceST( picoSurface, 0, i + fm_head->numXYZ , st ); } } /* set color */ PicoSetSurfaceColor( picoSurface, 0, 0, color ); // Free up malloc'ed LL entries for(i=0; i<fm_head->numXYZ; i++) { if(p_index_LUT[i].next != NULL) { p_index_LUT2 = p_index_LUT[i].next; do { p_index_LUT3 = p_index_LUT2->next; _pico_free(p_index_LUT2); p_index_LUT2 = p_index_LUT3; dups--; } while (p_index_LUT2 != NULL); } } if (dups) _pico_printf(PICO_WARNING, " Not all LL mallocs freed\n"); // Free malloc'ed LUTs _pico_free(p_index_LUT); _pico_free(p_index_LUT_DUPS); /* return the new pico model */ _pico_free(bb0); return picoModel; }
static picoModel_t *_md2_load( PM_PARAMS_LOAD ) { int i, j, dups, dup_index; index_LUT_t *p_index_LUT, *p_index_LUT2, *p_index_LUT3; index_DUP_LUT_t *p_index_LUT_DUPS; md2Triangle_t *p_md2Triangle; char skinname[ MD2_MAX_SKINNAME ]; md2_t *md2; md2St_t *texCoord; md2Frame_t *frame; md2Triangle_t *triangle; md2XyzNormal_t *vertex; picoByte_t *bb, *bb0; picoModel_t *picoModel; picoSurface_t *picoSurface; picoShader_t *picoShader; picoVec3_t xyz, normal; picoVec2_t st; picoColor_t color; /* set as md2 */ bb0 = bb = (picoByte_t*) _pico_alloc(bufSize); memcpy(bb, buffer, bufSize); md2 = (md2_t*) bb; /* check ident and version */ if( *((const int*) md2->magic) != *((const int*) MD2_MAGIC) || _pico_little_long( md2->version ) != MD2_VERSION ) { /* not an md2 file (todo: set error) */ _pico_printf( PICO_ERROR, "%s is not an MD2 File!", fileName ); _pico_free(bb0); return NULL; } // swap md2 md2->version = _pico_little_long( md2->version ); md2->skinWidth = _pico_little_long( md2->skinWidth ); md2->skinHeight = _pico_little_long( md2->skinHeight ); md2->frameSize = _pico_little_long( md2->frameSize ); md2->numSkins = _pico_little_long( md2->numSkins ); md2->numXYZ = _pico_little_long( md2->numXYZ ); md2->numST = _pico_little_long( md2->numST ); md2->numTris = _pico_little_long( md2->numTris ); md2->numGLCmds = _pico_little_long( md2->numGLCmds ); md2->numFrames = _pico_little_long( md2->numFrames ); md2->ofsSkins = _pico_little_long( md2->ofsSkins ); md2->ofsST = _pico_little_long( md2->ofsST ); md2->ofsTris = _pico_little_long( md2->ofsTris ); md2->ofsFrames = _pico_little_long( md2->ofsFrames ); md2->ofsGLCmds = _pico_little_long( md2->ofsGLCmds ); md2->ofsEnd = _pico_little_long( md2->ofsEnd ); // do frame check if( md2->numFrames < 1 ) { _pico_printf( PICO_ERROR, "%s has 0 frames!", fileName ); _pico_free(bb0); return NULL; } if( frameNum < 0 || frameNum >= md2->numFrames ) { _pico_printf( PICO_ERROR, "Invalid or out-of-range MD2 frame specified" ); _pico_free(bb0); return NULL; } // Setup Frame frame = (md2Frame_t *) (bb + md2->ofsFrames + (sizeof(md2Frame_t) * frameNum)); // swap frame scale and translation for( i = 0; i < 3; i++ ) { frame->scale[ i ] = _pico_little_float( frame->scale[ i ] ); frame->translate[ i ] = _pico_little_float( frame->translate[ i ] ); } // swap triangles triangle = (md2Triangle_t *) ((picoByte_t *) (bb + md2->ofsTris) ); for( i = 0; i < md2->numTris; i++, triangle++ ) { for( j = 0; j < 3; j++ ) { triangle->index_xyz[ j ] = _pico_little_short( triangle->index_xyz[ j ] ); triangle->index_st[ j ] = _pico_little_short( triangle->index_st[ j ] ); } } // swap st coords texCoord = (md2St_t*) ((picoByte_t *) (bb + md2->ofsST) ); for( i = 0; i < md2->numST; i++, texCoord++ ) { texCoord->s = _pico_little_short( texCoord->s ); texCoord->t = _pico_little_short( texCoord->t ); } // set Skin Name strncpy(skinname, (const char *) (bb + md2->ofsSkins), MD2_MAX_SKINNAME ); // Print out md2 values _pico_printf(PICO_VERBOSE,"Skins: %d Verts: %d STs: %d Triangles: %d Frames: %d\nSkin Name \"%s\"\n", md2->numSkins, md2->numXYZ, md2->numST, md2->numTris, md2->numFrames, &skinname ); // detox Skin name _pico_setfext( skinname, "" ); _pico_unixify( skinname ); /* create new pico model */ picoModel = PicoNewModel(); if( picoModel == NULL ) { _pico_printf( PICO_ERROR, "Unable to allocate a new model" ); _pico_free(bb0); return NULL; } /* do model setup */ PicoSetModelFrameNum( picoModel, frameNum ); PicoSetModelNumFrames( picoModel, md2->numFrames ); /* sea */ PicoSetModelName( picoModel, fileName ); PicoSetModelFileName( picoModel, fileName ); // allocate new pico surface picoSurface = PicoNewSurface( picoModel ); if( picoSurface == NULL ) { _pico_printf( PICO_ERROR, "Unable to allocate a new model surface" ); PicoFreeModel( picoModel ); _pico_free(bb0); return NULL; } PicoSetSurfaceType( picoSurface, PICO_TRIANGLES ); PicoSetSurfaceName( picoSurface, frame->name ); picoShader = PicoNewShader( picoModel ); if( picoShader == NULL ) { _pico_printf( PICO_ERROR, "Unable to allocate a new model shader" ); PicoFreeModel( picoModel ); _pico_free(bb0); return NULL; } PicoSetShaderName( picoShader, skinname ); // associate current surface with newly created shader PicoSetSurfaceShader( picoSurface, picoShader ); // Init LUT for Verts p_index_LUT = (index_LUT_t *)_pico_alloc(sizeof(index_LUT_t) * md2->numXYZ); for(i=0; i<md2->numXYZ; i++) { p_index_LUT[i].Vert = -1; p_index_LUT[i].ST = -1; p_index_LUT[i].next = NULL; } // Fill in Look Up Table, and allocate/fill Linked List from vert array as needed for dup STs per Vert. dups = 0; for(i=0; i<md2->numTris; i++) { p_md2Triangle = (md2Triangle_t *) ( bb + md2->ofsTris + (sizeof(md2Triangle_t)*i)); for(j=0; j<3; j++) { if (p_index_LUT[p_md2Triangle->index_xyz[j]].ST == -1) // No Main Entry p_index_LUT[p_md2Triangle->index_xyz[j]].ST = p_md2Triangle->index_st[j]; else if (p_md2Triangle->index_st[j] == p_index_LUT[p_md2Triangle->index_xyz[j]].ST ) // Equal to Main Entry continue; else if ( (p_index_LUT[p_md2Triangle->index_xyz[j]].next == NULL) ) // Not equal to Main entry, and no LL entry { // Add first entry of LL from Main p_index_LUT2 = (index_LUT_t *)_pico_alloc(sizeof(index_LUT_t)); if (p_index_LUT2 == NULL) _pico_printf( PICO_ERROR," Couldn't allocate memory!