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|
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* All rights reserved. *
* *
* This file is part of HDF5. The full HDF5 copyright notice, including *
* terms governing use, modification, and redistribution, is contained in *
* the COPYING file, which can be found at the root of the source code *
* distribution tree, or in https://www.hdfgroup.org/licenses. *
* If you do not have access to either file, you may request a copy from *
* help@hdfgroup.org. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*
* This file contains function prototypes for each exported function in the
* H5P module.
*/
#ifndef H5Ppublic_H
#define H5Ppublic_H
/* System headers needed by this file */
/* Public headers needed by this file */
#include "H5public.h"
#include "H5ACpublic.h" /* Metadata cache */
#include "H5Dpublic.h" /* Datasets */
#include "H5Fpublic.h" /* Files */
#include "H5FDpublic.h" /* File drivers */
#include "H5Ipublic.h" /* ID management */
#include "H5Lpublic.h" /* Links */
#include "H5MMpublic.h" /* Memory management */
#include "H5Opublic.h" /* Object headers */
#include "H5Spublic.h" /* Dataspaces */
#include "H5Tpublic.h" /* Datatypes */
#include "H5Zpublic.h" /* Data filters */
/*****************/
/* Public Macros */
/*****************/
/* When this header is included from a private HDF5 header, don't make calls to H5open() */
#undef H5OPEN
#ifndef H5private_H
#define H5OPEN H5open(),
#else /* H5private_H */
#define H5OPEN
#endif /* H5private_H */
/*
* The library's property list classes
*/
#define H5P_ROOT (H5OPEN H5P_CLS_ROOT_ID_g)
#define H5P_OBJECT_CREATE (H5OPEN H5P_CLS_OBJECT_CREATE_ID_g)
#define H5P_FILE_CREATE (H5OPEN H5P_CLS_FILE_CREATE_ID_g)
#define H5P_FILE_ACCESS (H5OPEN H5P_CLS_FILE_ACCESS_ID_g)
#define H5P_DATASET_CREATE (H5OPEN H5P_CLS_DATASET_CREATE_ID_g)
#define H5P_DATASET_ACCESS (H5OPEN H5P_CLS_DATASET_ACCESS_ID_g)
#define H5P_DATASET_XFER (H5OPEN H5P_CLS_DATASET_XFER_ID_g)
#define H5P_FILE_MOUNT (H5OPEN H5P_CLS_FILE_MOUNT_ID_g)
#define H5P_GROUP_CREATE (H5OPEN H5P_CLS_GROUP_CREATE_ID_g)
#define H5P_GROUP_ACCESS (H5OPEN H5P_CLS_GROUP_ACCESS_ID_g)
#define H5P_DATATYPE_CREATE (H5OPEN H5P_CLS_DATATYPE_CREATE_ID_g)
#define H5P_DATATYPE_ACCESS (H5OPEN H5P_CLS_DATATYPE_ACCESS_ID_g)
#define H5P_MAP_CREATE (H5OPEN H5P_CLS_MAP_CREATE_ID_g)
#define H5P_MAP_ACCESS (H5OPEN H5P_CLS_MAP_ACCESS_ID_g)
#define H5P_STRING_CREATE (H5OPEN H5P_CLS_STRING_CREATE_ID_g)
#define H5P_ATTRIBUTE_CREATE (H5OPEN H5P_CLS_ATTRIBUTE_CREATE_ID_g)
#define H5P_ATTRIBUTE_ACCESS (H5OPEN H5P_CLS_ATTRIBUTE_ACCESS_ID_g)
#define H5P_OBJECT_COPY (H5OPEN H5P_CLS_OBJECT_COPY_ID_g)
#define H5P_LINK_CREATE (H5OPEN H5P_CLS_LINK_CREATE_ID_g)
#define H5P_LINK_ACCESS (H5OPEN H5P_CLS_LINK_ACCESS_ID_g)
#define H5P_VOL_INITIALIZE (H5OPEN H5P_CLS_VOL_INITIALIZE_ID_g)
#define H5P_REFERENCE_ACCESS (H5OPEN H5P_CLS_REFERENCE_ACCESS_ID_g)
/*
* The library's default property lists
*/
#define H5P_FILE_CREATE_DEFAULT (H5OPEN H5P_LST_FILE_CREATE_ID_g)
#define H5P_FILE_ACCESS_DEFAULT (H5OPEN H5P_LST_FILE_ACCESS_ID_g)
#define H5P_DATASET_CREATE_DEFAULT (H5OPEN H5P_LST_DATASET_CREATE_ID_g)
#define H5P_DATASET_ACCESS_DEFAULT (H5OPEN H5P_LST_DATASET_ACCESS_ID_g)
#define H5P_DATASET_XFER_DEFAULT (H5OPEN H5P_LST_DATASET_XFER_ID_g)
#define H5P_FILE_MOUNT_DEFAULT (H5OPEN H5P_LST_FILE_MOUNT_ID_g)
#define H5P_GROUP_CREATE_DEFAULT (H5OPEN H5P_LST_GROUP_CREATE_ID_g)
#define H5P_GROUP_ACCESS_DEFAULT (H5OPEN H5P_LST_GROUP_ACCESS_ID_g)
#define H5P_DATATYPE_CREATE_DEFAULT (H5OPEN H5P_LST_DATATYPE_CREATE_ID_g)
#define H5P_DATATYPE_ACCESS_DEFAULT (H5OPEN H5P_LST_DATATYPE_ACCESS_ID_g)
#define H5P_MAP_CREATE_DEFAULT (H5OPEN H5P_LST_MAP_CREATE_ID_g)
#define H5P_MAP_ACCESS_DEFAULT (H5OPEN H5P_LST_MAP_ACCESS_ID_g)
#define H5P_ATTRIBUTE_CREATE_DEFAULT (H5OPEN H5P_LST_ATTRIBUTE_CREATE_ID_g)
#define H5P_ATTRIBUTE_ACCESS_DEFAULT (H5OPEN H5P_LST_ATTRIBUTE_ACCESS_ID_g)
#define H5P_OBJECT_COPY_DEFAULT (H5OPEN H5P_LST_OBJECT_COPY_ID_g)
#define H5P_LINK_CREATE_DEFAULT (H5OPEN H5P_LST_LINK_CREATE_ID_g)
#define H5P_LINK_ACCESS_DEFAULT (H5OPEN H5P_LST_LINK_ACCESS_ID_g)
#define H5P_VOL_INITIALIZE_DEFAULT (H5OPEN H5P_LST_VOL_INITIALIZE_ID_g)
#define H5P_REFERENCE_ACCESS_DEFAULT (H5OPEN H5P_LST_REFERENCE_ACCESS_ID_g)
/* Common creation order flags (for links in groups and attributes on objects) */
#define H5P_CRT_ORDER_TRACKED 0x0001
#define H5P_CRT_ORDER_INDEXED 0x0002
/**
* Default value of type \ref hid_t for all property list classes
*/
#define H5P_DEFAULT 0 /* (hid_t) */
#ifdef __cplusplus
extern "C" {
#endif
/*******************/
/* Public Typedefs */
/*******************/
/* Define property list class callback function pointer types */
//! <!-- [H5P_cls_create_func_t_snip] -->
/**
* \brief Callback function for H5Pcreate_class()
*
* \param[in] prop_id The identifier of the property list class being created
* \param[in] create_data User pointer to any class creation data required
* \return \herr_t
*
* \details This function is called when a new property list of the class
* with which this function was registered is being created. The
* function is called after any registered parent create function is
* called for each property value.
*
* If the create function returns a negative value, the new list is not
* returned to the user and the property list creation routine returns
* an error value.
*
* \since 1.4.0
*
*/
typedef herr_t (*H5P_cls_create_func_t)(hid_t prop_id, void *create_data);
//! <!-- [H5P_cls_create_func_t_snip] -->
//! <!-- [H5P_cls_copy_func_t_snip] -->
/**
* \brief Callback function for H5Pcreate_class()
*
* \param[in] new_prop_id The identifier of the property list copy
* \param[in] old_prop_id The identifier of the property list being copied
* \param[in] copy_data User pointer to any copy data required
* \return \herr_t
*
* \details This function is called when an existing property list of this
* class is copied. The copy callback function is called after any
* registered parent copy callback function is called for each property
* value.
*
* If the copy routine returns a negative value, the new list is not
* returned to the user and the property list copy function returns an
* error value.
*
* \since 1.4.0
*
*/
typedef herr_t (*H5P_cls_copy_func_t)(hid_t new_prop_id, hid_t old_prop_id, void *copy_data);
//! <!-- [H5P_cls_copy_func_t_snip] -->
//! <!-- [H5P_cls_close_func_t_snip] -->
/**
* \brief Callback function for H5Pcreate_class()
*
* \param[in] prop_id The identifier of the property list class being created
* \param[in] close_data User pointer to any close data required
* \return \herr_t
*
* \details This function is called when a property list of the class
* with which this function was registered is being closed. The
* function is called after any registered parent close function is
* called for each property value.
*
* If the close function returns a negative value, the new list is not
* returned to the user and the property list close routine returns
* an error value.
*
* \since 1.4.0
*
*/
typedef herr_t (*H5P_cls_close_func_t)(hid_t prop_id, void *close_data);
//! <!-- [H5P_cls_close_func_t_snip] -->
/* Define property list callback function pointer types */
//! <!-- [H5P_prp_cb1_t_snip] -->
/**
* \brief Callback function for H5Pregister2(),H5Pregister1(),H5Pinsert2(),H5Pinsert1()
*
* \param[in] name The name of the property
* \param[in] size The size of the property in bytes
* \param[in,out] value The value for the property
* \return \herr_t
*
* \details The H5P_prp_cb1_t() function describes the parameters used by the
* property create, copy and close callback functions.
*/
typedef herr_t (*H5P_prp_cb1_t)(const char *name, size_t size, void *value);
//! <!-- [H5P_prp_cb1_t_snip] -->
//! <!-- [H5P_prp_cb2_t_snip] -->
/**
* \brief Callback function for H5Pregister2(),H5Pregister1(),H5Pinsert2(),H5Pinsert1()
*
* \plist_id{prop_id}
* \param[in] name The name of the property
* \param[in] size The size of the property in bytes
* \param[in] value The value for the property
* \return \herr_t
*
* \details The H5P_prp_cb2_t() function describes the parameters used by the
* property set, copy and delete callback functions.
*/
typedef herr_t (*H5P_prp_cb2_t)(hid_t prop_id, const char *name, size_t size, void *value);
//! <!-- [H5P_prp_cb2_t_snip] -->
typedef H5P_prp_cb1_t H5P_prp_create_func_t;
typedef H5P_prp_cb2_t H5P_prp_set_func_t;
typedef H5P_prp_cb2_t H5P_prp_get_func_t;
//! <!-- [H5P_prp_encode_func_t_snip] -->
/**
* \brief Callback function for encoding property values
*
* \param[in] value The property value to be encoded
* \param[out] buf The encoded property value
* \param[out] size The size of \p buf
* \return \herr_t
*
* \note There is currently no public API which exposes a callback of this type.
*
*/
typedef herr_t (*H5P_prp_encode_func_t)(const void *value, void **buf, size_t *size);
//! <!-- [H5P_prp_encode_func_t_snip] -->
//! <!-- [H5P_prp_decode_func_t_snip] -->
/**
* \brief Callback function for decoding property values
*
* \param[in] buf A buffer containing an encoded property value
* \param[out] value The decoded property value
* \return \herr_t
*
* \note There is currently no public API which exposes a callback of this type.
*
*/
typedef herr_t (*H5P_prp_decode_func_t)(const void **buf, void *value);
//! <!-- [H5P_prp_decode_func_t_snip] -->
typedef H5P_prp_cb2_t H5P_prp_delete_func_t;
typedef H5P_prp_cb1_t H5P_prp_copy_func_t;
//! <!-- [H5P_prp_compare_func_t_snip] -->
/**
* \brief Callback function for comparing property values
*
* \param[in] value1 A property value
* \param[in] value2 A property value
* \param[in] size The size of the \p value1 and \p value2 buffers
* \return Returns a positive value if \c value1 is greater than \c value2, a
* negative value if \c value2 is greater than \c value1 and zero if
* \c value1 and \c value2 are equal.
*
* \see H5Pregister(), H5Pinsert()
*/
typedef int (*H5P_prp_compare_func_t)(const void *value1, const void *value2, size_t size);
//! <!-- [H5P_prp_compare_func_t_snip] -->
typedef H5P_prp_cb1_t H5P_prp_close_func_t;
/* Define property list iteration function type */
//! <!-- [H5P_iterate_t_snip] -->
/**
* \brief Callback function for H5Piterate()
*
* \param[in] id The identifier of a property list or property list class
* \param[in] name The name of the current property
* \param[in,out] iter_data The user context passed to H5Piterate()
* \return \herr_t_iter
*
* \details This function is called for each property encountered when
* iterating over a property list or property list class
* via H5Piterate().
*
* \since 1.4.0
*
*/
typedef herr_t (*H5P_iterate_t)(hid_t id, const char *name, void *iter_data);
//! <!-- [H5P_iterate_t_snip] -->
//! <!--[H5D_mpio_actual_chunk_opt_mode_t_snip] -->
/**
* Actual IO mode property
*
* \details The default value, #H5D_MPIO_NO_CHUNK_OPTIMIZATION, is used for all
* I/O operations that do not use chunk optimizations, including
* non-collective I/O and contiguous collective I/O.
*/
typedef enum H5D_mpio_actual_chunk_opt_mode_t {
H5D_MPIO_NO_CHUNK_OPTIMIZATION = 0,
/**< No chunk optimization was performed. Either no collective I/O was
attempted or the dataset wasn't chunked. */
H5D_MPIO_LINK_CHUNK,
/**< Collective I/O is performed on all chunks simultaneously. */
H5D_MPIO_MULTI_CHUNK
/**< Each chunk was individually assigned collective or independent I/O based
on what fraction of processes access the chunk. If the fraction is greater
than the multi chunk ratio threshold, collective I/O is performed on that
chunk. The multi chunk ratio threshold can be set using
H5Pset_dxpl_mpio_chunk_opt_ratio(). The default value is 60%. */
} H5D_mpio_actual_chunk_opt_mode_t;
//! <!--[H5D_mpio_actual_chunk_opt_mode_t_snip] -->
//! <!-- [H5D_mpio_actual_io_mode_t_snip] -->
/**
* The following values are conveniently defined as a bit field so that
* we can switch from the default to independent or collective and then to
* mixed without having to check the original value.
*/
typedef enum H5D_mpio_actual_io_mode_t {
H5D_MPIO_NO_COLLECTIVE = 0x0,
/**< No collective I/O was performed. Collective I/O was not requested or
collective I/O isn't possible on this dataset */
H5D_MPIO_CHUNK_INDEPENDENT = 0x1,
/**< HDF5 performed one the chunk collective optimization schemes and each
chunk was accessed independently */
H5D_MPIO_CHUNK_COLLECTIVE = 0x2,
/**< HDF5 performed one the chunk collective optimization schemes and each
chunk was accessed collectively */
H5D_MPIO_CHUNK_MIXED = 0x1 | 0x2,
/**< HDF5 performed one the chunk collective optimization schemes and some
chunks were accessed independently, some collectively. */
H5D_MPIO_CONTIGUOUS_COLLECTIVE = 0x4
/**< Collective I/O was performed on a contiguous dataset */
} H5D_mpio_actual_io_mode_t;
//! <!-- [H5D_mpio_actual_io_mode_t_snip] -->
//! <!-- [H5D_mpio_no_collective_cause_t_snip] -->
/**
* Broken collective IO property
*/
typedef enum H5D_mpio_no_collective_cause_t {
H5D_MPIO_COLLECTIVE = 0x00,
/**< Collective I/O was performed successfully */
H5D_MPIO_SET_INDEPENDENT = 0x01,
/**< Collective I/O was not performed because independent I/O was requested */
H5D_MPIO_DATATYPE_CONVERSION = 0x02,
/**< Collective I/O was not performed because datatype conversions were required and selection I/O was not
possible (see below) */
H5D_MPIO_DATA_TRANSFORMS = 0x04,
/**< Collective I/O was not performed because data transforms needed to be applied */
H5D_MPIO_MPI_OPT_TYPES_ENV_VAR_DISABLED = 0x08,
/**< Collective I/O was disabled by environment variable (\Code{HDF5_MPI_OPT_TYPES}) */
H5D_MPIO_NOT_SIMPLE_OR_SCALAR_DATASPACES = 0x10,
/**< Collective I/O was not performed because one of the dataspaces was neither simple nor scalar */
H5D_MPIO_NOT_CONTIGUOUS_OR_CHUNKED_DATASET = 0x20,
/**< Collective I/O was not performed because the dataset was neither contiguous nor chunked */
H5D_MPIO_PARALLEL_FILTERED_WRITES_DISABLED = 0x40,
/**< Collective I/O was not performed because parallel filtered writes are disabled */
H5D_MPIO_ERROR_WHILE_CHECKING_COLLECTIVE_POSSIBLE = 0x80,
/**< Error */
H5D_MPIO_NO_SELECTION_IO = 0x100,
/**< Collective I/O would be supported by selection or vector I/O but that feature was disabled
(see causes via H5Pget_no_selection_io_cause()) */
H5D_MPIO_NO_COLLECTIVE_MAX_CAUSE = 0x200
/**< Sentinel */
} H5D_mpio_no_collective_cause_t;
//! <!-- [H5D_mpio_no_collective_cause_t_snip] -->
/**
* Causes for H5Pget_no_selection_io_cause() property
*/
#define H5D_SEL_IO_DISABLE_BY_API \
(0x0001u) /**< Selection I/O was not performed because \
the feature was disabled by the API */
#define H5D_SEL_IO_NOT_CONTIGUOUS_OR_CHUNKED_DATASET \
(0x0002u) /**< Selection I/O was not performed because the \
dataset was neither contiguous nor chunked */
#define H5D_SEL_IO_CONTIGUOUS_SIEVE_BUFFER \
(0x0004u) /**< Selection I/O was not performed because of \
sieve buffer for contiguous dataset */
#define H5D_SEL_IO_NO_VECTOR_OR_SELECTION_IO_CB \
(0x0008u) /**< Selection I/O was not performed because the VFD \
does not have vector or selection I/O callback */
#define H5D_SEL_IO_PAGE_BUFFER \
(0x0010u) /**< Selection I/O was not performed because of \
page buffer */
#define H5D_SEL_IO_DATASET_FILTER \
(0x0020u) /**< Selection I/O was not performed because of \
dataset filters */
#define H5D_SEL_IO_CHUNK_CACHE \
(0x0040u) /**< Selection I/O was not performed because of \
chunk cache */
#define H5D_SEL_IO_TCONV_BUF_TOO_SMALL \
(0x0080u) /**< Selection I/O was not performed because the \
type conversion buffer is too small */
#define H5D_SEL_IO_BKG_BUF_TOO_SMALL \
(0x0100u) /**< Selection I/O was not performed because the \
type conversion background buffer is too small */
#define H5D_SEL_IO_DEFAULT_OFF \
(0x0200u) /**< Selection I/O was not performed because the \
selection I/O mode is DEFAULT and the library \
chose it to be off for this case */
/* Causes for H5D_MPIO_NO_SELECTION_IO */
#define H5D_MPIO_NO_SELECTION_IO_CAUSES \
(H5D_SEL_IO_DISABLE_BY_API | H5D_SEL_IO_TCONV_BUF_TOO_SMALL | H5D_SEL_IO_BKG_BUF_TOO_SMALL | \
H5D_SEL_IO_DATASET_FILTER | H5D_SEL_IO_CHUNK_CACHE)
//! <!--[H5D_selection_io_mode_t_snip] -->
/**
* Selection I/O mode property
*
* \details The default value, #H5D_SELECTION_IO_MODE_DEFAULT,
* indicates selection I/O can be ON or OFF as
* determined by library internal.
*/
typedef enum H5D_selection_io_mode_t {
H5D_SELECTION_IO_MODE_DEFAULT = 0,
/**< Default selection I/O mode. */
H5D_SELECTION_IO_MODE_OFF,
/**< Selection I/O is off. */
H5D_SELECTION_IO_MODE_ON
/**< Selection I/O is on. */
} H5D_selection_io_mode_t;
//! <!--[H5D_selection_io_mode_t_snip] -->
/********************/
/* Public Variables */
/********************/
/* Property list class IDs */
/* (Internal to library, do not use! Use macros above) */
H5_DLLVAR hid_t H5P_CLS_ROOT_ID_g;
H5_DLLVAR hid_t H5P_CLS_OBJECT_CREATE_ID_g;
H5_DLLVAR hid_t H5P_CLS_FILE_CREATE_ID_g;
H5_DLLVAR hid_t H5P_CLS_FILE_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_CLS_DATASET_CREATE_ID_g;
H5_DLLVAR hid_t H5P_CLS_DATASET_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_CLS_DATASET_XFER_ID_g;
H5_DLLVAR hid_t H5P_CLS_FILE_MOUNT_ID_g;
H5_DLLVAR hid_t H5P_CLS_GROUP_CREATE_ID_g;
H5_DLLVAR hid_t H5P_CLS_GROUP_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_CLS_DATATYPE_CREATE_ID_g;
H5_DLLVAR hid_t H5P_CLS_DATATYPE_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_CLS_MAP_CREATE_ID_g;
H5_DLLVAR hid_t H5P_CLS_MAP_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_CLS_STRING_CREATE_ID_g;
H5_DLLVAR hid_t H5P_CLS_ATTRIBUTE_CREATE_ID_g;
H5_DLLVAR hid_t H5P_CLS_ATTRIBUTE_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_CLS_OBJECT_COPY_ID_g;
H5_DLLVAR hid_t H5P_CLS_LINK_CREATE_ID_g;
H5_DLLVAR hid_t H5P_CLS_LINK_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_CLS_VOL_INITIALIZE_ID_g;
H5_DLLVAR hid_t H5P_CLS_REFERENCE_ACCESS_ID_g;
/* Default property list IDs */
/* (Internal to library, do not use! Use macros above) */
H5_DLLVAR hid_t H5P_LST_FILE_CREATE_ID_g;
H5_DLLVAR hid_t H5P_LST_FILE_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_LST_DATASET_CREATE_ID_g;
H5_DLLVAR hid_t H5P_LST_DATASET_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_LST_DATASET_XFER_ID_g;
H5_DLLVAR hid_t H5P_LST_FILE_MOUNT_ID_g;
H5_DLLVAR hid_t H5P_LST_GROUP_CREATE_ID_g;
H5_DLLVAR hid_t H5P_LST_GROUP_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_LST_DATATYPE_CREATE_ID_g;
H5_DLLVAR hid_t H5P_LST_DATATYPE_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_LST_MAP_CREATE_ID_g;
H5_DLLVAR hid_t H5P_LST_MAP_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_LST_ATTRIBUTE_CREATE_ID_g;
H5_DLLVAR hid_t H5P_LST_ATTRIBUTE_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_LST_OBJECT_COPY_ID_g;
H5_DLLVAR hid_t H5P_LST_LINK_CREATE_ID_g;
H5_DLLVAR hid_t H5P_LST_LINK_ACCESS_ID_g;
H5_DLLVAR hid_t H5P_LST_VOL_INITIALIZE_ID_g;
H5_DLLVAR hid_t H5P_LST_REFERENCE_ACCESS_ID_g;
/*********************/
/* Public Prototypes */
/*********************/
/* Generic property list routines */
/**
* \ingroup PLCR
*
* \brief Terminates access to a property list
*
* \plist_id
*
* \return \herr_t
*
* \details H5Pclose() terminates access to a property list. All property
* lists should be closed when the application is finished
* accessing them. This frees resources used by the property
* list.
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pclose(hid_t plist_id);
/**
* \ingroup PLCRA
*
* \brief Closes an existing property list class
*
* \plistcls_id{plist_id}
*
* \return \herr_t
*
* \details H5Pclose_class() removes a property list class from the library.
* Existing property lists of this class will continue to exist,
* but new ones are not able to be created.
*
* \since 1.4.0
*
*/
H5_DLL herr_t H5Pclose_class(hid_t plist_id);
/**
* \ingroup PLCR
*
* \brief Copies an existing property list to create a new property list
*
* \plist_id
*
* \return \hid_t{property list}
*
* \details H5Pcopy() copies an existing property list to create a new
* property list. The new property list has the same properties
* and values as the original property list.
*
* \since 1.0.0
*
*/
H5_DLL hid_t H5Pcopy(hid_t plist_id);
/**
* \ingroup PLCRA
*
* \brief Copies a property from one list or class to another
*
* \param[in] dst_id Identifier of the destination property list or class
* \param[in] src_id Identifier of the source property list or class
* \param[in] name Name of the property to copy
*
* \return \herr_t
*
* \details H5Pcopy_prop() copies a property from one property list or
* class to another.
*
* If a property is copied from one class to another, all the
* property information will be first deleted from the destination
* class and then the property information will be copied from the
* source class into the destination class.
*
* If a property is copied from one list to another, the property
* will be first deleted from the destination list (generating a
* call to the close callback for the property, if one exists)
* and then the property is copied from the source list to the
* destination list (generating a call to the copy callback for
* the property, if one exists).
*
* If the property does not exist in the class or list, this
* call is equivalent to calling H5Pregister() or H5Pinsert() (for
* a class or list, as appropriate) and the create callback will
* be called in the case of the property being copied into a list
* (if such a callback exists for the property).
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pcopy_prop(hid_t dst_id, hid_t src_id, const char *name);
/**
* \ingroup PLCR
*
* \brief Creates a new property list as an instance of a property list class
*
* \plistcls_id{cls_id}
*
* \return \hid_t{property list}
*
* \details H5Pcreate() creates a new property list as an instance of
* some property list class. The new property list is initialized
* with default values for the specified class. The classes are as
* follows:
*
* <table>
* <tr>
* <th>Class Identifier</th>
* <th>Class Name</th>
* <th>Comments</th>
* </tr>
* <tr>
* <td>#H5P_ATTRIBUTE_CREATE</td>
* <td>attribute create</td>
* <td>Properties for attribute creation</td>
* </tr>
* <tr>
* <td>#H5P_DATASET_ACCESS</td>
* <td>dataset access</td>
* <td>Properties for dataset access</td>
* </tr>
* <tr>
* <td>#H5P_DATASET_CREATE</td>
* <td>dataset create</td>
* <td>Properties for dataset creation</td>
* </tr>
* <tr>
* <td>#H5P_DATASET_XFER</td>
* <td>data transfer</td>
* <td>Properties for raw data transfer</td>
* </tr>
* <tr>
* <td>#H5P_DATATYPE_ACCESS</td>
* <td>datatype access</td>
* <td>Properties for datatype access</td>
* </tr>
* <tr>
* <td>#H5P_DATATYPE_CREATE</td>
* <td>datatype create</td>
* <td>Properties for datatype creation</td>
* </tr>
* <tr>
* <td>#H5P_FILE_ACCESS</td>
* <td>file access</td>
* <td>Properties for file access</td>
* </tr>
* <tr>
* <td>#H5P_FILE_CREATE</td>
* <td>file create</td>
* <td>Properties for file creation</td>
* </tr>
* <tr>
* <td>#H5P_FILE_MOUNT</td>
* <td>file mount</td>
* <td>Properties for file mounting</td>
* </tr>
* <tr valign="top">
* <td>#H5P_GROUP_ACCESS</td>
* <td>group access</td>
* <td>Properties for group access</td>
* </tr>
* <tr>
* <td>#H5P_GROUP_CREATE</td>
* <td>group create</td>
* <td>Properties for group creation</td>
* </tr>
* <tr>
* <td>#H5P_LINK_ACCESS</td>
* <td>link access</td>
* <td>Properties governing link traversal when accessing objects</td>
* </tr>
* <tr>
* <td>#H5P_LINK_CREATE</td>
* <td>link create</td>
* <td>Properties governing link creation</td>
* </tr>
* <tr>
* <td>#H5P_OBJECT_COPY</td>
* <td>object copy</td>
* <td>Properties governing the object copying process</td>
* </tr>
* <tr>
* <td>#H5P_OBJECT_CREATE</td>
* <td>object create</td>
* <td>Properties for object creation</td>
* </tr>
* <tr>
* <td>#H5P_STRING_CREATE</td>
* <td>string create</td>
* <td>Properties for character encoding when encoding strings or
* object names</td>
* </tr>
* <tr>
* <td>#H5P_VOL_INITIALIZE</td>
* <td>vol initialize</td>
* <td>Properties for VOL initialization</td>
* </tr>
* </table>
*
* This property list must eventually be closed with H5Pclose();
* otherwise, errors are likely to occur.
*
* \version 1.12.0 The #H5P_VOL_INITIALIZE property list class was added
* \version 1.8.15 For each class, the class name returned by
* H5Pget_class_name() was added.
* The list of possible Fortran values was updated.
* \version 1.8.0 The following property list classes were added at this
* release: #H5P_DATASET_ACCESS, #H5P_GROUP_CREATE,
* #H5P_GROUP_ACCESS, #H5P_DATATYPE_CREATE,
* #H5P_DATATYPE_ACCESS, #H5P_ATTRIBUTE_CREATE
*
* \since 1.0.0
*
*/
H5_DLL hid_t H5Pcreate(hid_t cls_id);
/**
* \ingroup PLCRA
*
* \brief Creates a new property list class
*
* \plistcls_id{parent}
* \param[in] name Name of property list class to register
* \param[in] create Callback routine called when a property list is
* created
* \param[in] create_data Pointer to user-defined class create data, to be
* passed along to class create callback
* \param[in] copy Callback routine called when a property list is
* copied
* \param[in] copy_data Pointer to user-defined class copy data, to be
* passed along to class copy callback
* \param[in] close Callback routine called when a property list is
* being closed
* \param[in] close_data Pointer to user-defined class close data, to be
* passed along to class close callback
*
* \return \hid_t{property list class}
*
* \details H5Pcreate_class() registers a new property list class with the
* library. The new property list class can inherit from an
* existing property list class, \p parent, or may be derived
* from the default “empty” class, NULL. New classes with
* inherited properties from existing classes may not remove
* those existing properties, only add or remove their own class
* properties. Property list classes defined and supported in the
* HDF5 library distribution are listed and briefly described in
* H5Pcreate(). The \p create, \p copy, \p close functions are called
* when a property list of the new class is created, copied, or closed,
* respectively.
*
* H5Pclose_class() must be used to release the property list class
* identifier returned by this function.
*
* \since 1.4.0
*
*/
H5_DLL hid_t H5Pcreate_class(hid_t parent, const char *name, H5P_cls_create_func_t create, void *create_data,
H5P_cls_copy_func_t copy, void *copy_data, H5P_cls_close_func_t close,
void *close_data);
/**
* \ingroup PLCR
*
* \brief Decodes property list received in a binary object buffer and
* returns a new property list identifier
*
* \param[in] buf Buffer holding the encoded property list
*
* \return \hid_tv{object}
*
* \details Given a binary property list description in a buffer, H5Pdecode()
* reconstructs the HDF5 property list and returns an identifier
* for the new property list. The binary description of the property
* list is encoded by H5Pencode().
