/* Open Asset Import Library (assimp) ---------------------------------------------------------------------- Copyright (c) 2006-2017, assimp team All rights reserved. Redistribution and use of this software in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of the assimp team, nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission of the assimp team. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ---------------------------------------------------------------------- */ #pragma once #include #include #include #include #include #include "MMDCpp14.h" namespace pmd { class PmdHeader { public: std::string name; std::string name_english; std::string comment; std::string comment_english; bool Read(std::ifstream* stream) { char buffer[256]; stream->read(buffer, 20); name = std::string(buffer); stream->read(buffer, 256); comment = std::string(buffer); return true; } bool ReadExtension(std::ifstream* stream) { char buffer[256]; stream->read(buffer, 20); name_english = std::string(buffer); stream->read(buffer, 256); comment_english = std::string(buffer); return true; } }; class PmdVertex { public: float position[3]; float normal[3]; float uv[2]; uint16_t bone_index[2]; uint8_t bone_weight; bool edge_invisible; bool Read(std::ifstream* stream) { stream->read((char*) position, sizeof(float) * 3); stream->read((char*) normal, sizeof(float) * 3); stream->read((char*) uv, sizeof(float) * 2); stream->read((char*) bone_index, sizeof(uint16_t) * 2); stream->read((char*) &bone_weight, sizeof(uint8_t)); stream->read((char*) &edge_invisible, sizeof(uint8_t)); return true; } }; class PmdMaterial { public: float diffuse[4]; float power; float specular[3]; float ambient[3]; uint8_t toon_index; uint8_t edge_flag; uint32_t index_count; std::string texture_filename; std::string sphere_filename; bool Read(std::ifstream* stream) { char buffer[20]; stream->read((char*) &diffuse, sizeof(float) * 4); stream->read((char*) &power, sizeof(float)); stream->read((char*) &specular, sizeof(float) * 3); stream->read((char*) &ambient, sizeof(float) * 3); stream->read((char*) &toon_index, sizeof(uint8_t)); stream->read((char*) &edge_flag, sizeof(uint8_t)); stream->read((char*) &index_count, sizeof(uint32_t)); stream->read((char*) &buffer, sizeof(char) * 20); char* pstar = strchr(buffer, '*'); if (NULL == pstar) { texture_filename = std::string(buffer); sphere_filename.clear(); } else { *pstar = 0; texture_filename = std::string(buffer); sphere_filename = std::string(pstar+1); } return true; } }; enum class BoneType : uint8_t { Rotation, RotationAndMove, IkEffector, Unknown, IkEffectable, RotationEffectable, IkTarget, Invisible, Twist, RotationMovement }; class PmdBone { public: std::string name; std::string name_english; uint16_t parent_bone_index; uint16_t tail_pos_bone_index; BoneType bone_type; uint16_t ik_parent_bone_index; float bone_head_pos[3]; void Read(std::istream *stream) { char buffer[20]; stream->read(buffer, 20); name = std::string(buffer); stream->read((char*) &parent_bone_index, sizeof(uint16_t)); stream->read((char*) &tail_pos_bone_index, sizeof(uint16_t)); stream->read((char*) &bone_type, sizeof(uint8_t)); stream->read((char*) &ik_parent_bone_index, sizeof(uint16_t)); stream->read((char*) &bone_head_pos, sizeof(float) * 3); } void ReadExpantion(std::istream *stream) { char buffer[20]; stream->read(buffer, 20); name_english = std::string(buffer); } }; class PmdIk { public: uint16_t ik_bone_index; uint16_t target_bone_index; uint16_t interations; float angle_limit; std::vector ik_child_bone_index; void Read(std::istream *stream) { stream->read((char *) &ik_bone_index, sizeof(uint16_t)); stream->read((char *) &target_bone_index, sizeof(uint16_t)); uint8_t ik_chain_length; stream->read((char*) &ik_chain_length, sizeof(uint8_t)); stream->read((char *) &interations, sizeof(uint16_t)); stream->read((char *) &angle_limit, sizeof(float)); ik_child_bone_index.resize(ik_chain_length); for (int i = 0; i < ik_chain_length; i++) { stream->read((char *) &ik_child_bone_index[i], sizeof(uint16_t)); } } }; class PmdFaceVertex { public: int vertex_index; float position[3]; void Read(std::istream *stream) { stream->read((char *) &vertex_index, sizeof(int)); stream->read((char *) position, sizeof(float) * 3); } }; enum class FaceCategory : uint8_t { Base, Eyebrow, Eye, Mouth, Other }; class PmdFace { public: std::string name; FaceCategory type; std::vector vertices; std::string name_english; void Read(std::istream *stream) { char buffer[20]; stream->read(buffer, 20); name = std::string(buffer); int vertex_count; stream->read((char*) &vertex_count, sizeof(int)); stream->read((char*) &type, sizeof(uint8_t)); vertices.resize(vertex_count); for (int i = 0; i < vertex_count; i++) { vertices[i].Read(stream); } } void ReadExpantion(std::istream *stream) { char buffer[20]; stream->read(buffer, 20); name_english = std::string(buffer); } }; class PmdBoneDispName { public: std::string bone_disp_name; std::string bone_disp_name_english; void Read(std::istream *stream) { char buffer[50]; stream->read(buffer, 50); bone_disp_name = std::string(buffer); bone_disp_name_english.clear(); } void ReadExpantion(std::istream *stream) { char buffer[50]; stream->read(buffer, 50); bone_disp_name_english = std::string(buffer); } }; class PmdBoneDisp { public: uint16_t bone_index; uint8_t bone_disp_index; void Read(std::istream *stream) { stream->read((char*) &bone_index, sizeof(uint16_t)); stream->read((char*) &bone_disp_index, sizeof(uint8_t)); } }; enum class RigidBodyShape : uint8_t { Sphere = 0, Box = 1, Cpusel = 2 }; enum class RigidBodyType : uint8_t { BoneConnected = 0, Physics = 1, ConnectedPhysics = 2 }; class PmdRigidBody { public: std::string name; uint16_t related_bone_index; uint8_t group_index; uint16_t mask; RigidBodyShape shape; float size[3]; float position[3]; float orientation[3]; float weight; float linear_damping; float anglar_damping; float restitution; float friction; RigidBodyType rigid_type; void Read(std::istream *stream) { char buffer[20]; stream->read(buffer, sizeof(char) * 20); name = (std::string(buffer)); stream->read((char*) &related_bone_index, sizeof(uint16_t)); stream->read((char*) &group_index, sizeof(uint8_t)); stream->read((char*) &mask, sizeof(uint16_t)); stream->read((char*) &shape, sizeof(uint8_t)); stream->read((char*) size, sizeof(float) * 3); stream->read((char*) position, sizeof(float) * 3); stream->read((char*) orientation, sizeof(float) * 3); stream->read((char*) &weight, sizeof(float)); stream->read((char*) &linear_damping, sizeof(float)); stream->read((char*) &anglar_damping, sizeof(float)); stream->read((char*) &restitution, sizeof(float)); stream->read((char*) &friction, sizeof(float)); stream->read((char*) &rigid_type, sizeof(char)); } }; class PmdConstraint { public: std::string name; uint32_t rigid_body_index_a; uint32_t rigid_body_index_b; float position[3]; float orientation[3]; float linear_lower_limit[3]; float linear_upper_limit[3]; float angular_lower_limit[3]; float angular_upper_limit[3]; float linear_stiffness[3]; float angular_stiffness[3]; void Read(std::istream *stream) { char buffer[20]; stream->read(buffer, 20); name = std::string(buffer); stream->read((char *) &rigid_body_index_a, sizeof(uint32_t)); stream->read((char *) &rigid_body_index_b, sizeof(uint32_t)); stream->read((char *) position, sizeof(float) * 3); stream->read((char *) orientation, sizeof(float) * 3); stream->read((char *) linear_lower_limit, sizeof(float) * 3); stream->read((char *) linear_upper_limit, sizeof(float) * 3); stream->read((char *) angular_lower_limit, sizeof(float) * 3); stream->read((char *) angular_upper_limit, sizeof(float) * 3); stream->read((char *) linear_stiffness, sizeof(float) * 3); stream->read((char *) angular_stiffness, sizeof(float) * 3); } }; class PmdModel { public: float version; PmdHeader header; std::vector vertices; std::vector indices; std::vector materials; std::vector bones; std::vector iks; std::vector faces; std::vector faces_indices; std::vector bone_disp_name; std::vector bone_disp; std::vector toon_filenames; std::vector rigid_bodies; std::vector constraints; static std::unique_ptr