\n"); p_index_LUT[p_md2Triangle->index_xyz[j]].next = (index_LUT_t *)p_index_LUT2; p_index_LUT2->Vert = dups; p_index_LUT2->ST = p_md2Triangle->index_st[j]; p_index_LUT2->next = NULL; p_md2Triangle->index_xyz[j] = dups + md2->numXYZ; // Make change in Tri hunk dups++; } else // Try to find in LL from Main Entry { p_index_LUT3 = p_index_LUT2 = p_index_LUT[p_md2Triangle->index_xyz[j]].next; while ( (p_index_LUT2 != NULL) && (p_md2Triangle->index_xyz[j] != p_index_LUT2->Vert) ) // Walk down LL { p_index_LUT3 = p_index_LUT2; p_index_LUT2 = p_index_LUT2->next; } p_index_LUT2 = p_index_LUT3; if ( p_md2Triangle->index_st[j] == p_index_LUT2->ST ) // Found it { p_md2Triangle->index_xyz[j] = p_index_LUT2->Vert + md2->numXYZ; // Make change in Tri hunk continue; } if ( p_index_LUT2->next == NULL) // Didn't find it. Add entry to LL. { // Add the Entry p_index_LUT3 = (index_LUT_t *)_pico_alloc(sizeof(index_LUT_t)); if (p_index_LUT3 == NULL) _pico_printf( PICO_ERROR," Couldn't allocate memory!\n"); p_index_LUT2->next = (index_LUT_t *)p_index_LUT3; p_index_LUT3->Vert = p_md2Triangle->index_xyz[j]; p_index_LUT3->ST = p_md2Triangle->index_st[j]; p_index_LUT3->next = NULL; p_md2Triangle->index_xyz[j] = dups + md2->numXYZ; // Make change in Tri hunk dups++; } } } } // malloc and build array for Dup STs p_index_LUT_DUPS = (index_DUP_LUT_t *)_pico_alloc(sizeof(index_DUP_LUT_t) * dups); if (p_index_LUT_DUPS == NULL) _pico_printf( PICO_ERROR," Couldn't allocate memory!\n"); dup_index = 0; for(i=0; i<md2->numXYZ; i++) { p_index_LUT2 = p_index_LUT[i].next; while (p_index_LUT2 != NULL) { p_index_LUT_DUPS[p_index_LUT2->Vert].OldVert = i; p_index_LUT_DUPS[p_index_LUT2->Vert].ST = p_index_LUT2->ST; dup_index++; p_index_LUT2 = p_index_LUT2->next; } } // Build Picomodel triangle = (md2Triangle_t *) ((picoByte_t *) (bb + md2->ofsTris) ); texCoord = (md2St_t*) ((picoByte_t *) (bb + md2->ofsST) ); vertex = (md2XyzNormal_t*) ((picoByte_t*) (frame->verts) ); for( j = 0; j < md2->numTris; j++, triangle++ ) { PicoSetSurfaceIndex( picoSurface, j*3 , triangle->index_xyz[0] ); PicoSetSurfaceIndex( picoSurface, j*3+1 , triangle->index_xyz[1] ); PicoSetSurfaceIndex( picoSurface, j*3+2 , triangle->index_xyz[2] ); } for(i=0; i< md2->numXYZ; i++, vertex++) { /* set vertex origin */ xyz[ 0 ] = vertex->v[0] * frame->scale[0] + frame->translate[0]; xyz[ 1 ] = vertex->v[1] * frame->scale[1] + frame->translate[1]; xyz[ 2 ] = vertex->v[2] * frame->scale[2] + frame->translate[2]; PicoSetSurfaceXYZ( picoSurface, i , xyz ); /* set normal */ normal[ 0 ] = md2_normals[vertex->lightnormalindex][0]; normal[ 1 ] = md2_normals[vertex->lightnormalindex][1]; normal[ 2 ] = md2_normals[vertex->lightnormalindex][2]; PicoSetSurfaceNormal( picoSurface, i , normal ); /* set st coords */ st[ 0 ] = ((texCoord[p_index_LUT[i].ST].s) / ((float)md2->skinWidth)); st[ 1 ] = (texCoord[p_index_LUT[i].ST].t / ((float)md2->skinHeight)); PicoSetSurfaceST( picoSurface, 0, i , st ); } if (dups) { for(i=0; i<dups; i++) { j = p_index_LUT_DUPS[i].OldVert; /* set vertex origin */ xyz[ 0 ] = frame->verts[j].v[0] * frame->scale[0] + frame->translate[0]; xyz[ 1 ] = frame->verts[j].v[1] * frame->scale[1] + frame->translate[1]; xyz[ 2 ] = frame->verts[j].v[2] * frame->scale[2] + frame->translate[2]; PicoSetSurfaceXYZ( picoSurface, i + md2->numXYZ , xyz ); /* set normal */ normal[ 0 ] = md2_normals[frame->verts[j].lightnormalindex][0]; normal[ 1 ] = md2_normals[frame->verts[j].lightnormalindex][1]; normal[ 2 ] = md2_normals[frame->verts[j].lightnormalindex][2]; PicoSetSurfaceNormal( picoSurface, i + md2->numXYZ , normal ); /* set st coords */ st[ 0 ] = ((texCoord[p_index_LUT_DUPS[i].ST].s) / ((float)md2->skinWidth)); st[ 1 ] = (texCoord[p_index_LUT_DUPS[i].ST].t / ((float)md2->skinHeight)); PicoSetSurfaceST( picoSurface, 0, i + md2->numXYZ , st ); } } /* set color */ PicoSetSurfaceColor( picoSurface, 0, 0, color ); // Free up malloc'ed LL entries for(i=0; i<md2->numXYZ; i++) { if(p_index_LUT[i].next != NULL) { p_index_LUT2 = p_index_LUT[i].next; do { p_index_LUT3 = p_index_LUT2->next; _pico_free(p_index_LUT2); p_index_LUT2 = p_index_LUT3; dups--; } while (p_index_LUT2 != NULL); } } if (dups) _pico_printf(PICO_WARNING, " Not all LL mallocs freed\n"); // Free malloc'ed LUTs _pico_free(p_index_LUT); _pico_free(p_index_LUT_DUPS); /* return the new pico model */ _pico_free(bb0); return picoModel; }