*
* The user is responsible for passing in the correct buffer.
*
* The property list identifier returned by this function should be
* released with H5Pclose() when the identifier is no longer needed
* so that resource leaks will not develop.
*
* \note Some properties cannot be encoded and therefore will not be available
* in the decoded property list. These properties are discussed in
* H5Pencode().
*
* \since 1.10.0
*
*/
H5_DLL hid_t H5Pdecode(const void *buf);
/**
* \ingroup PLCR
*
* \brief Encodes the property values in a property list into a binary
* buffer
*
* \plist_id
* \param[out] buf Buffer into which the property list will be encoded.
* If the provided buffer is NULL, the size of the
* buffer required is returned through \p nalloc; the
* function does nothing more.
* \param[out] nalloc The size of the required buffer
* \fapl_id
*
* \return \herr_t
*
* \details H5Pencode2() encodes the property list \p plist_id into the
* binary buffer \p buf, according to the file format setting
* specified by the file access property list \p fapl_id.
*
* If the required buffer size is unknown, \p buf can be passed
* in as NULL and the function will set the required buffer size
* in \p nalloc. The buffer can then be created and the property
* list encoded with a subsequent H5Pencode2() call.
*
* If the buffer passed in is not big enough to hold the encoded
* properties, the H5Pencode2() call can be expected to fail with
* a segmentation fault.
*
* The file access property list \p fapl_id is used to
* control the encoding via the \a libver_bounds property
* (see H5Pset_libver_bounds()). If the \a libver_bounds
* property is missing, H5Pencode2() proceeds as if the \a
* libver_bounds property were set to (#H5F_LIBVER_EARLIEST,
* #H5F_LIBVER_LATEST). (Functionally, H5Pencode1() is identical to
* H5Pencode2() with \a libver_bounds set to (#H5F_LIBVER_EARLIEST,
* #H5F_LIBVER_LATEST).)
* Properties that do not have encode callbacks will be skipped.
* There is currently no mechanism to register an encode callback for
* a user-defined property, so user-defined properties cannot currently
* be encoded.
*
* Some properties cannot be encoded, particularly properties that are
* reliant on local context.
*
* \b Motivation:
* This function was introduced in HDF5-1.12 as part of the \a H5Sencode
* format change to enable 64-bit selection encodings and a dataspace
* selection that is tied to a file.
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Pencode2(hid_t plist_id, void *buf, size_t *nalloc, hid_t fapl_id);
/**
* \ingroup PLCRA
*
* \brief Compares two property lists or classes for equality
*
* \param[in] id1 First property object to be compared
* \param[in] id2 Second property object to be compared
*
* \return \htri_t
*
* \details H5Pequal() compares two property lists or classes to determine
* whether they are equal to one another.
*
* Either both \p id1 and \p id2 must be property lists or both
* must be classes; comparing a list to a class is an error.
*
* \since 1.4.0
*
*/
H5_DLL htri_t H5Pequal(hid_t id1, hid_t id2);
/**
* \ingroup PLCRA
*
* \brief Queries whether a property name exists in a property list or
* class
*
* \param[in] plist_id Identifier for the property list or class to query
* \param[in] name Name of property to check for
*
* \return \htri_t
*
* \details H5Pexist() determines whether a property exists within a
* property list or class.
*
* \since 1.4.0
*
*/
H5_DLL htri_t H5Pexist(hid_t plist_id, const char *name);
/**
* \ingroup PLCRA
*
* \brief Queries the value of a property
*
* \plist_id
* \param[in] name Name of property to query
* \param[out] value Pointer to a location to which to copy the value of
* the property
*
* \return \herr_t
*
* \details H5Pget() retrieves a copy of the value for a property in a
* property list. If there is a \p get callback routine registered
* for this property, the copy of the value of the property will
* first be passed to that routine and any changes to the copy of
* the value will be used when returning the property value from
* this routine.
*
* This routine may be called for zero-sized properties with the
* \p value set to NULL. The \p get routine will be called with
* a NULL value if the callback exists.
*
* The property name must exist or this routine will fail.
*
* If the \p get callback routine returns an error, \ value will
* not be modified.
*
* \since 1.4.0
*
*/
H5_DLL herr_t H5Pget(hid_t plist_id, const char *name, void *value);
/**
* \ingroup PLCR
*
* \brief Returns the property list class identifier for a property list
*
* \plist_id
*
* \return \hid_t{property list class}
*
* \details H5Pget_class() returns the property list class identifier for
* the property list identified by the \p plist_id parameter.
*
* Note that H5Pget_class() returns a value of #hid_t type, an
* internal HDF5 identifier, rather than directly returning a
* property list class. That identifier can then be used with
* either H5Pequal() or H5Pget_class_name() to determine which
* predefined HDF5 property list class H5Pget_class() has returned.
*
* A full list of valid predefined property list classes appears
* in the description of H5Pcreate().
*
* Determining the HDF5 property list class name with H5Pequal()
* requires a series of H5Pequal() calls in an if-else sequence.
* An iterative sequence of H5Pequal() calls can compare the
* identifier returned by H5Pget_class() to members of the list of
* valid property list class names. A pseudo-code snippet might
* read as follows:
*
* \code
* plist_class_id = H5Pget_class (dsetA_plist);
*
* if H5Pequal (plist_class_id, H5P_OBJECT_CREATE) = TRUE;
* [ H5P_OBJECT_CREATE is the property list class ]
* [ returned by H5Pget_class. ]
*
* else if H5Pequal (plist_class_id, H5P_DATASET_CREATE) = TRUE;
* [ H5P_DATASET_CREATE is the property list class. ]
*
* else if H5Pequal (plist_class_id, H5P_DATASET_XFER) = TRUE;
* [ H5P_DATASET_XFER is the property list class. ]
*
* .
* . [ Continuing the iteration until a match is found. ]
* .
* \endcode
*
* H5Pget_class_name() returns the property list class name directly
* as a string:
*
* \code
* plist_class_id = H5Pget_class (dsetA_plist);
* plist_class_name = H5Pget_class_name (plist_class_id)
* \endcode
*
* Note that frequent use of H5Pget_class_name() can become a
* performance problem in a high-performance environment. The
* H5Pequal() approach is generally much faster.
*
* \version 1.6.0 Return type changed in this release.
* \since 1.0.0
*
*/
H5_DLL hid_t H5Pget_class(hid_t plist_id);
/**
* \ingroup PLCRA
*
* \brief Retrieves the name of a class
*
* \plistcls_id{pclass_id}
*
* \return Returns a pointer to an allocated string containing the class
* name if successful, and NULL if not successful.
*
* \details H5Pget_class_name() retrieves the name of a generic property
* list class. The pointer to the name must be freed by the user
* with a call to H5free_memory() after each successful call.
*
* <table>
* <tr>
* <th>Class Name (class identifier) Returned</th>
* <th>Property List Class</th>
* <th>Expanded Name of the Property List Class</th>
* <th>The Class Identifier Used with H5Pcreate</th>
* <th>Comments</th>
* </tr>
* <tr>
* <td>attribute create</td>
* <td>acpl</td>
* <td>Attribute Creation Property List</td>
* <td>H5P_ATTRIBUTE_CREATE</td>
* <td> </td>
* </tr>
* <tr>
* <td>dataset access</td>
* <td>dapl</td>
* <td>Dataset Access Property List</td>
* <td>H5P_DATASET_ACCESS</td>
* <td> </td>
* </tr>
* <tr>
* <td>dataset create</td>
* <td>dcpl</td>
* <td>Dataset Creation Property List</td>
* <td>H5P_DATASET_CREATE</td>
* <td> </td>
* </tr>
* <tr>
* <td>data transfer</td>
* <td>dxpl</td>
* <td>Data Transfer Property List</td>
* <td>H5P_DATASET_XFER</td>
* <td> </td>
* </tr>
* <tr>
* <td>datatype access</td>
* <td> </td>
* <td> </td>
* <td>H5P_DATATYPE_ACCESS</td>
* <td>This class can be created, but there are no properties
* in the class currently.
* </td>
* </tr>
* <tr>
* <td>datatype create</td>
* <td> </td>
* <td> </td>
* <td>H5P_DATATYPE_CREATE</td>
* <td>This class can be created, but there
* are no properties in the class currently.</td>
* </tr>
* <tr>
* <td>file access</td>
* <td>fapl</td>
* <td>File Access Property List</td>
* <td>H5P_FILE_ACCESS</td>
* <td> </td>
* </tr>
* <tr>
* <td>file create</td>
* <td>fcpl</td>
* <td>File Creation Property List</td>
* <td>H5P_FILE_CREATE</td>
* <td> </td>
* </tr>
* <tr>
* <td>file mount</td>
* <td>fmpl</td>
* <td>File Mount Property List</td>
* <td>H5P_FILE_MOUNT</td>
* <td> </td>
* </tr>
* <tr>
* <td>group access</td>
* <td> </td>
* <td> </td>
* <td>H5P_GROUP_ACCESS</td>
* <td>This class can be created, but there
* are no properties in the class currently.</td>
* </tr>
* <tr>
* <td>group create</td>
* <td>gcpl</td>
* <td>Group Creation Property List</td>
* <td>H5P_GROUP_CREATE</td>
* <td> </td>
* </tr>
* <tr>
* <td>link access</td>
* <td>lapl</td>
* <td>Link Access Property List</td>
* <td>H5P_LINK_ACCESS</td>
* <td> </td>
* </tr>
* <tr>
* <td>link create</td>
* <td>lcpl</td>
* <td>Link Creation Property List</td>
* <td>H5P_LINK_CREATE</td>
* <td> </td>
* </tr>
* <tr>
* <td>object copy</td>
* <td>ocpypl</td>
* <td>Object Copy Property List</td>
* <td>H5P_OBJECT_COPY</td>
* <td> </td>
* </tr>
* <tr>
* <td>object create</td>
* <td>ocpl</td>
* <td>Object Creation Property List</td>
* <td>H5P_OBJECT_CREATE</td>
* <td> </td>
* </tr>
* <tr>
* <td>string create</td>
* <td>strcpl</td>
* <td>String Creation Property List</td>
* <td>H5P_STRING_CREATE</td>
* <td> </td>
* </tr>
* </table>
*
* \since 1.4.0
*
*/
H5_DLL char *H5Pget_class_name(hid_t pclass_id);
/**
* \ingroup PLCRA
*
* \brief Retrieves the parent class of a property class
*
* \plistcls_id{pclass_id}
*
* \return \hid_t{parent class object}
*
* \details H5Pget_class_parent() retrieves an identifier for the parent
* class of a property class.
*
* \since 1.4.0
*
*/
H5_DLL hid_t H5Pget_class_parent(hid_t pclass_id);
/**
* \ingroup PLCRA
*
* \brief Queries the number of properties in a property list or class
*
* \param[in] id Identifier for property object to query
* \param[out] nprops Number of properties in object
*
* \return \herr_t
*
* \details H5Pget_nprops() retrieves the number of properties in a
* property list or property list class.
*
* If \p id is a property list identifier, the current number of
* properties in the list is returned in \p nprops.
*
* If \p id is a property list class identifier, the number of
* registered properties in the class is returned in \p nprops.
*
* \since 1.4.0
*
*/
H5_DLL herr_t H5Pget_nprops(hid_t id, size_t *nprops);
/**
* \ingroup PLCRA
*
* \brief Queries the size of a property value in bytes
*
* \param[in] id Identifier of property object to query
* \param[in] name Name of property to query
* \param[out] size Size of property in bytes
*
* \return \herr_t
*
* \details H5Pget_size() retrieves the size of a property's value in
* bytes. This function operates on both property lists and
* property classes.
*
* Zero-sized properties are allowed and return 0.
*
* \since 1.4.0
*
*/
H5_DLL herr_t H5Pget_size(hid_t id, const char *name, size_t *size);
/**
* \ingroup PLCRA
*
* \brief Registers a temporary property with a property list
*
* \plist_id
* \param[in] name Name of property to create
* \param[in] size Size of property in bytes
* \param[in] value Initial value for the property
* \param[in] set Callback routine called before a new value is copied
* into the property's value
* \param[in] get Callback routine called when a property value is
* retrieved from the property
* \param[in] prp_del Callback routine called when a property is deleted
* from a property list
* \param[in] copy Callback routine called when a property is copied
* from an existing property list
* \param[in] compare Callback routine called when a property is compared
* with another property list
* \param[in] close Callback routine called when a property list is
* being closed and the property value will be disposed
* of
*
* \return \herr_t
*
* \details H5Pinsert2() creates a new property in a property
* list. The property will exist only in this property list and
* copies made from it.
*
* The initial property value must be provided in \p value and
* the property value will be set accordingly.
*
* The name of the property must not already exist in this list,
* or this routine will fail.
*
* The \p set and \p get callback routines may be set to NULL
* if they are not needed.
*
* Zero-sized properties are allowed and do not store any data
* in the property list. The default value of a zero-size
* property may be set to NULL. They may be used to indicate the
* presence or absence of a particular piece of information.
*
* The \p set routine is called before a new value is copied
* into the property. The #H5P_prp_set_func_t callback function
* is defined as follows:
* \snippet this H5P_prp_cb2_t_snip
*
* The parameters to the callback function are defined as follows:
* <table>
* <tr>
* <td>\ref hid_t \c prop_id</td>
* <td>IN: The identifier of the property list being
* modified</td>
* </tr>
* <tr>
* <td>\Code{const char * name}</td>
* <td>IN: The name of the property being modified</td>
* </tr>
* <tr>
* <td>\Code{size_t size}</td>
* <td>IN: The size of the property in bytes</td>
* </tr>
* <tr>
* <td>\Code{void * value}</td>
* <td>IN: Pointer to new value pointer for the property
* being modified</td>
* </tr>
* </table>
*
* The \p set routine may modify the value pointer to be set and
* those changes will be used when setting the property's value.
* If the \p set routine returns a negative value, the new property
* value is not copied into the property and the \p set routine
* returns an error value. The \p set routine will be called for
* the initial value.
*
* \b Note: The \p set callback function may be useful to range
* check the value being set for the property or may perform some
* transformation or translation of the value set. The \p get
* callback would then reverse the transformation or translation.
* A single \p get or \p set callback could handle multiple
* properties by performing different actions based on the
* property name or other properties in the property list.
*
* The \p get routine is called when a value is retrieved from
* a property value. The #H5P_prp_get_func_t callback function
* is defined as follows:
*
* \snippet this H5P_prp_cb2_t_snip
*
* The parameters to the above callback function are:
*
* <table>
* <tr>
* <td>\ref hid_t \c prop_id</td>
* <td>IN: The identifier of the property list being queried</td>
* </tr>
* <tr>
* <td>\Code{const char * name}</td>
* <td>IN: The name of the property being queried</td>
* </tr>
* <tr>
* <td>\Code{size_t size}</td>
* <td>IN: The size of the property in bytes</td>
* </tr>
* <tr>
* <td>\Code{void * value}</td>
* <td>IN: The value of the property being returned</td>
* </tr>
* </table>
*
* The \p get routine may modify the value to be returned from
* the query and those changes will be preserved. If the \p get
* routine returns a negative value, the query routine returns
* an error value.
*
* The \p prp_del routine is called when a property is being
* deleted from a property list. The #H5P_prp_delete_func_t
* callback function is defined as follows:
*
* \snippet this H5P_prp_cb2_t_snip
*
* The parameters to the above callback function are:
*
* <table>
* <tr>
* <td>\ref hid_t \c prop_id</td>
* <td>IN: The identifier of the property list the property is
* being deleted from</td>
* </tr>
* <tr>
* <td>\Code{const char * name}</td>
* <td>IN: The name of the property in the list</td>
* </tr>
* <tr>
* <td>\Code{size_t size}</td>
* <td>IN: The size of the property in bytes</td>
* </tr>
* <tr>
* <td>\Code{void * value}</td>
* <td>IN: The value for the property being deleted</td>
* </tr>
* </table>
*
* The \p prp_del routine may modify the value passed in, but the
* value is not used by the library when the \p prp_del routine
* returns. If the \p prp_del routine returns a negative value,
* the property list \p prp_del routine returns an error value but
* the property is still deleted.
*
* The \p copy routine is called when a new property list with
* this property is being created through a \p copy operation.
*
* The #H5P_prp_copy_func_t callback function is defined as follows:
*
* \snippet this H5P_prp_cb1_t_snip
*
* The parameters to the above callback function are:
* <table>
* <tr>
* <td>\Code{const char * name}</td>
* <td>IN: The name of the property being copied</td>
* </tr>
* <tr>
* <td>\Code{size_t size}</td>
* <td>IN: The size of the property in bytes</td>
* </tr>
* <tr>
* <td>\Code{void * value}</td>
* <td>IN/OUT: The value for the property being copied</td>
* </tr>
* </table>
*
* The \p copy routine may modify the value to be set and those
* changes will be stored as the new value of the property. If the
* \p copy routine returns a negative value, the new property value
* is not copied into the property and the copy routine returns an
* error value.
*
* The \p compare routine is called when a property list with this
* property is compared to another property list with the same
* property.
*
* The #H5P_prp_compare_func_t callback function is defined as
* follows:
*
* \snippet this H5P_prp_compare_func_t_snip
*
* The parameters to the callback function are defined as follows:
*
* <table>
* <tr>
* <td>\Code{const void * value1}</td>
* <td>IN: The value of the first property to compare</td>
* </tr>
* <tr>
* <td>\Code{const void * value2}</td>
* <td>IN: The value of the second property to compare</td>
* </tr>
* <tr>
* <td>\Code{size_t size}</td>
* <td>IN: The size of the property in bytes</td>
* </tr>
* </table>
*
* The \p compare routine may not modify the values. The \p compare
* routine should return a positive value if \p value1 is greater
* than \p value2, a negative value if \p value2 is greater than
* \p value1 and zero if \p value1 and \p value2 are equal.
*
* The \p close routine is called when a property list with this
* property is being closed.
*
* The #H5P_prp_close_func_t callback function is defined as follows:
* \snippet this H5P_prp_cb1_t_snip
*
* The parameters to the callback function are defined as follows:
*
* <table>
* <tr>
* <td>\Code{const char * name}</td>
* <td>IN: The name of the property in the list</td>
* </tr>
* <tr>
* <td>\Code{size_t size}</td>
* <td>IN: The size of the property in bytes</td>
* </tr>
* <tr>
* <td>\Code{void * value}</td>
* <td>IN: The value for the property being closed</td>
* </tr>
* </table>
*
* The \p close routine may modify the value passed in, the
* value is not used by the library when the close routine
* returns. If the \p close routine returns a negative value,
* the property list \p close routine returns an error value
* but the property list is still closed.
*
* \b Note: There is no \p create callback routine for temporary
* property list objects; the initial value is assumed to
* have any necessary setup already performed on it.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pinsert2(hid_t plist_id, const char *name, size_t size, void *value, H5P_prp_set_func_t set,
H5P_prp_get_func_t get, H5P_prp_delete_func_t prp_del, H5P_prp_copy_func_t copy,
H5P_prp_compare_func_t compare, H5P_prp_close_func_t close);
/**
* \ingroup PLCRA
*
* \brief Determines whether a property list is a member of a class
*
* \plist_id
* \plistcls_id{pclass_id}
*
* \return \htri_t
*
* \details H5Pisa_class() checks to determine whether the property list
* \p plist_id is a member of the property list class
* \p pclass_id.
*
* \see H5Pcreate()
*
* \since 1.6.0
*
*/
H5_DLL htri_t H5Pisa_class(hid_t plist_id, hid_t pclass_id);
/**
* \ingroup PLCRA
*
* \brief Iterates over properties in a property class or list
*
* \param[in] id Identifier of property object to iterate over
* \param[in,out] idx Index of the property to begin with
* \param[in] iter_func Function pointer to function to be called
* with each property iterated over
* \param[in,out] iter_data Pointer to iteration data from user
*
* \return On success: the return value of the last call to \p iter_func if
* it was non-zero; zero if all properties have been processed.
* On Failure, a negative value
*
* \details H5Piterate() iterates over the properties in the property
* object specified in \p id, which may be either a property
* list or a property class, performing a specified operation
* on each property in turn.
*
* For each property in the object, \p iter_func and the
* additional information specified below are passed to the
* #H5P_iterate_t operator function.
*
* The iteration begins with the \p idx-th property in the
* object; the next element to be processed by the operator
* is returned in \p idx. If \p idx is NULL, the iterator
* starts at the first property; since no stopping point is
* returned in this case, the iterator cannot be restarted if
* one of the calls to its operator returns non-zero.
*
* The operation \p iter_func receives the property list or class
* identifier for the object being iterated over, \p id, the
* name of the current property within the object, \p name,
* and the pointer to the operator data passed in to H5Piterate(),
* \p iter_data.
*
* \warning H5Piterate() assumes that the properties in the object
* identified by \p id remain unchanged through the iteration.
* If the membership changes during the iteration, the function's
* behavior is undefined.
*
* \since 1.4.0
*
*/
H5_DLL int H5Piterate(hid_t id, int *idx, H5P_iterate_t iter_func, void *iter_data);
/**
* \ingroup PLCRA
*
* \brief Registers a permanent property with a property list class
*
* \plistcls_id{cls_id}
* \param[in] name Name of property to register
* \param[in] size Size of property in bytes
* \param[in] def_value Default value for property in newly created
* property lists
* \param[in] create Callback routine called when a property list is
* being created and the property value will be
* initialized
* \param[in] set Callback routine called before a new value is
* copied into the property's value
* \param[in] get Callback routine called when a property value is
* retrieved from the property
* \param[in] prp_del Callback routine called when a property is deleted
* from a property list
* \param[in] copy Callback routine called when a property is copied
* from a property list
* \param[in] compare Callback routine called when a property is compared
* with another property list
* \param[in] close Callback routine called when a property list is
* being closed and the property value will be
* disposed of
*
* \return \herr_t
*
* \details H5Pregister2() registers a new property with a property list
* class. The \p cls_id identifier can be obtained by calling
* H5Pcreate_class(). The property will exist in all property
* list objects of \p cl_id created after this routine finishes. The
* name of the property must not already exist, or this routine
* will fail. The default property value must be provided and all
* new property lists created with this property will have the
* property value set to the default value. Any of the callback
* routines may be set to NULL if they are not needed.
*
* Zero-sized properties are allowed and do not store any data in
* the property list. These may be used as flags to indicate the
* presence or absence of a particular piece of information. The
* default pointer for a zero-sized property may be set to NULL.
* The property \p create and \p close callbacks are called for
* zero-sized properties, but the \p set and \p get callbacks are
* never called.
*
* The \p create routine is called when a new property list with
* this property is being created. The #H5P_prp_create_func_t
* callback function is defined as follows:
*
* \snippet this H5P_prp_cb1_t_snip
*
* The parameters to this callback function are defined as follows:
*
* <table>
* <tr>
* <td>\Code{const char * name}</td>
* <td>IN: The name of the property being modified</td>
* </tr>
* <tr>
* <td>\Code{size_t size}</td>
* <td>IN: The size of the property in bytes</td>
* </tr>
* <tr>
* <td>\Code{void * value}</td>
* <td>IN/OUT: The default value for the property being created,
* which will be passed to H5Pregister2()</td>
* </tr>
* </table>
*
* The \p create routine may modify the value to be set and those
* changes will be stored as the initial value of the property.
* If the \p create routine returns a negative value, the new
* property value is not copied into the property and the
* \p create routine returns an error value.
*
* The \p set routine is called before a new value is copied into
* the property. The #H5P_prp_set_func_t callback function is defined
* as follows:
*
* \snippet this H5P_prp_cb2_t_snip
*
* The parameters to this callback function are defined as follows:
*
* <table>
* <tr>
* <td>\ref hid_t \c prop_id</td>
* <td>IN: The identifier of the property list being modified</td>
* </tr>
* <tr>
* <td>\Code{const char * name}</td>
* <td>IN: The name of the property being modified</td>
* </tr>
* <tr>
* <td>\Code{size_t size}</td>
* <td>IN: The size of the property in bytes</td>
* </tr>
* <tr>
* <td>\Code{void *value}</td>
* <td>IN/OUT: Pointer to new value pointer for the property
* being modified</td>
* </tr>
* </table>
*
* The \p set routine may modify the value pointer to be set and
* those changes will be used when setting the property's value.
* If the \p set routine returns a negative value, the new property
* value is not copied into the property and the \p set routine
* returns an error value. The \p set routine will not be called
* for the initial value; only the \p create routine will be called.
*
* \b Note: The \p set callback function may be useful to range
* check the value being set for the property or may perform some
* transformation or translation of the value set. The \p get
* callback would then reverse the transformation or translation.
* A single \p get or \p set callback could handle multiple
* properties by performing different actions based on the property
* name or other properties in the property list.
*
* The \p get routine is called when a value is retrieved from a
* property value. The #H5P_prp_get_func_t callback function is
* defined as follows:
*
* \snippet this H5P_prp_cb2_t_snip
*
* The parameters to the callback function are defined as follows:
*
* <table>
* <tr>
* <td>\ref hid_t \c prop_id</td>
* <td>IN: The identifier of the property list being
* queried</td>
* </tr>
* <tr>
* <td>\Code{const char * name}</td>
* <td>IN: The name of the property being queried</td>
* </tr>
* <tr>
* <td>\Code{size_t size}</td>
* <td>IN: The size of the property in bytes</td>
* </tr>
* <tr>
* <td>\Code{void * value}</td>
* <td>IN/OUT: The value of the property being returned</td>
* </tr>
* </table>
*
* The \p get routine may modify the value to be returned from the
* query and those changes will be returned to the calling routine.
* If the \p set routine returns a negative value, the query
* routine returns an error value.
*
* The \p prp_del routine is called when a property is being
* deleted from a property list. The #H5P_prp_delete_func_t
* callback function is defined as follows:
*
* \snippet this H5P_prp_cb2_t_snip
*
* The parameters to the callback function are defined as follows:
*
* <table>
* <tr>
* <td>\ref hid_t \c prop_id</td>
* <td>IN: The identifier of the property list the property is
* being deleted from</td>
* </tr>
* <tr>
* <td>\Code{const char * name}</td>
* <td>IN: The name of the property in the list</td>
* </tr>
* <tr>
* <td>\Code{size_t size}</td>
* <td>IN: The size of the property in bytes</td>
* </tr>
* <tr>
* <td>\Code{void * value}</td>
* <td>IN: The value for the property being deleted</td>
* </tr>
* </table>
*
* The \p prp_del routine may modify the value passed in, but the
* value is not used by the library when the \p prp_del routine
* returns. If the \p prp_del routine returns a negative value,
* the property list delete routine returns an error value but
* the property is still deleted.
*
* The \p copy routine is called when a new property list with
* this property is being created through a \p copy operation.
* The #H5P_prp_copy_func_t callback function is defined as follows:
*
* \snippet this H5P_prp_cb1_t_snip
*
* The parameters to the callback function are defined as follows:
*
* <table>
* <tr>
* <td>\Code{const char * name}</td>
* <td>IN: The name of the property being copied</td>
* </tr>
* <tr>
* <td>\Code{size_t size}</td>
* <td>IN: The size of the property in bytes</td>
* </tr>
* <tr>
* <td>\Code{void * value}</td>
* <td>IN/OUT: The value for the property being copied</td>
* </tr>
* </table>
*
* The \p copy routine may modify the value to be set and those
* changes will be stored as the new value of the property. If
* the \p copy routine returns a negative value, the new
* property value is not copied into the property and the \p copy
* routine returns an error value.
*
* The \p compare routine is called when a property list with this
* property is compared to another property list with the same
* property. The #H5P_prp_compare_func_t callback function is
* defined as follows:
*
* \snippet this H5P_prp_compare_func_t_snip
*
* The parameters to the callback function are defined as follows:
*
* <table>
* <tr>
* <td>\Code{const void * value1}</td>
* <td>IN: The value of the first property to compare</td>
* </tr>
* <tr>
* <td>\Code{const void * value2}</td>
* <td>IN: The value of the second property to compare</td>
* </tr>
* <tr>
* <td>\Code{size_t size}</td>
* <td>IN: The size of the property in bytes</td>
* </tr>
* </table>
*
* The \p compare routine may not modify the values. The \p compare
* routine should return a positive value if \p value1 is greater
* than \p value2, a negative value if \p value2 is greater than
* \p value1 and zero if \p value1 and \p value2 are equal.
*
* The \p close routine is called when a property list with this
* property is being closed. The #H5P_prp_close_func_t callback
* function is defined as follows:
*
* \snippet this H5P_prp_cb1_t_snip
*
* The parameters to the callback function are defined as follows:
*
* <table>
* <tr>
* <td>\Code{const char * name}</td>
* <td>IN: The name of the property in the list</td>
* </tr>
* <tr>
* <td>\Code{size_t size}</td>
* <td>IN: The size of the property in bytes</td>
* </tr>
* <tr>
* <td>\Code{void * value}</td>
* <td>IN: The value for the property being closed</td>
* </tr>
* </table>
*
* The \p close routine may modify the value passed in, but the
* value is not used by the library when the \p close routine returns.
* If the \p close routine returns a negative value, the property
* list close routine returns an error value but the property list is
* still closed.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pregister2(hid_t cls_id, const char *name, size_t size, void *def_value,
H5P_prp_create_func_t create, H5P_prp_set_func_t set, H5P_prp_get_func_t get,
H5P_prp_delete_func_t prp_del, H5P_prp_copy_func_t copy,
H5P_prp_compare_func_t compare, H5P_prp_close_func_t close);
/**
* \ingroup PLCRA
*
* \brief Removes a property from a property list
*
* \plist_id
* \param[in] name Name of property to remove
*
* \return \herr_t
*
* \details H5Premove() removes a property from a property list. Both
* properties which were in existence when the property list was
* created (i.e. properties registered with H5Pregister()) and
* properties added to the list after it was created (i.e. added
* with H5Pinsert1() may be removed from a property list.
* Properties do not need to be removed from a property list
* before the list itself is closed; they will be released
* automatically when H5Pclose() is called.
*
* If a \p close callback exists for the removed property, it
* will be called before the property is released.
*
* \since 1.4.0
*
*/
H5_DLL herr_t H5Premove(hid_t plist_id, const char *name);
/**
* \ingroup PLCRA
*
* \brief Sets a property list value
*
* \plist_id
* \param[in] name Name of property to modify
* \param[in] value Pointer to value to set the property to
*
* \return \herr_t
*
* \details H5Pset() sets a new value for a property in a property list.
* If there is a \p set callback routine registered for this
* property, the \p value will be passed to that routine and any
* changes to the \p value will be used when setting the property
* value. The information pointed to by the \p value pointer
* (possibly modified by the \p set callback) is copied into the
* property list value and may be changed by the application
* making the H5Pset() call without affecting the property value.
*
* The property name must exist or this routine will fail.
*
* If the \p set callback routine returns an error, the property
* value will not be modified.
*
* This routine may not be called for zero-sized properties and
* will return an error in that case.
*
* \since 1.4.0
*
*/
H5_DLL herr_t H5Pset(hid_t plist_id, const char *name, const void *value);
/**
* \ingroup PLCRA
*
* \brief Removes a property from a property list class
*
* \plistcls_id{pclass_id}
* \param[in] name Name of property to remove
*
* \return \herr_t
*
* \details H5Punregister() removes a property from a property list class.
