diff options
Diffstat (limited to 'src/resources/obj.c')
| -rw-r--r-- | src/resources/obj.c | 595 |
1 files changed, 301 insertions, 294 deletions
diff --git a/src/resources/obj.c b/src/resources/obj.c index ea73ffa..888e16e 100644 --- a/src/resources/obj.c +++ b/src/resources/obj.c @@ -18,7 +18,7 @@ #include "mem.h" #include "path.h" #include "render.h" -#include "render_backend.h" +// #include "render_backend.h" #include "render_types.h" #include "str.h" @@ -55,7 +55,7 @@ model_handle model_load_obj(core *core, const char *path, bool invert_textures_y model model = { 0 }; model.name = str8_cstr_view(path); model.meshes = mesh_darray_new(1); - model.materials = material_darray_new(1); + // model.materials = material_darray_new(1); bool success = model_load_obj_str(file_string, relative_path.path, &model, invert_textures_y); @@ -76,151 +76,157 @@ bool model_load_obj_str(const char *file_string, str8 relative_path, model *out_ bool invert_textures_y) { TRACE("Load OBJ from string"); - // Setup temps - vec3_darray *tmp_positions = vec3_darray_new(1000); - vec3_darray *tmp_normals = vec3_darray_new(1000); - vec2_darray *tmp_uvs = vec2_darray_new(1000); - face_darray *tmp_faces = face_darray_new(1000); - // TODO: In the future I'd like these temporary arrays to be allocated from an arena provided - // by the function one level up, model_load_obj. That way we can just `return false;` anywhere in - // this code to indicate an error, and be sure that all that memory will be cleaned up without - // having to call vec3_darray_free in every single error case before returning. - - // Other state - bool object_set = false; - bool material_loaded = false; - char current_material_name[64]; - - char *pch; - char *rest = file_string; - pch = strtok_r((char *)file_string, "\n", &rest); - - int line_num = 0; - char last_char_type = 'a'; - - while (pch != NULL) { - line_num++; - char line_header[128]; - int offset = 0; - - // skip whitespace - char *p = pch; - - skip_space(pch); - - if (*p == '\0') { - /* the string is empty */ - } else { - // read the first word of the line - int res = sscanf(pch, "%s %n", line_header, &offset); - /* printf("header: %s, offset : %d res: %d\n",line_header, offset, res); */ - if (res != 1) { - break; - } - - if (strcmp(line_header, "o") == 0 || strcmp(line_header, "g") == 0) { - // if we're currently parsing one - if (!object_set) { - object_set = true; - } else { - create_submesh(out_model->meshes, tmp_positions, tmp_normals, tmp_uvs, tmp_faces, - out_model->materials, material_loaded, current_material_name); - object_set = false; - } - } else if (strcmp(line_header, "v") == 0) { - // special logic: if we went from faces back to vertices trigger a mesh output. - // PS: I hate OBJ - if (last_char_type == 'f') { - create_submesh(out_model->meshes, tmp_positions, tmp_normals, tmp_uvs, tmp_faces, - out_model->materials, material_loaded, current_material_name); - object_set = false; - } - - last_char_type = 'v'; - vec3 vertex; - sscanf(pch + offset, "%f %f %f", &vertex.x, &vertex.y, &vertex.z); - - vec3_darray_push(tmp_positions, vertex); - } else if (strcmp(line_header, "vt") == 0) { - last_char_type = 't'; - vec2 uv; - char copy[1024]; - memcpy(copy, pch + offset, strlen(pch + offset) + 1); - char *p = pch + offset; - while (isspace((unsigned char)*p)) ++p; - - // I can't remember what is going on here - memset(copy, 0, 1024); - memcpy(copy, pch + offset, strlen(pch + offset) + 1); - int res = sscanf(copy, "%f %f", &uv.x, &uv.y); - memset(copy, 0, 1024); - memcpy(copy, pch + offset, strlen(pch + offset) + 1); - if (res != 1) { - // da frick? some .obj files have 3 uvs instead of 2 - f32 dummy; - int res2 = sscanf(copy, "%f %f %f", &uv.x, &uv.y, &dummy); - } - - if (invert_textures_y) { - uv.y = -uv.y; // flip Y axis to be consistent with how other PNGs are being handled - // `texture_load` will flip it again - } - vec2_darray_push(tmp_uvs, uv); - } else if (strcmp(line_header, "vn") == 0) { - last_char_type = 'n'; - vec3 normal; - sscanf(pch + offset, "%f %f %f", &normal.x, &normal.y, &normal.z); - vec3_darray_push(tmp_normals, normal); - } else if (strcmp(line_header, "f") == 0) { - last_char_type = 'f'; - struct face f; - sscanf(pch + offset, "%d/%d/%d %d/%d/%d %d/%d/%d", &f.vertex_indices[0], &f.uv_indices[0], - &f.normal_indices[0], &f.vertex_indices[1], &f.uv_indices[1], &f.normal_indices[1], - &f.vertex_indices[2], &f.uv_indices[2], &f.normal_indices[2]); - // printf("f %d/%d/%d %d/%d/%d %d/%d/%d\n", f.vertex_indices[0], f.uv_indices[0], - // f.normal_indices[0], - // f.vertex_indices[1], f.uv_indices[1], f.normal_indices[1], - // f.vertex_indices[2], f.uv_indices[2], f.normal_indices[2]); - face_darray_push(tmp_faces, f); - } else if (strcmp(line_header, "mtllib") == 0) { - char filename[1024]; - sscanf(pch + offset, "%s", filename); - char mtllib_path[1024]; - snprintf(mtllib_path, sizeof(mtllib_path), "%s/%s", relative_path.buf, filename); - if (!load_material_lib(mtllib_path, relative_path, out_model->materials)) { - ERROR("couldnt load material lib"); - return false; - } - } else if (strcmp(line_header, "usemtl") == 0) { - material_loaded = true; - sscanf(pch + offset, "%s", current_material_name); - } - } - - pch = strtok_r(NULL, "\n", &rest); - } - - // last mesh or if one wasnt created with 'o' directive - if (face_darray_len(tmp_faces) > 0) { - TRACE("Last leftover mesh"); - create_submesh(out_model->meshes, tmp_positions, tmp_normals, tmp_uvs, tmp_faces, - out_model->materials, material_loaded, current_material_name); - } - - // Free data - free((char *)file_string); - vec3_darray_free(tmp_positions); - vec3_darray_free(tmp_normals); - vec2_darray_free(tmp_uvs); - face_darray_free(tmp_faces); - TRACE("Freed temporary OBJ loading data"); - - if (mesh_darray_len(out_model->meshes) > 256) { - printf("num meshes: %ld\n", mesh_darray_len(out_model->meshes)); - } - - // TODO: bounding box calculation for each mesh - // TODO: bounding box calculation for model + // // Setup temps + // vec3_darray *tmp_positions = vec3_darray_new(1000); + // vec3_darray *tmp_normals = vec3_darray_new(1000); + // vec2_darray *tmp_uvs = vec2_darray_new(1000); + // face_darray *tmp_faces = face_darray_new(1000); + // // TODO: In the future I'd like these temporary arrays to be allocated from an arena provided + // // by the function one level up, model_load_obj. That way we can just `return false;` anywhere + // in + // // this code to indicate an error, and be sure that all that memory will be cleaned up without + // // having to call vec3_darray_free in every single error case before returning. + + // // Other state + // bool object_set = false; + // bool material_loaded = false; + // char current_material_name[64]; + + // char *pch; + // char *rest = file_string; + // pch = strtok_r((char *)file_string, "\n", &rest); + + // int line_num = 0; + // char last_char_type = 'a'; + + // while (pch != NULL) { + // line_num++; + // char line_header[128]; + // int offset = 0; + + // // skip whitespace + // char *p = pch; + + // skip_space(pch); + + // if (*p == '\0') { + // /* the string is empty */ + // } else { + // // read the first word of the line + // int res = sscanf(pch, "%s %n", line_header, &offset); + // /* printf("header: %s, offset : %d res: %d\n",line_header, offset, res); */ + // if (res != 1) { + // break; + // } + + // if (strcmp(line_header, "o") == 0 || strcmp(line_header, "g") == 0) { + // // if we're currently parsing one + // if (!object_set) { + // object_set = true; + // } else { + // create_submesh(out_model->meshes, tmp_positions, tmp_normals, tmp_uvs, tmp_faces, + // NULL, // out_model->materials, + // material_loaded, current_material_name); + // object_set = false; + // } + // } else if (strcmp(line_header, "v") == 0) { + // // special logic: if we went from faces back to vertices trigger a mesh output. + // // PS: I hate OBJ + // if (last_char_type == 'f') { + // create_submesh(out_model->meshes, tmp_positions, tmp_normals, tmp_uvs, tmp_faces, + // NULL, // FIXME: out_model->materials, + // material_loaded, current_material_name); + // object_set = false; + // } + + // last_char_type = 'v'; + // vec3 vertex; + // sscanf(pch + offset, "%f %f %f", &vertex.x, &vertex.y, &vertex.z); + + // vec3_darray_push(tmp_positions, vertex); + // } else if (strcmp(line_header, "vt") == 0) { + // last_char_type = 't'; + // vec2 uv; + // char copy[1024]; + // memcpy(copy, pch + offset, strlen(pch + offset) + 1); + // char *p = pch + offset; + // while (isspace((unsigned char)*p)) ++p; + + // // I can't remember what is going on here + // memset(copy, 0, 1024); + // memcpy(copy, pch + offset, strlen(pch + offset) + 1); + // int res = sscanf(copy, "%f %f", &uv.x, &uv.y); + // memset(copy, 0, 1024); + // memcpy(copy, pch + offset, strlen(pch + offset) + 1); + // if (res != 1) { + // // da frick? some .obj files have 3 uvs instead of 2 + // f32 dummy; + // int res2 = sscanf(copy, "%f %f %f", &uv.x, &uv.y, &dummy); + // } + + // if (invert_textures_y) { + // uv.y = -uv.y; // flip Y axis to be consistent with how other PNGs are being handled + // // `texture_load` will flip it again + // } + // vec2_darray_push(tmp_uvs, uv); + // } else if (strcmp(line_header, "vn") == 0) { + // last_char_type = 'n'; + // vec3 normal; + // sscanf(pch + offset, "%f %f %f", &normal.x, &normal.y, &normal.z); + // vec3_darray_push(tmp_normals, normal); + // } else if (strcmp(line_header, "f") == 0) { + // last_char_type = 'f'; + // struct face f; + // sscanf(pch + offset, "%d/%d/%d %d/%d/%d %d/%d/%d", &f.vertex_indices[0], + // &f.uv_indices[0], + // &f.normal_indices[0], &f.vertex_indices[1], &f.uv_indices[1], + // &f.normal_indices[1], &f.vertex_indices[2], &f.uv_indices[2], + // &f.normal_indices[2]); + // // printf("f %d/%d/%d %d/%d/%d %d/%d/%d\n", f.vertex_indices[0], f.uv_indices[0], + // // f.normal_indices[0], + // // f.vertex_indices[1], f.uv_indices[1], f.normal_indices[1], + // // f.vertex_indices[2], f.uv_indices[2], f.normal_indices[2]); + // face_darray_push(tmp_faces, f); + // } else if (strcmp(line_header, "mtllib") == 0) { + // char filename[1024]; + // sscanf(pch + offset, "%s", filename); + // char mtllib_path[1024]; + // snprintf(mtllib_path, sizeof(mtllib_path), "%s/%s", relative_path.buf, filename); + // if (!load_material_lib(mtllib_path, relative_path, out_model->materials)) { + // ERROR("couldnt load material lib"); + // return false; + // } + // } else if (strcmp(line_header, "usemtl") == 0) { + // material_loaded = true; + // sscanf(pch + offset, "%s", current_material_name); + // } + // } + + // pch = strtok_r(NULL, "\n", &rest); + // } + + // // last mesh or if one wasnt created with 'o' directive + // if (face_darray_len(tmp_faces) > 0) { + // TRACE("Last leftover mesh"); + // create_submesh(out_model->meshes, tmp_positions, tmp_normals, tmp_uvs, tmp_faces, + // NULL, // TODO: out_model->materials, + // material_loaded, current_material_name); + // } + + // // Free data + // free((char *)file_string); + // vec3_darray_free(tmp_positions); + // vec3_darray_free(tmp_normals); + // vec2_darray_free(tmp_uvs); + // face_darray_free(tmp_faces); + // TRACE("Freed temporary OBJ loading data"); + + // if (mesh_darray_len(out_model->meshes) > 