AnalysisSystemForRadionucli.../include/armadillo_bits/hdf5_misc.hpp

721 lines
18 KiB
C++
Raw Normal View History

2024-06-04 15:25:02 +08:00
// Copyright (C) 2012-2013 National ICT Australia (NICTA)
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
// -------------------------------------------------------------------
//
// Written by Conrad Sanderson - http://conradsanderson.id.au
// Written by Ryan Curtin
// Written by Szabolcs Horvat
//! \addtogroup hdf5_misc
//! @{
#if defined(ARMA_USE_HDF5)
namespace hdf5_misc
{
//! Given a certain type, find the corresponding HDF5 datatype. This can't be
//! done entirely at compile time, unfortunately, because the H5T_* macros
//! depend on function calls.
template< typename eT >
inline
hid_t
get_hdf5_type()
{
return -1; // Return invalid.
}
//! Specializations for each valid element type
//! (taken from all the possible typedefs of {u8, s8, ..., u64, s64} and the other native types.
//! We can't use the actual u8/s8 typedefs because their relations to the H5T_... types are unclear.
template<>
inline
hid_t
get_hdf5_type< unsigned char >()
{
return arma_H5Tcopy(arma_H5T_NATIVE_UCHAR);
}
template<>
inline
hid_t
get_hdf5_type< char >()
{
return arma_H5Tcopy(arma_H5T_NATIVE_CHAR);
}
template<>
inline
hid_t
get_hdf5_type< short >()
{
return arma_H5Tcopy(arma_H5T_NATIVE_SHORT);
}
template<>
inline
hid_t
get_hdf5_type< unsigned short >()
{
return arma_H5Tcopy(arma_H5T_NATIVE_USHORT);
}
template<>
inline
hid_t
get_hdf5_type< int >()
{
return arma_H5Tcopy(arma_H5T_NATIVE_INT);
}
template<>
inline
hid_t
get_hdf5_type< unsigned int >()
{
return arma_H5Tcopy(arma_H5T_NATIVE_UINT);
}
template<>
inline
hid_t
get_hdf5_type< long >()
{
return arma_H5Tcopy(arma_H5T_NATIVE_LONG);
}
template<>
inline
hid_t
get_hdf5_type< unsigned long >()
{
return arma_H5Tcopy(arma_H5T_NATIVE_ULONG);
}
#if defined(ARMA_USE_U64S64) && defined(ULLONG_MAX)
template<>
inline
hid_t
get_hdf5_type< long long >()
{
return arma_H5Tcopy(arma_H5T_NATIVE_LLONG);
}
template<>
inline
hid_t
get_hdf5_type< unsigned long long >()
{
return arma_H5Tcopy(arma_H5T_NATIVE_ULLONG);
}
#endif
template<>
inline
hid_t
get_hdf5_type< float >()
{
return arma_H5Tcopy(arma_H5T_NATIVE_FLOAT);
}
template<>
inline
hid_t
get_hdf5_type< double >()
{
return arma_H5Tcopy(arma_H5T_NATIVE_DOUBLE);
}
//! Utility hid_t since HOFFSET() won't work with std::complex.
template<typename eT>
struct hdf5_complex_t
{
eT real;
eT imag;
};
template<>
inline
hid_t
get_hdf5_type< std::complex<float> >()
{
hid_t type = arma_H5Tcreate(H5T_COMPOUND, sizeof(hdf5_complex_t<float>));
arma_H5Tinsert(type, "real", HOFFSET(hdf5_complex_t<float>, real), arma_H5T_NATIVE_FLOAT);
arma_H5Tinsert(type, "imag", HOFFSET(hdf5_complex_t<float>, imag), arma_H5T_NATIVE_FLOAT);
return type;
}
template<>
inline
hid_t
get_hdf5_type< std::complex<double> >()
{
hid_t type = arma_H5Tcreate(H5T_COMPOUND, sizeof(hdf5_complex_t<double>));
arma_H5Tinsert(type, "real", HOFFSET(hdf5_complex_t<double>, real), arma_H5T_NATIVE_DOUBLE);
arma_H5Tinsert(type, "imag", HOFFSET(hdf5_complex_t<double>, imag), arma_H5T_NATIVE_DOUBLE);
return type;
}
// Compare datatype against all supported types.