* Future property lists created of that class will not contain
* this property; existing property lists containing this property
* are not affected.
*
* \since 1.4.0
*
*/
H5_DLL herr_t H5Punregister(hid_t pclass_id, const char *name);
/**
* \ingroup DCPL
*
* \brief Verifies that all required filters are available
*
* \plist_id
*
* \return \htri_t
*
* \details H5Pall_filters_avail() verifies that all of the filters set in
* the dataset or group creation property list \p plist_id are
* currently available.
*
* \version 1.8.5 Function extended to work with group creation property
* lists.
* \since 1.6.0
*
*/
H5_DLL htri_t H5Pall_filters_avail(hid_t plist_id);
/* Object creation property list (OCPL) routines */
/**
* \ingroup OCPL
*
* \brief Retrieves tracking and indexing settings for attribute creation
* order
*
* \plist_id
* \param[out] crt_order_flags Flags specifying whether to track and
* index attribute creation order
*
* \return \herr_t
*
* \details H5Pget_attr_creation_order() retrieves the settings for
* tracking and indexing attribute creation order on an object.
*
* \p plist_id is an object creation property list (\p ocpl),
* as it can be a dataset or group creation property list
* identifier. The term \p ocpl is used when different types
* of objects may be involved.
*
* \p crt_order_flags returns flags with the following meanings:
*
* <table>
* <tr>
* <td>#H5P_CRT_ORDER_TRACKED</td>
* <td>Attribute creation order is tracked but not necessarily
* indexed.</td>
* </tr>
* <tr>
* <td>#H5P_CRT_ORDER_INDEXED </td>
* <td>Attribute creation order is indexed (requires
* #H5P_CRT_ORDER_TRACKED).</td>
* </tr>
* </table>
*
* If \p crt_order_flags is returned with a value of 0 (zero),
* attribute creation order is neither tracked nor indexed.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_attr_creation_order(hid_t plist_id, unsigned *crt_order_flags);
/**
* \ingroup OCPL
*
* \brief Retrieves attribute storage phase change thresholds
*
* \plist_id
* \param[out] max_compact Maximum number of attributes to be stored in
* compact storage (Default: 8)
* \param[out] min_dense Minimum number of attributes to be stored in
* dense storage (Default: 6)
*
* \return \herr_t
*
* \details H5Pget_attr_phase_change() retrieves threshold values for
* attribute storage on an object. These thresholds determine the
* point at which attribute storage changes from compact storage
* (i.e., storage in the object header) to dense storage (i.e.,
* storage in a heap and indexed with a B-tree).
*
* In the general case, attributes are initially kept in compact
* storage. When the number of attributes exceeds \p max_compact,
* attribute storage switches to dense storage. If the number of
* attributes subsequently falls below \p min_dense, the
* attributes are returned to compact storage.
*
* If \p max_compact is set to 0 (zero), dense storage always used.
*
* \p plist_id is an object creation property list (\p ocpl), as it
* can be a dataset or group creation property list identifier.
* The term \p ocpl is used when different types of objects may be
* involved.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_attr_phase_change(hid_t plist_id, unsigned *max_compact, unsigned *min_dense);
/**
* \ingroup OCPL
*
* \brief Returns information about a filter in a pipeline
*
* \ocpl_id{plist_id}
* \param[in] idx Sequence number within the filter pipeline of the filter
* for which information is sought
* \param[out] flags Bit vector specifying certain general properties of the
* filter
* \param[in,out] cd_nelmts Number of elements in \p cd_values
* \param[out] cd_values Auxiliary data for the filter
* \param[in] namelen Anticipated number of characters in \p name
* \param[out] name Name of the filter
* \param[out] filter_config Bit field, as described in H5Zget_filter_info()
*
* \return Returns a negative value on failure, and the filter identifier
* if successful (see #H5Z_filter_t):
* - #H5Z_FILTER_DEFLATE Data compression filter,
* employing the gzip algorithm
* - #H5Z_FILTER_SHUFFLE Data shuffling filter
* - #H5Z_FILTER_FLETCHER32 Error detection filter, employing the
* Fletcher32 checksum algorithm
* - #H5Z_FILTER_SZIP Data compression filter, employing the
* SZIP algorithm
* - #H5Z_FILTER_NBIT Data compression filter, employing the
* N-bit algorithm
* - #H5Z_FILTER_SCALEOFFSET Data compression filter, employing the
* scale-offset algorithm
*
* \details H5Pget_filter2() returns information about a filter specified by
* its filter number, in a filter pipeline specified by the property
* list with which it is associated.
*
* \p plist_id must be a dataset or group creation property list.
*
* \p idx is a value between zero and N-1, as described in
* H5Pget_nfilters(). The function will return a negative value if
* the filter number is out of range.
*
* The structure of the \p flags argument is discussed in
* H5Pset_filter().
*
* On input, \p cd_nelmts indicates the number of entries in the
* \p cd_values array, as allocated by the caller; on return,
* \p cd_nelmts contains the number of values defined by the filter.
*
* If \p name is a pointer to an array of at least \p namelen bytes,
* the filter name will be copied into that array. The name will be
* null terminated if \p namelen is large enough. The filter name
* returned will be the name appearing in the file, the name
* registered for the filter, or an empty string.
*
* \p filter_config is the bit field described in
* H5Zget_filter_info().
*
* \version 1.8.5 Function extended to work with group creation property
* lists.
* \since 1.8.0
*
*/
H5_DLL H5Z_filter_t H5Pget_filter2(hid_t plist_id, unsigned idx, unsigned int *flags /*out*/,
size_t *cd_nelmts /*out*/, unsigned cd_values[] /*out*/, size_t namelen,
char name[], unsigned *filter_config /*out*/);
/**
* \ingroup OCPL
*
* \brief Returns information about the specified filter
*
* \ocpl_id{plist_id}
* \param[in] filter_id Filter identifier
* \param[out] flags Bit vector specifying certain general
* properties of the filter
* \param[in,out] cd_nelmts Number of elements in \p cd_values
* \param[out] cd_values[] Auxiliary data for the filter
* \param[in] namelen Length of filter name and number of
* elements in \p name
* \param[out] name[] Name of filter
* \param[out] filter_config Bit field, as described in
* H5Zget_filter_info()
*
* \return \herr_t
*
* \details H5Pget_filter_by_id2() returns information about the filter
* specified in \p filter_id, a filter identifier.
*
* \p plist_id must be a dataset or group creation property list
* and \p filter_id must be in the associated filter pipeline.
*
* The \p filter_id and \p flags parameters are used in the same
* manner as described in the discussion of H5Pset_filter().
*
* Aside from the fact that they are used for output, the
* parameters \p cd_nelmts and \p cd_values[] are used in the same
* manner as described in the discussion of H5Pset_filter(). On
* input, the \p cd_nelmts parameter indicates the number of
* entries in the \p cd_values[] array allocated by the calling
* program; on exit it contains the number of values defined by
* the filter.
*
* On input, the \p namelen parameter indicates the number of
* characters allocated for the filter name by the calling program
* in the array \p name[]. On exit \p name[] contains the name of the
* filter with one character of the name in each element of the
* array.
*
* \p filter_config is the bit field described in
* H5Zget_filter_info().
*
* If the filter specified in \p filter_id is not set for the
* property list, an error will be returned and
* H5Pget_filter_by_id2() will fail.
*
* \version 1.8.5 Function extended to work with group creation property
* lists.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_filter_by_id2(hid_t plist_id, H5Z_filter_t filter_id, unsigned int *flags /*out*/,
size_t *cd_nelmts /*out*/, unsigned cd_values[] /*out*/, size_t namelen,
char name[] /*out*/, unsigned *filter_config /*out*/);
/**
* \ingroup OCPL
*
* \brief Returns the number of filters in the pipeline
*
* \ocpl_id{plist_id}
*
* \return Returns the number of filters in the pipeline if successful;
* otherwise returns a negative value.
*
* \details H5Pget_nfilters() returns the number of filters defined in the
* filter pipeline associated with the property list \p plist_id.
*
* In each pipeline, the filters are numbered from 0 through \Code{N-1},
* where \c N is the value returned by this function. During output to
* the file, the filters are applied in increasing order; during
* input from the file, they are applied in decreasing order.
*
* H5Pget_nfilters() returns the number of filters in the pipeline,
* including zero (0) if there are none.
*
* \since 1.0.0
*
*/
H5_DLL int H5Pget_nfilters(hid_t plist_id);
/**
* \ingroup OCPL
*
* \brief Determines whether times associated with an object
* are being recorded
*
* \plist_id
* \param[out] track_times Boolean value, 1 (TRUE) or 0 (FALSE),
* specifying whether object times are being recorded
*
* \return \herr_t
*
* \details H5Pget_obj_track_times() queries the object creation property
* list, \p plist_id, to determine whether object times are being
* recorded.
*
* If \p track_times is returned as 1, times are being recorded;
* if \p track_times is returned as 0, times are not being
* recorded.
*
* Time data can be retrieved with H5Oget_info(), which will return
* it in the #H5O_info_t struct.
*
* If times are not tracked, they will be reported as follows
* when queried: 12:00 AM UDT, Jan. 1, 1970
*
* See H5Pset_obj_track_times() for further discussion.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_obj_track_times(hid_t plist_id, hbool_t *track_times);
/**
* \ingroup OCPL
*
* \brief Modifies a filter in the filter pipeline
*
* \ocpl_id{plist_id}
* \param[in] filter Filter to be modified
* \param[in] flags Bit vector specifying certain general properties
* of the filter
* \param[in] cd_nelmts Number of elements in \p cd_values
* \param[in] cd_values[] Auxiliary data for the filter
*
* \return \herr_t
*
* \details H5Pmodify_filter() modifies the specified \p filter in the
* filter pipeline. \p plist_id must be a dataset or group
* creation property list.
*
* The \p filter, \p flags \p cd_nelmts[], and \p cd_values
* parameters are used in the same manner and accept the same
* values as described in the discussion of H5Pset_filter().
*
* \version 1.8.5 Function extended to work with group creation property
* lists.
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pmodify_filter(hid_t plist_id, H5Z_filter_t filter, unsigned int flags, size_t cd_nelmts,
const unsigned int cd_values[/*cd_nelmts*/]);
/**
* \ingroup OCPL
*
* \brief Delete one or more filters in the filter pipeline
*
* \ocpl_id{plist_id}
* \param[in] filter Filter to be deleted
*
* \return \herr_t
*
* \details H5Premove_filter() removes the specified \p filter from the
* filter pipeline in the dataset or group creation property
* list \p plist_id.
*
* The \p filter parameter specifies the filter to be removed.
* Valid values for use in \p filter are as follows:
*
* <table>
* <tr>
* <td>#H5Z_FILTER_ALL</td>
* <td>Removes all filters from the filter pipeline</td>
* </tr>
* <tr>
* <td>#H5Z_FILTER_DEFLATE</td>
* <td>Data compression filter, employing the gzip
* algorithm</td>
* </tr>
* <tr>
* <td>#H5Z_FILTER_SHUFFLE</td>
* <td>Data shuffling filter</td>
* </tr>
* <tr>
* <td>#H5Z_FILTER_FLETCHER32</td>
* <td>Error detection filter, employing the Fletcher32
* checksum algorithm</td>
* </tr>
* <tr>
* <td>#H5Z_FILTER_SZIP</td>
* <td>Data compression filter, employing the SZIP
* algorithm</td>
* </tr>
* <tr>
* <td>#H5Z_FILTER_NBIT</td>
* <td>Data compression filter, employing the N-Bit
* algorithm</td>
* </tr>
* <tr>
* <td>#H5Z_FILTER_SCALEOFFSET</td>
* <td>Data compression filter, employing the scale-offset
* algorithm</td>
* </tr>
* </table>
*
* Additionally, user-defined filters can be removed with this
* routine by passing the filter identifier with which they were
* registered with the HDF5 library.
*
* Attempting to remove a filter that is not in the filter
* pipeline is an error.
*
* \version 1.8.5 Function extended to work with group creation property
* lists.
* \since 1.6.3
*
*/
H5_DLL herr_t H5Premove_filter(hid_t plist_id, H5Z_filter_t filter);
/**
* \ingroup OCPL
*
* \brief Sets tracking and indexing of attribute creation order
*
* \plist_id
* \param[in] crt_order_flags Flags specifying whether to track and index
* attribute creation order. \em Default: No
* flag set; attribute creation order is neither
* tracked not indexed
*
* \return \herr_t
*
* \details H5Pset_attr_creation_order() sets flags for tracking and
* indexing attribute creation order on an object.
*
* \p plist_id is a dataset or group creation property list
* identifier.
*
* \p crt_order_flags contains flags with the following meanings:
*
* <table>
* <tr>
* <td>#H5P_CRT_ORDER_TRACKED</td>
* <td>Attribute creation order is tracked but not necessarily
* indexed.</td>
* </tr>
* <tr>
* <td>#H5P_CRT_ORDER_INDEXED </td>
* <td>Attribute creation order is indexed (requires
* #H5P_CRT_ORDER_TRACKED).</td>
* </tr>
* </table>
*
* Default behavior is that attribute creation order is neither
* tracked nor indexed.
*
* H5Pset_attr_creation_order() can be used to set attribute
* creation order tracking, or to set attribute creation order
* tracking and indexing.
*
* \note If a creation order index is to be built, it must be specified in
* the object creation property list. HDF5 currently provides no
* mechanism to turn on attribute creation order tracking at object
* creation time and to build the index later.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_attr_creation_order(hid_t plist_id, unsigned crt_order_flags);
/**
* \ingroup OCPL
*
* \brief Sets attribute storage phase change thresholds
*
* \plist_id
* \param[in] max_compact Maximum number of attributes to be stored in
* compact storage (\em Default: 8); must be greater
* than or equal to \p min_dense
*
* \param[in] min_dense Minimum number of attributes to be stored in
* dense storage (\em Default: 6)
*
* \return \herr_t
*
* \details H5Pset_attr_phase_change() sets threshold values for attribute
* storage on an object. These thresholds determine the point at
* which attribute storage changes from compact storage (i.e.,
* storage in the object header) to dense storage (i.e., storage
* in a heap and indexed with a B-tree).
*
* In the general case, attributes are initially kept in compact
* storage. When the number of attributes exceeds \p max_compact,
* attribute storage switches to dense storage. If the number of
* attributes subsequently falls below \p min_dense, the attributes
* are returned to compact storage.
*
* If \p max_compact is set to 0 (zero), dense storage is always
* used. \p min_dense must be set to 0 (zero) when \p max_compact
* is 0 (zero).
*
* \p plist_id is a dataset or group creation property list
* identifier.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_attr_phase_change(hid_t plist_id, unsigned max_compact, unsigned min_dense);
/**
* \ingroup DCPL
*
* \brief Sets deflate (GNU gzip) compression method and compression level
*
* \ocpl_id{plist_id}
* \param[in] level Compression level
*
* \return \herr_t
*
* \par_compr_note
*
* \details H5Pset_deflate() sets the deflate compression method and the
* compression level, \p level, for a dataset or group creation
* property list, \p plist_id.
*
* The filter identifier set in the property list is
* #H5Z_FILTER_DEFLATE.
*
* The compression level, \p level, is a value from zero to nine,
* inclusive. A compression level of 0 (zero) indicates no
* compression; compression improves but speed slows progressively
* from levels 1 through 9:
*
* <table>
* <tr>
* <th>Compression Level</th>
* <th>Gzip Action</th>
* </tr>
* <tr>
* <td>0</td>
* <td>No compression</td>
* </tr>
* <tr>
* <td>1</td>
* <td>Best compression speed; least compression</td>
* </tr>
* <tr>
* <td>2 through 8</td>
* <td>Compression improves; speed degrades</td>
* </tr>
* <tr>
* <td>9</td>
* <td>Best compression ratio; slowest speed</td>
* </tr>
* </table>
*
* Note that setting the compression level to 0 (zero) does not turn
* off use of the gzip filter; it simply sets the filter to perform
* no compression as it processes the data.
*
* HDF5 relies on GNU gzip for this compression.
*
* \version 1.8.5 Function extended to work with group creation property lists.
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pset_deflate(hid_t plist_id, unsigned level);
/**
* \ingroup OCPL
*
* \brief Adds a filter to the filter pipeline
*
* \ocpl_id{plist_id}
* \param[in] filter Filter identifier for the filter to be added to the
* pipeline
* \param[in] flags Bit vector specifying certain general properties of
* the filter
* \param[in] cd_nelmts Number of elements in \p c_values
* \param[in] c_values Auxiliary data for the filter
*
* \return \herr_t
*
* \details H5Pset_filter() adds the specified \p filter identifier and
* corresponding properties to the end of an output filter
* pipeline.
*
* \p plist_id must be either a dataset creation property list or
* group creation property list identifier. If \p plist_id is a
* dataset creation property list identifier, the filter is added
* to the raw data filter pipeline.
*
* If \p plist_id is a group creation property list identifier,
* the filter is added to the link filter pipeline, which filters
* the fractal heap used to store most of the link metadata in
* certain types of groups. The only predefined filters that can
* be set in a group creation property list are the gzip filter
* (#H5Z_FILTER_DEFLATE) and the Fletcher32 error detection filter
* (#H5Z_FILTER_FLETCHER32).
*
* The array \p cd_values contains \p cd_nelmts unsigned integers
* which are auxiliary data for the filter. The values are typically
* used as parameters to control the filter. In a filter's
* \p set_local method (called from \p H5Dcreate), the values are
* interpreted and possibly modified before they are used to control
* the filter. These, possibly modified values, are then stored in
* the dataset object header as auxiliary data for the filter.
*
* The \p flags argument is a bit vector with the following
* fields specifying certain general properties of the filter:
*
* <table>
* <tr>
* <td>#H5Z_FLAG_OPTIONAL</td>
* <td>If this bit is set then the filter is optional. If the
* filter fails (see below) during an H5Dwrite() operation
* then the filter is just excluded from the pipeline for
* the chunk for which it failed; the filter will not
* participate in the pipeline during an H5Dread() of the
* chunk. This is commonly used for compression filters:
* if the filter result would be larger than the input,
* then the compression filter returns failure and the
* uncompressed data is stored in the file.<br /><br />
* This flag should not be set for the Fletcher32 checksum
* filter as it will bypass the checksum filter without
* reporting checksum errors to an application.</td>
* </tr>
* <tr>
* <td>#H5Z_FLAG_MANDATORY</td>
* <td>If the filter is required, that is, set to mandatory,
* and the filter fails, the library’s behavior depends
* on whether the chunk cache is in use:
* \li If the chunk cache is enabled, data chunks will
* be flushed to the file during H5Dclose() and the
* library will return the failure in H5Dclose().
* \li When the chunk cache is disabled or not big enough,
* or the chunk is being evicted from the cache, the
* failure will happen during H5Dwrite().
*
* In each case, the library will still write to the file
* all data chunks that were processed by the filter
* before the failure occurred.<br /><br />
* For example, assume that an application creates a
* dataset of four chunks, the chunk cache is enabled and
* is big enough to hold all four chunks, and the filter
* fails when it tries to write the fourth chunk. The
* actual flush of the chunks will happen during
* H5Dclose(), not H5Dwrite(). By the time H5Dclose()
* fails, the first three chunks will have been written
* to the file. Even though H5Dclose() fails, all the
* resources will be released and the file can be closed
* properly. <br /><br />
* If, however, the filter fails on the second chunk, only
* the first chunk will be written to the file as nothing
* further can be written once the filter fails.</td>
* </tr>
* </table>
* The \p filter parameter specifies the filter to be set. Valid
* pre-defined filter identifiers are as follows:
*
* <table>
* <tr>
* <td>#H5Z_FILTER_DEFLATE</td>
* <td>Data compression filter, employing the gzip
* algorithm</td>
* </tr>
* <tr>
* <td>#H5Z_FILTER_SHUFFLE</td>
* <td>Data shuffling filter</td>
* </tr>
* <tr>
* <td>#H5Z_FILTER_FLETCHER32</td>
* <td>Error detection filter, employing the Fletcher32
* checksum algorithm</td>
* </tr>
* <tr>
* <td>#H5Z_FILTER_SZIP</td>
* <td>Data compression filter, employing the SZIP
* algorithm</td>
* </tr>
* <tr>
* <td>#H5Z_FILTER_NBIT</td>
* <td>Data compression filter, employing the N-Bit
* algorithm</td>
* </tr>
* <tr>
* <td>#H5Z_FILTER_SCALEOFFSET</td>
* <td>Data compression filter, employing the scale-offset
* algorithm</td>
* </tr>
* </table>
* Also see H5Pset_edc_check() and H5Pset_filter_callback().
*
* \note When a non-empty filter pipeline is used with a group creation
* property list, the group will be created with the new group file
* format. The filters will come into play only when dense storage
* is used (see H5Pset_link_phase_change()) and will be applied to
* the group’s fractal heap. The fractal heap will contain most of
* the group’s link metadata, including link names.
*
* \note When working with group creation property lists, if you are
* adding a filter that is not in HDF5’s set of predefined filters,
* i.e., a user-defined or third-party filter, you must first
* determine that the filter will work for a group. See the
* discussion of the set local and can apply callback functions
* in H5Zregister().
*
* \note If multiple filters are set for a property list, they will be
* applied to each chunk of raw data for datasets or each block
* of the fractal heap for groups in the order in which they were
* set.
*
* \note Filters can be applied only to chunked datasets; they cannot be
* used with other dataset storage methods, such as contiguous,
* compact, or external datasets.
*
* \note Dataset elements of variable-length and dataset region
* reference datatypes are stored in separate structures in the
* file called heaps. Filters cannot currently be applied to
* these heaps.
*
* \note <b>Filter Behavior in HDF5:</b><br />
* Filters can be inserted into the HDF5 pipeline to perform
* functions such as compression and conversion. As such, they are
* a very flexible aspect of HDF5; for example, a user-defined
* filter could provide encryption for an HDF5 dataset.
*
* \note A filter can be declared as either required or optional.
* Required is the default status; optional status must be
* explicitly declared.
*
* \note A required filter that fails or is not defined causes an
* entire output operation to fail; if it was applied when the
* data was written, such a filter will cause an input operation
* to fail.
*
* \note The following table summarizes required filter behavior.
* <table>
* <tr>
* <th></th>
* <th>Required FILTER_X not available</th>
* <th>FILTER_X available</th>
* </tr>
* <tr>
* <td>H5Pset_<FILTER_X></td>
* <td>Will fail.</td>
* <td>Will succeed.</td>
* </tr>
* <tr>
* <td>H5Dwrite with FILTER_X set</td>
* <td>Will fail.</td>
* <td>Will succeed; FILTER_X will be applied to
* the data.</td>
* </tr>
* <tr>
* <td>H5Dread with FILTER_X set</td>
* <td>Will fail.</td>
* <td>Will succeed.</td>
* </tr>
* </table>
* \note An optional filter can be set for an HDF5 dataset even when
* the filter is not available. Such a filter can then be
* applied to the dataset when it becomes available on the
* original system or when the file containing the dataset is
* processed on a system on which it is available.
*
* \note A filter can be declared as optional through the use of the
* #H5Z_FLAG_OPTIONAL flag with H5Pset_filter().
*
* \note Consider a situation where one is creating files that will
* normally be used only on systems where the optional (and
* fictional) filter FILTER_Z is routinely available. One can
* create those files on system A, which lacks FILTER_Z, create
* chunked datasets in the files with FILTER_Z defined in the
* dataset creation property list, and even write data to those
* datasets. The dataset object header will indicate that FILTER_Z
* has been associated with this dataset. But since system A does
* not have FILTER_Z, dataset chunks will be written without it
* being applied.
*
* \note HDF5 has a mechanism for determining whether chunks are
* actually written with the filters specified in the object
* header, so while the filter remains unavailable, system A will
* be able to read the data. Once the file is moved to system B,
* where FILTER_Z is available, HDF5 will apply FILTER_Z to any
* data rewritten or new data written in these datasets. Dataset
* chunks that have been written on system B will then be
* unreadable on system A; chunks that have not been re-written
* since being written on system A will remain readable on system
* A. All chunks will be readable on system B.
*
* \note The following table summarizes optional filter behavior.
* <table>
* <tr>
* <th></th>
* <th>FILTER_Z not available</th>
* <th>FILTER_Z available<br /> with encode and decode</th>
* <th>FILTER_Z available decode only</th>
* </tr>
* <tr>
* <td>H5Pset_<FILTER_Z></td>
* <td>Will succeed.</td>
* <td>Will succeed.</td>
* <td>Will succeed.</td>
* </tr>
* <tr>
* <td>H5Dread with FILTER_Z set</td>
* <td>Will succeed if FILTER_Z has not actually<br />
* been applied to data.</td>
* <td>Will succeed.</td>
* <td>Will succeed.</td>
* </tr>
* <tr>
* <td>H5Dwrite with FILTER_Z set</td>
* <td>Will succeed;<br />
* FILTER_Z will not be applied to the data.</td>
* <td>Will succeed;<br />
* FILTER_Z will be applied to the data.</td>
* <td>Will succeed;<br />
* FILTER_Z will not be applied to the data.</td>
* </tr>
* </table>
* \note The above principles apply generally in the use of HDF5
* optional filters insofar as HDF5 does as much as possible to
* complete an operation when an optional filter is unavailable.
* (The SZIP filter is an exception to this rule; see H5Pset_szip()
* for details.)
*
* \see \ref_filter_pipe, \ref_group_impls
*
* \version 1.8.5 Function applied to group creation property lists.
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pset_filter(hid_t plist_id, H5Z_filter_t filter, unsigned int flags, size_t cd_nelmts,
const unsigned int c_values[]);
/**
* \ingroup OCPL
*
* \brief Sets up use of the Fletcher32 checksum filter
*
* \ocpl_id{plist_id}
*
* \return \herr_t
*
* \details H5Pset_fletcher32() sets the Fletcher32 checksum filter in the
* dataset or group creation property list \p plist_id.
*
* \attention The Fletcher32 EDC checksum filter was added in HDF5 Release
* 1.6.0. In the original implementation, however, the checksum
* value was calculated incorrectly on little-endian systems.
* The error was fixed in HDF5 Release 1.6.3.
*
* \attention As a result of this fix, an HDF5 library of Release 1.6.0
* through Release 1.6.2 cannot read a dataset created or written
* with Release 1.6.3 or later if the dataset was created with
* the checksum filter and the filter is enabled in the reading
* library. (Libraries of Release 1.6.3 and later understand the
* earlier error and compensate appropriately.)
*
* \attention \b Work-around: An HDF5 library of Release 1.6.2 or earlier
* will be able to read a dataset created or written with the
* checksum filter by an HDF5 library of Release 1.6.3 or later
* if the checksum filter is disabled for the read operation.
* This can be accomplished via a call to H5Pset_edc_check()
* with the value #H5Z_DISABLE_EDC in the second parameter.
* This has the obvious drawback that the application will be
* unable to verify the checksum, but the data does remain
* accessible.
*
* \version 1.8.5 Function extended to work with group creation property
* lists.
* \version 1.6.3 Error in checksum calculation on little-endian systems
* corrected in this release.
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pset_fletcher32(hid_t plist_id);
/**
* \ingroup OCPL
*
* \brief Sets the recording of times associated with an object
*
* \param[in] plist_id Object creation property list identifier
* \param[in] track_times Boolean value, 1 or 0, specifying whether object
* times are to be tracked
*
* \return \herr_t
*
* \details H5Pset_obj_track_times() sets a property in the object creation
* property list, \p plist_id, that governs the recording of times
* associated with an object.
*
* If \p track_times is set to 1, time data will be recorded. If
* \p track_times is set to 0, time data will not be recorded.
*
* Time data can be retrieved with H5Oget_info(), which will
* return it in the #H5O_info_t struct.
*
* If times are not tracked, they will be reported as follows when queried:
* \Code{ 12:00 AM UDT, Jan. 1, 1970}
*
* That date and time are commonly used to represent the beginning of the UNIX epoch.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_obj_track_times(hid_t plist_id, hbool_t track_times);
/* File creation property list (FCPL) routines */
/**
* \ingroup FCPL
*
* \brief Retrieves the file space page size for a file creation property
* list
*
* \fcpl_id{plist_id}
* \param[out] fsp_size File space page size
*
* \return \herr_t
*
* \details H5Pget_file_space_page_size() retrieves the file space page
* size for paged aggregation in the parameter \p fsp_size.
*
* The library default is 4KB (4096) if \p fsp_size is not
* previously set via a call to H5Pset_file_space_page_size().
*
* \since 1.10.1
*
*/
H5_DLL herr_t H5Pget_file_space_page_size(hid_t plist_id, hsize_t *fsp_size);
/**
* \ingroup FCPL
*
* \brief Retrieves the file space handling strategy, persisting free-space
* condition and threshold value for a file creation property list
*
* \fcpl_id{plist_id}
* \param[out] strategy The file space handling strategy
* \param[out] persist The boolean value indicating whether free space is
* persistent or not
* \param[out] threshold The free-space section size threshold value
*
* \return \herr_t
*
* \details H5Pget_file_space_strategy() retrieves the file space handling
* strategy, the persisting free-space condition and the threshold
* value in the parameters \p strategy, \p persist and
* \p threshold respectively.
*
* The library default values returned when
* H5Pset_file_space_strategy() has not been called are:
*
* \li \p strategy - #H5F_FSPACE_STRATEGY_FSM_AGGR
* \li \p persist - 0
* \li \p threshold - 1
*
* \since 1.10.1
*
*/
H5_DLL herr_t H5Pget_file_space_strategy(hid_t plist_id, H5F_fspace_strategy_t *strategy, hbool_t *persist,
hsize_t *threshold);
/**
* \ingroup FCPL
*
* \brief Queries the 1/2 rank of an indexed storage B-tree
*
* \fcpl_id{plist_id}
* \param[out] ik Pointer to location to return the chunked storage B-tree
* 1/2 rank (<em>Default value of B-tree 1/2 rank: 32</em>)
*
* \return \herr_t
*
* \details H5Pget_istore_k() queries the 1/2 rank of an indexed storage
* B-tree.
*
* The argument \p ik may be the null pointer (NULL).
* This function is valid only for file creation property lists.
*
* \see H5Pset_istore_k()
*
* \version 1.6.4 \p ik parameter type changed to \em unsigned.
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pget_istore_k(hid_t plist_id, unsigned *ik /*out*/);
/**
* \ingroup FCPL
*
* \brief Retrieves the configuration settings for a shared message index
*
* \fcpl_id{plist_id}
* \param[in] index_num Index being configured
* \param[out] mesg_type_flags Types of messages that may be stored in
* this index
* \param[out] min_mesg_size Minimum message size
*
* \return \herr_t
*
* \details H5Pget_shared_mesg_index() retrieves the message type and
* minimum message size settings from the file creation property
* list \p plist_id for the shared object header message index
* specified by \p index_num.
*
* \p index_num specifies the index. \p index_num is zero-indexed,
* so in a file with three indexes, they will be numbered 0, 1,
* and 2.