static picoModel_t *_terrain_load( PM_PARAMS_LOAD ){ int i, j, v, pw[ 5 ], r; picoParser_t *p; char *shader, *heightmapFile, *colormapFile; picoVec3_t scale, origin; unsigned char *imageBuffer; int imageBufSize, w, h, cw, ch; unsigned char *heightmap, *colormap, *heightPixel, *colorPixel; picoModel_t *picoModel; picoSurface_t *picoSurface; picoShader_t *picoShader; picoVec3_t xyz, normal; picoVec2_t st; picoColor_t color; /* create pico parser */ p = _pico_new_parser( (const picoByte_t*) buffer, bufSize ); if ( p == NULL ) { return NULL; } /* get first token */ if ( _pico_parse_first( p ) == NULL ) { return NULL; } /* check first token */ if ( _pico_stricmp( p->token, "picoterrain" ) ) { _pico_printf( PICO_ERROR, "Invalid PicoTerrain model" ); _pico_free_parser( p ); return NULL; } /* setup */ shader = heightmapFile = colormapFile = NULL; _pico_set_vec( scale, 512, 512, 32 ); /* parse ase model file */ while ( 1 ) { /* get first token on line */ if ( !_pico_parse_first( p ) ) { break; } /* skip empty lines */ if ( !p->token || !p->token[ 0 ] ) { continue; } /* shader */ if ( !_pico_stricmp( p->token, "shader" ) ) { if ( _pico_parse( p, 0 ) && p->token[ 0 ] ) { if ( shader != NULL ) { _pico_free( shader ); } shader = _pico_clone_alloc( p->token ); } } /* heightmap */ else if ( !_pico_stricmp( p->token, "heightmap" ) ) { if ( _pico_parse( p, 0 ) && p->token[ 0 ] ) { if ( heightmapFile != NULL ) { _pico_free( heightmapFile ); } heightmapFile = _pico_clone_alloc( p->token ); } } /* colormap */ else if ( !_pico_stricmp( p->token, "colormap" ) ) { if ( _pico_parse( p, 0 ) && p->token[ 0 ] ) { if ( colormapFile != NULL ) { _pico_free( colormapFile ); } colormapFile = _pico_clone_alloc( p->token ); } } /* scale */ else if ( !_pico_stricmp( p->token, "scale" ) ) { _pico_parse_vec( p, scale ); } /* skip unparsed rest of line and continue */ _pico_parse_skip_rest( p ); } /* ----------------------------------------------------------------- */ /* load heightmap */ heightmap = imageBuffer = NULL; _pico_load_file( heightmapFile, &imageBuffer, &imageBufSize ); _terrain_load_tga_buffer( imageBuffer, &heightmap, &w, &h ); _pico_free( heightmapFile ); _pico_free_file( imageBuffer ); if ( heightmap == NULL || w < 2 || h < 2 ) { _pico_printf( PICO_ERROR, "PicoTerrain model with invalid heightmap" ); if ( shader != NULL ) { _pico_free( shader ); } if ( colormapFile != NULL ) { _pico_free( colormapFile ); } _pico_free_parser( p ); return NULL; } /* set origin (bottom lowest corner of terrain mesh) */ _pico_set_vec( origin, ( w / -2 ) * scale[ 0 ], ( h / -2 ) * scale[ 1 ], -128 * scale[ 2 ] ); /* load colormap */ colormap = imageBuffer = NULL; _pico_load_file( colormapFile, &imageBuffer, &imageBufSize ); _terrain_load_tga_buffer( imageBuffer, &colormap, &cw, &ch ); _pico_free( colormapFile ); _pico_free_file( imageBuffer ); if ( cw != w || ch != h ) { _pico_printf( PICO_WARNING, "PicoTerrain colormap/heightmap size mismatch" ); _pico_free( colormap ); colormap = NULL; } /* ----------------------------------------------------------------- */ /* create new pico model */ picoModel = PicoNewModel(); if ( picoModel == NULL ) { _pico_printf( PICO_ERROR, "Unable to allocate a new model" ); return NULL; } /* do model setup */ PicoSetModelFrameNum( picoModel, frameNum ); PicoSetModelNumFrames( picoModel, 1 ); /* sea */ PicoSetModelName( picoModel, fileName ); PicoSetModelFileName( picoModel, fileName ); /* allocate new pico surface */ picoSurface = PicoNewSurface( picoModel ); if ( picoSurface == NULL ) { _pico_printf( PICO_ERROR, "Unable to allocate a new model surface" ); PicoFreeModel( picoModel ); /* sea */ return NULL; } /* terrain surfaces are triangle meshes */ PicoSetSurfaceType( picoSurface, PICO_TRIANGLES ); /* set surface name */ PicoSetSurfaceName( picoSurface, "picoterrain" ); /* create new pico shader */ picoShader = PicoNewShader( picoModel ); if ( picoShader == NULL ) { _pico_printf( PICO_ERROR, "Unable to allocate a new model shader" ); PicoFreeModel( picoModel ); _pico_free( shader ); return NULL; } /* detox and set shader name */ _pico_setfext( shader, "" ); _pico_unixify( shader ); PicoSetShaderName( picoShader, shader ); _pico_free( shader ); /* associate current surface with newly created shader */ PicoSetSurfaceShader( picoSurface, picoShader ); /* make bogus normal */ _pico_set_vec( normal, 0.0f, 0.0f, 0.0f ); /* create mesh */ for ( j = 0; j < h; j++ ) { for ( i = 0; i < w; i++ ) { /* get pointers */ v = i + ( j * w ); heightPixel = heightmap + v * 4; colorPixel = colormap ? colormap + v * 4 : NULL; /* set xyz */ _pico_set_vec( xyz, origin[ 0 ] + scale[ 0 ] * i, origin[ 1 ] + scale[ 1 ] * j, origin[ 2 ] + scale[ 2 ] * heightPixel[ 0 ] ); PicoSetSurfaceXYZ( picoSurface, v, xyz ); /* set normal */ PicoSetSurfaceNormal( picoSurface, v, normal ); /* set st */ st[ 0 ] = (float) i; st[ 1 ] = (float) j; PicoSetSurfaceST( picoSurface, 0, v, st ); /* set color */ if ( colorPixel != NULL ) { _pico_set_color( color, colorPixel[ 0 ], colorPixel[ 1 ], colorPixel[ 2 ], colorPixel[ 3 ] ); } else{ _pico_set_color( color, 255, 255, 255, 255 ); } PicoSetSurfaceColor( picoSurface, 0, v, color ); /* set triangles (zero alpha in heightmap suppresses this quad) */ if ( i < ( w - 1 ) && j < ( h - 1 ) && heightPixel[ 3 ] >= 128 ) { /* set indexes */ pw[ 0 ] = i + ( j * w ); pw[ 1 ] = i + ( ( j + 1 ) * w ); pw[ 2 ] = i + 1 + ( ( j + 1 ) * w ); pw[ 3 ] = i + 1 + ( j * w ); pw[ 4 ] = i + ( j * w ); /* same as pw[ 0 ] */ /* set radix */ r = ( i + j ) & 1; /* make first triangle */ PicoSetSurfaceIndex( picoSurface, ( v * 6 + 0 ), (picoIndex_t) pw[ r + 0 ] ); PicoSetSurfaceIndex( picoSurface, ( v * 6 + 1 ), (picoIndex_t) pw[ r + 1 ] ); PicoSetSurfaceIndex( picoSurface, ( v * 6 + 2 ), (picoIndex_t) pw[ r + 2 ] ); /* make second triangle */ PicoSetSurfaceIndex( picoSurface, ( v * 6 + 3 ), (picoIndex_t) pw[ r + 0 ] ); PicoSetSurfaceIndex( picoSurface, ( v * 6 + 4 ), (picoIndex_t) pw[ r + 2 ] ); PicoSetSurfaceIndex( picoSurface, ( v * 6 + 5 ), (picoIndex_t) pw[ r + 3 ] ); } } } /* free stuff */ _pico_free_parser( p ); _pico_free( heightmap ); _pico_free( colormap ); /* return the new pico model */ return picoModel; }
