REVIEWED: ProcessMaterialsOBJ() available when required
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Ray
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78ae3b38a6
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1 changed files with 13 additions and 11 deletions
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@ -166,6 +166,9 @@ static Model LoadVOX(const char *filename); // Load VOX mesh data
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static Model LoadM3D(const char *filename); // Load M3D mesh data
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static ModelAnimation *LoadModelAnimationsM3D(const char *fileName, unsigned int *animCount); // Load M3D animation data
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#endif
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#if defined(SUPPORT_FILEFORMAT_OBJ) || defined(SUPPORT_FILEFORMAT_MTL)
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static void ProcessMaterialsOBJ(Material *rayMaterials, tinyobj_material_t *materials, int materialCount); // Process obj materials
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#endif
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//----------------------------------------------------------------------------------
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// Module Functions Definition
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@ -1862,10 +1865,9 @@ bool ExportMesh(Mesh mesh, const char *fileName)
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return success;
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}
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#if defined(SUPPORT_FILEFORMAT_MTL)
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#if defined(SUPPORT_FILEFORMAT_OBJ) || defined(SUPPORT_FILEFORMAT_MTL)
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// Process obj materials
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static void ProcessOBJMaterials(Material* rayMaterials, tinyobj_material_t* materials, int materialCount)
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static void ProcessMaterialsOBJ(Material *rayMaterials, tinyobj_material_t *materials, int materialCount)
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{
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// Init model materials
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for (unsigned int m = 0; m < materialCount; m++)
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@ -1880,18 +1882,18 @@ static void ProcessOBJMaterials(Material* rayMaterials, tinyobj_material_t* mate
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if (materials[m].diffuse_texname != NULL) rayMaterials[m].maps[MATERIAL_MAP_DIFFUSE].texture = LoadTexture(materials[m].diffuse_texname); //char *diffuse_texname; // map_Kd
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rayMaterials[m].maps[MATERIAL_MAP_DIFFUSE].color = (Color){ (unsigned char)(materials[m].diffuse[0] * 255.0f), (unsigned char)(materials[m].diffuse[1] * 255.0f), (unsigned char)(materials[m].diffuse[2] * 255.0f), 255 }; //float diffuse[3];
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rayMaterials[m].maps[MATERIAL_MAP_DIFFUSE].color = (Color){ (unsigned char)(materials[m].diffuse[0]*255.0f), (unsigned char)(materials[m].diffuse[1]*255.0f), (unsigned char)(materials[m].diffuse[2] * 255.0f), 255 }; //float diffuse[3];
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rayMaterials[m].maps[MATERIAL_MAP_DIFFUSE].value = 0.0f;
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if (materials[m].specular_texname != NULL) rayMaterials[m].maps[MATERIAL_MAP_SPECULAR].texture = LoadTexture(materials[m].specular_texname); //char *specular_texname; // map_Ks
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rayMaterials[m].maps[MATERIAL_MAP_SPECULAR].color = (Color){ (unsigned char)(materials[m].specular[0] * 255.0f), (unsigned char)(materials[m].specular[1] * 255.0f), (unsigned char)(materials[m].specular[2] * 255.0f), 255 }; //float specular[3];
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rayMaterials[m].maps[MATERIAL_MAP_SPECULAR].color = (Color){ (unsigned char)(materials[m].specular[0]*255.0f), (unsigned char)(materials[m].specular[1]*255.0f), (unsigned char)(materials[m].specular[2] * 255.0f), 255 }; //float specular[3];
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rayMaterials[m].maps[MATERIAL_MAP_SPECULAR].value = 0.0f;
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if (materials[m].bump_texname != NULL) rayMaterials[m].maps[MATERIAL_MAP_NORMAL].texture = LoadTexture(materials[m].bump_texname); //char *bump_texname; // map_bump, bump
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rayMaterials[m].maps[MATERIAL_MAP_NORMAL].color = WHITE;
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rayMaterials[m].maps[MATERIAL_MAP_NORMAL].value = materials[m].shininess;
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rayMaterials[m].maps[MATERIAL_MAP_EMISSION].color = (Color){ (unsigned char)(materials[m].emission[0] * 255.0f), (unsigned char)(materials[m].emission[1] * 255.0f), (unsigned char)(materials[m].emission[2] * 255.0f), 255 }; //float emission[3];
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rayMaterials[m].maps[MATERIAL_MAP_EMISSION].color = (Color){ (unsigned char)(materials[m].emission[0]*255.0f), (unsigned char)(materials[m].emission[1]*255.0f), (unsigned char)(materials[m].emission[2] * 255.0f), 255 }; //float emission[3];
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if (materials[m].displacement_texname != NULL) rayMaterials[m].maps[MATERIAL_MAP_HEIGHT].texture = LoadTexture(materials[m].displacement_texname); //char *displacement_texname; // disp
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}
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@ -1914,8 +1916,8 @@ Material *LoadMaterials(const char *fileName, int *materialCount)
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int result = tinyobj_parse_mtl_file(&mats, &count, fileName);
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if (result != TINYOBJ_SUCCESS) TRACELOG(LOG_WARNING, "MATERIAL: [%s] Failed to parse materials file", fileName);
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materials = MemAlloc(sizeof(Material) * count);
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ProcessOBJMaterials(materials, mats, count);
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materials = MemAlloc(count*sizeof(Material));
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ProcessMaterialsOBJ(materials, mats, count);
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tinyobj_materials_free(mats, count);
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}
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@ -3951,7 +3953,7 @@ static Model LoadOBJ(const char *fileName)
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// Count the faces for each material
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int *matFaces = RL_CALLOC(model.meshCount, sizeof(int));
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// iff no materials are present use all faces on one mesh
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// if no materials are present use all faces on one mesh
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if (materialCount > 0)
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{
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for (unsigned int fi = 0; fi < attrib.num_faces; fi++)
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@ -4027,7 +4029,7 @@ static Model LoadOBJ(const char *fileName)
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}
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// Init model materials
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ProcessOBJMaterials(model.materials, materials, materialCount);
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ProcessMaterialsOBJ(model.materials, materials, materialCount);
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tinyobj_attrib_free(&attrib);
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tinyobj_shapes_free(meshes, meshCount);
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