*
* \p mesg_type_flags and \p min_mesg_size will contain,
* respectively, the types of messages and the minimum size, in
* bytes, of messages that can be stored in this index.
*
* Valid message types are described in H5Pset_shared_mesg_index().
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_shared_mesg_index(hid_t plist_id, unsigned index_num, unsigned *mesg_type_flags,
unsigned *min_mesg_size);
/**
* \ingroup FCPL
*
* \brief Retrieves the number of shared object header message indexes in file
* creation property list
*
* \fcpl_id{plist_id}
* \param[out] nindexes Number of shared object header message indexes
* available in files created with this property list
*
* \return \herr_t
*
* \details H5Pget_shared_mesg_nindexes() retrieves the number of shared
* object header message indexes in the specified file creation
* property list \p plist_id.
*
* If the value of \p nindexes is 0 (zero), shared object header
* messages are disabled in files created with this property list.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_shared_mesg_nindexes(hid_t plist_id, unsigned *nindexes);
/**
* \ingroup FCPL
*
* \brief Retrieves shared object header message phase change information
*
* \fcpl_id{plist_id}
* \param[out] max_list Threshold above which storage of a shared object
* header message index shifts from list to B-tree
* \param[out] min_btree Threshold below which storage of a shared object
* header message index reverts to list format
*
* \return \herr_t
*
* \details H5Pget_shared_mesg_phase_change() retrieves the threshold values
* for storage of shared object header message indexes in a file.
* These phase change thresholds determine the point at which the
* index storage mechanism changes from a more compact list format
* to a more performance-oriented B-tree format, and vice-versa.
*
* By default, a shared object header message index is initially
* stored as a compact list. When the number of messages in an
* index exceeds the specified \p max_list threshold, storage
* switches to a B-tree format for improved performance. If the
* number of messages subsequently falls below the \p min_btree
* threshold, the index will revert to the list format.
*
* If \p max_list is set to 0 (zero), shared object header message
* indexes in the file will always be stored as B-trees.
*
* \p plist_id specifies the file creation property list.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_shared_mesg_phase_change(hid_t plist_id, unsigned *max_list, unsigned *min_btree);
/**
* \ingroup FCPL
*
* \brief Retrieves the size of the offsets and lengths used in an HDF5
* file
*
* \fcpl_id{plist_id}
* \param[out] sizeof_addr Pointer to location to return offset size in
* bytes
* \param[out] sizeof_size Pointer to location to return length size in
* bytes
*
* \return \herr_t
*
* \details H5Pget_sizes() retrieves the size of the offsets and lengths
* used in an HDF5 file. This function is only valid for file
* creation property lists.
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pget_sizes(hid_t plist_id, size_t *sizeof_addr /*out*/, size_t *sizeof_size /*out*/);
/**
* \ingroup FCPL
*
* \brief Retrieves the size of the symbol table B-tree 1/2 rank and the
* symbol table leaf node 1/2 size
*
* \fcpl_id{plist_id}
* \param[out] ik Pointer to location to return the symbol table's B-tree
* 1/2 rank (<em>Default value of B-tree 1/2 rank: 16</em>)
* \param[out] lk Pointer to location to return the symbol table's leaf
* node 1/2 size (<em>Default value of leaf node 1/2
* size: 4</em>)
*
* \return \herr_t
*
* \details H5Pget_sym_k() retrieves the size of the symbol table B-tree
* 1/2 rank and the symbol table leaf node 1/2 size.
*
* This function is valid only for file creation property lists.
*
* If a parameter value is set to NULL, that parameter is not
* retrieved.
*
* \see H5Pset_sym_k()
*
* \version 1.6.4 \p ik parameter type changed to \em unsigned
* \version 1.6.0 The \p ik parameter has changed from type int to
* \em unsigned
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pget_sym_k(hid_t plist_id, unsigned *ik /*out*/, unsigned *lk /*out*/);
/**
* \ingroup FCPL
*
* \brief Retrieves the size of a user block
*
* \fcpl_id{plist_id}
* \param[out] size Pointer to location to return user-block size
*
* \return \herr_t
*
* \details H5Pget_userblock() retrieves the size of a user block in a
* file creation property list.
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pget_userblock(hid_t plist_id, hsize_t *size);
/**
* \ingroup FCPL
*
* \brief Sets the file space page size for a file creation property list
*
* \fcpl_id{plist_id}
* \param[in] fsp_size File space page size
*
* \return \herr_t
*
* \details H5Pset_file_space_page_size() sets the file space page size
* \p fsp_size used in paged aggregation and paged buffering.
*
* \p fsp_size has a minimum size of 512. Setting a value less
* than 512 will return an error. The library default size for
* the file space page size when not set is 4096.
*
* The size set via this routine may not be changed for the life
* of the file.
*
* \since 1.10.1
*
*/
H5_DLL herr_t H5Pset_file_space_page_size(hid_t plist_id, hsize_t fsp_size);
/**
* \ingroup FCPL
*
* \brief Sets the file space handling strategy and persisting free-space
* values for a file creation property list
*
* \fcpl_id{plist_id}
* \param[in] strategy The file space handling strategy to be used. See:
* #H5F_fspace_strategy_t
* \param[in] persist A boolean value to indicate whether free space
* should be persistent or not
* \param[in] threshold The smallest free-space section size that the free
* space manager will track
*
* \return \herr_t
*
* \details H5Pset_file_space_strategy() sets the file space handling
* \p strategy, specifies persisting free-space or not (\p persist),
* and sets the free-space section size \p threshold in the file
* creation property list \p plist_id.
*
* #H5F_fspace_strategy_t is a struct defined in H5Fpublic.h as
* follows:
*
* \snippet H5Fpublic.h H5F_fspace_strategy_t_snip
*
* This setting cannot be changed for the life of the file.
*
* As the #H5F_FSPACE_STRATEGY_AGGR and #H5F_FSPACE_STRATEGY_NONE
* strategies do not use the free-space managers, the \p persist
* and \p threshold settings will be ignored for those strategies.
*
* \since 1.10.1
*
*/
H5_DLL herr_t H5Pset_file_space_strategy(hid_t plist_id, H5F_fspace_strategy_t strategy, hbool_t persist,
hsize_t threshold);
/**
* \ingroup FCPL
*
* \brief Sets the size of the parameter used to control the B-trees for
* indexing chunked datasets
*
* \fcpl_id{plist_id}
* \param[in] ik 1/2 rank of chunked storage B-tree
*
* \return \herr_t
*
* \details H5Pset_istore_k() sets the size of the parameter used to
* control the B-trees for indexing chunked datasets. This
* function is valid only for file creation property lists.
*
* \p ik is one half the rank of a tree that stores chunked
* raw data. On average, such a tree will be 75% full, or have
* an average rank of 1.5 times the value of \p ik.
*
* The HDF5 library uses (\p ik*2) as the maximum # of entries
* before splitting a B-tree node. Since only 2 bytes are used
* in storing # of entries for a B-tree node in an HDF5 file,
* (\p ik*2) cannot exceed 65536. The default value for
* \p ik is 32.
*
* \version 1.6.4 \p ik parameter type changed to \p unsigned.
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pset_istore_k(hid_t plist_id, unsigned ik);
/**
* \ingroup FCPL
*
* \brief Configures the specified shared object header message index
*
* \fcpl_id{plist_id}
* \param[in] index_num Index being configured
* \param[in] mesg_type_flags Types of messages that should be stored in
* this index
* \param[in] min_mesg_size Minimum message size
*
* \return \herr_t
*
* \details H5Pset_shared_mesg_index() is used to configure the specified
* shared object header message index, setting the types of
* messages that may be stored in the index and the minimum size
* of each message.
*
* \p plist_id specifies the file creation property list.
*
* \p index_num specifies the index to be configured.
* \p index_num is zero-indexed, so in a file with three indexes,
* they will be numbered 0, 1, and 2.
*
* \p mesg_type_flags and \p min_mesg_size specify, respectively,
* the types and minimum size of messages that can be stored in
* this index.
*
* Valid message types are as follows:
*
* <table>
* <tr>
* <td>#H5O_SHMESG_NONE_FLAG</td>
* <td>No shared messages</td>
* </tr>
* <tr>
* <td>#H5O_SHMESG_SDSPACE_FLAG</td>
* <td>Simple dataspace message</td>
* </tr>
* <tr>
* <td>#H5O_SHMESG_DTYPE_FLAG</td>
* <td>Datatype message</td>
* </tr>
* <tr>
* <td>#H5O_SHMESG_FILL_FLAG</td>
* <td>Fill value message</td>
* </tr>
* <tr>
* <td>#H5O_SHMESG_PLINE_FLAG</td>
* <td>Filter pipeline message</td>
* </tr>
* <tr>
* <td>#H5O_SHMESG_ATTR_FLAG</td>
* <td>Attribute message</td>
* </tr>
* <tr>
* <td>#H5O_SHMESG_ALL_FLAG</td>
* <td>All message types; i.e., equivalent to the following:
* (#H5O_SHMESG_SDSPACE_FLAG | #H5O_SHMESG_DTYPE_FLAG |
* #H5O_SHMESG_FILL_FLAG | #H5O_SHMESG_PLINE_FLAG |
* #H5O_SHMESG_ATTR_FLAG)</td>
* </tr>
* </table>
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_shared_mesg_index(hid_t plist_id, unsigned index_num, unsigned mesg_type_flags,
unsigned min_mesg_size);
/**
* \ingroup FCPL
*
* \brief Sets number of shared object header message indexes
*
* \fcpl_id{plist_id}
* \param[in] nindexes Number of shared object header message indexes to be
* available in files created with this property list
* (\p nindexes must be <= #H5O_SHMESG_MAX_NINDEXES (8))
*
* \return \herr_t
*
* \details H5Pset_shared_mesg_nindexes() sets the number of shared object
* header message indexes in the specified file creation property
* list.
*
* This setting determines the number of shared object header
* message indexes, \p nindexes, that will be available in files
* created with this property list. These indexes can then be
* configured with H5Pset_shared_mesg_index().
*
* If \p nindexes is set to 0 (zero), shared object header messages
* are disabled in files created with this property list.
*
* There is a limit of #H5O_SHMESG_MAX_NINDEXES (8) that can be set
* with H5Pset_shared_mesg_nindexes(). An error will occur if
* specifying a value of \p nindexes that is greater than this value.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_shared_mesg_nindexes(hid_t plist_id, unsigned nindexes);
/**
* \ingroup FCPL
*
* \brief Sets shared object header message storage phase change thresholds
*
* \fcpl_id{plist_id}
* \param[in] max_list Threshold above which storage of a shared object
* header message index shifts from list to B-tree
* \param[in] min_btree Threshold below which storage of a shared object
* header message index reverts to list format
*
* \return \herr_t
*
* \details H5Pset_shared_mesg_phase_change() sets threshold values for
* storage of shared object header message indexes in a file.
* These phase change thresholds determine the point at which the
* index storage mechanism changes from a more compact list format
* to a more performance-oriented B-tree format, and vice-versa.
*
* By default, a shared object header message index is initially
* stored as a compact list. When the number of messages in an
* index exceeds the threshold value of \p max_list, storage
* switches to a B-tree for improved performance. If the number
* of messages subsequently falls below the \p min_btree threshold,
* the index will revert to the list format.
*
* If \p max_list is set to 0 (zero), shared object header message
* indexes in the file will be created as B-trees and will never
* revert to lists.
*
* \p plist_id specifies the file creation property list.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_shared_mesg_phase_change(hid_t plist_id, unsigned max_list, unsigned min_btree);
/**
* \ingroup FCPL
*
* \brief Sets the byte size of the offsets and lengths used to address
* objects in an HDF5 file
*
* \fcpl_id{plist_id}
* \param[in] sizeof_addr Size of an object offset in bytes
* \param[in] sizeof_size Size of an object length in bytes
*
* \return \herr_t
*
* \details H5Pset_sizes() sets the byte size of the offsets and lengths
* used to address objects in an HDF5 file. This function is only
* valid for file creation property lists. Passing in a value
* of 0 for one of the parameters retains the current value. The
* default value for both values is the same as sizeof(hsize_t)
* in the library (normally 8 bytes). Valid values currently
* are 2, 4, 8 and 16.
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pset_sizes(hid_t plist_id, size_t sizeof_addr, size_t sizeof_size);
/**
* \ingroup FCPL
*
* \brief
*
* \fcpl_id{plist_id}
* \param[in] ik Symbol table tree rank
* \param[in] lk Symbol table node size
*
* \return \herr_t
*
* \details H5Pset_sym_k() sets the size of parameters used to control the
* symbol table nodes.
*
* This function is valid only for file creation property lists.
* Passing in a value of zero (0) for one of the parameters retains
* the current value.
*
* \p ik is one half the rank of a B-tree that stores a symbol
* table for a group. Internal nodes of the symbol table are on
* average 75% full. That is, the average rank of the tree is
* 1.5 times the value of \p ik. The HDF5 library uses (\p ik*2) as
* the maximum # of entries before splitting a B-tree node. Since
* only 2 bytes are used in storing # of entries for a B-tree node
* in an HDF5 file, (\p ik*2) cannot exceed 65536. The default value
* for \p ik is 16.
*
* \p lk is one half of the number of symbols that can be stored in
* a symbol table node. A symbol table node is the leaf of a symbol
* table tree which is used to store a group. When symbols are
* inserted randomly into a group, the group's symbol table nodes are
* 75% full on average. That is, they contain 1.5 times the number of
* symbols specified by \p lk. The default value for \p lk is 4.
*
* \version 1.6.4 \p ik parameter type changed to \em unsigned.
* \version 1.6.0 The \p ik parameter has changed from type int to
* \em unsigned.
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pset_sym_k(hid_t plist_id, unsigned ik, unsigned lk);
/**
* \ingroup FCPL
*
* \brief Sets user block size
*
* \fcpl_id{plist_id}
* \param[in] size Size of the user-block in bytes
*
* \return \herr_t
*
* \details H5Pset_userblock() sets the user block size of a file creation
* property list. The default user block size is 0; it may be set
* to any power of 2 equal to 512 or greater (512, 1024, 2048, etc.).
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pset_userblock(hid_t plist_id, hsize_t size);
/* File access property list (FAPL) routines */
/**
* \ingroup FAPL
*
* \brief Retrieves the current settings for alignment properties from a
* file access property list
*
* \fapl_id
* \param[out] threshold Pointer to location of return threshold value
* \param[out] alignment Pointer to location of return alignment value
*
* \return \herr_t
*
* \details H5Pget_alignment() retrieves the current settings for
* alignment properties from a file access property list. The
* \p threshold and/or \p alignment pointers may be null
* pointers (NULL).
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pget_alignment(hid_t fapl_id, hsize_t *threshold /*out*/, hsize_t *alignment /*out*/);
/**
* \ingroup FAPL
*
* \brief Queries the raw data chunk cache parameters
*
* \fapl_id{plist_id}
* \param[in,out] mdc_nelmts <i>No longer used</i>
* \param[in,out] rdcc_nslots Number of elements (objects) in the raw data
* chunk cache
* \param[in,out] rdcc_nbytes Total size of the raw data chunk cache, in
* bytes
* \param[in,out] rdcc_w0 Preemption policy
*
* \return \herr_t
*
* \details H5Pget_cache() retrieves the maximum possible number of
* elements in the raw data chunk cache, the maximum possible
* number of bytes in the raw data chunk cache, and the
* preemption policy value.
*
* Any (or all) arguments may be null pointers, in which case
* the corresponding datum is not returned.
*
* Note that the \p mdc_nelmts parameter is no longer used.
*
* \version 1.8.0 Use of the \p mdc_nelmts parameter discontinued.
* Metadata cache configuration is managed with
* H5Pset_mdc_config() and H5Pget_mdc_config()
* \version 1.6.0 The \p rdcc_nbytes and \p rdcc_nslots parameters changed
* from type int to size_t.
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pget_cache(hid_t plist_id, int *mdc_nelmts, /* out */
size_t *rdcc_nslots /*out*/, size_t *rdcc_nbytes /*out*/, double *rdcc_w0);
/**
* \ingroup FAPL
*
* \brief Gets information about the write tracking feature used by
* the core VFD
*
* \fapl_id
* \param[out] is_enabled Whether the feature is enabled
* \param[out] page_size Size, in bytes, of write aggregation pages
*
* \return \herr_t
*
* \details H5Pget_core_write_tracking() retrieves information about the
* write tracking feature used by the core VFD.
*
* When a file is created or opened for writing using the core
* virtual file driver (VFD) with the backing store option turned
* on, the VFD can be configured to track changes to the file
* and only write out the modified bytes. To avoid a large number
* of small writes, the changes can be aggregated into pages of
* a user-specified size. The core VFD is also known as the
* memory VFD. The driver identifier is #H5FD_CORE.
*
* \note This function is only for use with the core VFD and must be used
* after the call to H5Pset_fapl_core(). It is an error to use this
* function with any other VFD.
*
* \note This function only applies to the backing store write operation,
* which typically occurs when the file is flushed or closed. This
* function has no relationship to the increment parameter passed
* to H5Pset_fapl_core().
*
* \note For optimum performance, the \p page_size parameter should be
* a power of two.
*
* \since 1.8.13
*
*/
H5_DLL herr_t H5Pget_core_write_tracking(hid_t fapl_id, hbool_t *is_enabled, size_t *page_size);
/**
* \ingroup FAPL
*
* \brief Returns low-lever driver identifier
*
* \plist_id
*
* \return \hid_t{low level driver}
*
* \details H5Pget_driver() returns the identifier of the low-level file
* driver associated with the file access property list or
* data transfer property list \p plist_id.
*
* Valid driver identifiers distributed with HDF5 are listed and
* described in the following table.
*
* <table>
* <tr>
* <th>Driver Name</th>
* <th>Driver Identifier</th>
* <th>Description</th>
* <th>Related Function</th>
* </tr>
* <tr>
* <td>POSIX</td>
* <td>#H5FD_SEC2</td>
* <td>This driver uses POSIX file-system functions like read and
* write to perform I/O to a single, permanent file on local disk
* with no system buffering. This driver is POSIX-compliant and
* is the default file driver for all systems.</td>
* <td>H5Pset_fapl_sec2()</td>
* </tr>
* <tr>
* <td>Direct</td>
* <td>#H5FD_DIRECT</td>
* <td>This is the #H5FD_SEC2 driver, except data is written to or
* read from the file synchronously without being cached by the
* system.</td>
* <td>H5Pset_fapl_direct()</td>
* </tr>
* <tr>
* <td>Log</td>
* <td>#H5FD_LOG</td>
* <td>This is the #H5FD_SEC2 driver with logging capabilities.</td>
* <td>H5Pset_fapl_log()</td>
* </tr>
* <tr>
* <td>Windows</td>
* <td>#H5FD_WINDOWS</td>
* <td>This driver was modified in HDF5-1.8.8 to be a wrapper of the
* POSIX driver, #H5FD_SEC2. This change should not affect user
* applications.</td>
* <td>H5Pset_fapl_windows()</td>
* </tr>
* <tr>
* <td>STDIO</td>
* <td>#H5FD_STDIO</td>
* <td>This driver uses functions from the standard C stdio.h to
* perform I/O to a single, permanent file on local disk with
* additional system buffering.</td>
* <td>H5Pset_fapl_stdio()</td>
* </tr>
* <tr>
* <td>Memory</td>
* <td>#H5FD_CORE</td>
* <td>With this driver, an application can work with a file in
* memory for faster reads and writes. File contents are kept in
* memory until the file is closed. At closing, the memory
* version of the file can be written back to disk or abandoned.
* </td>
* <td>H5Pset_fapl_core()</td>
* </tr>
* <tr>
* <td>Family</td>
* <td>#H5FD_FAMILY</td>
* <td>With this driver, the HDF5 file’s address space is partitioned
* into pieces and sent to separate storage files using an
* underlying driver of the user’s choice. This driver is for
* systems that do not support files larger than 2 gigabytes.
* </td>
* <td>H5Pset_fapl_family()</td>
* </tr>
* <tr>
* <td>Multi</td>
* <td>#H5FD_MULTI</td>
* <td>With this driver, data can be stored in multiple files
* according to the type of data. I/O might work better if
* data is stored in separate files based on the type of data.
* The Split driver is a special case of this driver.</td>
* <td>H5Pset_fapl_multi()</td>
* </tr>
* <tr>
* <td>Parallel</td>
* <td>#H5FD_MPIO</td>
* <td>This is the standard HDF5 file driver for parallel file
* systems. This driver uses the MPI standard for both
* communication and file I/O.</td>
* <td>H5Pset_fapl_mpio()</td>
* </tr>
* <tr>
* <td>Parallel POSIX</td>
* <td>H5FD_MPIPOSIX</td>
* <td>This driver is no longer available.</td>
* <td></td>
* </tr>
* <tr>
* <td>Stream</td>
* <td>H5FD_STREAM</td>
* <td>This driver is no longer available.</td>
* <td></td>
* </tr>
* </table>
*
* This list does not include custom drivers that might be
* defined and registered by a user.
*
* The returned driver identifier is only valid as long as the
* file driver remains registered.
*
*
* \since 1.4.0
*
*/
H5_DLL hid_t H5Pget_driver(hid_t plist_id);
/**
* \ingroup FAPL
*
* \brief Returns a pointer to file driver information
*
* \param[in] plist_id File access or data transfer property list
* identifier
*
* \return Returns a pointer to a struct containing low-level driver
* information. Otherwise returns NULL. NULL is also returned if
* no driver-specific properties have been registered. No error
* is pushed on the stack in this case.
*
* \details H5Pget_driver_info() returns a pointer to file driver-specific
* information for the low-level driver associated with the file
* access or data transfer property list \p plist_id.
*
* The pointer returned by this function points to an “uncopied”
* struct. Driver-specific versions of that struct are defined
* for each low-level driver in the relevant source code file
* H5FD*.c. For example, the struct used for the MULTI driver is
* \c H5FD_multi_fapl_t defined in H5FDmulti.c.
*
* If no driver-specific properties have been registered,
* H5Pget_driver_info() returns NULL.
*
* \note H5Pget_driver_info() and H5Pset_driver() are used only when
* creating a virtual file driver (VFD) in the virtual file
* layer (VFL).
*
* \version 1.10.1 Return value was changed from \em void * to
* \em const \em void *.
* \version 1.8.2 Function publicized in this release; previous releases
* described this function only in the virtual file driver
* documentation.
*
*/
H5_DLL const void *H5Pget_driver_info(hid_t plist_id);
/**
* \ingroup FAPL
*
* \brief Retrieves a string representation of the configuration for
* the driver set on the given FAPL. The returned string can
* be used to configure the same driver in an identical way.
*
* \fapl_id
* \param[out] config_buf Driver configuration string output buffer
* \param[in] buf_size Size of driver configuration string output buffer
*
* \return Returns the length of the driver configuration string on
* success (not including the NUL terminator). Returns negative
* on failure.
*
* \details H5Pget_driver_config_str() retrieves a string representation
* of the configuration for the driver set on the given FAPL. The
* returned string can be used to configure the same driver in
* an identical way.
*
* If \p config_buf is NULL, the length of the driver configuration
* string is simply returned. The caller can then allocate a buffer
* of the appropriate size and call this routine again.
*
* \version 1.12.1 Function publicized in this release.
*
*/
H5_DLL ssize_t H5Pget_driver_config_str(hid_t fapl_id, char *config_buf, size_t buf_size);
/**
* \ingroup FAPL
*
* \brief Retrieves the size of the external link open file cache
*
* \fapl_id{plist_id}
* \param[out] efc_size External link open file cache size in number of files
*
* \return \herr_t
*
* \details H5Pget_elink_file_cache_size() retrieves the number of files that
* can be held open in an external link open file cache.
*
* \since 1.8.7
*
*/
H5_DLL herr_t H5Pget_elink_file_cache_size(hid_t plist_id, unsigned *efc_size);
/**
* \ingroup FAPL
*
* \brief Retrieves the file access property list setting that determines
* whether an HDF5 object will be evicted from the library's metadata
* cache when it is closed
*
* \fapl_id
* \param[out] evict_on_close Pointer to a variable that will indicate if
* the object will be evicted on close
*
* \return \herr_t
*
* \details The library's metadata cache is fairly conservative about holding on
* to HDF5 object metadata (object headers, chunk index structures,
* etc.), which can cause the cache size to grow, resulting in memory
* pressure on an application or system. When enabled, the "evict on
* close" property will cause all metadata for an object to be
* immediately evicted from the cache as long as it is not referenced
* by any other open object.
*
* See H5Pset_evict_on_close() for additional notes on behavior.
*
* \since 1.10.1
*
*/
H5_DLL herr_t H5Pget_evict_on_close(hid_t fapl_id, hbool_t *evict_on_close);
/**
* \ingroup FAPL
*
* \brief Retrieves a data offset from the file access property list
*
* \fapl_id
* \param[out] offset Offset in bytes within the HDF5 file
*
* \return \herr_t
*
* \details H5Pget_family_offset() retrieves the value of offset from the
* file access property list \p fapl_id so that the user
* application can retrieve a file handle for low-level access to
* a particular member of a family of files. The file handle is
* retrieved with a separate call to H5Fget_vfd_handle() (or,
* in special circumstances, to H5FDget_vfd_handle(), see \ref VFL).
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pget_family_offset(hid_t fapl_id, hsize_t *offset);
/**
* \ingroup FAPL
*
* \brief Returns the file close degree
*
* \fapl_id
* \param[out] degree Pointer to a location to which to return the file
* close degree property, the value of \p degree
*
* \return \herr_t
*
* \details H5Pget_fclose_degree() returns the current setting of the file
* close degree property \p degree in the file access property
* list \p fapl_id. The value of \p degree determines how
* aggressively H5Fclose() deals with objects within a file that
* remain open when H5Fclose() is called to close that file.
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pget_fclose_degree(hid_t fapl_id, H5F_close_degree_t *degree);
/**
* \ingroup FAPL
*
* \brief Retrieves a copy of the file image designated as the initial content
* and structure of a file
*
* \fapl_id
* \param[in,out] buf_ptr_ptr On input, \c NULL or a pointer to a
* pointer to a buffer that contains the
* file image.\n On successful return, if \p buf_ptr_ptr is not
* \c NULL, \Code{*buf_ptr_ptr} will contain a pointer to a copy
* of the initial image provided in the last call to
* H5Pset_file_image() for the supplied \p fapl_id. If no initial
* image has been set, \Code{*buf_ptr_ptr} will be \c NULL.
* \param[in,out] buf_len_ptr On input, \c NULL or a pointer to a buffer
* specifying the required size of the buffer to hold the file
* image.\n On successful return, if \p buf_len_ptr was not
* passed in as \c NULL, \p buf_len_ptr will return the required
* size in bytes of the buffer to hold the initial file image in
* the supplied file access property list, \p fapl_id. If no
* initial image is set, the value of \Code{*buf_len_ptr} will be
* set to 0 (zero)
* \return \herr_t
*
* \details H5Pget_file_image() allows an application to retrieve a copy of the
* file image designated for a VFD to use as the initial contents of a file.
*
* If file image callbacks are defined, H5Pget_file_image() will use
* them when allocating and loading the buffer to return to the
* application (see H5Pset_file_image_callbacks()). If file image
* callbacks are not defined, the function will use \c malloc and \c
* memcpy. When \c malloc and \c memcpy are used, it is the caller’s
* responsibility to discard the returned buffer with a call to \c
* free.
*
* It is the responsibility of the calling application to free the
* buffer whose address is returned in \p buf_ptr_ptr. This can be
* accomplished with \c free if file image callbacks have not been set
* (see H5Pset_file_image_callbacks()) or with the appropriate method
* if file image callbacks have been set.
*
* \see H5LTopen_file_image(), H5Fget_file_image(), H5Pset_file_image(),
* H5Pset_file_image_callbacks(), H5Pget_file_image_callbacks(),
* \ref H5FD_file_image_callbacks_t, \ref H5FD_file_image_op_t,
* <a href="https://portal.hdfgroup.org/display/HDF5/HDF5+File+Image+Operations">
* HDF5 File Image Operations</a>.
*
*
* \since 1.8.9
*
*/
H5_DLL herr_t H5Pget_file_image(hid_t fapl_id, void **buf_ptr_ptr, size_t *buf_len_ptr);
/**
* \ingroup FAPL
*
* \brief Retrieves callback routines for working with file images
*
* \fapl_id
* \param[in,out] callbacks_ptr Pointer to the instance of the
* #H5FD_file_image_callbacks_t struct in which the callback
* routines are to be returned\n
* Struct fields must be initialized to NULL before the call
* is made.\n
* Struct field contents upon return will match those passed in
* in the last H5Pset_file_image_callbacks() call for the file
* access property list \p fapl_id.
* \return \herr_t
*
* \details H5Pget_file_image_callbacks() retrieves the callback routines set for
* working with file images opened with the file access property list
* \p fapl_id.
*
* The callbacks must have been previously set with
* H5Pset_file_image_callbacks() in the file access property list.
*
* Upon the successful return of H5Pset_file_image_callbacks(), the
* fields in the instance of the #H5FD_file_image_callbacks_t struct
* pointed to by \p callbacks_ptr will contain the same values as were
* passed in the most recent H5Pset_file_image_callbacks() call for the
* file access property list \p fapl_id.
*
* \see H5LTopen_file_image(), H5Fget_file_image(), H5Pset_file_image(),
* H5Pset_file_image_callbacks(), H5Pget_file_image_callbacks(),
* \ref H5FD_file_image_callbacks_t, \ref H5FD_file_image_op_t,
* <a href="https://portal.hdfgroup.org/display/HDF5/HDF5+File+Image+Operations">
* HDF5 File Image Operations</a>.
*
* \since 1.8.9
*
*/
H5_DLL herr_t H5Pget_file_image_callbacks(hid_t fapl_id, H5FD_file_image_callbacks_t *callbacks_ptr);
/**
* \ingroup FAPL
*
* \brief Retrieves the file locking property values
*
* \fapl_id
* \param[out] use_file_locking File locking flag
* \param[out] ignore_when_disabled Ignore when disabled flag
* \return \herr_t
*
* \details H5Pget_file_locking() retrieves the file locking property values for
* the file access property list specified by \p fapl_id.
*
* \since 1.10.7
*
*/
H5_DLL herr_t H5Pget_file_locking(hid_t fapl_id, hbool_t *use_file_locking, hbool_t *ignore_when_disabled);
/**
* \ingroup FAPL
*
* \brief Returns garbage collecting references setting
*
* \fapl_id
* \param[out] gc_ref Flag returning the state of reference garbage
* collection. A returned value of 1 indicates that
* garbage collection is on while 0 indicates that
* garbage collection is off.
*
* \return \herr_t
*
* \details H5Pget_gc_references() returns the current setting for the
* garbage collection references property from the specified
* file access property list. The garbage collection references
* property is set by H5Pset_gc_references().
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Pget_gc_references(hid_t fapl_id, unsigned *gc_ref /*out*/);
/**
* \ingroup FAPL
*
* \brief Retrieves library version bounds settings that indirectly control
* the format versions used when creating objects
*
* \fapl_id{plist_id}
* \param[out] low The earliest version of the library that will be used
* for writing objects
* \param[out] high The latest version of the library that will be used for
* writing objects
*
* \return \herr_t
*
* \details H5Pget_libver_bounds() retrieves the lower and upper bounds on
* the HDF5 library release versions that indirectly determine the
* object format versions used when creating objects in the file.