static picoModel_t *_md2_load( PM_PARAMS_LOAD ) { int i, j; short tot_numVerts; index_LUT_t *p_index_LUT; md2Triangle_t *p_md2Triangle; char skinname[ MD2_MAX_SKINNAME ]; md2_t *md2; md2St_t *texCoord; md2Frame_t *frame; md2Triangle_t *triangle; md2XyzNormal_t *vertex; picoByte_t *bb; picoModel_t *picoModel; picoSurface_t *picoSurface; picoShader_t *picoShader; picoVec3_t xyz, normal; picoVec2_t st; picoColor_t color; /* set as md2 */ bb = (picoByte_t*) buffer; md2 = (md2_t*) buffer; /* check ident and version */ if( *((int*) md2->magic) != *((int*) MD2_MAGIC) || _pico_little_long( md2->version ) != MD2_VERSION ) { /* not an md2 file (todo: set error) */ _pico_printf( PICO_ERROR, "%s is not an MD2 File!", fileName ); return NULL; } // swap md2 md2->version = _pico_little_long( md2->version ); md2->skinWidth = _pico_little_long( md2->skinWidth ); md2->skinHeight = _pico_little_long( md2->skinHeight ); md2->frameSize = _pico_little_long( md2->frameSize ); md2->numSkins = _pico_little_long( md2->numSkins ); md2->numXYZ = _pico_little_long( md2->numXYZ ); md2->numST = _pico_little_long( md2->numST ); md2->numTris = _pico_little_long( md2->numTris ); md2->numGLCmds = _pico_little_long( md2->numGLCmds ); md2->numFrames = _pico_little_long( md2->numFrames ); md2->ofsSkins = _pico_little_long( md2->ofsSkins ); md2->ofsST = _pico_little_long( md2->ofsST ); md2->ofsTris = _pico_little_long( md2->ofsTris ); md2->ofsFrames = _pico_little_long( md2->ofsFrames ); md2->ofsGLCmds = _pico_little_long( md2->ofsGLCmds ); md2->ofsEnd = _pico_little_long( md2->ofsEnd ); // do frame check if( md2->numFrames < 1 ) { _pico_printf( PICO_ERROR, "%s has 0 frames!", fileName ); return NULL; } if( frameNum < 0 || frameNum >= md2->numFrames ) { _pico_printf( PICO_ERROR, "Invalid or out-of-range MD2 frame specified" ); return NULL; } // Setup Frame frame = (md2Frame_t *) (bb + md2->ofsFrames + (sizeof(md2Frame_t) * frameNum)); // swap frame scale and translation for( i = 0; i < 3; i++ ) { frame->scale[ i ] = _pico_little_float( frame->scale[ i ] ); frame->translate[ i ] = _pico_little_float( frame->translate[ i ] ); } // swap triangles triangle = (md2Triangle_t *) ((picoByte_t *) (bb + md2->ofsTris) ); for( i = 0; i < md2->numTris; i++, triangle++ ) { for( j = 0; j < 3; j++ ) { triangle->index_xyz[ j ] = _pico_little_short( triangle->index_xyz[ j ] ); triangle->index_st[ j ] = _pico_little_short( triangle->index_st[ j ] ); } } // swap st coords texCoord = (md2St_t*) ((picoByte_t *) (bb + md2->ofsST) ); for( i = 0; i < md2->numST; i++, texCoord++ ) { texCoord->s = _pico_little_short( texCoord->s ); texCoord->t = _pico_little_short( texCoord->t ); } // Print out md2 values _pico_printf(PICO_VERBOSE,"Skins: %d Verts: %d STs: %d Triangles: %d Frames: %d\nSkin Name \"%s\"\n", md2->numSkins, md2->numXYZ, md2->numST, md2->numTris, md2->numFrames, &skinname ); /* create new pico model */ picoModel = PicoNewModel(); if( picoModel == NULL ) { _pico_printf( PICO_ERROR, "Unable to allocate a new model" ); return NULL; } /* do model setup */ PicoSetModelFrameNum( picoModel, frameNum ); PicoSetModelNumFrames( picoModel, md2->numFrames ); /* sea */ PicoSetModelName( picoModel, fileName ); PicoSetModelFileName( picoModel, fileName ); for (i = 0; i < md2->numSkins; i++) { char *offsetSkin = (char*) (bb + md2->ofsSkins) + i * MD2_MAX_SKINNAME; /* set Skin Name */ strncpy(skinname, offsetSkin, MD2_MAX_SKINNAME); /* detox Skin name */ if (skinname[0] == '.') {/* special case ufoai skinpath */ char path[MD2_MAX_SKINNAME]; char skinnameRelative[MD2_MAX_SKINNAME]; strncpy(path, fileName, MD2_MAX_SKINNAME); strncpy(skinnameRelative, skinname, MD2_MAX_SKINNAME); _pico_unixify(path); for (j = MD2_MAX_SKINNAME; j--;) {/* skip filename */ if (path[j] == '/') break; path[j] = '\0'; } snprintf(skinname, MD2_MAX_SKINNAME, "%s%s", path, &skinnameRelative[1]); } _pico_setfext(skinname, ""); picoShader = PicoNewShader(picoModel); if (picoShader == NULL) { _pico_printf(PICO_ERROR, "Unable to allocate a new model shader"); PicoFreeModel(picoModel); return NULL; } PicoSetShaderName(picoShader, skinname); } // allocate new pico surface picoSurface = PicoNewSurface( picoModel ); if( picoSurface == NULL ) { _pico_printf( PICO_ERROR, "Unable to allocate a new model surface" ); PicoFreeModel( picoModel ); return NULL; } PicoSetSurfaceType( picoSurface, PICO_TRIANGLES ); PicoSetSurfaceName( picoSurface, frame->name ); picoShader = PicoNewShader( picoModel ); if( picoShader == NULL ) { _pico_printf( PICO_ERROR, "Unable to allocate a new model shader" ); PicoFreeModel( picoModel ); return NULL; } PicoSetShaderName( picoShader, skinname ); // associate current surface with newly created shader PicoSetSurfaceShader( picoSurface, picoShader ); // Init LUT for Verts p_index_LUT = (index_LUT_t *)_pico_alloc(sizeof(index_LUT_t) * md2->numXYZ); for(i=0; i<md2->numXYZ; i++) { p_index_LUT[i].Vert = -1; p_index_LUT[i].ST = -1; } /* Fill in Look Up Table, and allocate/fill Linked List from vert array as needed for dup STs per Vert. */ tot_numVerts = md2->numXYZ; for (i = 0; i < md2->numTris; i++) { p_md2Triangle = (md2Triangle_t *) (bb + md2->ofsTris + (sizeof(md2Triangle_t) * i)); for (j = 0; j < 3; j++) { if (p_index_LUT[p_md2Triangle->index_xyz[j]].ST == -1) /* No Main Entry */ p_index_LUT[p_md2Triangle->index_xyz[j]].ST = p_md2Triangle->index_st[j]; } } /* Build Picomodel */ triangle = (md2Triangle_t *) ((picoByte_t *) (bb + md2->ofsTris)); for (j = 0; j < md2->numTris; j++, triangle++) { PicoSetSurfaceIndex(picoSurface, j * 3, triangle->index_xyz[0]); PicoSetSurfaceIndex(picoSurface, j * 3 + 1, triangle->index_xyz[1]); PicoSetSurfaceIndex(picoSurface, j * 3 + 2, triangle->index_xyz[2]); } _pico_set_color(color, 255, 255, 255, 255); texCoord = (md2St_t*) ((picoByte_t *) (bb + md2->ofsST)); vertex = (md2XyzNormal_t*) ((picoByte_t*) (frame->verts)); for (i = 0; i < md2->numXYZ; i++, vertex++) { /* set vertex origin */ xyz[0] = vertex->v[0] * frame->scale[0] + frame->translate[0]; xyz[1] = vertex->v[1] * frame->scale[1] + frame->translate[1]; xyz[2] = vertex->v[2] * frame->scale[2] + frame->translate[2]; PicoSetSurfaceXYZ(picoSurface, i, xyz); /* set normal */ normal[0] = md2_normals[vertex->lightnormalindex][0]; normal[1] = md2_normals[vertex->lightnormalindex][1]; normal[2] = md2_normals[vertex->lightnormalindex][2]; PicoSetSurfaceNormal(picoSurface, i, normal); /* set st coords */ st[0] = (float) texCoord[p_index_LUT[i].ST].s / (float) md2->skinWidth; st[1] = (float) texCoord[p_index_LUT[i].ST].t / (float) md2->skinHeight; PicoSetSurfaceST(picoSurface, 0, i, st); /* set color */ PicoSetSurfaceColor(picoSurface, 0, i, color); } /* Free malloc'ed LUTs */ _pico_free(p_index_LUT); /* return the new pico model */ return picoModel; }
static int DoNextEditorDataChunk (T3dsLoaderPers *pers, long endofs) { T3dsChunk *chunk; #ifdef DEBUG_PM_3DS_EX printf("DoNextEditorDataChunk: endofs %d\n",endofs); #endif while (pers->cofs < endofs) { long nextofs = pers->cofs; if ((chunk = GetChunk(pers)) == NULL) return 0; if (!chunk->len) return 0; nextofs += chunk->len; #ifdef DEBUG_PM_3DS_EX printf("Chunk %04x (%s), len %d pers->cofs %x\n",chunk->id,DebugGetChunkName(chunk->id),chunk->len,pers->cofs); #endif /*** meshes ***/ if (chunk->id == CHUNK_OBJECT) { picoSurface_t *surface; char surfaceName[ 0xff ] = { 0 }; /* read in surface name */ if( !GetASCIIZ(pers,surfaceName,sizeof(surfaceName)) ) return 0; /* this is bad */ //PicoGetSurfaceName /* ignore NULL name surfaces */ // if( surfaceName /* allocate a pico surface */ surface = PicoNewSurface( pers->model ); if( surface == NULL ) { pers->surface = NULL; return 0; /* this is bad too */ } /* assign ptr to current surface */ pers->surface = surface; /* 3ds models surfaces are all triangle meshes */ PicoSetSurfaceType( pers->surface,PICO_TRIANGLES ); /* set surface name */ PicoSetSurfaceName( pers->surface,surfaceName ); /* continue mess with object's sub chunks */ DoNextEditorDataChunk(pers,nextofs); continue; } if (chunk->id == CHUNK_OBJECT_MESH) { /* continue mess with mesh's sub chunks */ if (!DoNextEditorDataChunk(pers,nextofs)) return 0; continue; } if (chunk->id == CHUNK_OBJECT_VERTICES) { if (!GetMeshVertices(pers)) return 0; continue; } if (chunk->id == CHUNK_OBJECT_FACES) { if (!GetMeshFaces(pers)) return 0; continue; } if (chunk->id == CHUNK_OBJECT_UV) { if (!GetMeshTexCoords(pers)) return 0; continue; } if (chunk->id == CHUNK_OBJECT_MATERIAL) { if (!GetMeshShader(pers)) return 0; continue; } /*** materials ***/ if (chunk->id == CHUNK_MATERIAL) { /* new shader specific things should be */ /* initialized right here */ picoShader_t *shader; /* allocate a pico shader */ shader = PicoNewShader( pers->model ); /* ydnar */ if( shader == NULL ) { pers->shader = NULL; return 0; /* this is bad too */ } /* assign ptr to current shader */ pers->shader = shader; /* continue and process the material's sub chunks */ DoNextEditorDataChunk(pers,nextofs); continue; } if (chunk->id == CHUNK_MATNAME) { /* new material's names should be stored here. note that */ /* GetMeshMaterial returns the name of the material that */ /* is used by the mesh. new material names are set HERE. */ /* but for now we skip the new material's name ... */ if (pers->shader) { char *name = (char*) (pers->bufptr + pers->cofs); char *cleanedName = _pico_clone_alloc( name ); _pico_first_token( cleanedName ); PicoSetShaderName( pers->shader, cleanedName ); #ifdef DEBUG_PM_3DS printf( "NewShader: '%s'\n", cleanedName ); #endif _pico_free( cleanedName ); } } if (chunk->id == CHUNK_MATDIFFUSE) { /* todo: color for last inserted new material should be */ /* stored somewhere by GetDiffuseColor */ if (!GetDiffuseColor(pers)) return 0; /* rest of chunk is skipped here */ } if (chunk->id == CHUNK_MATMAP) { /* continue and process the material map sub chunks */ DoNextEditorDataChunk(pers,nextofs); continue; } if (chunk->id == CHUNK_MATMAPFILE) { /* map file name for last inserted new material should */ /* be stored here. but for now we skip this too ... */ if( pers->shader ) { char *name = (char *)(pers->bufptr + pers->cofs); PicoSetShaderMapName( pers->shader,name ); #ifdef DEBUG_PM_3DS printf("NewShaderMapfile: '%s'\n",name); #endif } } /*** keyframes ***/ if (chunk->id == CHUNK_KEYFRAME_DATA) { /* well umm, this is a bit too much since we don't really */ /* need model animation sequences right now. we skip this */ #ifdef DEBUG_PM_3DS printf("KeyframeData: len %d\n",chunk->len); #endif } /* skip unknown chunk */ pers->cofs = nextofs; if (pers->cofs >= pers->maxofs) break; } return 1; }