256) { + // printf("num meshes: %ld\n", mesh_darray_len(out_model->meshes)); + // } + + // // TODO: bounding box calculation for each mesh + // // TODO: bounding box calculation for model return true; } @@ -232,158 +238,159 @@ bool model_load_obj_str(const char *file_string, str8 relative_path, model *out_ void create_submesh(mesh_darray *meshes, vec3_darray *tmp_positions, vec3_darray *tmp_normals, vec2_darray *tmp_uvs, face_darray *tmp_faces, material_darray *materials, bool material_loaded, char current_material_name[256]) { - size_t num_verts = face_darray_len(tmp_faces) * 3; - vertex_darray *out_vertices = vertex_darray_new(num_verts); - - face_darray_iter face_iter = face_darray_iter_new(tmp_faces); - struct face *f; - - while ((f = face_darray_iter_next(&face_iter))) { - for (int j = 0; j < 3; j++) { - vertex vert = { 0 }; - vert.position = tmp_positions->data[f->vertex_indices[j] - 1]; - if (vec3_darray_len(tmp_normals) == 0) { - vert.normal = vec3_create(0.0, 0.0, 0.0); - } else { - vert.normal = tmp_normals->data[f->normal_indices[j] - 1]; - } - vert.uv = tmp_uvs->data[f->uv_indices[j] - 1]; - vertex_darray_push(out_vertices, vert); - } - } - - DEBUG("Loaded submesh\n vertices: %zu\n uvs: %zu\n normals: %zu\n faces: %zu", - vec3_darray_len(tmp_positions), vec2_darray_len(tmp_uvs), vec3_darray_len(tmp_normals), - face_darray_len(tmp_faces)); - - // Clear current object faces - face_darray_clear(tmp_faces); - - mesh m = { .vertices = out_vertices }; - if (material_loaded) { - // linear scan to find material - bool found = false; - DEBUG("Num of materials : %ld", material_darray_len(materials)); - material_darray_iter mat_iter = material_darray_iter_new(materials); - blinn_phong_material *cur_material; - while ((cur_material = material_darray_iter_next(&mat_iter))) { - if (strcmp(cur_material->name, current_material_name) == 0) { - DEBUG("Found match"); - m.material_index = mat_iter.current_idx - 1; - found = true; - break; - } - } - - if (!found) { - // TODO: default material - m.material_index = 0; - DEBUG("Set default material"); - } - } - mesh_darray_push(meshes, m); + // size_t num_verts = face_darray_len(tmp_faces) * 3; + // vertex_darray *out_vertices = vertex_darray_new(num_verts); + + // face_darray_iter face_iter = face_darray_iter_new(tmp_faces); + // struct face *f; + + // while ((f = face_darray_iter_next(&face_iter))) { + // for (int j = 0; j < 3; j++) { + // vertex vert = { 0 }; + // vert.position = tmp_positions->data[f->vertex_indices[j] - 1]; + // if (vec3_darray_len(tmp_normals) == 0) { + // vert.normal = vec3_create(0.0, 0.0, 0.0); + // } else { + // vert.normal = tmp_normals->data[f->normal_indices[j] - 1]; + // } + // vert.uv = tmp_uvs->data[f->uv_indices[j] - 1]; + // vertex_darray_push(out_vertices, vert); + // } + // } + + // DEBUG("Loaded submesh\n vertices: %zu\n uvs: %zu\n normals: %zu\n faces: %zu", + // vec3_darray_len(tmp_positions), vec2_darray_len(tmp_uvs), vec3_darray_len(tmp_normals), + // face_darray_len(tmp_faces)); + + // // Clear current object faces + // face_darray_clear(tmp_faces); + + // mesh m = { .vertices = out_vertices }; + // if (material_loaded) { + // // linear scan to find material + // bool found = false; + // DEBUG("Num of materials : %ld", material_darray_len(materials)); + // material_darray_iter mat_iter = material_darray_iter_new(materials); + // blinn_phong_material *cur_material; + // while ((cur_material = material_darray_iter_next(&mat_iter))) { + // if (strcmp(cur_material->name, current_material_name) == 0) { + // DEBUG("Found match"); + // m.material_index = mat_iter.current_idx - 1; + // found = true; + // break; + // } + // } + + // if (!found) { + // // TODO: default material + // m.material_index = 0; + // DEBUG("Set