*
* This property is retrieved from the file access property list
* specified by the parameter \p fapl_id.
*
* The value returned in the parameters \p low and \p high is one
* of the enumerated values in the #H5F_libver_t struct, which is
* defined in H5Fpublic.h.
*
* \version 1.10.2 Add #H5F_LIBVER_V18 to the enumerated defines in
* #H5F_libver_t
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_libver_bounds(hid_t plist_id, H5F_libver_t *low, H5F_libver_t *high);
/**
* \ingroup FAPL
*
* \brief Get the current initial metadata cache configuration from the
* provided file access property list
*
* \fapl_id{plist_id}
* \param[in,out] config_ptr Pointer to the instance of #H5AC_cache_config_t
* in which the current metadata cache configuration is to be
* reported
* \return \herr_t
*
* \note The \c in direction applies only to the \ref H5AC_cache_config_t.version
* field. All other fields are \c out parameters.
*
* \details The fields of the #H5AC_cache_config_t structure are shown
* below:
* \snippet H5ACpublic.h H5AC_cache_config_t_snip
* \click4more
*
* H5Pget_mdc_config() gets the initial metadata cache configuration
* contained in a file access property list and loads it into the
* instance of #H5AC_cache_config_t pointed to by the \p config_ptr
* parameter. This configuration is used when the file is opened.
*
* Note that the version field of \Code{*config_ptr} must be
* initialized; this allows the library to support earlier versions of
* the #H5AC_cache_config_t structure.
*
* See the overview of the metadata cache in the special topics section
* of the user guide for details on the configuration data returned. If
* you haven't read and understood that documentation, the results of
* this call will not make much sense.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_mdc_config(hid_t plist_id, H5AC_cache_config_t *config_ptr); /* out */
/**
* \ingroup FAPL
*
* \brief Retrieves the metadata cache image configuration values for a file
* access property list
*
* \fapl_id{plist_id}
* \param[out] config_ptr Pointer to metadata cache image configuration values
* \return \herr_t
*
* \details H5Pget_mdc_image_config() retrieves the metadata cache image values
* into \p config_ptr for the file access property list specified in \p
* plist_id.
*
* #H5AC_cache_image_config_t is defined as follows:
* \snippet H5ACpublic.h H5AC_cache_image_config_t_snip
* \click4more
*
* \since 1.10.1
*/
H5_DLL herr_t H5Pget_mdc_image_config(hid_t plist_id, H5AC_cache_image_config_t *config_ptr /*out*/);
/**
* \ingroup FAPL
*
* \brief Gets metadata cache logging options
*
* \fapl_id{plist_id}
* \param[out] is_enabled Flag whether logging is enabled
* \param[out] location Location of log in UTF-8/ASCII (file path/name) (On
* Windows, this must be ASCII)
* \param[out] location_size Size in bytes of the location string
* \param[out] start_on_access Whether the logging begins as soon as the file is
* opened or created
* \return \herr_t
*
* \details The metadata cache is a central part of the HDF5 library through
* which all file metadata reads and writes take place. File metadata
* is normally invisible to the user and is used by the library for
* purposes such as locating and indexing data. File metadata should
* not be confused with user metadata, which consists of attributes
* created by users and attached to HDF5 objects such as datasets via
* \ref H5A API calls.
*
* Due to the complexity of the cache, a trace/logging feature has been
* created that can be used by HDF5 developers for debugging and
* performance analysis. The functions that control this functionality
* will normally be of use to a very limited number of developers
* outside of The HDF Group. The functions have been documented to help
* users create logs that can be sent with bug reports.
*
* Control of the log functionality is straightforward. Logging is
* enabled via the H5Pset_mdc_log_options() function, which will modify
* the file access property list used to open or create a file. This
* function has a flag that determines whether logging begins at file
* open or starts in a paused state. Log messages can then be
* controlled via the H5Fstart_mdc_logging() / H5Fstop_mdc_logging()
* functions. H5Pget_mdc_log_options() can be used to examine a file
* access property list, and H5Fget_mdc_logging_status() will return
* the current state of the logging flags.
*
* The log format is described in the
* <a href="https://bit.ly/2PG6fNv">Metadata Cache Logging</a> document.
*
* \since 1.10.0
*/
H5_DLL herr_t H5Pget_mdc_log_options(hid_t plist_id, hbool_t *is_enabled, char *location,
size_t *location_size, hbool_t *start_on_access);
/**
* \ingroup FAPL
*
* \brief Returns the current metadata block size setting
*
* \fapl_id{fapl_id}
* \param[out] size Minimum size, in bytes, of metadata block allocations
*
* \return \herr_t
*
* \details Returns the current minimum size, in bytes, of new
* metadata block allocations. This setting is retrieved from the
* file access property list \p fapl_id.
*
* This value is set by H5Pset_meta_block_size() and is
* retrieved from the file access property list \p fapl_id.
*
* \since 1.4.0
*/
H5_DLL herr_t H5Pget_meta_block_size(hid_t fapl_id, hsize_t *size);
/**
* \ingroup FAPL
*
* \brief Retrieves the number of read attempts from a file access
* property list
*
* \fapl_id{plist_id}
* \param[out] attempts The number of read attempts
*
* \return \herr_t
*
* \details H5Pget_metadata_read_attempts() retrieves the number of read
* attempts that is set in the file access property list \p plist_id.
*
* For a default file access property list, the value retrieved
* will depend on whether the user sets the number of attempts via
* H5Pset_metadata_read_attempts():
*
* <ul>
*
* <li>If the number of attempts is set to N, the value
* returned will be N.
* <li>If the number of attempts is not set, the value returned
* will be the default for non-SWMR access (1). SWMR is short
* for single-writer/multiple-reader.
* </ul>
*
* For the file access property list of a specified HDF5 file,
* the value retrieved will depend on how the file is opened
* and whether the user sets the number of read attempts via
* H5Pset_metadata_read_attempts():
*
* <ul>
* <li>For a file opened with SWMR access:
*
* <ul>
* <li> If the number of attempts is set to N, the value
* returned will be N.
* <li> If the number of attempts is not set, the value
* returned will be the default for SWMR access (100).
* </ul>
* <li>For a file opened without SWMR access, the value
* retrieved will always be the default for non-SWMR access
* (1). The value set via H5Pset_metadata_read_attempts() does
* not have any effect on non-SWMR access.
* </ul>
*
* \par Failure Modes
* \parblock
*
* When the input property list is not a file access property list.
*
* When the library is unable to retrieve the number of read attempts from
* the file access property list.
*
* \endparblock
*
* \par Examples
* \parblock
*
* The first example illustrates the two cases for retrieving the number
* of read attempts from a default file access property list.
*
* \include H5Pget_metadata_read_attempts.1.c
*
* The second example illustrates the two cases for retrieving the
* number of read attempts from the file access property list of a file
* opened with SWMR access.
*
* \include H5Pget_metadata_read_attempts.2.c
*
* The third example illustrates the two cases for retrieving the number
* of read attempts from the file access property list of a file opened
* with non-SWMR access.
*
* \include H5Pget_metadata_read_attempts.3.c
*
* \endparblock
*
* \since 1.10.0
*/
H5_DLL herr_t H5Pget_metadata_read_attempts(hid_t plist_id, unsigned *attempts);
/**
* \ingroup FAPL
*
* \brief Retrieves type of data property for MULTI driver
*
* \param[in] fapl_id File access property list or data transfer property
* list identifier
* \param[out] type Type of data
*
* \return \herr_t
*
* \details H5Pget_multi_type() retrieves the type of data setting from
* the file access or data transfer property list \p fapl_id.
* This enables a user application to specify the type of data
* the application wishes to access so that the application can
* retrieve a file handle for low-level access to the particular
* member of a set of MULTI files in which that type of data is
* stored. The file handle is retrieved with a separate call to
* H5Fget_vfd_handle() (or, in special circumstances, to
* H5FDget_vfd_handle(); see the Virtual File Layer documentation
* for more information.
*
* The type of data returned in \p type will be one of those
* listed in the discussion of the \p type parameter in the
* description of the function H5Pset_multi_type().
*
* Use of this function is only appropriate for an HDF5 file
* written as a set of files with the MULTI file driver.
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pget_multi_type(hid_t fapl_id, H5FD_mem_t *type);
/**
* \ingroup FAPL
*
* \brief Retrieves the object flush property values from the file access property list
*
* \fapl_id{plist_id}
* \param[in] func The user-defined callback function
* \param[in] udata The user-defined input data for the callback function
*
* \return \herr_t
*
* \details H5Pget_object_flush_cb() gets the user-defined callback
* function that is set in the file access property list
* \p fapl_id and stored in the parameter \p func. The callback is
* invoked whenever an object flush occurs in the file. This
* routine also obtains the user-defined input data that is
* passed along to the callback function in the parameter
* \p udata.
*
* \par Example
* \parblock
* The example below illustrates the usage of this routine to obtain the
* object flush property values.
*
* \include H5Pget_object_flush_cb.c
* \endparblock
*
* \since 1.10.0
*/
H5_DLL herr_t H5Pget_object_flush_cb(hid_t plist_id, H5F_flush_cb_t *func, void **udata);
/**
* \ingroup FAPL
*
* \brief Retrieves the maximum size for the page buffer and the minimum
percentage for metadata and raw data pages
*
* \fapl_id{plist_id}
* \param[out] buf_size Maximum size, in bytes, of the page buffer
* \param[out] min_meta_perc Minimum metadata percentage to keep in the
* page buffer before allowing pages containing metadata to
* be evicted
*
* \param[out] min_raw_perc Minimum raw data percentage to keep in the
* page buffer before allowing pages containing raw data to
* be evicted
*
* \return \herr_t
*
* \details H5Pget_page_buffer_size() retrieves \p buf_size, the maximum
* size in bytes of the page buffer, \p min_meta_perc, the
* minimum metadata percentage, and \p min_raw_perc, the
* minimum raw data percentage.
*
* \since 1.10.1
*/
H5_DLL herr_t H5Pget_page_buffer_size(hid_t plist_id, size_t *buf_size, unsigned *min_meta_perc,
unsigned *min_raw_perc);
/**
* \ingroup FAPL
*
* \brief Returns maximum data sieve buffer size
*
* \fapl_id{fapl_id}
* \param[out] size Maximum size, in bytes, of data sieve buffer
*
* \return \herr_t
*
* \details H5Pget_sieve_buf_size() retrieves, size, the current maximum
* size of the data sieve buffer.
*
* This value is set by H5Pset_sieve_buf_size() and is retrieved
* from the file access property list fapl_id.
*
* \version 1.6.0 The \p size parameter has changed from type \c hsize_t
* to \c size_t
* \since 1.4.0
*/
H5_DLL herr_t H5Pget_sieve_buf_size(hid_t fapl_id, size_t *size /*out*/);
/**
* \ingroup FAPL
*
* \brief Retrieves the current small data block size setting
*
* \fapl_id{fapl_id}
* \param[out] size Maximum size, in bytes, of the small data block
*
* \result \herr_t
*
* \details H5Pget_small_data_block_size() retrieves the current setting
* for the size of the small data block.
*
* If the returned value is zero (0), the small data block
* mechanism has been disabled for the file.
*
* \since 1.4.4
*/
H5_DLL herr_t H5Pget_small_data_block_size(hid_t fapl_id, hsize_t *size /*out*/);
/**
* \ingroup FAPL
*
* \brief Returns the identifier of the current VOL connector
*
* \fapl_id{plist_id}
* \param[out] vol_id Current VOL connector identifier
*
* \return \herr_t
*
* \details H5Pget_vol_id() returns the VOL connector identifier \p vol_id for
* the file access property list \p plist_id. This identifier should
* be closed with H5VLclose().
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Pget_vol_id(hid_t plist_id, hid_t *vol_id);
/**
* \ingroup FAPL
*
* \brief Returns a copy of the VOL information for a connector
*
* \fapl_id{plist_id}
* \param[out] vol_info The VOL information for a connector
*
* \return \herr_t
*
* \details H5Pget_vol_info() returns a copy of the VOL information \p vol_info
* for a connector specified by the file access property list
* \p plist_id.
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Pget_vol_info(hid_t plist_id, void **vol_info);
/**
* \ingroup FAPL
*
* \brief Sets alignment properties of a file access property list
*
* \fapl_id
* \param[in] threshold Threshold value. Note that setting the threshold
* value to 0 (zero) has the effect of a special case,
* forcing everything to be aligned
* \param[in] alignment Alignment value
*
* \return \herr_t
*
* \details H5Pset_alignment() sets the alignment properties of a
* file access property list so that any file object greater
* than or equal in size to \p threshold bytes will be aligned
* on an address that is a multiple of \p alignment. The
* addresses are relative to the end of the user block; the
* alignment is calculated by subtracting the user block size
* from the absolute file address and then adjusting the address
* to be a multiple of \p alignment.
*
* Default values for \p threshold and \p alignment are one,
* implying no alignment. Generally the default values will
* result in the best performance for single-process access to
* the file. For MPI IO and other parallel systems, choose an
* alignment that is a multiple of the disk block size.
*
* If the file space handling strategy is set to
* #H5F_FSPACE_STRATEGY_PAGE, then the alignment set via this
* routine is ignored. The file space handling strategy is set
* by H5Pset_file_space_strategy().
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pset_alignment(hid_t fapl_id, hsize_t threshold, hsize_t alignment);
/**
* \ingroup FAPL
*
* \brief Sets the raw data chunk cache parameters
*
* \fapl_id{plist_id}
* \param[in] mdc_nelmts No longer used; any value passed is ignored
* \param[in] rdcc_nslots The number of chunk slots in the raw data chunk
* cache for this dataset. Increasing this value
* reduces the number of cache collisions, but
* slightly increases the memory used. Due to the
* hashing strategy, this value should ideally be a
* prime number. As a rule of thumb, this value
* should be at least 10 times the number of chunks
* that can fit in \p rdcc_nbytes bytes. For
* maximum performance, this value should be set
* approximately 100 times that number of chunks.
* The default value is 521.
* \param[in] rdcc_nbytes Total size of the raw data chunk cache in bytes.
* The default size is 1 MB per dataset.
* \param[in] rdcc_w0 The chunk preemption policy for all datasets.
* This must be between 0 and 1 inclusive and
* indicates the weighting according to which chunks
* which have been fully read or written are
* penalized when determining which chunks to flush
* from cache. A value of 0 means fully read or
* written chunks are treated no differently than
* other chunks (the preemption is strictly LRU),
* while a value of 1 means fully read or written
* chunks are always preempted before other chunks.
* If your application only reads or writes data once,
* this can be safely set to 1. Otherwise, this should
* be set lower depending on how often you re-read or
* re-write the same data. The default value is 0.75.
* If the value passed is #H5D_CHUNK_CACHE_W0_DEFAULT,
* then the property will not be set on the dataset
* access property list, and the parameter will come
* from the file access property list.
*
* \return \herr_t
*
* \details H5Pset_cache() sets the number of elements, the total number of
* bytes, and the preemption policy value for all datasets in a file
* on the file’s file access property list.
*
* The raw data chunk cache inserts chunks into the cache by first
* computing a hash value using the address of a chunk and then by
* using that hash value as the chunk’s index into the table of
* cached chunks. In other words, the size of this hash table and the
* number of possible hash values are determined by the \p rdcc_nslots
* parameter. If a different chunk in the cache has the same hash value,
* a collision will occur, which will reduce efficiency. If inserting
* the chunk into the cache would cause the cache to be too big, then
* the cache will be pruned according to the \p rdcc_w0 parameter.
*
* The \p mdc_nelmts parameter is no longer used; any value passed
* in that parameter will be ignored.
*
* \b Motivation: Setting raw data chunk cache parameters
* can be done with H5Pset_cache(), H5Pset_chunk_cache(),
* or a combination of both. H5Pset_cache() is used to
* adjust the chunk cache parameters for all datasets via
* a global setting for the file, and H5Pset_chunk_cache()
* is used to adjust the chunk cache parameters for
* individual datasets. When both are used, parameters
* set with H5Pset_chunk_cache() will override any parameters
* set with H5Pset_cache().
*
* \note Optimum chunk cache parameters may vary widely depending
* on different data layout and access patterns. For datasets
* with low performance requirements for example, changing
* the cache settings can save memory.
*
* \note Note: Raw dataset chunk caching is not currently
* supported when using the MPI I/O and MPI POSIX file drivers
* in read/write mode; see H5Pset_fapl_mpio(). When using this
* file driver, all calls to H5Dread() and H5Dwrite() will access
* the disk directly, and H5Pset_cache() will have no effect on
* performance.
*
* \note Raw dataset chunk caching is supported when these drivers are
* used in read-only mode.
*
* \version 1.8.0 The use of the \p mdc_nelmts parameter was discontinued.
* Metadata cache configuration is managed with
* H5Pset_mdc_config() and H5Pget_mdc_config().
* \version 1.6.0 The \p rdcc_nbytes and \p rdcc_nelmts parameters
* changed from type int to size_t.
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pset_cache(hid_t plist_id, int mdc_nelmts, size_t rdcc_nslots, size_t rdcc_nbytes,
double rdcc_w0);
/**
* \ingroup FAPL
*
* \brief Sets write tracking information for core driver, #H5FD_CORE
*
* \fapl_id{fapl_id}
* \param[in] is_enabled Boolean value specifying whether feature is
enabled
* \param[in] page_size Positive integer specifying size, in bytes, of
* write aggregation pages Value of 1 (one) enables
* tracking with no paging.
*
* \return \herr_t
*
* \details When a file is created or opened for writing using the core
* virtual file driver (VFD) with the backing store option
* turned on, the core driver can be configured to track
* changes to the file and write out only the modified bytes.
*
* This write tracking feature is enabled and disabled with \p
* is_enabled. The default setting is that write tracking is
* disabled, or off.
*
* To avoid a large number of small writes, changes can
* be aggregated into pages of a user-specified size, \p
* page_size.
*
* Setting \p page_size to 1 enables tracking with no page
* aggregation.
*
* The backing store option is set via the function
* H5Pset_fapl_core.
*
* \attention
* \parblock
* This function is only for use with the core VFD and must
* be used after the call to H5Pset_fapl_core(). It is an error
* to use this function with any other VFD.
*
* It is an error to use this function when the backing store
* flag has not been set using H5Pset_fapl_core().
*
* This function only applies to the backing store write
* operation which typically occurs when the file is flushed
* or closed. This function has no relationship to the
* increment parameter passed to H5Pset_fapl_core().
*
* For optimum performance, the \p page_size parameter should be
* a power of two.
*
* It is an error to set the page size to 0.
* \endparblock
*
* \version 1.8.14 C function modified in this release to return error
* if \p page_size is set to 0 (zero).
* \since 1.8.13
*
*/
H5_DLL herr_t H5Pset_core_write_tracking(hid_t fapl_id, hbool_t is_enabled, size_t page_size);
/**
* \ingroup FAPL
*
* \brief Sets a file driver
*
* \plist_id
* \param[in] driver_id The new driver identifier
* \param[in] driver_info Optional struct containing driver properties
*
* \return \herr_t
*
* \details H5Pset_driver() sets the file driver, driver_id, for a file
* access or data transfer property list, \p plist_id, and
* supplies an optional struct containing the driver-specific
* properties, \p driver_info.
*
* The driver properties will be copied into the property list
* and the reference count on the driver will be incremented,
* allowing the caller to close the driver identifier but still
* use the property list.
*
* \version 1.8.2 Function publicized in this release; previous releases
* described this function only in the virtual file driver
* documentation.
*
*/
H5_DLL herr_t H5Pset_driver(hid_t plist_id, hid_t driver_id, const void *driver_info);
/**
* \ingroup FAPL
*
* \brief Sets a file driver according to a given driver name
*
* \plist_id
* \param[in] driver_name The new driver name
* \param[in] driver_config Optional string containing driver properties
*
* \return \herr_t
*
* \details H5Pset_driver_by_name() sets the file driver, by the name
* driver_name, for a file access or data transfer property list,
* \p plist_id, and supplies an optional string containing the
* driver-specific properties, \p driver_config. The driver
* properties string will be copied into the property list.
*
* If the driver specified by \p driver_name is not currently
* registered, an attempt will be made to load the driver as a
* plugin.
*
* \version 1.12.1 Function publicized in this release.
*
*/
H5_DLL herr_t H5Pset_driver_by_name(hid_t plist_id, const char *driver_name, const char *driver_config);
/**
* \ingroup FAPL
*
* \brief Sets a file driver according to a given driver value (ID).
*
* \plist_id
* \param[in] driver_value The new driver value (ID)
* \param[in] driver_config Optional string containing driver properties
*
* \return \herr_t
*
* \details H5Pset_driver_by_value() sets the file driver, by the value
* driver_value, for a file access or data transfer property list,
* \p plist_id, and supplies an optional string containing the
* driver-specific properties, \p driver_config. The driver
* properties string will be copied into the property list.
*
* If the driver specified by \p driver_value is not currently
* registered, an attempt will be made to load the driver as a
* plugin.
*
* \version 1.12.1 Function publicized in this release.
*
*/
H5_DLL herr_t H5Pset_driver_by_value(hid_t plist_id, H5FD_class_value_t driver_value,
const char *driver_config);
/**
* \ingroup FAPL
*
* \brief Sets the number of files that can be held open in an external
* link open file cache
*
* \par Motivation
* \parblock
* The <em>external link open file cache</em> holds files open after
* they have been accessed via an external link. This cache reduces
* the number of times such files are opened when external links are
* accessed repeatedly and can significantly improves performance in
* certain heavy-use situations and when low-level file opens or closes
* are expensive.
*
* H5Pset_elink_file_cache_size() sets the number of files
* that will be held open in an external link open file
* cache. H5Pget_elink_file_cache_size() retrieves the size of an existing
* cache; and H5Fclear_elink_file_cache() clears an existing cache without
* closing it.
* \endparblock
*
* \fapl_id{plist_id}
* \param[in] efc_size External link open file cache size in number of files
* <em>Default setting is 0 (zero).</em>
*
* \return \herr_t
*
* \details H5Pset_elink_file_cache_size() specifies the number of files
* that will be held open in an external link open file cache.
*
* The default external link open file cache size is 0 (zero),
* meaning that files accessed via an external link are not
* held open. Setting the cache size to a positive integer
* turns on the cache; setting the size back to zero turns it
* off.
*
* With this property set, files are placed in the external
* link open file cache cache when they are opened via an
* external link. Files are then held open until either
* they are evicted from the cache or the parent file is
* closed. This property setting can improve performance when
* external links are repeatedly accessed.
*
* When the cache is full, files will be evicted using a least
* recently used (LRU) scheme; the file which has gone the
* longest time without being accessed through the parent file
* will be evicted and closed if nothing else is holding that
* file open.
*
* Files opened through external links inherit the parent
* file’s file access property list by default, and therefore
* inherit the parent file’s external link open file cache
* setting.
*
* When child files contain external links of their own, the
* caches can form a graph of cached external files. Closing
* the last external reference to such a graph will recursively
* close all files in the graph, even if cycles are present.
* \par Example
* \parblock
* The following code sets up an external link open file cache that will
* hold open up to 8 files reached through external links:
*
* \code
* status = H5Pset_elink_file_cache_size(fapl_id, 8);
* \endcode
* \endparblock
*
* \since 1.8.7
*/
H5_DLL herr_t H5Pset_elink_file_cache_size(hid_t plist_id, unsigned efc_size);
/**
* \ingroup FAPL
*
* \brief Controls the library's behavior of evicting metadata associated with
* a closed object
*
* \fapl_id
* \param[in] evict_on_close Whether the HDF5 object should be evicted on close
*
* \return \herr_t
*
* \details The library's metadata cache is fairly conservative about holding
* on to HDF5 object metadata(object headers, chunk index structures,
* etc.), which can cause the cache size to grow, resulting in memory
* pressure on an application or system. When enabled, the "evict on
* close" property will cause all metadata for an object to be evicted
* from the cache as long as metadata is not referenced by any other
* open object.
*
* This function only applies to file access property lists.
*
* The default library behavior is to not evict on object or file
* close.
*
* When applied to a file access property list, any subsequently opened
* object will inherit the "evict on close" property and will have
* its metadata evicted when the object is closed.
*
* \since 1.10.1
*
*/
H5_DLL herr_t H5Pset_evict_on_close(hid_t fapl_id, hbool_t evict_on_close);
/**
* \ingroup FAPL
*
* \brief Sets offset property for low-level access to a file in a family of
* files
*
* \fapl_id
* \param[in] offset Offset in bytes within the HDF5 file
*
* \return \herr_t
*
* \details H5Pset_family_offset() sets the offset property in the file access
* property list \p fapl_id so that the user application can
* retrieve a file handle for low-level access to a particular member
* of a family of files. The file handle is retrieved with a separate
* call to H5Fget_vfd_handle() (or, in special circumstances, to
* H5FDget_vfd_handle(); see \ref VFL).
*
* The value of \p offset is an offset in bytes from the beginning of
* the HDF5 file, identifying a user-determined location within the
* HDF5 file.
* The file handle the user application is seeking is for the specific
* member-file in the associated family of files to which this offset
* is mapped.
*
* Use of this function is only appropriate for an HDF5 file written as
* a family of files with the \c FAMILY file driver.
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pset_family_offset(hid_t fapl_id, hsize_t offset);
/**
* \ingroup FAPL
*
* \brief Sets the file close degree
*
* \fapl_id
* \param[in] degree Pointer to a location containing the file close
* degree property, the value of \p degree
*
* \return \herr_t
*
* \details H5Pset_fclose_degree() sets the file close degree property
* \p degree in the file access property list \p fapl_id.
*
* The value of \p degree determines how aggressively
* H5Fclose() deals with objects within a file that remain open
* when H5Fclose() is called to close that file. \p degree can
* have any one of four valid values:
*
* <table>
* <tr>
* <th>Degree name</th>
* <th>H5Fclose behavior with no open object in file</th>
* <th>H5Fclose behavior with open object(s) in file</th>
* </tr>
* <tr>
* <td>#H5F_CLOSE_WEAK</td>
* <td>Actual file is closed.</td>
* <td>Access to file identifier is terminated; actual file
* close is delayed until all objects in file are closed
* </td>
* </tr>
* <tr>
* <td>#H5F_CLOSE_SEMI</td>
* <td>Actual file is closed.</td>
* <td>Function returns FAILURE</td>
* </tr>
* <tr>
* <td>#H5F_CLOSE_STRONG</td>
* <td>Actual file is closed.</td>
* <td>All open objects remaining in the file are closed then
* file is closed</td>
* </tr>
* <tr>
* <td>#H5F_CLOSE_DEFAULT</td>
* <td>The VFL driver chooses the behavior. Currently, all VFL
* drivers set this value to #H5F_CLOSE_WEAK, except for the
* MPI-I/O driver, which sets it to #H5F_CLOSE_SEMI.</td>
* <td></td>
* </tr>
*
* </table>
* \warning If a file is opened multiple times without being closed, each
* open operation must use the same file close degree setting.
* For example, if a file is already open with #H5F_CLOSE_WEAK,
* an H5Fopen() call with #H5F_CLOSE_STRONG will fail.
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pset_fclose_degree(hid_t fapl_id, H5F_close_degree_t degree);
/**
* \ingroup FAPL
*
* \brief Sets an initial file image in a memory buffer
*
* \fapl_id
* \param[in] buf_ptr Pointer to the initial file image, or
* NULL if no initial file image is desired
* \param[in] buf_len Size of the supplied buffer, or
* 0 (zero) if no initial image is desired
*
* \return \herr_t
*
* \details H5Pset_file_image() allows an application to provide a file image
* to be used as the initial contents of a file.
* Calling H5Pset_file_image()makes a copy of the buffer specified in
* \p buf_ptr of size \p buf_len.
*
* \par Motivation:
* H5Pset_file_image() and other elements of HDF5 are
* used to load an image of an HDF5 file into system memory and open
* that image as a regular HDF5 file. An application can then use the
* file without the overhead of disk I/O.
*
* \par Recommended Reading:
* This function is part of the file image
* operations feature set. It is highly recommended to study the guide
* [<em>HDF5 File Image Operations</em>]
* (https://portal.hdfgroup.org/display/HDF5/HDF5+File+Image+Operations
* ) before using this feature set. See the “See Also” section below
* for links to other elements of HDF5 file image operations.
*
* \see
* \li H5LTopen_file_image()
* \li H5Fget_file_image()
* \li H5Pget_file_image()
* \li H5Pset_file_image_callbacks()
* \li H5Pget_file_image_callbacks()
*
* \li [HDF5 File Image Operations]
* (https://portal.hdfgroup.org/display/HDF5/HDF5+File+Image+Operations)
* in [Advanced Topics in HDF5]
* (https://portal.hdfgroup.org/display/HDF5/Advanced+Topics+in+HDF5)
*
* \li Within H5Pset_file_image_callbacks():
* \li Callback #H5FD_file_image_callbacks_t
* \li Callback #H5FD_file_image_op_t
*
* \version 1.8.13 Fortran subroutine added in this release.
* \since 1.8.9
*
*/
H5_DLL herr_t H5Pset_file_image(hid_t fapl_id, void *buf_ptr, size_t buf_len);
/**
* \ingroup FAPL
*
* \brief Sets the callbacks for working with file images
*
* \note **Motivation:** H5Pset_file_image_callbacks() and other elements
* of HDF5 are used to load an image of an HDF5 file into system
* memory and open that image as a regular HDF5 file. An application
* can then use the file without the overhead of disk I/O.\n
* **Recommended Reading:** This function is part of the file
* image operations feature set. It is highly recommended to study
* the guide [HDF5 File Image Operations]
* (https://portal.hdfgroup.org/display/HDF5/HDF5+File+Image+Operations
* ) before using this feature set. See the “See Also” section below
* for links to other elements of HDF5 file image operations.
*
* \fapl_id
* \param[in,out] callbacks_ptr Pointer to the instance of the
* #H5FD_file_image_callbacks_t structure
*
* \return \herr_t \n
* **Failure Modes**: Due to interactions between this function and
* H5Pset_file_image() and H5Pget_file_image(),
* H5Pset_file_image_callbacks() will fail if a file image has
* already been set in the target file access property list, \p fapl_id.
*
* \details H5Pset_file_image_callbacks() sets callback functions for working
* with file images in memory.
*
* H5Pset_file_image_callbacks() allows an application to control the
* management of file image buffers through user defined callbacks.
* These callbacks can be used in the management of file image buffers
* in property lists and with certain file drivers.
*
* H5Pset_file_image_callbacks() must be used before any file image has
* been set in the file access property list. Once a file image has
* been set, the function will fail.
*
* The callback routines set up by H5Pset_file_image_callbacks() are
* invoked when a new file image buffer is allocated, when an existing
* file image buffer is copied or resized, or when a file image buffer
* is released from use.
*
* Some file drivers allow the use of user-defined callback functions
* for allocating, freeing, and copying the driver’s internal buffer,
* potentially allowing optimizations such as avoiding large \c malloc
* and \c memcpy operations, or to perform detailed logging.