LoadFromFile(const char *filename) { std::ifstream stream(filename, std::ios::binary); if (stream.fail()) { std::cerr << "could not open \"" << filename << "\"" << std::endl; return nullptr; } auto result = LoadFromStream(&stream); stream.close(); return result; } static std::unique_ptr LoadFromStream(std::ifstream *stream) { auto result = mmd::make_unique(); char buffer[100]; // magic char magic[3]; stream->read(magic, 3); if (magic[0] != 'P' || magic[1] != 'm' || magic[2] != 'd') { std::cerr << "invalid file" << std::endl; return nullptr; } // version stream->read((char*) &(result->version), sizeof(float)); if (result ->version != 1.0f) { std::cerr << "invalid version" << std::endl; return nullptr; } // header result->header.Read(stream); // vertices uint32_t vertex_num; stream->read((char*) &vertex_num, sizeof(uint32_t)); result->vertices.resize(vertex_num); for (uint32_t i = 0; i < vertex_num; i++) { result->vertices[i].Read(stream); } // indices uint32_t index_num; stream->read((char*) &index_num, sizeof(uint32_t)); result->indices.resize(index_num); for (uint32_t i = 0; i < index_num; i++) { stream->read((char*) &result->indices[i], sizeof(uint16_t)); } // materials uint32_t material_num; stream->read((char*) &material_num, sizeof(uint32_t)); result->materials.resize(material_num); for (uint32_t i = 0; i < material_num; i++) { result->materials[i].Read(stream); } // bones uint16_t bone_num; stream->read((char*) &bone_num, sizeof(uint16_t)); result->bones.resize(bone_num); for (uint32_t i = 0; i < bone_num; i++) { result->bones[i].Read(stream); } // iks uint16_t ik_num; stream->read((char*) &ik_num, sizeof(uint16_t)); result->iks.resize(ik_num); for (uint32_t i = 0; i < ik_num; i++) { result->iks[i].Read(stream); } // faces uint16_t face_num; stream->read((char*) &face_num, sizeof(uint16_t)); result->faces.resize(face_num); for (uint32_t i = 0; i < face_num; i++) { result->faces[i].Read(stream); } // face frames uint8_t face_frame_num; stream->read((char*) &face_frame_num, sizeof(uint8_t)); result->faces_indices.resize(face_frame_num); for (uint32_t i = 0; i < face_frame_num; i++) { stream->read((char*) &result->faces_indices[i], sizeof(uint16_t)); } // bone names uint8_t bone_disp_num; stream->read((char*) &bone_disp_num, sizeof(uint8_t)); result->bone_disp_name.resize(bone_disp_num); for (uint32_t i = 0; i < bone_disp_num; i++) { result->bone_disp_name[i].Read(stream); } // bone frame uint32_t bone_frame_num; stream->read((char*) &bone_frame_num, sizeof(uint32_t)); result->bone_disp.resize(bone_frame_num); for (uint32_t i = 0; i < bone_frame_num; i++) { result->bone_disp[i].Read(stream); } // english name bool english; stream->read((char*) &english, sizeof(char)); if (english) { result->header.ReadExtension(stream); for (uint32_t i = 0; i < bone_num; i++) { result->bones[i].ReadExpantion(stream); } for (uint32_t i = 0; i < face_num; i++) { if (result->faces[i].type == pmd::FaceCategory::Base) { continue; } result->faces[i].ReadExpantion(stream); } for (uint32_t i = 0; i < result->bone_disp_name.size(); i++) { result->bone_disp_name[i].ReadExpantion(stream); } } // toon textures if (stream->peek() == std::ios::traits_type::eof()) { result->toon_filenames.clear(); } else { result->toon_filenames.resize(10); for (uint32_t i = 0; i < 10; i++) { stream->read(buffer, 100); result->toon_filenames[i] = std::string(buffer); } } // physics if (stream->peek() == std::ios::traits_type::eof()) { result->rigid_bodies.clear(); result->constraints.clear(); } else { uint32_t rigid_body_num; stream->read((char*) &rigid_body_num, sizeof(uint32_t)); result->rigid_bodies.resize(rigid_body_num); for (uint32_t i = 0; i < rigid_body_num; i++) { result->rigid_bodies[i].Read(stream); } uint32_t constraint_num; stream->read((char*) &constraint_num, sizeof(uint32_t)); result->constraints.resize(constraint_num); for (uint32_t i = 0; i < constraint_num; i++) { result->constraints[i].Read(stream); } } if (stream->peek() != std::ios::traits_type::eof()) { std::cerr << "there is unknown data" << std::endl; } return result; } }; }