static int _obj_mtl_load (picoModel_t *model) { picoParser_t *p; picoByte_t *mtlBuffer; int mtlBufSize; char *fileName; /* sanity checks */ if (model == NULL || model->fileName == NULL) return 0; /* skip if we have a zero length model file name */ if (!strlen(model->fileName)) return 0; /* helper */ #define _obj_mtl_error_return \ { \ _pico_free_parser( p ); \ _pico_free_file( mtlBuffer ); \ _pico_free( fileName ); \ return 0; \ } /* alloc copy of model file name */ fileName = _pico_clone_alloc(model->fileName); if (fileName == NULL) return 0; /* change extension of model file to .mtl */ _pico_setfext(fileName, "mtl"); /* load .mtl file contents */ _pico_load_file(fileName, &mtlBuffer, &mtlBufSize); /* check result */ if (mtlBufSize == 0) return 1; /* file is empty: no error */ if (mtlBufSize < 0) return 0; /* load failed: error */ /* create a new pico parser */ p = _pico_new_parser(mtlBuffer, mtlBufSize); if (p == NULL) _obj_mtl_error_return; /* doo teh .mtl parse */ while (1) { /* get next token in material file */ if (_pico_parse(p, 1) == NULL) break; #if 0 /* skip empty lines */ if (p->token == NULL || !strlen(p->token)) continue; /* skip comment lines */ if (p->token[0] == '#') { _pico_parse_skip_rest(p); continue; } /* new material */ if (!_pico_stricmp(p->token, "newmtl")) { picoShader_t *shader; char *name; /* get material name */ name = _pico_parse(p, 0); /* validate material name */ if (name == NULL || !strlen(name)) { _pico_printf(PICO_ERROR, "Missing material name in MTL, line %d.", p->curLine); _obj_mtl_error_return; } /* create a new pico shader */ shader = PicoNewShader(model); if (shader == NULL) _obj_mtl_error_return; /* set shader name */ PicoSetShaderName(shader, name); /* assign pointer to current shader */ curShader = shader; } /* diffuse map name */ else if (!_pico_stricmp(p->token, "map_kd")) { char *mapName; /* pointer to current shader must be valid */ if (curShader == NULL) _obj_mtl_error_return; /* get material's diffuse map name */ mapName = _pico_parse(p, 0); /* validate map name */ if (mapName == NULL || !strlen(mapName)) { _pico_printf(PICO_ERROR, "Missing material map name in MTL, line %d.", p->curLine); _obj_mtl_error_return; } /* set shader map name */ PicoSetShaderMapName(shader, mapName); } /* dissolve factor (pseudo transparency 0..1) */ /* where 0 means 100% transparent and 1 means opaque */ else if (!_pico_stricmp(p->token, "d")) { picoByte_t *diffuse; float value; /* get dissolve factor */ if (!_pico_parse_float(p, &value)) _obj_mtl_error_return; /* set shader transparency */ PicoSetShaderTransparency(curShader, value); /* get shader's diffuse color */ diffuse = PicoGetShaderDiffuseColor(curShader); /* set diffuse alpha to transparency */ diffuse[3] = (picoByte_t) (value * 255.0); /* set shader's new diffuse color */ PicoSetShaderDiffuseColor(curShader, diffuse); } /* shininess (phong specular component) */ else if (!_pico_stricmp(p->token, "ns")) { /* remark: * - well, this is some major obj spec fuckup once again. some * apps store this in 0..1 range, others use 0..100 range, * even others use 0..2048 range, and again others use the * range 0..128, some even use 0..1000, 0..200, 400..700, * honestly, what's up with the 3d app coders? happens when * you smoke too much weed i guess. -sea */ float value; /* pointer to current shader must be valid */ if (curShader == NULL) _obj_mtl_error_return; /* get totally screwed up shininess (a random value in fact ;) */ if (!_pico_parse_float(p, &value)) _obj_mtl_error_return; /* okay, there is no way to set this correctly, so we simply */ /* try to guess a few ranges (most common ones i have seen) */ /* assume 0..2048 range */ if (value > 1000) value = 128.0 * (value / 2048.0); /* assume 0..1000 range */ else if (value > 200) value = 128.0 * (value / 1000.0); /* assume 0..200 range */ else if (value > 100) value = 128.0 * (value / 200.0); /* assume 0..100 range */ else if (value > 1) value = 128.0 * (value / 100.0); /* assume 0..1 range */ else { value *= 128.0; } /* negative shininess is bad (yes, i have seen it...) */ if (value < 0.0) value = 0.0; /* set the pico shininess value in range 0..127 */ /* geez, .obj is such a mess... */ PicoSetShaderShininess(curShader, value); } /* kol0r ambient (wut teh fuk does "ka" stand for?) */ else if (!_pico_stricmp(p->token, "ka")) { picoColor_t color; picoVec3_t v; /* pointer to current shader must be valid */ if (curShader == NULL) _obj_mtl_error_return; /* get color vector */ if (!_pico_parse_vec(p, v)) _obj_mtl_error_return; /* scale to byte range */ color[0] = (picoByte_t) (v[0] * 255); color[1] = (picoByte_t) (v[1] * 255); color[2] = (picoByte_t) (v[2] * 255); color[3] = (picoByte_t) (255); /* set ambient color */ PicoSetShaderAmbientColor(curShader, color); } /* kol0r diffuse */ else if (!_pico_stricmp(p->token, "kd")) { picoColor_t color; picoVec3_t v; /* pointer to current shader must be valid */ if (curShader == NULL) _obj_mtl_error_return; /* get color vector */ if (!_pico_parse_vec(p, v)) _obj_mtl_error_return; /* scale to byte range */ color[0] = (picoByte_t) (v[0] * 255); color[1] = (picoByte_t) (v[1] * 255); color[2] = (picoByte_t) (v[2] * 255); color[3] = (picoByte_t) (255); /* set diffuse color */ PicoSetShaderDiffuseColor(curShader, color); } /* kol0r specular */ else if (!_pico_stricmp(p->token, "ks")) { picoColor_t color; picoVec3_t v; /* pointer to current shader must be valid */ if (curShader == NULL) _obj_mtl_error_return; /* get color vector */ if (!_pico_parse_vec(p, v)) _obj_mtl_error_return; /* scale to byte range */ color[0] = (picoByte_t) (v[0] * 255); color[1] = (picoByte_t) (v[1] * 255); color[2] = (picoByte_t) (v[2] * 255); color[3] = (picoByte_t) (255); /* set specular color */ PicoSetShaderSpecularColor(curShader, color); } #endif /* skip rest of line */ _pico_parse_skip_rest(p); } /* free parser, file buffer, and file name */ _pico_free_parser(p); _pico_free_file(mtlBuffer); _pico_free(fileName); /* return with success */ return 1; }