*
* From the perspective of the HDF5 library, the operations of the
* \ref H5FD_file_image_callbacks_t.image_malloc "image_malloc",
* \ref H5FD_file_image_callbacks_t.image_memcpy "image_memcpy",
* \ref H5FD_file_image_callbacks_t.image_realloc "image_realloc", and
* \ref H5FD_file_image_callbacks_t.image_free "image_free" callbacks
* must be identical to those of the
* corresponding C standard library calls (\c malloc, \c memcpy,
* \c realloc, and \c free). While the operations must be identical,
* the file image callbacks have more parameters. The return values
* of \ref H5FD_file_image_callbacks_t.image_malloc "image_malloc" and
* \ref H5FD_file_image_callbacks_t.image_realloc "image_realloc" are identical to
* the return values of \c malloc and \c realloc. The return values of
* \ref H5FD_file_image_callbacks_t.image_malloc "image_malloc" and
* \ref H5FD_file_image_callbacks_t.image_free "image_free" differ from the return
* values of \c memcpy and \c free in that the return values of
* \ref H5FD_file_image_callbacks_t.image_memcpy "image_memcpy" and
* \ref H5FD_file_image_callbacks_t.image_free "image_free" can also indicate failure.
*
* The callbacks and their parameters, along with a struct and
* an \c ENUM required for their use, are described below.
*
* <b>Callback struct and \c ENUM:</b>
*
* The callback functions set up by H5Pset_file_image_callbacks() use
* a struct and an \c ENUM that are defined as follows
*
* The struct #H5FD_file_image_callbacks_t serves as a container
* for the callback functions and a pointer to user-supplied data.
* The struct is defined as follows:
* \snippet H5FDpublic.h H5FD_file_image_callbacks_t_snip
*
* Elements of the #H5FD_file_image_op_t are used by the
* callbacks to invoke certain operations on file images. The ENUM is
* defined as follows:
* \snippet H5FDpublic.h H5FD_file_image_op_t_snip
*
* The elements of the #H5FD_file_image_op_t are used in the following
* callbacks:
*
* - The \ref H5FD_file_image_callbacks_t.image_malloc "image_malloc" callback
* contains a pointer to a function that must appear to HDF5 to have
* functionality identical to that of the standard C library \c malloc() call.
*
* - Signature in #H5FD_file_image_callbacks_t:
* \snippet H5FDpublic.h image_malloc_snip
* \n
* - The \ref H5FD_file_image_callbacks_t.image_memcpy "image_memcpy"
* callback contains a pointer to a function
* that must appear to HDF5 to have functionality identical to that
* of the standard C library \c memcopy() call, except that it returns
* a \p NULL on failure. (The \c memcpy C Library routine is defined
* to return the \p dest parameter in all cases.)
*
* - Setting \ref H5FD_file_image_callbacks_t.image_memcpy "image_memcpy"
* to \c NULL indicates that HDF5 should invoke
* the standard C library \c memcpy() routine when copying buffers.
*
* - Signature in #H5FD_file_image_callbacks_t:
* \snippet H5FDpublic.h image_memcpy_snip
* \n
* - The \ref H5FD_file_image_callbacks_t.image_realloc "image_realloc" callback
* contains a pointer to a function that must appear to HDF5 to have
* functionality identical to that of the standard C library \c realloc() call.
*
* - Setting \ref H5FD_file_image_callbacks_t.image_realloc "image_realloc"
* to \p NULL indicates that HDF5 should
* invoke the standard C library \c realloc() routine when resizing
* file image buffers.
*
* - Signature in #H5FD_file_image_callbacks_t:
* \snippet H5FDpublic.h image_realloc_snip
* \n
* - The \ref H5FD_file_image_callbacks_t.image_free "image_free" callback contains
* a pointer to a function that must appear to HDF5 to have functionality
* identical to that of the standard C library \c free() call, except
* that it will return \c 0 (\c SUCCEED) on success and \c -1 (\c FAIL) on failure.
*
* - Setting \ref H5FD_file_image_callbacks_t.image_free "image_free"
* to \c NULL indicates that HDF5 should invoke
* the standard C library \c free() routine when releasing file image
* buffers.
*
* - Signature in #H5FD_file_image_callbacks_t:
* \snippet H5FDpublic.h image_free_snip
* \n
* - The \ref H5FD_file_image_callbacks_t.udata_copy "udata_copy"
* callback contains a pointer to a function
* that, from the perspective of HDF5, allocates a buffer of suitable
* size, copies the contents of the supplied \p udata into the new
* buffer, and returns the address of the new buffer. The function
* returns NULL on failure. This function is necessary if a non-NULL
* \p udata parameter is supplied, so that property lists containing
* the image callbacks can be copied. If the \p udata parameter below
* is \c NULL, then this parameter should be \c NULL as well.
*
* - Signature in #H5FD_file_image_callbacks_t:
* \snippet H5FDpublic.h udata_copy_snip
* \n
* - The \ref H5FD_file_image_callbacks_t.udata_free "udata_free"
* callback contains a pointer to a function
* that, from the perspective of HDF5, frees a user data block. This
* function is necessary if a non-NULL udata parameter is supplied so
* that property lists containing image callbacks can be discarded
* without a memory leak. If the udata parameter below is \c NULL,
* this parameter should be \c NULL as well.
*
* - Signature in #H5FD_file_image_callbacks_t:
* \snippet H5FDpublic.h udata_free_snip
*
* - \p **udata**, the final field in the #H5FD_file_image_callbacks_t
* struct, provides a pointer to user-defined data. This pointer will
* be passed to the
* \ref H5FD_file_image_callbacks_t.image_malloc "image_malloc",
* \ref H5FD_file_image_callbacks_t.image_memcpy "image_memcpy",
* \ref H5FD_file_image_callbacks_t.image_realloc "image_realloc", and
* \ref H5FD_file_image_callbacks_t.image_free "image_free" callbacks.
* Define udata as \c NULL if no user-defined data is provided.
*
* \since 1.8.9
*
*/
H5_DLL herr_t H5Pset_file_image_callbacks(hid_t fapl_id, H5FD_file_image_callbacks_t *callbacks_ptr);
/**
* \ingroup FAPL
*
* \brief Sets the file locking property values
*
* \fapl_id
* \param[in] use_file_locking Toggle to specify file locking (or not)
* \param[in] ignore_when_disabled Toggle to ignore when disabled (or not)
*
* \return \herr_t
*
* \details H5Pset_file_locking() overrides the default file locking flag
* setting that was set when the library was configured.
*
* This setting can be overridden by the \c HDF5_USE_FILE_LOCKING
* environment variable.
*
* File locking is used when creating/opening a file to prevent
* problematic file accesses.
*
* \since 1.10.7
*
*/
H5_DLL herr_t H5Pset_file_locking(hid_t fapl_id, hbool_t use_file_locking, hbool_t ignore_when_disabled);
/**
* \ingroup FAPL
*
* \brief Sets garbage collecting references flag
*
* \fapl_id
* \param[in] gc_ref Flag setting reference garbage collection to on (1) or off (0)
*
* \return \herr_t
*
* \details H5Pset_gc_references() sets the flag for garbage collecting
* references for the file.
*
* Dataset region references and other reference types use space in an
* HDF5 file's global heap. If garbage collection is on and the user
* passes in an uninitialized value in a reference structure, the heap
* might get corrupted. When garbage collection is off, however, and
* the user re-uses a reference, the previous heap block will be
* orphaned and not returned to the free heap space.
*
* When garbage collection is on, the user must initialize the
* reference structures to 0 or risk heap corruption.
*
* The default value for garbage collecting references is off.
*
*/
H5_DLL herr_t H5Pset_gc_references(hid_t fapl_id, unsigned gc_ref);
/**
* \ingroup FAPL
*
* \brief Controls the range of library release versions used when creating
* objects in a file
*
* \fapl_id{plist_id}
* \param[in] low The earliest version of the library that will be used
* for writing objects
* \param[in] high The latest version of the library that will be used for
* writing objects
*
* \return \herr_t
*
* \details H5Pset_libver_bounds() controls the range of library release
* versions that will be used when creating objects in a file.
* The object format versions are determined indirectly from the
* library release versions specified in the call.
*
* This property is set in the file access property list
* specified by the parameter \p fapl_id.
*
* The parameter \p low sets the earliest possible format
* versions that the library will use when creating objects in
* the file. Note that earliest possible is different from
* earliest, as some features introduced in library versions
* later than 1.0.0 resulted in updates to object formats.
* The parameter \p high sets the latest format versions that
* the library will be allowed to use when creating objects in
* the file.
*
* The parameters \p low and \p high must be one of the
* enumerated values in the #H5F_libver_t struct, which is
* defined in H5Fpublic.h.
*
* The macro #H5F_LIBVER_LATEST is aliased to the highest
* enumerated value in #H5F_libver_t, indicating that this is
* currently the latest format available.
*
* The library supports the following five pairs of
* (\p low, \p high) combinations as derived from the values
* in #H5F_libver_t:
*
* <table>
* <tr>
* <th>Value of \p low and \p high</th>
* <th>Result</th>
* </tr>
* <tr>
* <td>\p low=#H5F_LIBVER_EARLIEST<br />
* \p high=#H5F_LIBVER_V18</td>
* <td>
* \li The library will create objects with the earliest
* possible format versions.
* \li The library will allow objects to be created with the
* latest format versions available to library release 1.8.x.
* \li API calls that create objects or features that are
* available to versions of the library greater than 1.8.x
* release will fail.
* </td>
* </tr>
* <tr>
* <td>\p low=#H5F_LIBVER_EARLIEST<br />
* \p high=#H5F_LIBVER_V110</td>
* <td>
* \li The library will create objects with the earliest possible
* format versions.
* \li The library will allow objects to be created with the latest
* format versions available to library release 1.10.x.
* Since 1.10.x is also #H5F_LIBVER_LATEST, there is no upper
* limit on the format versions to use. For example, if a newer
* format version is required to support a feature e.g. virtual
* dataset, this setting will allow the object to be created.
* \li This is the library default setting and provides the greatest
* format compatibility.
* </td>
* </tr>
* <tr>
* <td>\p low=#H5F_LIBVER_V18<br />
* \p high=#H5F_LIBVER_V18</td>
* <td>
* \li The library will create objects with the latest format
* versions available to library release 1.8.x.
* \li API calls that create objects or features that are available
* to versions of the library greater than 1.8.x release will
* fail.
* \li Earlier versions of the library may not be able to access
* objects created with this setting.</td>
* </tr>
* <tr>
* <td>\p low=#H5F_LIBVER_V18<br />
* \p high=#H5F_LIBVER_V110</td>
* <td>
* \li The library will create objects with the latest format
* versions available to library release 1.8.x.
* \li The library will allow objects to be created with the latest
* format versions available to library release 1.10.x.
* Since 1.10.x is also #H5F_LIBVER_LATEST, there is no upper
* limit on the format versions to use. For example, if a
* newer format version is required to support a feature e.g.
* virtual dataset, this setting will allow the object to be
* created.
* \li Earlier versions of the library may not be able to access
* objects created with this setting.</td>
* </tr>
* <tr>
* <td>\p low=#H5F_LIBVER_V110<br />
* \p high=#H5F_LIBVER_V110
* </td>
* <td>
* \li The library will create objects with the latest format
* versions available to library release 1.10.x.
* \li The library will allow objects to be created with the latest
* format versions available to library release 1.10.x.
* Since 1.10.x is also #H5F_LIBVER_LATEST, there is no upper
* limit on the format versions to use. For example, if a
* newer format version is required to support a feature e.g.
* virtual dataset, this setting will allow the object to be
* created.
* \li This setting allows users to take advantage of the latest
* features and performance enhancements in the library.
* However, objects written with this setting may be
* accessible to a smaller range of library versions than
* would be the case if low is set to #H5F_LIBVER_EARLIEST.
* \li Earlier versions of the library may not be able to access
* objects created with this
* setting.
* </td>
* </tr>
* </table>
*
* \version 1.10.2 #H5F_LIBVER_V18 added to the enumerated defines in
* #H5F_libver_t.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_libver_bounds(hid_t plist_id, H5F_libver_t low, H5F_libver_t high);
/**
* \ingroup FAPL
*
* \brief Set the initial metadata cache configuration in the indicated File
* Access Property List to the supplied value
*
* \fapl_id{plist_id}
* \param[in] config_ptr Pointer to the instance of \p H5AC_cache_config_t
* containing the desired configuration
* \return \herr_t
*
* \details The fields of the #H5AC_cache_config_t structure are shown
* below:
* \snippet H5ACpublic.h H5AC_cache_config_t_snip
* \click4more
*
* \details H5Pset_mdc_config() attempts to set the initial metadata cache
* configuration to the supplied value. It will fail if an invalid
* configuration is detected. This configuration is used when the file
* is opened.
*
* See the overview of the metadata cache in the special topics section
* of the user manual for details on what is being configured. If you
* have not read and understood that documentation, you really should
* not be using this API call.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_mdc_config(hid_t plist_id, H5AC_cache_config_t *config_ptr);
/**
* \ingroup FAPL
*
* \brief Sets metadata cache logging options
*
* \fapl_id{plist_id}
* \param[in] is_enabled Whether logging is enabled
* \param[in] location Location of log in UTF-8/ASCII (file path/name)
* (On Windows, this must be ASCII)
* \param[in] start_on_access Whether the logging will begin as soon as the
* file is opened or created
*
* \return \herr_t
*
* \details The metadata cache is a central part of the HDF5 library through
* which all file metadata reads and writes take place. File metadata
* is normally invisible to the user and is used by the library for
* purposes such as locating and indexing data. File metadata should
* not be confused with user metadata, which consists of attributes
* created by users and attached to HDF5 objects such as datasets via
* H5A API calls.
*
* Due to the complexity of the cache, a trace/logging feature has
* been created that can be used by HDF5 developers for debugging and
* performance analysis. The functions that control this functionality
* will normally be of use to a very limited number of developers
* outside of The HDF Group. The functions have been documented to
* help users create logs that can be sent with bug reports.
*
* Control of the log functionality is straightforward. Logging is
* enabled via the H5Pset_mdc_log_options() function,
* which will modify the file access property list used to open or
* create a file. This function has a flag that determines whether
* logging begins at file open or starts in a paused state. Log
* messages can then be controlled via the H5Fstart_mdc_logging()
* and H5Fstop_mdc_logging() function.
*
* H5Pget_mdc_log_options() can be used to examine a file access
* property list, and H5Fget_mdc_logging_status() will return the
* current state of the logging flags.
*
* The log format is described in [<em>Metadata Cache Logging</em>]
* (https://portal.hdfgroup.org/display/HDF5/Fine-tuning+the+Metadata+Cache).
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Pset_mdc_log_options(hid_t plist_id, hbool_t is_enabled, const char *location,
hbool_t start_on_access);
/**
* \ingroup FAPL
*
* \brief Sets the minimum metadata block size
*
* \fapl_id{fapl_id}
* \param[in] size Minimum size, in bytes, of metadata block allocations
*
* \return \herr_t
*
* \details H5Pset_meta_block_size() sets the minimum size, in bytes, of
* metadata block allocations when #H5FD_FEAT_AGGREGATE_METADATA is set by a VFL
* driver.
* Each raw metadata block is initially allocated to be of the given size.
* Specific metadata objects (e.g., object headers, local heaps, B-trees) are then
* sub-allocated from this block.
*
* The default setting is 2048 bytes, meaning that the library will
* attempt to aggregate metadata in at least 2K blocks in the file.
* Setting the value to zero (\Code{0}) with this function will turn
* off metadata aggregation, even if the VFL driver attempts to use the
* metadata aggregation strategy.
*
* Metadata aggregation reduces the number of small data objects in the file that
* would otherwise be required for metadata. The aggregated block of metadata is
* usually written in a single write action and always in a contiguous block,
* potentially significantly improving library and application performance.
*
* \since 1.4.0
*/
H5_DLL herr_t H5Pset_meta_block_size(hid_t fapl_id, hsize_t size);
/**
* \ingroup FAPL
*
* \brief Sets the number of read attempts in a file access property list
*
* \fapl_id{plist_id}
* \param[in] attempts The number of read attempts. Must be a value greater than \Code{0}
*
* \return \herr_t
*
* \return Failure Modes:
* - When the user sets the number of read attempts to \Code{0}.
* - When the input property list is not a file access property list.
* - When the library is unable to set the number of read attempts in the file access property list.
*
* \details H5Pset_metadata_read_attempts() sets the number of reads that the
* library will try when reading checksummed metadata in an HDF5 file opened
* with SWMR access. When reading such metadata, the library will compare the
* checksum computed for the metadata just read with the checksum stored within
* the piece of checksum. When performing SWMR operations on a file, the
* checksum check might fail when the library reads data on a system that is not
* atomic. To remedy such situations, the library will repeatedly read the piece
* of metadata until the check passes or finally fails the read when the allowed
* number of attempts is reached.
*
* The number of read attempts used by the library will depend on how the file is
* opened and whether the user sets the number of read attempts via this routine:
* - For a file opened with SWMR access:
* - If the user sets the number of attempts to \Code{N}, the library will use \Code{N}.
* - If the user does not set the number of attempts, the library will use the
* default for SWMR access (\Code{100}).
* - For a file opened with non-SWMR access, the library will always use the default
* for non-SWMR access (\Code{1}). The value set via this routine does not have any effect
* during non-SWMR access.
*
* \b Example: The first example illustrates the case in setting the number of read attempts for a file
* opened with SWMR access.
*
* \snippet H5Pset_metadata_read_attempts.c SWMR Access
*
* \b Example: The second example illustrates the case in setting the number of
* read attempts for a file opened with non-SWMR access. The value
* set in the file access property list does not have any effect.
*
* \snippet H5Pset_metadata_read_attempts.c non-SWMR Access
*
* \note \b Motivation: On a system that is not atomic, the library might
* possibly read inconsistent metadata with checksum when performing
* single-writer/multiple-reader (SWMR) operations for an HDF5 file. Upon
* encountering such situations, the library will try reading the metadata
* again to obtain consistent data. This routine provides the means to set
* the number of read attempts other than the library default.
*
* \since 1.10.0
*/
H5_DLL herr_t H5Pset_metadata_read_attempts(hid_t plist_id, unsigned attempts);
/**
* \ingroup FAPL
*
* \brief Specifies type of data to be accessed via the \Code{MULTI} driver,
* enabling more direct access
*
* \fapl_id{fapl_id}
* \param[in] type Type of data to be accessed
*
* \return \herr_t
*
* \details H5Pset_multi_type() sets the \Emph{type of data} property in the file
* access property list \p fapl_id. This setting enables a user
* application to specify the type of data the application wishes to
* access so that the application can retrieve a file handle for
* low-level access to the particular member of a set of \Code{MULTI}
* files in which that type of data is stored. The file handle is
* retrieved with a separate call to H5Fget_vfd_handle() (or, in special
* circumstances, to H5FDget_vfd_handle(); see \ref VFL.
*
* The type of data specified in \p type may be one of the following:
*
* <table>
* <tr>
* <td>#H5FD_MEM_SUPER</td> <td>Super block data</td>
* </tr>
* <tr>
* <td>#H5FD_MEM_BTREE</td> <td>B-tree data</td>
* </tr>
* <tr>
* <td>#H5FD_MEM_DRAW</td> <td>Dataset raw data</td>
* </tr>
* <tr>
* <td>#H5FD_MEM_GHEAP</td> <td>Global heap data</td>
* </tr>
* <tr>
* <td>#H5FD_MEM_LHEAP</td> <td>Local Heap data</td>
* </tr>
* <tr>
* <td>#H5FD_MEM_OHDR</td> <td>Object header data</td>
* </tr>
* </table>
*
* This function is for use only when accessing an HDF5 file written as a set of
* files with the \Code{MULTI} file driver.
*
* \since 1.6.0
*/
H5_DLL herr_t H5Pset_multi_type(hid_t fapl_id, H5FD_mem_t type);
/**
* \ingroup FAPL
*
* \brief Sets a callback function to invoke when an object flush occurs in the file
*
* \fapl_id{plist_id}
* \op{func}
* \op_data_in{udata}
*
* \return \herr_t
*
* \details H5Pset_object_flush_cb() sets the callback function to invoke in the
* file access property list \p plist_id whenever an object flush occurs in
* the file. Library objects are group, dataset, and committed
* datatype.
*
* The callback function \p func must conform to the prototype defined below:
* \code
* typedef herr_t (*H5F_flush_cb_t)(hid_t object_id, void *user_data)
* \endcode
*
* The parameters of the callback function, per the above prototypes, are defined as follows:
* - \Code{object_id} is the identifier of the object which has just been flushed.
* - \Code{user_data} is the user-defined input data for the callback function.
*
* \b Example: The example below illustrates the usage of this routine to set
* the callback function to invoke when an object flush occurs.
*
* \include H5Pset_object_flush_cb.c
*
* \since 1.10.0
*/
H5_DLL herr_t H5Pset_object_flush_cb(hid_t plist_id, H5F_flush_cb_t func, void *udata);
/**
* \ingroup FAPL
*
* \brief Sets the maximum size of the data sieve buffer
*
* \fapl_id{fapl_id}
* \param[in] size Maximum size, in bytes, of data sieve buffer
*
* \return \herr_t
*
* \details H5Pset_sieve_buf_size() sets \p size, the maximum size in bytes of the
* data sieve buffer, which is used by file drivers that are capable of
* using data sieving.
*
* The data sieve buffer is used when performing I/O on datasets in the
* file. Using a buffer which is large enough to hold several pieces of
* the dataset being read in for hyperslab selections boosts
* performance by quite a bit.
*
* The default value is set to 64KB, indicating that file I/O for raw
* data reads and writes will occur in at least 64KB blocks. Setting
* the value to zero (\Code{0}) with this API function will turn off
* the data sieving, even if the VFL driver attempts to use that
* strategy.
*
* Internally, the library checks the storage sizes of the datasets in
* the file. It picks the smaller one between the size from the file
* access property and the size of the dataset to allocate the sieve
* buffer for the dataset in order to save memory usage.
*
* \version 1.6.0 The \p size parameter has changed from type \Code{hsize_t} to \Code{size_t}.
*
* \since 1.4.0
*/
H5_DLL herr_t H5Pset_sieve_buf_size(hid_t fapl_id, size_t size);
/**
* \ingroup FAPL
*
* \brief Sets the size of a contiguous block reserved for small data
*
* \fapl_id{fapl_id}
* \param[in] size Maximum size, in bytes, of the small data block.
The default size is \Code{2048}.
*
* \return \herr_t
*
* \details H5Pset_small_data_block_size() reserves blocks of \p size bytes for the
* contiguous storage of the raw data portion of \Emph{small} datasets. The
* HDF5 library then writes the raw data from small datasets to this
* reserved space, thus reducing unnecessary discontinuities within
* blocks of meta data and improving I/O performance.
*
* A small data block is actually allocated the first time a qualifying
* small dataset is written to the file. Space for the raw data portion
* of this small dataset is suballocated within the small data block.
* The raw data from each subsequent small dataset is also written to
* the small data block until it is filled; additional small data
* blocks are allocated as required.
*
* The HDF5 library employs an algorithm that determines whether I/O
* performance is likely to benefit from the use of this mechanism with
* each dataset as storage space is allocated in the file. A larger
* \p size will result in this mechanism being employed with larger
* datasets.
*
* The small data block size is set as an allocation property in the
* file access property list identified by \p fapl_id.
*
* Setting \p size to zero (\Code{0}) disables the small data block mechanism.
*
* \since 1.4.4
*/
H5_DLL herr_t H5Pset_small_data_block_size(hid_t fapl_id, hsize_t size);
/**
* \ingroup FAPL
*
* \brief Set the file VOL connector for a file access property list
*
* \fapl_id{plist_id}
* \param[in] new_vol_id VOL connector identifier
* \param[in] new_vol_info Optional VOL information
*
* \return \herr_t
*
* \details H5Pset_vol() sets the VOL connector \p new_vol_id for a file access
* property list \p plist_id using the (optional) VOL information in
* \p new_vol_info.
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Pset_vol(hid_t plist_id, hid_t new_vol_id, const void *new_vol_info);
/**
* \ingroup FAPL
*
* \brief Query the capability flags for the VOL connector that will be used
* with this file access property list (FAPL).
*
* \fapl_id{plist_id}
* \param[out] cap_flags Flags that indicate the VOL connector capabilities
*
* \return \herr_t
*
* \details H5Pget_vol_cap_flags() queries the current VOL connector information
* for a FAPL to retrieve the capability flags for the VOL
* connector stack, as will be used by a file open or create
* operation that uses this FAPL.
*
* \note This routine supports the use of the HDF5_VOL_CONNECTOR environment
* variable to override the VOL connector set programmatically for the
* FAPL (with H5Pset_vol).
*
* \note The H5VL_CAP_FLAG_ASYNC flag can be checked to see if asynchronous
* operations are supported by the VOL connector stack.
*
* \since 1.14.0
*
*/
H5_DLL herr_t H5Pget_vol_cap_flags(hid_t plist_id, uint64_t *cap_flags);
#ifdef H5_HAVE_PARALLEL
/**
* \ingroup GAPL
*
* \brief Sets metadata I/O mode for read operations to be collective or independent (default)
*
* \gacpl_id
* \param[in] is_collective Boolean value indicating whether metadata reads are collective
* (\Code{1}) or independent (\Code{0}).
* Default mode: Independent (\Code{0})
*
* \return \herr_t
*
* \details H5Pset_all_coll_metadata_ops() sets the metadata I/O mode for read
* operations in the access property list \p plist_id.
*
* When engaging in parallel I/O, all metadata write operations must be
* collective. If \p is_collective is \Code{1}, this property specifies
* that the HDF5 library will perform all metadata read operations
* collectively; if \p is_collective is \Code{0}, such operations may
* be performed independently.
*
* Users must be aware that several HDF5 operations can potentially
* issue metadata reads. These include opening a dataset, datatype, or
* group; reading an attribute; or issuing a \Emph{get info} call such
* as getting information for a group with H5Fget_info(). Collective
* I/O requirements must be kept in mind when issuing such calls in the
* context of parallel I/O.
*
* If this property is collective on a file access property list that
* is used in creating or opening a file, then the HDF5 library will
* assume that all metadata read operations issued on that file
* identifier will be issued collectively from all ranks irrespective
* of the individual setting of a particular operation. If this
* assumption is not adhered to, corruption will be introduced in the
* metadata cache and HDF5’s behavior will be undefined.
*
* Alternatively, a user may wish to avoid setting this property
* globally on the file access property list, and individually set it
* on particular object access property lists (dataset, group, link,
* datatype, attribute access property lists) for certain operations.
* This will indicate that only the operations issued with such an
* access property list will be called collectively and other
* operations may potentially be called independently. There are,
* however, several HDF5 operations that can issue metadata reads but
* have no property list in their function signatures to allow passing
* the collective requirement property. For those operations, the only
* option is to set the global collective requirement property on the
* file access property list; otherwise the metadata reads that can be
* triggered from those operations will be done independently by each
* process.
*
* Functions that do not accommodate an access property list but that
* might issue metadata reads are listed in \ref maybe_metadata_reads.
*
* \attention As noted above, corruption will be introduced into the metadata
* cache and HDF5 library behavior will be undefined when both of the following
* conditions exist:
* - A file is created or opened with a file access property list in which the
* collective metadata I/O property is set to \Code{1}.
* - Any function is called that triggers an independent metadata read while the
* file remains open with that file access property list.
*
* \attention An approach that avoids this corruption risk is described above.
*
* \sa_metadata_ops
*
* \since 1.10.0
*/
H5_DLL herr_t H5Pset_all_coll_metadata_ops(hid_t plist_id, hbool_t is_collective);
/**
* \ingroup GAPL
*
* \brief Retrieves metadata read mode setting
*
* \gacpl_id
* \param[out] is_collective Pointer to a buffer containing the Boolean value indicating whether metadata
* reads are collective (\Code{>0}) or independent (\Code{0}).
* Default mode: Independent (\Code{0})
*
* \return \herr_t
*
* \details H5Pget_all_coll_metadata_ops() retrieves the collective metadata read setting from the access
* property list \p plist_id into \p is_collective.
*
* \sa_metadata_ops
*
* \since 1.10.0
*/
H5_DLL herr_t H5Pget_all_coll_metadata_ops(hid_t plist_id, hbool_t *is_collective);
/**
* \ingroup FAPL
*
* \brief Sets metadata write mode to be collective or independent (default)
*
* \fapl_id{plist_id}
* \param[out] is_collective Boolean value indicating whether metadata
* writes are collective (\Code{>0}) or independent (\Code{0}).
* \Emph{Default mode:} Independent (\Code{0})
* \return \herr_t
*
* \details H5Pset_coll_metadata_write() tells the HDF5 library whether to
* perform metadata writes collectively (1) or independently (0).
*
* If collective access is selected, then on a flush of the metadata
* cache, all processes will divide the metadata cache entries to be
* flushed evenly among themselves and issue a single MPI-IO collective
* write operation. This is the preferred method when the size of the
* metadata created by the application is large.
*
* If independent access is selected, the library uses the default
* method for doing metadata I/O either from process zero or
* independently from each process.
*
* \sa_metadata_ops
*
* \since 1.10.0
*/
H5_DLL herr_t H5Pset_coll_metadata_write(hid_t plist_id, hbool_t is_collective);
/**
* \ingroup FAPL
*
* \brief Retrieves metadata write mode setting
*
* \fapl_id{plist_id}
* \param[out] is_collective Pointer to a boolean value indicating whether
* metadata writes are collective (\Code{>0}) or independent (\Code{0}).
* \Emph{Default mode:} Independent (\Code{0})
* \return \herr_t
*
* \details H5Pget_coll_metadata_write() retrieves the collective metadata write
* setting from the file access property into \p is_collective.
*
* \sa_metadata_ops
*
* \since 1.10.0
*/
H5_DLL herr_t H5Pget_coll_metadata_write(hid_t plist_id, hbool_t *is_collective);
/**
* \ingroup FAPL
*
* \brief Get the MPI communicator and info
*
* \fapl_id
* \param[out] comm MPI communicator
* \param[out] info MPI info object
* \return \herr_t
*
* \details H5Pget_mpi_params() gets the MPI communicator and info stored in
* the file access property list \p fapl_id.
*
* \todo When was this introduced?
*
*/
H5_DLL herr_t H5Pget_mpi_params(hid_t fapl_id, MPI_Comm *comm, MPI_Info *info);
/**
* \ingroup FAPL
*
* \brief Set the MPI communicator and info
*
* \fapl_id
* \param[in] comm MPI communicator
* \param[in] info MPI info object
* \return \herr_t
*
* \details H5Pset_mpi_params() sets the MPI communicator and info stored in
* the file access property list \p fapl_id.
*
* \todo When was this introduced?
