/* * Software License Agreement (BSD License) * * Copyright (c) 2010, Willow Garage, Inc. * Copyright (c) 2013, Open Perception, Inc. * All rights reserved. * * Redistribution and use 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 copyright holder(s) nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * 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 namespace pcl { struct PolygonMesh; class PCL_EXPORTS MTLReader { public: /** \brief empty constructor */ MTLReader (); /** \brief empty destructor */ virtual ~MTLReader() {} /** \brief Read a MTL file given its full path. * \param[in] filename full path to MTL file * \return 0 on success < 0 else. */ int read (const std::string& filename); /** \brief Read a MTL file given an OBJ file full path and the MTL file name. * \param[in] obj_file_name full path to OBJ file * \param[in] mtl_file_name MTL file name * \return 0 on success < 0 else. */ int read (const std::string& obj_file_name, const std::string& mtl_file_name); std::vector::const_iterator getMaterial (const std::string& material_name) const; /// materials array std::vector materials_; private: /// converts CIE XYZ to RGB inline void cie2rgb (const Eigen::Vector3f& xyz, pcl::TexMaterial::RGB& rgb) const; /// fill a pcl::TexMaterial::RGB from a split line containing CIE x y z values int fillRGBfromXYZ (const std::vector& split_line, pcl::TexMaterial::RGB& rgb); /// fill a pcl::TexMaterial::RGB from a split line containing r g b values int fillRGBfromRGB (const std::vector& split_line, pcl::TexMaterial::RGB& rgb); /// matrix to convert CIE to RGB Eigen::Matrix3f xyz_to_rgb_matrix_; PCL_MAKE_ALIGNED_OPERATOR_NEW }; class PCL_EXPORTS OBJReader : public FileReader { public: /** \brief empty constructor */ OBJReader() {} /** \brief empty destructor */ ~OBJReader() {} /** \brief Read a point cloud data header from a FILE file. * * Load only the meta information (number of points, their types, etc), * and not the points themselves, from a given FILE file. Useful for fast * evaluation of the underlying data structure. * * \param[in] file_name the name of the file containing the actual PointCloud data * \param[out] cloud the resultant PointCloud message read from disk * \param[out] origin the sensor acquisition origin always null * \param[out] orientation the sensor acquisition orientation always identity * \param[out] file_version always 0 * \param data_type * \param data_idx * \param[in] offset the offset in the file where to expect the true header to begin. * One usage example for setting the offset parameter is for reading * data from a TAR "archive containing multiple files: TAR files always * add a 512 byte header in front of the actual file, so set the offset * to the next byte after the header (e.g., 513). * * \return 0 on success. */ int readHeader (const std::string &file_name, pcl::PCLPointCloud2 &cloud, Eigen::Vector4f &origin, Eigen::Quaternionf &orientation, int &file_version, int &data_type, unsigned int &data_idx, const int offset) override; /** \brief Read a point cloud data from a FILE file and store it into a * pcl/PCLPointCloud2. * \param[in] file_name the name of the file containing the actual PointCloud data * \param[out] cloud the resultant PointCloud message read from disk * \param[out] origin the sensor acquisition origin always null * \param[out] orientation the sensor acquisition orientation always identity * \param[out] file_version always 0 * \param[in] offset the offset in the file where to expect the true header to begin. * One usage example for setting the offset parameter is for reading * data from a TAR "archive containing multiple files: TAR files always * add a 512 byte header in front of the actual file, so set the offset * to the next byte after the header (e.g., 513). * * \return 0 on success. */ int read (const std::string &file_name, pcl::PCLPointCloud2 &cloud, Eigen::Vector4f &origin, Eigen::Quaternionf &orientation, int &file_version, const int offset = 0) override; /** \brief Read a point cloud data from a FILE file and store it into a * pcl/PCLPointCloud2. * \param[in] file_name the name of the file containing the actual PointCloud data * \param[out] cloud the resultant PointCloud message read from disk * \param[in] offset the offset in the file where to expect the true header to begin. * One usage example for setting the offset parameter is for reading * data from a TAR "archive containing multiple files: TAR files always * add a 512 byte header in front of the actual file, so set the offset * to the next byte after the header (e.g., 513). * * \return 0 on success. */ int read (const std::string &file_name, pcl::PCLPointCloud2 &cloud, const int offset = 0); /** \brief Read a point cloud data from a FILE file and store it into a * pcl/TextureMesh. * \param[in] file_name the name of the file containing data * \param[out] mesh the resultant TextureMesh read from disk * \param[out] origin the sensor origin always null * \param[out] orientation the sensor orientation always identity * \param[out] file_version always 0 * \param[in] offset the offset in the file where to expect the true * header to begin. * * \return 0 on success. */ int read (const std::string &file_name, pcl::TextureMesh &mesh, Eigen::Vector4f &origin, Eigen::Quaternionf &orientation, int &file_version, const int offset = 0); /** \brief Read a point cloud data from a FILE file and store it into a * pcl/TextureMesh. * \param[in] file_name the name of the file containing data * \param[out] mesh the resultant TextureMesh read from disk * \param[in] offset the offset in the file where to expect the true * header to begin. * * \return 0 on success. */ int read (const std::string &file_name, pcl::TextureMesh &mesh, const int offset = 0); /** \brief Read a point cloud data from a FILE file and store it into a * pcl/PolygonMesh. * \param[in] file_name the name of the file containing data * \param[out] mesh the resultant PolygonMesh read from disk * \param[out] origin the sensor origin always null * \param[out] orientation the sensor orientation always identity * \param[out] file_version always 0 * \param[in] offset the offset in the file where to expect the true * header to begin. * * \return 0 on success. */ int read (const std::string &file_name, pcl::PolygonMesh &mesh, Eigen::Vector4f &origin, Eigen::Quaternionf &orientation, int &file_version, const int offset = 0); /** \brief Read a point cloud data from a FILE file and store it into a * pcl/PolygonMesh. * \param[in] file_name the name of the file containing data * \param[out] mesh the resultant PolygonMesh read from disk * \param[in] offset the offset in the file where to expect the true * header to begin. * * \return 0 on success. */ int read (const std::string &file_name, pcl::PolygonMesh &mesh, const int offset = 0); /** \brief Read a point cloud data from any FILE file, and convert it to the given * template format. * \param[in] file_name the name of the file containing the actual PointCloud data * \param[out] cloud the resultant PointCloud message read from disk * \param[in] offset the offset in the file where to expect the true header to begin. * One usage example for setting the offset parameter is for reading * data from a TAR "archive containing multiple files: TAR files always * add a 512 byte header in front of the actual file, so set the offset * to the next byte after the header (e.g., 513). */ template inline int read (const std::string &file_name, pcl::PointCloud &cloud, const int offset =0) { pcl::PCLPointCloud2 blob; int file_version; int res = read (file_name, blob, cloud.sensor_origin_, cloud.sensor_orientation_, file_version, offset); if (res < 0) return (res); pcl::fromPCLPointCloud2 (blob, cloud); return (0); } private: /// Usually OBJ files come MTL files where texture materials are stored std::vector companions_; }; namespace io { /** \brief Load any OBJ file into a templated PointCloud type. * \param[in] file_name the name of the file to load * \param[out] cloud the resultant templated point cloud * \param[out] origin the sensor acquisition origin, null * \param[out] orientation the sensor acquisition orientation, identity * \ingroup io */ inline int loadOBJFile (const std::string &file_name, pcl::PCLPointCloud2 &cloud, Eigen::Vector4f &origin, Eigen::Quaternionf &orientation) { pcl::OBJReader p; int obj_version; return (p.read (file_name, cloud, origin, orientation, obj_version)); } /** \brief Load an OBJ file into a PCLPointCloud2 blob type. * \param[in] file_name the name of the file to load * \param[out] cloud the resultant templated point cloud * \return 0 on success < 0 on error * * \ingroup io */ inline int loadOBJFile (const std::string &file_name, pcl::PCLPointCloud2 &cloud) { pcl::OBJReader p; return (p.read (file_name, cloud)); } /** \brief Load any OBJ file into a templated PointCloud type * \param[in] file_name the name of the file to load * \param[out] cloud the resultant templated point cloud * \ingroup io */ template inline int loadOBJFile (const std::string &file_name, pcl::PointCloud &cloud) { pcl::OBJReader p; return (p.read (file_name, cloud)); } /** \brief Load any OBJ file into a PolygonMesh type. * \param[in] file_name the name of the file to load * \param[out] mesh the resultant mesh * \return 0 on success < 0 on error * * \ingroup io */ inline int loadOBJFile (const std::string &file_name, pcl::PolygonMesh &mesh) { pcl::OBJReader p; return (p.read (file_name, mesh)); } /** \brief Load any OBJ file into a TextureMesh type. * \param[in] file_name the name of the file to load * \param[out] mesh the resultant mesh * \return 0 on success < 0 on error * * \ingroup io */ inline int loadOBJFile (const std::string &file_name, pcl::TextureMesh &mesh) { pcl::OBJReader p; return (p.read (file_name, mesh)); } /** \brief Saves a TextureMesh in ascii OBJ format. * \param[in] file_name the name of the file to write to disk * \param[in] tex_mesh the texture mesh to save * \param[in] precision the output ASCII precision * \ingroup io */ PCL_EXPORTS int saveOBJFile (const std::string &file_name, const pcl::TextureMesh &tex_mesh, unsigned precision = 5); /** \brief Saves a PolygonMesh in ascii PLY format. * \param[in] file_name the name of the file to write to disk * \param[in] mesh the polygonal mesh to save * \param[in] precision the output ASCII precision default 5 * \ingroup io */ PCL_EXPORTS int saveOBJFile (const std::string &file_name, const pcl::PolygonMesh &mesh, unsigned precision = 5); } }