/* _obj_load: * loads a wavefront obj model file. */ static picoModel_t *_obj_load( PM_PARAMS_LOAD ){ TObjVertexData *vertexData = NULL; picoModel_t *model; picoSurface_t *curSurface = NULL; picoParser_t *p; int allocated = 0; int entries; int numVerts = 0; int numNormals = 0; int numUVs = 0; int curVertex = 0; int curFace = 0; int autoGroupNumber = 0; char autoGroupNameBuf[64]; #define AUTO_GROUPNAME( namebuf ) \ sprintf( namebuf, "__autogroup_%d", autoGroupNumber++ ) #define NEW_SURFACE( name ) \ { \ picoSurface_t *newSurface; \ /* allocate a pico surface */ \ newSurface = PicoNewSurface( model ); \ if ( newSurface == NULL ) { \ _obj_error_return( "Error allocating surface" ); } \ /* reset face index for surface */ \ curFace = 0; \ curVertex = 0; \ /* if we can, assign the previous shader to this surface */ \ if ( curSurface ) { \ PicoSetSurfaceShader( newSurface, curSurface->shader ); } \ /* set ptr to current surface */ \ curSurface = newSurface; \ /* we use triangle meshes */ \ PicoSetSurfaceType( newSurface,PICO_TRIANGLES ); \ /* set surface name */ \ PicoSetSurfaceName( newSurface,name ); \ } /* helper */ #define _obj_error_return( m ) \ { \ _pico_printf( PICO_ERROR,"%s in OBJ, line %d.",m,p->curLine ); \ _pico_free_parser( p ); \ FreeObjVertexData( vertexData ); \ PicoFreeModel( model ); \ return NULL; \ } /* allocate a new pico parser */ p = _pico_new_parser( (const picoByte_t *)buffer,bufSize ); if ( p == NULL ) { return NULL; } /* create a new pico model */ model = PicoNewModel(); if ( model == NULL ) { _pico_free_parser( p ); return NULL; } /* do model setup */ PicoSetModelFrameNum( model,frameNum ); PicoSetModelName( model,fileName ); PicoSetModelFileName( model,fileName ); /* try loading the materials */ _obj_mtl_load( model ); /* parse obj line by line */ while ( 1 ) { /* get first token on line */ if ( _pico_parse_first( p ) == NULL ) { break; } /* skip empty lines */ if ( p->token == NULL || !strlen( p->token ) ) { continue; } /* skip comment lines */ if ( p->token[0] == '#' ) { _pico_parse_skip_rest( p ); continue; } /* vertex */ if ( !_pico_stricmp( p->token,"v" ) ) { TObjVertexData *data; picoVec3_t v; vertexData = SizeObjVertexData( vertexData,numVerts + 1,&entries,&allocated ); if ( vertexData == NULL ) { _obj_error_return( "Realloc of vertex data failed (1)" ); } data = &vertexData[ numVerts++ ]; /* get and copy vertex */ if ( !_pico_parse_vec( p,v ) ) { _obj_error_return( "Vertex parse error" ); } _pico_copy_vec( v,data->v ); #ifdef DEBUG_PM_OBJ_EX printf( "Vertex: x: %f y: %f z: %f\n",v[0],v[1],v[2] ); #endif } /* uv coord */ else if ( !_pico_stricmp( p->token,"vt" ) ) { TObjVertexData *data; picoVec2_t coord; vertexData = SizeObjVertexData( vertexData,numUVs + 1,&entries,&allocated ); if ( vertexData == NULL ) { _obj_error_return( "Realloc of vertex data failed (2)" ); } data = &vertexData[ numUVs++ ]; /* get and copy tex coord */ if ( !_pico_parse_vec2( p,coord ) ) { _obj_error_return( "UV coord parse error" ); } _pico_copy_vec2( coord,data->vt ); #ifdef DEBUG_PM_OBJ_EX printf( "TexCoord: u: %f v: %f\n",coord[0],coord[1] ); #endif } /* vertex normal */ else if ( !_pico_stricmp( p->token,"vn" ) ) { TObjVertexData *data; picoVec3_t n; vertexData = SizeObjVertexData( vertexData,numNormals + 1,&entries,&allocated ); if ( vertexData == NULL ) { _obj_error_return( "Realloc of vertex data failed (3)" ); } data = &vertexData[ numNormals++ ]; /* get and copy vertex normal */ if ( !_pico_parse_vec( p,n ) ) { _obj_error_return( "Vertex normal parse error" ); } _pico_copy_vec( n,data->vn ); #ifdef DEBUG_PM_OBJ_EX printf( "Normal: x: %f y: %f z: %f\n",n[0],n[1],n[2] ); #endif } /* new group (for us this means a new surface) */ else if ( !_pico_stricmp( p->token,"g" ) ) { char *groupName; /* get first group name (ignore 2nd,3rd,etc.) */ groupName = _pico_parse( p,0 ); if ( groupName == NULL || !strlen( groupName ) ) { /* some obj exporters feel like they don't need to */ /* supply a group name. so we gotta handle it here */ #if 1 strcpy( p->token,"default" ); groupName = p->token; #else _obj_error_return( "Invalid or missing group name" ); #endif } if ( curFace == 0 && curSurface != NULL ) { PicoSetSurfaceName( curSurface,groupName ); } else { NEW_SURFACE( groupName ); } #ifdef DEBUG_PM_OBJ_EX printf( "Group: '%s'\n",groupName ); #endif } /* face (oh jesus, hopefully this will do the job right ;) */ else if ( !_pico_stricmp( p->token,"f" ) ) { /* okay, this is a mess. some 3d apps seem to try being unique, */ /* hello cinema4d & 3d exploration, feel good today?, and save */ /* this crap in tons of different formats. gah, those screwed */ /* coders. tho the wavefront obj standard defines exactly two */ /* ways of storing face information. so, i really won't support */ /* such stupid extravaganza here! */ const int numPointsMax = 128; picoVec3_t verts [ numPointsMax ]; picoVec3_t normals[ numPointsMax ]; picoVec2_t coords [ numPointsMax ]; int iv [ numPointsMax ], has_v; int ivt[ numPointsMax ], has_vt = 0; int ivn[ numPointsMax ], has_vn = 0; int slashcount = 0; int doubleslash = 0; int i; if ( curSurface == NULL ) { _pico_printf( PICO_WARNING,"No group defined for faces, so creating an autoSurface in OBJ, line %d.",p->curLine ); AUTO_GROUPNAME( autoGroupNameBuf ); NEW_SURFACE( autoGroupNameBuf ); } /* group defs *must* come before faces */ if ( curSurface == NULL ) { _obj_error_return( "No group defined for faces" ); } #ifdef DEBUG_PM_OBJ_EX printf( "Face: " ); #endif /* read vertex/uv/normal indices for the first three face */ /* vertices (cause we only support triangles) into 'i*[]' */ /* store the actual vertex/uv/normal data in three arrays */ /* called 'verts','coords' and 'normals'. */ for ( i = 0; i < numPointsMax; i++ ) { char *str; /* get next vertex index string (different */ /* formats are handled below) */ str = _pico_parse( p,0 ); if ( str == NULL ) { /* got nuff points */ if ( i >= 3 ) { break; } /* error otherwise */ _obj_error_return( "Face parse error" ); } /* get slash count once */ if ( i == 0 ) { slashcount = _pico_strchcount( str,'/' ); doubleslash = strstr( str,"//" ) != NULL; } /* handle format 'v//vn' */ if ( doubleslash && ( slashcount == 2 ) ) { has_v = has_vn = 1; sscanf( str,"%d//%d",&iv[ i ],&ivn[ i ] ); } /* handle format 'v/vt/vn' */ else if ( !doubleslash && ( slashcount == 2 ) ) { has_v = has_vt = has_vn = 1; sscanf( str,"%d/%d/%d",&iv[ i ],&ivt[ i ],&ivn[ i ] ); } /* handle format 'v/vt' (non-standard fuckage) */ else if ( !doubleslash && ( slashcount == 1 ) ) { has_v = has_vt = 1; sscanf( str,"%d/%d",&iv[ i ],&ivt[ i ] ); } /* else assume face format 'v' */ /* (must have been invented by some bored granny) */ else { /* get single vertex index */ has_v = 1; iv[ i ] = atoi( str ); /* either invalid face format or out of range */ if ( iv[ i ] == 0 ) { _obj_error_return( "Invalid face format" ); } } /* fix useless back references */ /* assign new indices */ if ( iv [ i ] < 0 ) { iv [ i ] = ( numVerts + iv [ i ] + 1 ); } if ( ivt[ i ] < 0 ) { ivt[ i ] = ( numUVs + ivt[ i ] + 1 ); } if ( ivn[ i ] < 0 ) { ivn[ i ] = ( numNormals + ivn[ i ] + 1 ); } /* validate indices */ /* - commented out. index range checks will trigger if (iv [ i ] < 1) iv [ i ] = 1; if (ivt[ i ] < 1) ivt[ i ] = 1; if (ivn[ i ] < 1) ivn[ i ] = 1; */ /* set vertex origin */ if ( has_v ) { /* check vertex index range */ if ( iv[ i ] < 1 || iv[ i ] > numVerts ) { _obj_error_return( "Vertex index out of range" ); } /* get vertex data */ verts[ i ][ 0 ] = vertexData[ iv[ i ] - 1 ].v[ 0 ]; verts[ i ][ 1 ] = -vertexData[ iv[ i ] - 1 ].v[ 2 ]; verts[ i ][ 2 ] = vertexData[ iv[ i ] - 1 ].v[ 1 ]; } /* set vertex normal */ if ( has_vn ) { /* check normal index range */ if ( ivn[ i ] < 1 || ivn[ i ] > numNormals ) { _obj_error_return( "Normal index out of range" ); } /* get normal data */ normals[ i ][ 0 ] = vertexData[ ivn[ i ] - 1 ].vn[ 0 ]; normals[ i ][ 1 ] = -vertexData[ ivn[ i ] - 1 ].vn[ 2 ]; normals[ i ][ 2 ] = vertexData[ ivn[ i ] - 1 ].vn[ 1 ]; } /* set texture coordinate */ if ( has_vt ) { /* check uv index range */ if ( ivt[ i ] < 1 || ivt[ i ] > numUVs ) { _obj_error_return( "UV coord index out of range" ); } /* get uv coord data */ coords[ i ][ 0 ] = vertexData[ ivt[ i ] - 1 ].vt[ 0 ]; coords[ i ][ 1 ] = -vertexData[ ivt[ i ] - 1 ].vt[ 1 ]; } #ifdef DEBUG_PM_OBJ_EX printf( "(%4d",iv[ i ] ); if ( has_vt ) { printf( " %4d",ivt[ i ] ); } if ( has_vn ) { printf( " %4d",ivn[ i ] ); } printf( ") " ); #endif } #ifdef DEBUG_PM_OBJ_EX printf( "\n" ); #endif /* now that we have extracted all the indices and have */ /* read the actual data we need to assign all the crap */ /* to our current pico surface */ if ( has_v ) { const int numPoints = i; /* assign all surface information */ for ( i = 0; i < numPoints; i++ ) { /*if( has_v )*/ PicoSetSurfaceXYZ( curSurface, ( curVertex + i ), verts [ i ] ); /*if( has_vt )*/ PicoSetSurfaceST( curSurface, 0, ( curVertex + i ), coords [ i ] ); /*if( has_vn )*/ PicoSetSurfaceNormal( curSurface, ( curVertex + i ), normals[ i ] ); if( curSurface && curSurface->shader ) PicoSetSurfaceColor( curSurface, 0, ( curVertex + i ), curSurface->shader->diffuseColor ); } /* add triangles */ for ( i = 1; i < numPoints - 1; ++i ) { PicoSetSurfaceIndex( curSurface,( curFace * 3 + 2 ),(picoIndex_t)( curVertex + 0 ) ); PicoSetSurfaceIndex( curSurface,( curFace * 3 + 1 ),(picoIndex_t)( curVertex + i ) ); PicoSetSurfaceIndex( curSurface,( curFace * 3 + 0 ),(picoIndex_t)( curVertex + i + 1 ) ); curFace++; } /* increase vertex count */ curVertex += numPoints; } } else if ( !_pico_stricmp( p->token,"usemtl" ) ) { picoShader_t *shader; char *name; /* get material name */ name = _pico_parse( p,0 ); if ( curFace != 0 || curSurface == NULL ) { _pico_printf( PICO_WARNING,"No group defined for usemtl, so creating an autoSurface in OBJ, line %d.",p->curLine ); AUTO_GROUPNAME( autoGroupNameBuf ); NEW_SURFACE( autoGroupNameBuf ); } /* validate material name */ if ( name == NULL || !strlen( name ) ) { _pico_printf( PICO_ERROR,"Missing material name in OBJ, line %d.",p->curLine ); } else { shader = PicoFindShader( model, name, 1 ); if ( shader == NULL ) { _pico_printf( PICO_WARNING, "Undefined material name \"%s\" in OBJ, line %d. Making a default shader.", name, p->curLine ); /* create a new pico shader */ shader = PicoNewShader( model ); if ( shader != NULL ) { PicoSetShaderName( shader,name ); PicoSetShaderMapName( shader,name ); PicoSetSurfaceShader( curSurface, shader ); } } else { PicoSetSurfaceShader( curSurface, shader ); } } } /* skip unparsed rest of line and continue */ _pico_parse_skip_rest( p ); } /* free memory used by temporary vertexdata */ FreeObjVertexData( vertexData ); /* return allocated pico model */ return model; // return NULL; }