*
*/
H5_DLL herr_t H5Pset_mpi_params(hid_t fapl_id, MPI_Comm comm, MPI_Info info);
#endif /* H5_HAVE_PARALLEL */
/**
* \ingroup FAPL
*
* \brief Sets the metadata cache image option for a file access property list
*
* \fapl_id{plist_id}
* \param[out] config_ptr Pointer to metadata cache image configuration values
* \return \herr_t
*
* \details H5Pset_mdc_image_config() sets the metadata cache image option with
* configuration values specified by \p config_ptr for the file access
* property list specified in \p plist_id.
*
* #H5AC_cache_image_config_t is defined as follows:
* \snippet H5ACpublic.h H5AC_cache_image_config_t_snip
* \click4more
*
* \par Limitations: While it is an obvious error to request a cache image when
* opening the file read only, it is not in general possible to test for
* this error in the H5Pset_mdc_image_config() call. Rather than fail the
* subsequent file open, the library silently ignores the file image
* request in this case.\n It is also an error to request a cache image on
* a file that does not support superblock extension messages (i.e. a
* superblock version less than 2). As above, it is not always possible to
* detect this error in the H5Pset_mdc_image_config() call, and thus the
* request for a cache image will fail silently in this case as well.\n
* Creation of cache images is currently disabled in parallel -- as above,
* any request for a cache image in this context will fail silently.\n
* Files with cache images may be read in parallel applications, but note
* that the load of the cache image is a collective operation triggered by
* the first operation that accesses metadata after file open (or, if
* persistent free space managers are enabled, on the first allocation or
* deallocation of file space, or read of file space manager status,
* whichever comes first). Thus the parallel process may deadlock if any
* process does not participate in this access.\n
* In long sequences of file closes and opens, infrequently accessed
* metadata can accumulate in the cache image to the point where the cost
* of storing and restoring this metadata exceeds the benefit of retaining
* frequently used metadata in the cache image. When implemented, the
* #H5AC_cache_image_config_t::entry_ageout should address this problem. In
* the interim, not requesting a cache image every n file close/open cycles
* may be an acceptable work around. The choice of \c n will be driven by
* application behavior, but \Code{n = 10} seems a good starting point.
*
* \since 1.10.1
*/
H5_DLL herr_t H5Pset_mdc_image_config(hid_t plist_id, H5AC_cache_image_config_t *config_ptr);
/**
* \ingroup FAPL
*
* \brief Sets the maximum size for the page buffer and the minimum percentage
* for metadata and raw data pages
*
* \fapl_id{plist_id}
* \param[in] buf_size Maximum size, in bytes, of the page buffer
* \param[in] min_meta_per Minimum metadata percentage to keep in the page buffer
* before allowing pages containing metadata to be evicted (Default is 0)
* \param[in] min_raw_per Minimum raw data percentage to keep in the page buffer
* before allowing pages containing raw data to be evicted (Default is 0)
* \return \herr_t
*
* \details H5Pset_page_buffer_size() sets buf_size, the maximum size in bytes
* of the page buffer. The default value is zero, meaning that page
* buffering is disabled. When a non-zero page buffer size is set, the
* library will enable page buffering if that size is larger or equal
* than a single page size if a paged file space strategy is enabled
* using the functions H5Pset_file_space_strategy() and
* H5Pset_file_space_page_size().
*
* The page buffer layer captures all I/O requests before they are
* issued to the VFD and "caches" them in fixed sized pages. Once the
* total number of pages exceeds the page buffer size, the library
* evicts pages from the page buffer by writing them to the VFD. At
* file close, the page buffer is flushed writing all the pages to the
* file.
*
* If a non-zero page buffer size is set, and the file space strategy
* is not set to paged or the page size for the file space strategy is
* larger than the page buffer size, the subsequent call to H5Fcreate()
* or H5Fopen() using the \p plist_id will fail.
*
* The function also allows setting the minimum percentage of pages for
* metadata and raw data to prevent a certain type of data to evict hot
* data of the other type.
*
* \since 1.10.1
*
*/
H5_DLL herr_t H5Pset_page_buffer_size(hid_t plist_id, size_t buf_size, unsigned min_meta_per,
unsigned min_raw_per);
/* Dataset creation property list (DCPL) routines */
/**
* \ingroup DCPL
*
* \brief Determines whether fill value is defined
*
* \dcpl_id{plist}
* \param[out] status Status of fill value in property list
*
* \return \herr_t
*
* \details H5Pfill_value_defined() determines whether a fill value is
* defined in the dataset creation property list \p plist. Valid
* values returned in status are as follows:
*
* <table>
* <tr>
* <td>#H5D_FILL_VALUE_UNDEFINED</td>
* <td>Fill value is undefined.</td>
* </tr>
* <tr>
* <td>#H5D_FILL_VALUE_DEFAULT</td>
* <td>Fill value is the library default.</td>
* </tr>
* <tr>
* <td>#H5D_FILL_VALUE_USER_DEFINED</td>
* <td>Fill value is defined by the application.</td>
* </tr>
* </table>
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pfill_value_defined(hid_t plist, H5D_fill_value_t *status);
/**
* \ingroup DCPL
*
* \brief Retrieves the timing for storage space allocation
*
* \dcpl_id{plist_id}
* \param[out] alloc_time The timing setting for allocating dataset
* storage space
*
* \return \herr_t
*
* \details H5Pget_alloc_time() retrieves the timing for allocating storage
* space for a dataset's raw data. This property is set in the
* dataset creation property list \p plist_id. The timing setting
* is returned in \p alloc_time as one of the following values:
*
* <table>
* <tr>
* <td>#H5D_ALLOC_TIME_DEFAULT<br /> </td>
* <td>Uses the default allocation time, based on the dataset
* storage method. <br />See the \p alloc_time description in
* H5Pset_alloc_time() for default allocation times for
* various storage methods.</td>
* </tr>
* <tr>
* <td>#H5D_ALLOC_TIME_EARLY</td>
* <td>All space is allocated when the dataset is created.</td>
* </tr>
* <tr>
* <td>#H5D_ALLOC_TIME_INCR</td>
* <td>Space is allocated incrementally as data is written
* to the dataset.</td>
* </tr>
* <tr>
* <td>#H5D_ALLOC_TIME_LATE</td>
* <td>All space is allocated when data is first written to
* the dataset.</td>
* </tr>
* </table>
*
* \note H5Pget_alloc_time() is designed to work in concert with the
* dataset fill value and fill value write time properties, set
* with the functions H5Pget_fill_value() and H5Pget_fill_time().
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pget_alloc_time(hid_t plist_id, H5D_alloc_time_t *alloc_time /*out*/);
/**
* \ingroup DCPL
*
* \brief Retrieves the size of chunks for the raw data of a chunked
* layout dataset
*
* \dcpl_id{plist_id}
* \param[in] max_ndims Size of the \p dims array
* \param[out] dim Array to store the chunk dimensions
*
* \return Returns chunk dimensionality if successful;
* otherwise returns a negative value.
*
* \details H5Pget_chunk() retrieves the size of chunks for the raw data
* of a chunked layout dataset. This function is only valid for
* dataset creation property lists. At most, \p max_ndims elements
* of \p dim will be initialized.
*
* \since 1.0.0
*
*/
H5_DLL int H5Pget_chunk(hid_t plist_id, int max_ndims, hsize_t dim[] /*out*/);
/**
*
* \ingroup DCPL
*
* \brief Retrieves the edge chunk option setting from a dataset creation
* property list
*
* \dcpl_id{plist_id}
* \param[out] opts Edge chunk option flag. Valid values are described in
* H5Pset_chunk_opts(). The option status can be
* retrieved using the bitwise AND operator ( & ). For
* example, the expression
* (opts&#H5D_CHUNK_DONT_FILTER_PARTIAL_CHUNKS) will
* evaluate to #H5D_CHUNK_DONT_FILTER_PARTIAL_CHUNKS if
* that option has been enabled. Otherwise, it will
* evaluate to 0 (zero).
*
* \return \herr_t
*
* \details H5Pget_chunk_opts() retrieves the edge chunk option setting
* stored in the dataset creation property list \p plist_id.
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Pget_chunk_opts(hid_t plist_id, unsigned *opts);
/**
* \ingroup DCPL
*
* \brief Retrieves the setting for whether or not to create minimized
* dataset object headers
*
* \dcpl_id
* \param[out] minimize Flag indicating whether the library will or will
* not create minimized dataset object headers
*
* \return \herr_t
*
* \details H5Pget_dset_no_attrs_hint() retrieves the
* <i>no dataset attributes</i> hint setting for the dataset
* creation property list \p dcpl_id. This setting is used to
* inform the library to create minimized dataset object headers
* when TRUE. The setting value is returned in the boolean pointer
* \p minimize.
*
* \since 1.10.5
*
*/
H5_DLL herr_t H5Pget_dset_no_attrs_hint(hid_t dcpl_id, hbool_t *minimize);
/**
* \ingroup DCPL
*
* \brief Returns information about an external file
*
* \dcpl_id{plist_id}
* \param[in] idx External file index
* \param[in] name_size Maximum length of \p name array
* \param[out] name Name of the external file
* \param[out] offset Pointer to a location to return an offset value
* \param[out] size Pointer to a location to return the size of the
* external file data
*
* \return \herr_t
*
* \details H5Pget_external() returns information about an external file.
* The external file is specified by its index, \p idx, which
* is a number from zero to N-1, where N is the value returned
* by H5Pget_external_count(). At most \p name_size characters
* are copied into the \p name array. If the external file name
* is longer than \p name_size with the null terminator, the
* return value is not null terminated (similar to strncpy()).
*
* If \p name_size is zero or \p name is the null pointer, the
* external file name is not returned. If \p offset or \p size
* are null pointers then the corresponding information is not
* returned.
*
* \note On Windows, off_t is typically a 32-bit signed long value, which
* limits the valid offset that can be returned to 2 GiB.
*
* \version 1.6.4 \p idx parameter type changed to unsigned.
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pget_external(hid_t plist_id, unsigned idx, size_t name_size, char *name /*out*/,
off_t *offset /*out*/, hsize_t *size /*out*/);
/**
* \ingroup DCPL
*
* \brief Returns the number of external files for a dataset
*
* \dcpl_id{plist_id}
*
* \return Returns the number of external files if successful; otherwise
* returns a negative value.
*
* \details H5Pget_external_count() returns the number of external files
* for the specified dataset.
*
* \since 1.0.0
*
*/
H5_DLL int H5Pget_external_count(hid_t plist_id);
/**
* \ingroup DCPL
*
* \brief Retrieves the time when fill values are written to a dataset
*
* \dcpl_id{plist_id}
* \param[out] fill_time Setting for the timing of writing fill values to
* the dataset
*
* \return \herr_t
*
* \details H5Pget_fill_time() examines the dataset creation property list
* \p plist_id to determine when fill values are to be written to
* a dataset. Valid values returned in \p fill_time are as
* follows:
*
* <table>
* <tr>
* <td>#H5D_FILL_TIME_IFSET</td>
* <td>Fill values are written to the dataset when storage
* space is allocated only if there is a user-defined fill
* value, i.e., one set with H5Pset_fill_value(). (Default)
* </td>
* </tr>
* <tr>
* <td>#H5D_FILL_TIME_ALLOC</td>
* <td>Fill values are written to the dataset when storage
* space is allocated.</td>
* </tr>
* <tr>
* <td>#H5D_FILL_TIME_NEVER</td>
* <td>Fill values are never written to the dataset.</td>
* </tr>
* </table>
*
* \note H5Pget_fill_time() is designed to work in coordination with the
* dataset fill value and dataset storage allocation time properties,
* retrieved with the functions H5Pget_fill_value() and
* H5Pget_alloc_time().
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pget_fill_time(hid_t plist_id, H5D_fill_time_t *fill_time /*out*/);
/**
* \ingroup DCPL
*
* \brief Retrieves a dataset fill value
*
* \dcpl_id{plist_id}
* \param[in] type_id Datatype identifier for the value passed via
* \p value
* \param[out] value Pointer to buffer to contain the returned
* fill value
*
* \return \herr_t
*
* \details H5Pget_fill_value() returns the dataset fill value defined in
* the dataset creation property list \p plist_id. The fill value
* is returned through the \p value pointer and will be converted
* to the datatype specified by \p type_id. This datatype may
* differ from the fill value datatype in the property list, but
* the HDF5 library must be able to convert between the two
* datatypes.
*
* If the fill value is undefined, i.e., set to NULL in the
* property list, H5Pget_fill_value() will return an error.
* H5Pfill_value_defined() should be used to check for this
* condition before H5Pget_fill_value() is called.
*
* Memory must be allocated by the calling application.
*
* \note H5Pget_fill_value() is designed to coordinate with the dataset
* storage allocation time and fill value write time properties,
* which can be retrieved with the functions H5Pget_alloc_time()
* and H5Pget_fill_time(), respectively.
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pget_fill_value(hid_t plist_id, hid_t type_id, void *value /*out*/);
/**
* \ingroup DCPL
*
* \brief Returns the layout of the raw data for a dataset
*
* \dcpl_id{plist_id}
*
* \return Returns the layout type (a non-negative value) of a dataset
* creation property list if successful. Valid return values are:
* - #H5D_COMPACT: Raw data is stored in the object header in the
* file.
* - #H5D_CONTIGUOUS: Raw data is stored separately from the object
* header in one contiguous chunk in the file.
* - #H5D_CHUNKED: Raw data is stored separately from the object
* header in chunks in separate locations in the
* file.
* - #H5D_VIRTUAL: Raw data is drawn from multiple datasets in
* different files.
* \return
* Otherwise, returns a negative value indicating failure.
*
* \details H5Pget_layout() returns the layout of the raw data for a
* dataset. This function is only valid for dataset creation
* property lists.
*
* Note that a compact storage layout may affect writing data to
* the dataset with parallel applications. See the H5Dwrite()
* documentation for details.
*
* \version 1.10.0 #H5D_VIRTUAL added in this release.
*
* \since 1.0.0
*
*/
H5_DLL H5D_layout_t H5Pget_layout(hid_t plist_id);
/**
* \ingroup DCPL
*
* \brief Gets the number of mappings for the virtual dataset
*
* \dcpl_id
* \param[out] count The number of mappings
*
* \return \herr_t
*
* \details H5Pget_virtual_count() gets the number of mappings for a
* virtual dataset that has the creation property list specified
* by \p dcpl_id.
*
* \see_virtual
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Pget_virtual_count(hid_t dcpl_id, size_t *count /*out*/);
/**
* \ingroup DCPL
*
* \brief Gets the name of a source dataset used in the mapping
*
* \dcpl_id
* \param[in] index Mapping index. The value of \p index is 0 (zero) or
* greater and less than \p count
* (0 ≤ \p index < \p count), where \p count is the
* number of mappings returned by H5Pget_virtual_count().
* \param[out] name A buffer containing the name of the source dataset
* \param[in] size The size, in bytes, of the name buffer. Must be the
* size of the dataset name in bytes plus 1 for a NULL
* terminator
*
* \return Returns the length of the dataset name if successful;
* otherwise returns a negative value.
*
* \details H5Pget_virtual_dsetname() takes the dataset creation property
* list for the virtual dataset, \p dcpl_id, the mapping index,
* \p index, the size of the dataset name for a source dataset,
* \p size, and retrieves the name of the source dataset used in
* the mapping.
*
* Up to \p size characters of the dataset name are returned in
* \p name; additional characters, if any, are not returned to
* the user application.
*
* If the length of the dataset name, which determines the
* required value of \p size, is unknown, a preliminary call
* to H5Pget_virtual_dsetname() with the last two parameters
* set to NULL and zero respectively can be made. The return
* value of this call will be the size in bytes of the dataset
* name. That value, plus 1 for a NULL terminator, must then be
* assigned to \p size for a second H5Pget_virtual_dsetname()
* call, which will retrieve the actual dataset name.
*
* \see_virtual
*
* \since 1.10.0
*
*/
H5_DLL ssize_t H5Pget_virtual_dsetname(hid_t dcpl_id, size_t index, char *name /*out*/, size_t size);
/**
* \ingroup DCPL
*
* \brief Gets the filename of a source dataset used in the mapping
*
* \dcpl_id
* \param[in] index Mapping index. The value of \p index is 0 (zero) or
* greater and less than \p count
* (0 ≤ \p index < \p count), where \p count is the
* number of mappings returned by H5Pget_virtual_count().
* \param[out] name A buffer containing the name of the file containing
* the source dataset
* \param[in] size The size, in bytes, of the name buffer. Must be the
* size of the filename in bytes plus 1 for a NULL
* terminator
*
* \return Returns the length of the filename if successful; otherwise
* returns a negative value.
*
* \details H5Pget_virtual_filename() takes the dataset creation property
* list for the virtual dataset, \p dcpl_id, the mapping index,
* \p index, the size of the filename for a source dataset,
* \p size, and retrieves the name of the file for a source dataset
* used in the mapping.
*
* Up to \p size characters of the filename are returned in
* \p name; additional characters, if any, are not returned to
* the user application.
*
* If the length of the filename, which determines the required
* value of \p size, is unknown, a preliminary call to
* H5Pget_virtual_filename() with the last two parameters set
* to NULL and zero respectively can be made. The return value
* of this call will be the size in bytes of the filename. That
* value, plus 1 for a NULL terminator, must then be assigned to
* \p size for a second H5Pget_virtual_filename() call, which
* will retrieve the actual filename.
*
* \see_virtual
*
* \since 1.10.0
*
*/
H5_DLL ssize_t H5Pget_virtual_filename(hid_t dcpl_id, size_t index, char *name /*out*/, size_t size);
/**
* \ingroup DCPL
*
* \brief Gets a dataspace identifier for the selection within the source
* dataset used in the mapping
*
* \dcpl_id
* \param[in] index Mapping index. The value of \p index is 0 (zero) or
* greater and less than \p count
* (0 ≤ \p index < \p count), where \p count is the number
* of mappings returned by H5Pget_virtual_count().
*
* \return \hid_t{valid dataspace identifier}
*
* \details H5Pget_virtual_srcspace() takes the dataset creation property
* list for the virtual dataset, \p dcpl_id, and the mapping
* index, \p index, and returns a dataspace identifier for the
* selection within the source dataset used in the mapping.
*
* \see_virtual
*
* \since 1.10.0
*
*/
H5_DLL hid_t H5Pget_virtual_srcspace(hid_t dcpl_id, size_t index);
/**
* \ingroup DCPL
*
* \brief Gets a dataspace identifier for the selection within the virtual
* dataset used in the mapping
*
* \dcpl_id
* \param[in] index Mapping index. The value of \p index is 0 (zero) or
* greater and less than \p count
* (0 ≤ \p index < \p count), where \p count is the number
* of mappings returned by H5Pget_virtual_count()
*
* \return \hid_t{valid dataspace identifier}
*
* \details H5Pget_virtual_vspace() takes the dataset creation property
* list for the virtual dataset, \p dcpl_id, and the mapping
* index, \p index, and returns a dataspace identifier for the
* selection within the virtual dataset used in the mapping.
*
* \see_virtual
*
* \since 1.10.0
*
*/
H5_DLL hid_t H5Pget_virtual_vspace(hid_t dcpl_id, size_t index);
/**
* \ingroup DCPL
*
* \brief Sets the timing for storage space allocation
*
* \dcpl_id{plist_id}
* \param[in] alloc_time When to allocate dataset storage space
*
* \return \herr_t
*
* \details H5Pset_alloc_time() sets up the timing for the allocation of
* storage space for a dataset's raw data. This property is set
* in the dataset creation property list \p plist_id. Timing is
* specified in \p alloc_time with one of the following values:
*
* <table>
* <tr>
* <td>#H5D_ALLOC_TIME_DEFAULT</td>
* <td>Allocate dataset storage space at the default time<br />
* (Defaults differ by storage method.)</td>
* </tr>
* <tr>
* <td>#H5D_ALLOC_TIME_EARLY</td>
* <td>Allocate all space when the dataset is created<br />
* (Default for compact datasets.)</td>
* </tr>
* <tr>
* <td>#H5D_ALLOC_TIME_INCR</td>
* <td>Allocate space incrementally, as data is written to
* the dataset<br />(Default for chunked storage datasets.)
*
* \li Chunked datasets: Storage space allocation for each
* chunk is deferred until data is written to the chunk.
* \li Contiguous datasets: Incremental storage space
* allocation for contiguous data is treated as late
* allocation.
* \li Compact datasets: Incremental allocation is not
* allowed with compact datasets; H5Pset_alloc_time()
* will return an error.</td>
* </tr>
* <tr>
* <td>#H5D_ALLOC_TIME_LATE</td>
* <td>Allocate all space when data is first written to the
* dataset<br />
* (Default for contiguous datasets.)</td>
* </tr>
* </table>
*
* \note H5Pset_alloc_time() is designed to work in concert with the
* dataset fill value and fill value write time properties, set
* with the functions H5Pset_fill_value() and H5Pset_fill_time().
*
* \note See H5Dcreate() for further cross-references.
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pset_alloc_time(hid_t plist_id, H5D_alloc_time_t alloc_time);
/**
* \ingroup DCPL
*
* \brief Sets the size of the chunks used to store a chunked layout
* dataset
*
* \dcpl_id{plist_id}
* \param[in] ndims The number of dimensions of each chunk
* \param[in] dim An array defining the size, in dataset elements, of
* each chunk
*
* \return \herr_t
* \details H5Pset_chunk() sets the size of the chunks used to store a
* chunked layout dataset. This function is only valid for dataset
* creation property lists.
*
* The \p ndims parameter currently must be the same size as the
* rank of the dataset.
*
* The values of the \p dim array define the size of the chunks
* to store the dataset's raw data. The unit of measure for \p dim
* values is dataset elements.
*
* As a side-effect of this function, the layout of the dataset is
* changed to #H5D_CHUNKED, if it is not already so set.
*
* \note Chunk size cannot exceed the size of a fixed-size dataset. For
* example, a dataset consisting of a 5x4 fixed-size array cannot be
* defined with 10x10 chunks. Chunk maximums:
* - The maximum number of elements in a chunk is 2<sup>32</sup>-1 which
* is equal to 4,294,967,295. If the number of elements in a chunk is
* set via H5Pset_chunk() to a value greater than 2<sup>32</sup>-1,
* then H5Pset_chunk() will fail.
* - The maximum size for any chunk is 4GB. If a chunk that is larger
* than 4GB attempts to be written with H5Dwrite(), then H5Dwrite()
* will fail.
*
* \see H5Pset_layout(), H5Dwrite()
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pset_chunk(hid_t plist_id, int ndims, const hsize_t dim[/*ndims*/]);
/**
* \ingroup DCPL
*
* \brief Sets the edge chunk option in a dataset creation property list
*
* \dcpl_id{plist_id}
* \param[in] opts Edge chunk option flag. Valid values are:
* \li #H5D_CHUNK_DONT_FILTER_PARTIAL_CHUNKS
* When enabled, filters are not applied to partial
* edge chunks. When disabled, partial edge chunks are
* filtered. Enabling this option will improve
* performance when appending to the dataset and, when
* compression filters are used, prevent reallocation
* of these chunks. Datasets created with this option
* enabled will be inaccessible with HDF5 library
* versions before Release 1.10. Default: \e Disabled
* \li 0 (zero) Disables option; partial edge chunks
* will be compressed.
*
* \return \herr_t
*
* \details H5Pset_chunk_opts() sets the edge chunk option in the
* dataset creation property list \p dcpl_id.
*
* The available option is detailed in the parameters section.
* Only chunks that are not completely filled by the dataset’s
* dataspace are affected by this option. Such chunks are
* referred to as partial edge chunks.
*
* \b Motivation: H5Pset_chunk_opts() is used to specify storage
* options for chunks on the edge of a dataset’s dataspace. This
* capability allows the user to tune performance in cases where
* the dataset size may not be a multiple of the chunk size and
* the handling of partial edge chunks can impact performance.
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Pset_chunk_opts(hid_t plist_id, unsigned opts);
/**
* \ingroup DCPL
*
* \brief Sets the flag to create minimized dataset object headers
*
* \dcpl_id
* \param[in] minimize Flag for indicating whether or not a dataset's
* object header will be minimized
*
* \return \herr_t
*
* \details H5Pset_dset_no_attrs_hint() sets the no dataset attributes
* hint setting for the dataset creation property list \p dcpl_id.
* Datasets created with the dataset creation property list
* \p dcpl_id will have their object headers minimized if the
* boolean flag \p minimize is set to TRUE. By setting \p minimize
* to TRUE, the library expects that no attributes will be added
* to the dataset. Attributes can be added, but they are appended
* with a continuation message, which can reduce performance.
*
* This setting interacts with H5Fset_dset_no_attrs_hint(): if
* either is set to TRUE, then the created dataset's object header
* will be minimized.
*
* \since 1.10.5
*
*/
H5_DLL herr_t H5Pset_dset_no_attrs_hint(hid_t dcpl_id, hbool_t minimize);
/**
* \ingroup DCPL
*
* \brief Adds an external file to the list of external files
*
* \dcpl_id{plist_id}
* \param[in] name Name of an external file
* \param[in] offset Offset, in bytes, from the beginning of the file to
* the location in the file where the data starts
* \param[in] size Number of bytes reserved in the file for the data
*
* \return \herr_t
*
* \details The first call to H5Pset_external() sets the external
* storage property in the property list, thus designating that
* the dataset will be stored in one or more non-HDF5 file(s)
* external to the HDF5 file. This call also adds the file
* \p name as the first file in the list of external files.
* Subsequent calls to the function add the named file as the
* next file in the list.
*
* If a dataset is split across multiple files, then the files
* should be defined in order. The total size of the dataset is
* the sum of the \p size arguments for all the external files.
* If the total size is larger than the size of a dataset then
* the dataset can be extended (provided the data space also
* allows the extending).
*
* The \p size argument specifies the number of bytes reserved
* for data in the external file. If \p size is set to
* #H5F_UNLIMITED, the external file can be of unlimited size
* and no more files can be added to the external files list.
* If \p size is set to 0 (zero), no external file will actually
* be created.
*
* All of the external files for a given dataset must be specified
* with H5Pset_external() before H5Dcreate() is called to create
* the dataset. If one these files does not exist on the system
* when H5Dwrite() is called to write data to it, the library
* will create the file.
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pset_external(hid_t plist_id, const char *name, off_t offset, hsize_t size);
/**
* \ingroup DCPL
*
* \brief Sets the time when fill values are written to a dataset
*
* \dcpl_id{plist_id}
* \param[in] fill_time When to write fill values to a dataset
*
* \return \herr_t
*
* \details H5Pset_fill_time() sets up the timing for writing fill values
* to a dataset. This property is set in the dataset creation
* property list \p plist_id. Timing is specified in \p fill_time
* with one of the following values:
*
* <table>
* <tr>
* <td>#H5D_FILL_TIME_IFSET</td>
* <td>Write fill values to the dataset when storage space is
* allocated only if there is a user-defined fill value,
* i.e.,one set with H5Pset_fill_value(). (Default)</td>
* </tr>
* <tr>
* <td>#H5D_FILL_TIME_ALLOC</td>
* <td>Write fill values to the dataset when storage space is
* allocated.</td>
* </tr>
* <tr>
* <td>#H5D_FILL_TIME_NEVER</td>
* <td>Never write fill values to the dataset.</td>
* </tr>
* </table>
*
* \note H5Pset_fill_time() is designed for coordination with the dataset
* fill value and dataset storage allocation time properties, set
* with the functions H5Pset_fill_value() and H5Pset_alloc_time().
* See H5Dcreate() for further cross-references.
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pset_fill_time(hid_t plist_id, H5D_fill_time_t fill_time);
/**
* \ingroup DCPL
*
* \brief Sets the fill value for a dataset
*
* \dcpl_id{plist_id}
* \param[in] type_id Datatype of \p value
* \param[in] value Pointer to buffer containing value to use as
* fill value
*
* \return \herr_t
*
* \details H5Pset_fill_value() sets the fill value for a dataset in the
* dataset creation property list. \p value is interpreted as
* being of datatype \p type_id. This datatype may differ from
* that of the dataset, but the HDF5 library must be able to
* convert \p value to the dataset datatype when the dataset is
* created.
*
* The default fill value is 0 (zero), which is interpreted
* according to the actual dataset datatype.
*
* Setting \p value to NULL indicates that the fill value is to
* be undefined.
*
* \note Applications sometimes write data only to portions of an allocated
* dataset. It is often useful in such cases to fill the unused space
* with a known fill value. This function allows the user application
* to set that fill value; the functions H5Dfill() and
* H5Pset_fill_time(), respectively, provide the ability to apply the
* fill value on demand or to set up its automatic application.
*
* \note A fill value should be defined so that it is appropriate for the
* application. While the HDF5 default fill value is 0 (zero), it is
* often appropriate to use another value. It might be useful, for
* example, to use a value that is known to be impossible for the
* application to legitimately generate.
*
* \note H5Pset_fill_value() is designed to work in concert with
* H5Pset_alloc_time() and H5Pset_fill_time(). H5Pset_alloc_time()
* and H5Pset_fill_time() govern the timing of dataset storage
* allocation and fill value write operations and can be important in
* tuning application performance.
*
* \note See H5Dcreate() for further cross-references.
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pset_fill_value(hid_t plist_id, hid_t type_id, const void *value);
/**
* \ingroup DCPL
*
* \brief Sets up use of the shuffle filter
*
* \dcpl_id{plist_id}
*
* \return \herr_t
*
* \par_compr_note
*
* \details H5Pset_shuffle() sets the shuffle filter, #H5Z_FILTER_SHUFFLE,
* in the dataset creation property list \p plist_id. The shuffle
* filter de-interlaces a block of data by reordering the bytes.
* All the bytes from one consistent byte position of each data
* element are placed together in one block; all bytes from a
* second consistent byte position of each data element are placed
* together a second block; etc. For example, given three data
* elements of a 4-byte datatype stored as 012301230123, shuffling
* will re-order data as 000111222333. This can be a valuable step
* in an effective compression algorithm because the bytes in each
* byte position are often closely related to each other and
* putting them together can increase the compression ratio.
*
* As implied above, the primary value of the shuffle filter lies
* in its coordinated use with a compression filter; it does not
* provide data compression when used alone. When the shuffle
* filter is applied to a dataset immediately prior to the use of
* a compression filter, the compression ratio achieved is often
* superior to that achieved by the use of a compression filter
* without the shuffle filter.
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pset_shuffle(hid_t plist_id);
/**
* \ingroup DCPL
*
* \brief Sets the type of storage used to store the raw data for a dataset
*
* \dcpl_id{plist_id}
* \param[in] layout Type of storage layout for raw data
*
* \return \herr_t
* \details H5Pset_layout() sets the type of storage used to store the raw
* data for a dataset. This function is only valid for dataset
* creation property lists.
*
* Valid values for \p layout are:
* - #H5D_COMPACT: Store raw data in the dataset object header
* in file. This should only be used for datasets
* with small amounts of raw data. The raw data
* size limit is 64K (65520 bytes). Attempting
* to create a dataset with raw data larger than
* this limit will cause the H5Dcreate() call to
* fail.
* - #H5D_CONTIGUOUS: Store raw data separately from the object
* header in one large chunk in the file.
* - #H5D_CHUNKED: Store raw data separately from the object header
* as chunks of data in separate locations in
* the file.