inline
bool
is_supported_arma_hdf5_type(hid_t datatype)
{
hid_t search_type;
bool is_equal;
// start with most likely used types: double, complex<double>, float, complex<float>
search_type = get_hdf5_type<double>();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
search_type = get_hdf5_type< std::complex<double> >();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
search_type = get_hdf5_type<float>();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
search_type = get_hdf5_type< std::complex<float> >();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
// remaining supported types: u8, s8, u16, s16, u32, s32, u64, s64, ulng_t, slng_t
search_type = get_hdf5_type<u8>();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
search_type = get_hdf5_type<s8>();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
search_type = get_hdf5_type<u16>();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
search_type = get_hdf5_type<s16>();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
search_type = get_hdf5_type<u32>();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
search_type = get_hdf5_type<s32>();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
#if defined(ARMA_USE_U64S64)
{
search_type = get_hdf5_type<u64>();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
search_type = get_hdf5_type<s64>();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
}
#endif
#if defined(ARMA_ALLOW_LONG)
{
search_type = get_hdf5_type<ulng_t>();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
search_type = get_hdf5_type<slng_t>();
is_equal = ( arma_H5Tequal(datatype, search_type) > 0 );
arma_H5Tclose(search_type);
if (is_equal) { return true; }
}
#endif
return false;
}
//! Auxiliary functions and structs for search_hdf5_file.
struct hdf5_search_info
{
const std::vector<std::string>& names;
int num_dims;
bool exact;
hid_t best_match;
size_t best_match_position; // Position of best match in names vector.
};
inline
herr_t
hdf5_search_callback
(
hid_t loc_id,
const char* name,
const H5O_info_t* info,
void* operator_data // hdf5_search_info
)
{
hdf5_search_info* search_info = (hdf5_search_info*) operator_data;
// We are looking for datasets.
if (info->type == H5O_TYPE_DATASET)
{
// Check type of dataset to see if we could even load it.
hid_t dataset = arma_H5Dopen(loc_id, name, H5P_DEFAULT);
hid_t datatype = arma_H5Dget_type(dataset);
const bool is_supported = is_supported_arma_hdf5_type(datatype);
arma_H5Tclose(datatype);
arma_H5Dclose(dataset);
if(is_supported == false)
{
// Forget about it and move on.
return 0;
}
// Now we have to check against our set of names.
// Only check names which could be better.
for (size_t string_pos = 0; string_pos < search_info->best_match_position; ++string_pos)
{
// name is the full path (/path/to/dataset); names[string_pos] may be
// "dataset", "/to/dataset", or "/path/to/dataset".
// So if we count the number of forward slashes in names[string_pos],
// and then simply take the last substring of name containing that number of slashes,
// we can do the comparison.
// Count the number of forward slashes in names[string_pos].
uword count = 0;
for (uword i = 0; i < search_info->names[string_pos].length(); ++i)
{
if ((search_info->names[string_pos])[i] == '/') { ++count; }
}
// Count the number of forward slashes in the full name.
uword name_count = 0;
const std::string str = std::string(name);
for (uword i = 0; i < str.length(); ++i)
{
if (str[i] == '/') { ++count; }
}
// If we are asking for more slashes than we have, this can't be a match.
// Skip to below, where we decide whether or not to keep it anyway based
// on the exactness condition of the search.
if (count <= name_count)
{
size_t start_pos = (count == 0) ? 0 : std::string::npos;
while (count > 0)
{
// Move pointer to previous slash.
start_pos = str.rfind('/', start_pos);
// Break if we've run out of slashes.
if (start_pos == std::string::npos) { break; }
--count;
}
// Now take the substring (this may end up being the full string).
const std::string substring = str.substr(start_pos);
// Are they the same?
if (substring == search_info->names[string_pos])
{
// We have found the object; it must be better than our existing match.
hid_t match_candidate = arma_H5Dopen(loc_id, name, H5P_DEFAULT);
// arma_check(match_candidate < 0, "Mat::load(): cannot open an HDF5 dataset");
if(match_candidate < 0)
{
return -1;
}
// Ensure that the dataset is valid and of the correct dimensionality.
hid_t filespace = arma_H5Dget_space(match_candidate);
int num_dims = arma_H5Sget_simple_extent_ndims(filespace);
if (num_dims <= search_info->num_dims)
{
// Valid dataset -- we'll keep it.
// If we already have an existing match we have to close it.
if (search_info->best_match != -1)
{
arma_H5Dclose(search_info->best_match);
}
search_info->best_match_position = string_pos;
search_info->best_match = match_candidate;
}
arma_H5Sclose(filespace);
}
}
// If they are not the same, but we have not found anything and we don't need an exact match, take this.
if ((search_info->exact == false) && (search_info->best_match == -1))
{
hid_t match_candidate = arma_H5Dopen(loc_id, name, H5P_DEFAULT);
// arma_check(match_candidate < 0, "Mat::load(): cannot open an HDF5 dataset");
if(match_candidate < 0)
{
return -1;
}
hid_t filespace = arma_H5Dget_space(match_candidate);
int num_dims = arma_H5Sget_simple_extent_ndims(filespace);
if (num_dims <= search_info->num_dims)
{
// Valid dataset -- we'll keep it.
search_info->best_match = arma_H5Dopen(loc_id, name, H5P_DEFAULT);
}
arma_H5Sclose(filespace);
}
}
}
return 0;
}
//! Search an HDF5 file for the given dataset names.