default material"); + // } + // } + // mesh_darray_push(meshes, m); } bool load_material_lib(const char *path, str8 relative_path, material_darray *materials) { TRACE("BEGIN load material lib at %s", path); - const char *file_string = string_from_file(path); - if (file_string == NULL) { - ERROR("couldnt load %s", path); - return false; - } - - char *pch; - char *saveptr; - pch = strtok_r((char *)file_string, "\n", &saveptr); - - material current_material = DEFAULT_MATERIAL; - - bool material_set = false; - - while (pch != NULL) { - char line_header[128]; - int offset = 0; - // read the first word of the line - int res = sscanf(pch, "%s %n", line_header, &offset); - if (res != 1) { - break; - } - - // When we see "newmtl", start a new material, or flush the previous one - if (strcmp(line_header, "newmtl") == 0) { - if (material_set) { - // a material was being parsed, so flush that one and start a new one - material_darray_push(materials, current_material); - DEBUG("pushed material with name %s", current_material.name); - WARN("Reset current material"); - current_material = DEFAULT_MATERIAL; - } else { - material_set = true; - } - // scan the new material name - char material_name[64]; - sscanf(pch + offset, "%s", current_material.name); - DEBUG("material name %s\n", current_material.name); - // current_material.name = material_name; - } else if (strcmp(line_header, "Ka") == 0) { - // ambient - sscanf(pch + offset, "%f %f %f", ¤t_material.ambient_colour.x, - ¤t_material.ambient_colour.y, ¤t_material.ambient_colour.z); - } else if (strcmp(line_header, "Kd") == 0) { - // diffuse - sscanf(pch + offset, "%f %f %f", ¤t_material.diffuse.x, ¤t_material.diffuse.y, - ¤t_material.diffuse.z); - } else if (strcmp(line_header, "Ks") == 0) { - // specular - sscanf(pch + offset, "%f %f %f", ¤t_material.specular.x, ¤t_material.specular.y, - ¤t_material.specular.z); - } else if (strcmp(line_header, "Ns") == 0) { - // specular exponent - sscanf(pch + offset, "%f", ¤t_material.spec_exponent); - } else if (strcmp(line_header, "map_Kd") == 0) { - char diffuse_map_filename[1024]; - sscanf(pch + offset, "%s", diffuse_map_filename); - char diffuse_map_path[1024]; - snprintf(diffuse_map_path, sizeof(diffuse_map_path), "%s/%s", relative_path.buf, - diffuse_map_filename); - printf("load from %s\n", diffuse_map_path); - - // -------------- - texture diffuse_texture = texture_data_load(diffuse_map_path, true); - current_material.diffuse_texture = diffuse_texture; - strcpy(current_material.diffuse_tex_path, diffuse_map_path); - texture_data_upload(¤t_material.diffuse_texture); - // -------------- - } else if (strcmp(line_header, "map_Ks") == 0) { - // char specular_map_path[1024] = "assets/"; - // sscanf(pch + offset, "%s", specular_map_path + 7); - char specular_map_filename[1024]; - sscanf(pch + offset, "%s", specular_map_filename); - char specular_map_path[1024]; - snprintf(specular_map_path, sizeof(specular_map_path), "%s/%s", relative_path.buf, - specular_map_filename); - printf("load from %s\n", specular_map_path); - // -------------- - texture specular_texture = texture_data_load(specular_map_path, true); - current_material.specular_texture = specular_texture; - strcpy(current_material.specular_tex_path, specular_map_path); - texture_data_upload(¤t_material.specular_texture); - // -------------- - } else if (strcmp(line_header, "map_Bump") == 0) { - // TODO - } - - pch = strtok_r(NULL, "\n", &saveptr); - } - - TRACE("end load material lib"); - - // last mesh or if one wasnt created with 'o' directive - // TRACE("Last leftover material"); - material_darray_push(materials, current_material); - - INFO("Loaded %ld materials", material_darray_len(materials)); + // const char *file_string = string_from_file(path); + // if (file_string == NULL) { + // ERROR("couldnt load %s", path); + // return false; + // } + + // char *pch; + // char *saveptr; + // pch = strtok_r((char *)file_string, "\n", &saveptr); + + // material current_material = DEFAULT_MATERIAL; + + // bool material_set = false; + + // while (pch != NULL) { + // char line_header[128]; + // int offset = 0; + // // read the first word of the line + // int res = sscanf(pch, "%s %n", line_header, &offset); + // if (res != 1) { + // break; + // } + + // // When we see "newmtl", start a new material, or flush the previous one + // if (strcmp(line_header, "newmtl") == 0) { + // if (material_set) { + // // a material was being parsed, so flush that one and start a new one + // material_darray_push(materials, current_material); + // DEBUG("pushed material with name %s", current_material.name); + // WARN("Reset current material"); + // current_material = DEFAULT_MATERIAL; + // } else { + // material_set = true; + // } + // // scan the new material name + // char material_name[64]; + // sscanf(pch + offset, "%s", current_material.name); + // DEBUG("material name %s\n", current_material.name); + // // current_material.name = material_name; + // } else if (strcmp(line_header, "Ka") == 0) { + // // ambient + // sscanf(pch + offset, "%f %f %f", ¤t_material.ambient_colour.x, + // ¤t_material.ambient_colour.y, ¤t_material.ambient_colour.z); + // } else if (strcmp(line_header, "Kd") == 0) { + // // diffuse + // sscanf(pch + offset, "%f %f %f", ¤t_material.diffuse.x, ¤t_material.diffuse.y, + // ¤t_material.diffuse.z); + // } else if (strcmp(line_header, "Ks") == 0) { + // // specular + // sscanf(pch + offset, "%f %f %f", ¤t_material.specular.x, + // ¤t_material.specular.y, + // ¤t_material.specular.z); + // } else if (strcmp(line_header, "Ns") == 0) { + // // specular exponent + // sscanf(pch + offset, "%f", ¤t_material.spec_exponent); + // } else if (strcmp(line_header, "map_Kd") == 0) { + // char diffuse_map_filename[1024]; + // sscanf(pch + offset, "%s", diffuse_map_filename); + // char diffuse_map_path[1024]; + // snprintf(diffuse_map_path, sizeof(diffuse_map_path), "%s/%s", relative_path.buf, + // diffuse_map_filename); + // printf("load from %s\n", diffuse_map_path); + + // // -------------- + // texture diffuse_texture = texture_data_load(diffuse_map_path, true); + // current_material.diffuse_texture = diffuse_texture; + // strcpy(current_material.diffuse_tex_path, diffuse_map_path); + // texture_data_upload(¤t_material.diffuse_texture); + // // -------------- + // } else if (strcmp(line_header, "map_Ks") == 0) { + // // char specular_map_path[1024] = "assets/"; + // // sscanf(pch + offset, "%s", specular_map_path + 7); + // char specular_map_filename[1024]; + // sscanf(pch + offset, "%s", specular_map_filename); + // char specular_map_path[1024]; + // snprintf(specular_map_path, sizeof(specular_map_path), "%s/%s", relative_path.buf, + // specular_map_filename); + // printf("load from %s\n", specular_map_path); + // // -------------- + // texture specular_texture = texture_data_load(specular_map_path, true); + // current_material.specular_texture = specular_texture; + // strcpy(current_material.specular_tex_path, specular_map_path); + // texture_data_upload(¤t_material.specular_texture); + // // -------------- + // } else if (strcmp(line_header, "map_Bump") == 0) { + // // TODO + // } + + // pch = strtok_r(NULL, "\n", &saveptr); + // } + + // TRACE("end load material lib"); + + // // last mesh or if one wasnt created with 'o' directive + // // TRACE("Last leftover material"); + // material_darray_push(materials, current_material); + + // INFO("Loaded %ld materials", material_darray_len(materials)); TRACE("END load material lib"); return true; } |