/******************************************************************************* * * TRIQS: a Toolbox for Research in Interacting Quantum Systems * * Copyright (C) 2011 by O. Parcollet * * TRIQS is free software: you can redistribute it and/or modify it under the * terms of the GNU General Public License as published by the Free Software * Foundation, either version 3 of the License, or (at your option) any later * version. * * TRIQS is distributed in the hope that it will be useful, but WITHOUT ANY * WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS * FOR A PARTICULAR PURPOSE. See the GNU General Public License for more * details. * * You should have received a copy of the GNU General Public License along with * TRIQS. If not, see . * ******************************************************************************/ #ifndef TRIQS_H5_VECTOR_H #define TRIQS_H5_VECTOR_H #include "./group.hpp" #include "./string.hpp" #include namespace triqs { inline std::string get_triqs_hdf5_data_scheme(std::vector const & ) { return "vector";} template std::string get_triqs_hdf5_data_scheme(std::vector const&) { using triqs::get_triqs_hdf5_data_scheme;// for the basic types, not found by ADL std::stringstream fs; fs<<"std::vector<"<"; return fs.str(); } namespace h5 { // special case of vector of string inline void h5_write (group f, std::string const & name, std::vector const & V) { detail::write_1darray_vector_of_string_impl(f,name,V); } inline void h5_read (group f, std::string const & name, std::vector & V) { detail::read_1darray_vector_of_string_impl(f,name,V); } // implementation for vector of double and complex namespace vector_impl { // the dataspace corresponding to the array. Contiguous data only... template H5::DataSpace data_space_for_vector (std::vector const & V) { mini_vector L,S; S[0]=1;L[0] = V.size(); return h5::dataspace_from_LS<1, triqs::is_complex::value > (L,L,S); } template inline void h5_write_vector_impl (group g, std::string const & name, std::vector const & V) { try { H5::DataSet ds = g.create_dataset(name, h5::data_type_file(), data_space_for_vector(V) ); ds.write( &V[0], h5::data_type_memory(), data_space_for_vector(V) ); // if complex, to be python compatible, we add the __complex__ attribute if (triqs::is_complex::value) h5::write_string_attribute(&ds,"__complex__","1"); } TRIQS_ARRAYS_H5_CATCH_EXCEPTION; } template inline void h5_read_impl (group g, std::string const & name, std::vector & V) { try { H5::DataSet ds = g.open_dataset(name); H5::DataSpace dataspace = ds.getSpace(); static const unsigned int Rank = 1 + (triqs::is_complex::value ? 1 : 0); int rank = dataspace.getSimpleExtentNdims(); if (rank != Rank) TRIQS_RUNTIME_ERROR << "triqs : h5 : read vector. Rank mismatch : the array stored in the hdf5 file has rank = "< dims_out; dataspace.getSimpleExtentDims( &dims_out[0], NULL); V.resize(dims_out[0]); ds.read( &V[0], h5::data_type_memory(), data_space_for_vector(V) , dataspace ); } TRIQS_ARRAYS_H5_CATCH_EXCEPTION; } }// impl namespace inline void h5_write (group f, std::string const & name, std::vector const & V) { vector_impl::h5_write_vector_impl(f,name,V);} inline void h5_write (group f, std::string const & name, std::vector> const & V) { vector_impl::h5_write_vector_impl(f,name,V);} inline void h5_read (group f, std::string const & name, std::vector & V) { vector_impl::h5_read_impl(f,name,V);} inline void h5_read (group f, std::string const & name, std::vector> & V) { vector_impl::h5_read_impl(f,name,V);} } } #endif