//! If 'exact' is true, failure to find a dataset in the list of names means that -1 is returned.
//! If 'exact' is false and no datasets are found, -1 is returned.
//! The number of dimensions is used to help prune down invalid datasets;
//! 2 dimensions is a matrix, 1 dimension is a vector, and 3 dimensions is a cube.
//! If the number of dimensions in a dataset is less than or equal to num_dims,
//! it will be considered -- for instance, a one-dimensional HDF5 vector can be loaded as a single-column matrix.
inline
hid_t
search_hdf5_file
(
const std::vector<std::string>& names,
hid_t hdf5_file,
int num_dims = 2,
bool exact = false
)
{
hdf5_search_info search_info = { names, num_dims, exact, -1, names.size() };
// We'll use the H5Ovisit to track potential entries.
herr_t status = arma_H5Ovisit(hdf5_file, H5_INDEX_NAME, H5_ITER_NATIVE, hdf5_search_callback, void_ptr(&search_info));
// Return the best match; it will be -1 if there was a problem.
return (status < 0) ? -1 : search_info.best_match;
}
//! Load an HDF5 matrix into an array of type specified by datatype,
//! then convert that into the desired array 'dest'.
//! This should only be called when eT is not the datatype.
template<typename eT>
inline
hid_t
load_and_convert_hdf5
(
eT *dest,
hid_t dataset,
hid_t datatype,
uword n_elem
)
{
// We can't use nice template specializations here
// as the determination of the type of 'datatype' must be done at runtime.
// So we end up with this ugliness...
hid_t search_type;
bool is_equal;
// u8
search_type = get_hdf5_type<u8>();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
Col<u8> v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert(dest, v.memptr(), n_elem);
return status;
}
// s8
search_type = get_hdf5_type<s8>();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
Col<s8> v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert(dest, v.memptr(), n_elem);
return status;
}
// u16
search_type = get_hdf5_type<u16>();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
Col<u16> v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert(dest, v.memptr(), n_elem);
return status;
}
// s16
search_type = get_hdf5_type<s16>();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
Col<s16> v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert(dest, v.memptr(), n_elem);
return status;
}
// u32
search_type = get_hdf5_type<u32>();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
Col<u32> v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert(dest, v.memptr(), n_elem);
return status;
}
// s32
search_type = get_hdf5_type<s32>();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
Col<s32> v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert(dest, v.memptr(), n_elem);
return status;
}
#if defined(ARMA_USE_U64S64)
{
// u64
search_type = get_hdf5_type<u64>();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
Col<u64> v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert(dest, v.memptr(), n_elem);
return status;
}
// s64
search_type = get_hdf5_type<s64>();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
Col<s64> v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert(dest, v.memptr(), n_elem);
return status;
}
}
#endif
#if defined(ARMA_ALLOW_LONG)
{
// ulng_t
search_type = get_hdf5_type<ulng_t>();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
Col<ulng_t> v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert(dest, v.memptr(), n_elem);
return status;
}
// slng_t
search_type = get_hdf5_type<slng_t>();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
Col<slng_t> v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert(dest, v.memptr(), n_elem);
return status;
}
}
#endif
// float
search_type = get_hdf5_type<float>();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
Col<float> v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert(dest, v.memptr(), n_elem);
return status;
}
// double
search_type = get_hdf5_type<double>();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
Col<double> v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert(dest, v.memptr(), n_elem);
return status;
}
// complex float
search_type = get_hdf5_type< std::complex<float> >();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
if(is_complex<eT>::value == false)
{
return -1; // can't read complex data into non-complex matrix/cube
}
Col< std::complex<float> > v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert_cx(dest, v.memptr(), n_elem);
return status;
}
// complex double
search_type = get_hdf5_type< std::complex<double> >();
is_equal = (arma_H5Tequal(datatype, search_type) > 0);
arma_H5Tclose(search_type);
if(is_equal)
{
if(is_complex<eT>::value == false)
{
return -1; // can't read complex data into non-complex matrix/cube
}
Col< std::complex<double> > v(n_elem);
hid_t status = arma_H5Dread(dataset, datatype, H5S_ALL, H5S_ALL, H5P_DEFAULT, void_ptr(v.memptr()));
arrayops::convert_cx(dest, v.memptr(), n_elem);
return status;
}
return -1; // Failure.
}
} // namespace hdf5_misc
#endif // #if defined(ARMA_USE_HDF5)
//! @}