* - #H5D_VIRTUAL: Draw raw data from multiple datasets in
* different files.
*
* Note that a compact storage layout may affect writing data to
* the dataset with parallel applications. See the note in
* H5Dwrite() documentation for details.
* \version 1.10.0 #H5D_VIRTUAL added in this release.
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pset_layout(hid_t plist_id, H5D_layout_t layout);
/**
* \ingroup DCPL
*
* \brief Sets up the use of the N-Bit filter
*
* \dcpl_id{plist_id}
*
* \return \herr_t
*
* \par_compr_note
*
* \details H5Pset_nbit() sets the N-Bit filter, #H5Z_FILTER_NBIT, in the
* dataset creation property list \p plist_id.
*
* The HDF5 user can create an N-Bit datatype with the following
* code:
* <pre>
* hid_t nbit_datatype = H5Tcopy(H5T_STD_I32LE);
* H5Tset_precision(nbit_datatype, 16);
* H5Tset_offset(nbit_datatype, 4);
* </pre>
*
* In memory, one value of the N-Bit datatype in the above example
* will be stored on a little-endian machine as follows:
*
* <table>
* <tr>
* <td>byte 3</td>
* <td>byte 2</td>
* <td>byte 1</td>
* <td>byte 0</td>
* </tr>
* <tr>
* <td> ???????? </td>
* <td> ????SPPP </td>
* <td> PPPPPPPP </td>
* <td> PPPP???? </td>
* </tr>
* </table>
* Note: S - sign bit, P - significant bit, ? - padding bit; For
* signed integer, the sign bit is included in the precision.
*
* When data of the above datatype is stored on disk using the
* N-bit filter, all padding bits are chopped off and only
* significant bits are stored. The values on disk will be
* something like:
*
* <table>
* <tr>
* <td>1st value</td>
* <td>2nd value</td>
* <td>...</td>
* </tr>
* <tr>
* <td>SPPPPPPPPPPPPPPP</td>
* <td>SPPPPPPPPPPPPPPP</td>
* <td>...</td>
* </tr>
* </table>
* The N-Bit filter is used effectively for compressing data of
* an N-Bit datatype as well as a compound and an array
* datatype with N-Bit fields. However, the datatype classes of
* the N-Bit datatype or the N-Bit field of the compound
* datatype or the array datatype are limited to integer or
* floating-point.
*
* The N-Bit filter supports complex situations where a compound
* datatype contains member(s) of a compound datatype or an array
* datatype that has a compound datatype as the base type.
* However, it does not support the situation where an array
* datatype has a variable-length or variable-length string as
* its base datatype. The filter does support the situation where
* a variable-length or variable-length string is a member of a
* compound datatype.
*
* The N-Bit filter allows all other HDF5 datatypes (such as
* time, string, bitfield, opaque, reference, enum, and variable
* length) to pass through as a no-op.
*
* Like other I/O filters supported by the HDF5 library,
* application using the N-Bit filter must store data with
* chunked storage.
*
* By nature, the N-Bit filter should not be used together with
* other I/O filters.
*
* \version 1.8.8 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_nbit(hid_t plist_id);
/**
* \ingroup DCPL
*
* \brief Sets up the use of the scale-offset filter
*
* \dcpl_id{plist_id}
* \param[in] scale_type Flag indicating compression method
* \param[in] scale_factor Parameter related to scale. Must be
* non-negative
*
* \return \herr_t
*
* \par_compr_note
*
* \details H5Pset_scaleoffset() sets the scale-offset filter,
* #H5Z_FILTER_SCALEOFFSET, for a dataset.
*
* Generally speaking, scale-offset compression performs a scale and/or
* offset operation on each data value and truncates the resulting
* value to a minimum number of bits (MinBits) before storing it. The
* current scale-offset filter supports integer and floating-point
* datatypes.
*
* For an integer datatype, the parameter \p scale_type should be set
* to #H5Z_SO_INT (2). The parameter \p scale_factor denotes MinBits.
* If the user sets it to H5Z_SO_INT_MINBITS_DEFAULT (0), the filter
* will calculate MinBits. If \p scale_factor is set to a positive
* integer, the filter does not do any calculation and just uses the
* number as MinBits. However, if the user gives a MinBits that is less
* than what would be generated by the filter, the compression will be
* lossy. Also, the MinBits supplied by the user cannot exceed the
* number of bits to store one value of the dataset datatype.
*
* For a floating-point datatype, the filter adopts the GRiB data
* packing mechanism, which offers two alternate methods: E-scaling and
* D-scaling. Both methods are lossy compression. If the parameter
* \p scale_type is set to #H5Z_SO_FLOAT_DSCALE (0), the filter will
* use the D-scaling method; if it is set to #H5Z_SO_FLOAT_ESCALE (1),
* the filter will use the E-scaling method. Since only the D-scaling
* method is implemented, \p scale_type should be set to
* #H5Z_SO_FLOAT_DSCALE or 0.
*
* When the D-scaling method is used, the original data is "D" scaled
* — multiplied by 10 to the power of \p scale_factor, and the
* "significant" part of the value is moved to the left of the decimal
* point. Care should be taken in setting the decimal \p scale_factor
* so that the integer part will have enough precision to contain the
* appropriate information of the data value. For example, if
* \p scale_factor is set to 2, the number 104.561 will be 10456.1
* after "D" scaling. The last digit 1 is not "significant" and is
* thrown off in the process of rounding. The user should make sure that
* after "D" scaling and rounding, the data values are within the range
* that can be represented by the integer (same size as the
* floating-point type).
*
* Valid values for scale_type are as follows:
*
* <table>
* <tr>
* <td>#H5Z_SO_FLOAT_DSCALE (0)</td>
* <td>Floating-point type, using variable MinBits method</td>
* </tr>
* <tr>
* <td>#H5Z_SO_FLOAT_ESCALE (1)</td>
* <td>Floating-point type, using fixed MinBits method</td>
* </tr>
* <tr>
* <td>#H5Z_SO_INT (2)</td>
* <td>Integer type</td>
* </tr>
* </table>
*
* The meaning of \p scale_factor varies according to the value
* assigned to \p scale_type:
*
* <table>
* <tr>
* <th>\p scale_type value</th>
* <th>\p scale_factor description</th>
* </tr>
* <tr>
* <td>#H5Z_SO_FLOAT_DSCALE</td>
* <td>Denotes the decimal scale factor for D-scaling and can be
* positive, negative or zero. This is the current
* implementation of the library.</td>
* </tr>
* <tr>
* <td>#H5Z_SO_FLOAT_ESCALE</td>
* <td>Denotes MinBits for E-scaling and must be a positive integer.
* This is not currently implemented by the library.</td>
* </tr>
* <tr>
* <td>#H5Z_SO_INT</td>
* <td>Denotes MinBits and it should be a positive integer or
* #H5Z_SO_INT_MINBITS_DEFAULT (0). If it is less than 0, the
* library will reset it to 0 since it is not implemented.
* </td>
* </tr>
* </table>
* Like other I/O filters supported by the HDF5 library, an
* application using the scale-offset filter must store data with
* chunked storage.
*
* \version 1.8.8 Fortran90 subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_scaleoffset(hid_t plist_id, H5Z_SO_scale_type_t scale_type, int scale_factor);
/**
* \ingroup DCPL
*
* \brief Sets up use of the SZIP compression filter
*
* \dcpl_id{plist_id}
* \param[in] options_mask A bit-mask conveying the desired SZIP options;
* Valid values are #H5_SZIP_EC_OPTION_MASK and
* #H5_SZIP_NN_OPTION_MASK.
* \param[in] pixels_per_block The number of pixels or data elements in each
* data block
*
* \return \herr_t
*
* \par_compr_note
*
* \details H5Pset_szip() sets an SZIP compression filter, #H5Z_FILTER_SZIP,
* for a dataset. SZIP is a compression method designed for use with
* scientific data.
*
* Before proceeding, all users should review the “Limitations”
* section below.
*
* Users familiar with SZIP outside the HDF5 context may benefit
* from reviewing the Note “For Users Familiar with SZIP in Other
* Contexts” below.
*
* In the text below, the term pixel refers to an HDF5 data element.
* This terminology derives from SZIP compression's use with image
* data, where pixel referred to an image pixel.
*
* The SZIP \p bits_per_pixel value (see Note, below) is automatically
* set, based on the HDF5 datatype. SZIP can be used with atomic
* datatypes that may have size of 8, 16, 32, or 64 bits.
* Specifically, a dataset with a datatype that is 8-, 16-, 32-, or
* 64-bit signed or unsigned integer; char; or 32- or 64-bit float
* can be compressed with SZIP. See Note, below, for further
* discussion of the SZIP \p bits_per_pixel setting.
*
* SZIP options are passed in an options mask, \p options_mask,
* as follows.
*
* <table>
* <tr>
* <th>Option</th>
* <th>Description (Mutually exclusive; select one.)</th>
* </tr>
* <tr>
* <td>#H5_SZIP_EC_OPTION_MASK</td>
* <td>Selects entropy coding method</td>
* </tr>
* <tr>
* <td>#H5_SZIP_NN_OPTION_MASK</td>
* <td>Selects nearest neighbor coding method</td>
* </tr>
* </table>
*
* The following guidelines can be used in determining which
* option to select:
*
* - The entropy coding method, the EC option specified by
* #H5_SZIP_EC_OPTION_MASK, is best suited for data that has been
* processed. The EC method works best for small numbers.
* - The nearest neighbor coding method, the NN option specified
* by #H5_SZIP_NN_OPTION_MASK, preprocesses the data then the
* applies EC method as above.
*
* Other factors may affect results, but the above criteria
* provides a good starting point for optimizing data compression.
*
* SZIP compresses data block by block, with a user-tunable block
* size. This block size is passed in the parameter
* \p pixels_per_block and must be even and not greater than 32,
* with typical values being 8, 10, 16, or 32. This parameter
* affects compression ratio; the more pixel values vary, the
* smaller this number should be to achieve better performance.
*
* In HDF5, compression can be applied only to chunked datasets.
* If \p pixels_per_block is bigger than the total number of
* elements in a dataset chunk, H5Pset_szip() will succeed but
* the subsequent call to H5Dcreate() will fail; the conflict
* can be detected only when the property list is used.
*
* To achieve optimal performance for SZIP compression, it is
* recommended that a chunk's fastest-changing dimension be equal
* to N times \p pixels_per_block where N is the maximum number of
* blocks per scan line allowed by the SZIP library. In the
* current version of SZIP, N is set to 128.
*
* SZIP compression is an optional HDF5 filter.
*
* \b Limitations:
*
* - SZIP compression cannot be applied to compound, array,
* variable-length, enumeration, or any other user-defined
* datatypes. If an SZIP filter is set in a dataset creation
* property list used to create a dataset containing a
* non-allowed datatype, the call to H5Dcreate() will fail; the
* conflict can be detected only when the property list is used.
* - Users should be aware that there are factors that affect one’s
* rights and ability to use SZIP compression by reviewing the
* SZIP copyright notice.
*
* \note \b For \b Users \b Familiar \b with \b SZIP \b in \b Other \b Contexts:
*
* \note The following notes are of interest primarily to those who have
* used SZIP compression outside of the HDF5 context.
* In non-HDF5 applications, SZIP typically requires that the user
* application supply additional parameters:
* - \p pixels_in_object, the number of pixels in the object to
* be compressed
* - \p bits_per_pixel, the number of bits per pixel
* - \p pixels_per_scanline, the number of pixels per scan line
*
* \note These values need not be independently supplied in the HDF5
* environment as they are derived from the datatype and dataspace,
* which are already known. In particular, HDF5 sets
* \p pixels_in_object to the number of elements in a chunk and
* \p bits_per_pixel to the size of the element or pixel datatype.
*
* \note The following algorithm is used to set \p pixels_per_scanline:
* - If the size of a chunk's fastest-changing dimension, size,
* is greater than 4K, set \p pixels_per_scanline to 128 times
* \p pixels_per_block.
* - If size is less than 4K but greater than \p pixels_per_block,
* set \p pixels_per_scanline to the minimum of size and 128
* times \p pixels_per_block.
* - If size is less than \p pixels_per_block but greater than the
* number elements in the chunk, set \p pixels_per_scanline to
* the minimum of the number elements in the chunk and 128 times
* \p pixels_per_block.
*
* \note The HDF5 datatype may have precision that is less than the full
* size of the data element, e.g., an 11-bit integer can be defined
* using H5Tset_precision(). To a certain extent, SZIP can take
* advantage of the precision of the datatype to improve compression:
* - If the HDF5 datatype size is 24-bit or less and the offset of
* the bits in the HDF5 datatype is zero (see H5Tset_offset() or
* H5Tget_offset()), the data is the in lowest N bits of the data
* element. In this case, the SZIP \p bits_per_pixel is set to the
* precision of the HDF5 datatype.
* - If the offset is not zero, the SZIP \p bits_per_pixel will be
* set to the number of bits in the full size of the data element.
* - If the HDF5 datatype precision is 25-bit to 32-bit, the SZIP
* \p bits_per_pixel will be set to 32.
* - If the HDF5 datatype precision is 33-bit to 64-bit, the SZIP
* \p bits_per_pixel will be set to 64.
*
* \note HDF5 always modifies the options mask provided by the user to set up
* usage of RAW_OPTION_MASK, ALLOW_K13_OPTION_MASK, and one of
* LSB_OPTION_MASK or MSB_OPTION_MASK, depending on endianness of the
* datatype.
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pset_szip(hid_t plist_id, unsigned options_mask, unsigned pixels_per_block);
/**
* \ingroup DCPL
*
* \brief Sets the mapping between virtual and source datasets
*
* \dcpl_id
* \param[in] vspace_id The dataspace identifier with the selection within the
* virtual dataset applied, possibly an unlimited selection
* \param[in] src_file_name The name of the HDF5 file where the source dataset is
* located or a \Code{"."} (period) for a source dataset in the same
* file. The file might not exist yet. The name can be specified using
* a C-style \c printf statement as described below.
* \param[in] src_dset_name The path to the HDF5 dataset in the file specified by
* \p src_file_name. The dataset might not exist yet. The dataset name
* can be specified using a C-style \c printf statement as described below.
* \param[in] src_space_id The source dataset’s dataspace identifier with a
* selection applied, possibly an unlimited selection
* \return \herr_t
*
* \details H5Pset_virtual() maps elements of the virtual dataset (VDS)
* described by the virtual dataspace identifier \p vspace_id to the
* elements of the source dataset described by the source dataset
* dataspace identifier \p src_space_id. The source dataset is
* identified by the name of the file where it is located,
* \p src_file_name, and the name of the dataset, \p src_dset_name.
*
* \par C-style \c printf Formatting Statements:
* C-style \c printf formatting allows a pattern to be specified in the name
* of a source file or dataset. Strings for the file and dataset names are
* treated as literals except for the following substitutions:
* <table>
* <tr>
* <td>\Code{"%%"}</td>
* <td>Replaced with a single \Code{"%"} (percent) character.</td>
* </tr>
* <tr>
* <td><code>"%<d>b"</code></td>
* <td>Where <code>"<d>"</code> is the virtual dataset dimension axis (0-based)
* and \Code{"b"} indicates that the block count of the selection in that
* dimension should be used. The full expression (for example, \Code{"%0b"})
* is replaced with a single numeric value when the mapping is evaluated at
* VDS access time. Example code for many source and virtual dataset mappings
* is available in the "Examples of Source to Virtual Dataset Mapping"
* chapter in the
* <a href="https://portal.hdfgroup.org/display/HDF5/RFC+HDF5+Virtual+Dataset">
* RFC: HDF5 Virtual Dataset</a>.
* </td>
* </tr>
* </table>
* If the printf form is used for the source file or dataset names, the
* selection in the source dataset’s dataspace must be fixed-size.
*
* \par Source File Resolutions:
* When a source dataset residing in a different file is accessed, the
* library will search for the source file \p src_file_name as described
* below:
* \li If \p src_file_name is a \Code{"."} (period) then it refers to the
* file containing the virtual dataset.
* \li If \p src_file_name is a relative pathname, the following steps are
* performed:
* - The library will get the prefix(es) set in the environment
* variable \c HDF5_VDS_PREFIX and will try to prepend each prefix
* to \p src_file_name to form a new \p src_file_name. If the new
* \p src_file_name does not exist or if \c HDF5_VDS_PREFIX is not
* set, the library will get the prefix set via H5Pset_virtual_prefix()
* and prepend it to \p src_file_name to form a new \p src_file_name.
* If the new \p src_file_name does not exist or no prefix is being
* set by H5Pset_virtual_prefix() then the path of the file containing
* the virtual dataset is obtained. This path can be the absolute path
* or the current working directory plus the relative path of that
* file when it is created/opened. The library will prepend this path
* to \p src_file_name to form a new \p src_file_name.
* - If the new \p src_file_name does not exist, then the library will
* look for \p src_file_name and will return failure/success accordingly.
* \li If \p src_file_name is an absolute pathname, the library will first
* try to find \p src_file_name. If \p src_file_name does not exist,
* \p src_file_name is stripped of directory paths to form a new
* \p src_file_name. The search for the new \p src_file_name then follows
* the same steps as described above for a relative pathname. See
* examples below illustrating how \p src_file_name is stripped to form
* a new \p src_file_name.
* \par
* Note that \p src_file_name is considered to be an absolute pathname when
* the following condition is true:
* \li For Unix, the first character of \p src_file_name is a slash
* (\Code{/}).\n For example, consider a \p src_file_name of
* \Code{/tmp/A.h5}. If that source file does not exist, the new
* \p src_file_name after stripping will be \Code{A.h5}.
* \li For Windows, there are 6 cases:
* 1. \p src_file_name is an absolute drive with absolute pathname.\n
* For example, consider a \p src_file_name of \Code{/tmp/A.h5}.
* If that source file does not exist, the new \p src_file_name
* after stripping will be \Code{A.h5}.
* 2. \p src_file_name is an absolute pathname without specifying
* drive name.\n For example, consider a \p src_file_name of
* \Code{/tmp/A.h5}. If that source file does not exist, the new
* \p src_file_name after stripping will be \Code{A.h5}.
* 3. \p src_file_name is an absolute drive with relative pathname.\n
* For example, consider a \p src_file_name of \Code{/tmp/A.h5}.
* If that source file does not exist, the new \p src_file_name
* after stripping will be \Code{tmp/A.h5}.
* 4. \p src_file_name is in UNC (Uniform Naming Convention) format
* with server name, share name, and pathname.\n
* For example, consider a \p src_file_name of \Code{/tmp/A.h5}.
* If that source file does not exist, the new \p src_file_name
* after stripping will be \Code{A.h5}.
* 5. \p src_file_name is in Long UNC (Uniform Naming Convention)
* format with server name, share name, and pathname.\n
* For example, consider a \p src_file_name of \Code{/tmp/A.h5}.
* If that source file does not exist, the new \p src_file_name
* after stripping will be \Code{A.h5}.
* 6. \p src_file_name is in Long UNC (Uniform Naming Convention)
* format with an absolute drive and an absolute pathname.\n
* For example, consider a \p src_file_name of \Code{/tmp/A.h5}.
* If that source file does not exist, the new \p src_file_name
* after stripping will be \Code{A.h5}
*
* \see <a href="https://portal.hdfgroup.org/display/HDF5/Virtual+Dataset++-+VDS">
* Virtual Dataset Overview</a>
*
* \see_virtual
*
* \version 1.10.2 A change was made to the method of searching for VDS source files.
* \since 1.10.0
*
*/
H5_DLL herr_t H5Pset_virtual(hid_t dcpl_id, hid_t vspace_id, const char *src_file_name,
const char *src_dset_name, hid_t src_space_id);
/* Dataset access property list (DAPL) routines */
/**
* \ingroup DAPL
*
* \brief Retrieves the values of the append property that is set up in
* the dataset access property list
*
* \dapl_id
* \param[in] dims The number of elements for \p boundary
* \param[in] boundary The dimension sizes used to determine the boundary
* \param[in] func The user-defined callback function
* \param[in] udata The user-defined input data
*
* \return \herr_t
*
* \details H5Pget_append_flush() obtains the following information
* from the dataset access property list, \p dapl_id.
*
* \p boundary consists of the sizes set up in the access
* property list that are used to determine when a dataset
* dimension size hits the boundary. Only at most \p dims
* boundary sizes are retrieved, and \p dims will not exceed
* the corresponding value that is set in the property list.
*
* \p func is the user-defined callback function to invoke when
* a dataset’s appended dimension size reaches a boundary and
* \p udata is the user-defined input data for the callback
* function.
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Pget_append_flush(hid_t dapl_id, unsigned dims, hsize_t boundary[], H5D_append_cb_t *func,
void **udata);
/**
* \ingroup DAPL
*
* \brief Retrieves the raw data chunk cache parameters
*
* \dapl_id
* \param[out] rdcc_nslots Number of chunk slots in the raw data chunk
* cache hash table
* \param[out] rdcc_nbytes Total size of the raw data chunk cache, in
* bytes
* \param[out] rdcc_w0 Preemption policy
*
* \return \herr_t
*
* \details H5Pget_chunk_cache() retrieves the number of chunk slots in
* the raw data chunk cache hash table, the maximum possible
* number of bytes in the raw data chunk cache, and the
* preemption policy value.
*
* These values are retrieved from a dataset access property
* list. If the values have not been set on the property list,
* then values returned will be the corresponding values from
* a default file access property list.
*
* Any (or all) pointer arguments may be null pointers, in which
* case the corresponding data is not returned.
*
* \since 1.8.3
*
*/
H5_DLL herr_t H5Pget_chunk_cache(hid_t dapl_id, size_t *rdcc_nslots /*out*/, size_t *rdcc_nbytes /*out*/,
double *rdcc_w0 /*out*/);
/**
* \ingroup DAPL
*
* \brief Retrieves the prefix for external raw data storage files as set
* in the dataset access property list
*
* \dapl_id
* \param[in,out] prefix Dataset external storage prefix in UTF-8 or
* ASCII (\em Path and \em filename must be ASCII
* on Windows systems.)
* \param[in] size Size of prefix buffer in bytes
*
* \return Returns the size of \p prefix and the prefix string will be
* stored in \p prefix if successful.
* Otherwise returns a negative value and the contents of \p prefix
* will be undefined.
*
* \details H5Pget_efile_prefix() retrieves the file system path prefix
* for locating external files associated with a dataset that
* uses external storage. This will be the value set with
* H5Pset_efile_prefix() or the HDF5 library’s default.
*
* The value of \p size is the size in bytes of the prefix,
* including the NULL terminator. If the size is unknown, a
* preliminary H5Pget_elink_prefix() call with the pointer
* \p prefix set to NULL will return the size of the prefix
* without the NULL terminator.
*
* The \p prefix buffer must be allocated by the caller. In a
* call that retrieves the actual prefix, that buffer must be
* of the size specified in \p size.
*
* \note See H5Pset_efile_prefix() for a more complete description of
* file location behavior and for notes on the use of the
* HDF5_EXTFILE_PREFIX environment variable.
*
* \since 1.10.0, 1.8.17
*
*/
H5_DLL ssize_t H5Pget_efile_prefix(hid_t dapl_id, char *prefix /*out*/, size_t size);
/**
* \ingroup DAPL
*
* \brief Retrieves prefix applied to VDS source file paths
*
* \dapl_id
* \param[out] prefix Prefix applied to VDS source file paths
* \param[in] size Size of prefix, including null terminator
*
* \return If successful, returns a non-negative value specifying the size
* in bytes of the prefix without the NULL terminator; otherwise
* returns a negative value.
*
* \details H5Pget_virtual_prefix() retrieves the prefix applied to the
* path of any VDS source files traversed.
*
* When an VDS source file is traversed, the prefix is retrieved
* from the dataset access property list \p dapl_id, returned
* in the user-allocated buffer pointed to by \p prefix, and
* prepended to the filename stored in the VDS virtual file, set
* with H5Pset_virtual().
*
* The size in bytes of the prefix, including the NULL terminator,
* is specified in \p size. If \p size is unknown, a preliminary
* H5Pget_virtual_prefix() call with the pointer \p prefix set to
* NULL will return the size of the prefix without the NULL
* terminator.
*
* \see_virtual
*
* \since 1.10.2
*
*/
H5_DLL ssize_t H5Pget_virtual_prefix(hid_t dapl_id, char *prefix /*out*/, size_t size);
/**
* \ingroup DAPL
*
* \brief Returns the maximum number of missing source files and/or datasets
* with the printf-style names when getting the extent for an unlimited
* virtual dataset
*
* \dapl_id
* \param[out] gap_size Maximum number of the files and/or datasets
* allowed to be missing for determining the extent
* of an unlimited virtual dataset with printf-style
* mappings. (\em Default: 0)
*
* \return \herr_t
*
* \details H5Pget_virtual_printf_gap() returns the maximum number of
* missing printf-style files and/or datasets for determining the
* extent of an unlimited virtual dataaset, \p gap_size, using
* the access property list for the virtual dataset, \p dapl_id.
*
* The default library value for \p gap_size is 0 (zero).
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Pget_virtual_printf_gap(hid_t dapl_id, hsize_t *gap_size);
/**
* \ingroup DAPL
*
* \brief Retrieves the view of a virtual dataset accessed with
* \p dapl_id
*
* \dapl_id
* \param[out] view The flag specifying the view of the virtual dataset.
*
* \return \herr_t
*
* \details H5Pget_virtual_view() takes the virtual dataset access property
* list, \p dapl_id, and retrieves the flag, \p view, set by the
* H5Pset_virtual_view() call.
*
* \see_virtual
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Pget_virtual_view(hid_t dapl_id, H5D_vds_view_t *view);
/**
* \ingroup DAPL
*
* \brief Sets two actions to perform when the size of a dataset’s
* dimension being appended reaches a specified boundary
*
* \dapl_id
* \param[in] ndims The number of elements for boundary
* \param[in] boundary The dimension sizes used to determine the boundary
* \param[in] func The user-defined callback function
* \param[in] udata The user-defined input data
*
* \return \herr_t
*
* \details H5Pset_append_flush() sets the following two actions to
* perform for a dataset associated with the dataset access
* property list \p dapl_id:
*
* \li Call the callback function \p func set in the property
* list
* \li Flush the dataset associated with the dataset access
* property list
*
* When a user is appending data to a dataset via H5DOappend()
* and the dataset’s newly extended dimension size hits a
* specified boundary, the library will perform the first action
* listed above. Upon return from the callback function, the
* library will then perform the second action listed above and
* return to the user. If no boundary is hit or set, the two
* actions above are not invoked.
*
* The specified boundary is indicated by the parameter
* \p boundary. It is a 1-dimensional array with \p ndims
* elements, which should be the same as the rank of the
* dataset’s dataspace. While appending to a dataset along a
* particular dimension index via H5Dappend(), the library
* determines a boundary is reached when the resulting dimension
* size is divisible by \p boundary[index]. A zero value for
* \p boundary[index] indicates no boundary is set for that
* dimension index.
*
* The setting of this property will apply only for a chunked
* dataset with an extendible dataspace. A dataspace is extendible
* when it is defined with either one of the following:
*
* \li A dataspace with fixed current and maximum dimension sizes
* \li A dataspace with at least one unlimited dimension for its
* maximum dimension size
*
* When creating or opening a chunked dataset, the library will
* check whether the boundary as specified in the access property
* list is set up properly. The library will fail the dataset
* create or open if the following conditions are true:
*
* \li \p ndims, the number of elements for boundary, is not the
* same as the rank of the dataset’s dataspace.
* \li A non-zero boundary value is specified for a non-extendible
* dimension.
*
* The callback function \p func must conform to the following
* prototype:
* \snippet H5Dpublic.h H5D_append_cb_t_snip
*
* The parameters of the callback function, per the above
* prototype, are defined as follows:
*
* \li \p dataset_id is the dataset identifier.
* \li \p cur_dims is the dataset’s current dimension sizes when
* a boundary is hit.
* \li \p user_data is the user-defined input data.
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Pset_append_flush(hid_t dapl_id, unsigned ndims, const hsize_t boundary[],
H5D_append_cb_t func, void *udata);
/**
* \ingroup DAPL
*
* \brief Sets the raw data chunk cache parameters
*
* \dapl_id
* \param[in] rdcc_nslots The number of chunk slots in the raw data chunk
* cache for this dataset. Increasing this value
* reduces the number of cache collisions, but
* slightly increases the memory used. Due to the
* hashing strategy, this value should ideally be a
* prime number. As a rule of thumb, this value
* should be at least 10 times the number of chunks
* that can fit in \p rdcc_nbytes bytes. For maximum
* performance, this value should be set
* approximately 100 times that number of chunks.
* The default value is 521. If the value passed is
* #H5D_CHUNK_CACHE_NSLOTS_DEFAULT, then the
* property will not be set on \p dapl_id and the
* parameter will come from the file access
* property list used to open the file.
* \param[in] rdcc_nbytes The total size of the raw data chunk cache for
* this dataset. In most cases increasing this
* number will improve performance, as long as
* you have enough free memory.
* The default size is 1 MB. If the value passed is
* #H5D_CHUNK_CACHE_NBYTES_DEFAULT, then the
* property will not be set on \p dapl_id and the
* parameter will come from the file access
* property list.
* \param[in] rdcc_w0 The chunk preemption policy for this dataset.
* This must be between 0 and 1 inclusive and
* indicates the weighting according to which chunks
* which have been fully read or written are
* penalized when determining which chunks to flush
* from cache. A value of 0 means fully read or
* written chunks are treated no differently than
* other chunks (the preemption is strictly LRU)
* while a value of 1 means fully read or written
* chunks are always preempted before other chunks.
* If your application only reads or writes data
* once, this can be safely set to 1. Otherwise,
* this should be set lower, depending on how often
* you re-read or re-write the same data.
* The default value is 0.75. If the value passed is
* #H5D_CHUNK_CACHE_W0_DEFAULT, then the property
* will not be set on \p dapl_id and the parameter
* will come from the file access property list.
*
* \return \herr_t
*
* \details H5Pset_chunk_cache() sets the number of elements, the total
* number of bytes, and the preemption policy value in the raw
* data chunk cache on a dataset access property list. After
* calling this function, the values set in the property list
* will override the values in the file's file access property
* list.
*
* The raw data chunk cache inserts chunks into the cache
* by first computing a hash value using the address of a chunk,
* then using that hash value as the chunk's index into the table
* of cached chunks. The size of this hash table, i.e., and the
* number of possible hash values, is determined by the
* \p rdcc_nslots parameter. If a different chunk in the cache
* has the same hash value, this causes a collision, which
* reduces efficiency. If inserting the chunk into cache would
* cause the cache to be too big, then the cache is pruned
* according to the \p rdcc_w0 parameter.
*
* \b Motivation: H5Pset_chunk_cache() is used to adjust the chunk
* cache parameters on a per-dataset basis, as opposed to a global
* setting for the file using H5Pset_cache(). The optimum chunk
* cache parameters may vary widely with different data layout and
* access patterns, so for optimal performance they must be set
* individually for each dataset. It may also be beneficial to
* reduce the size of the chunk cache for datasets whose
* performance is not important in order to save memory space.
*
* \b Example \b Usage: The following code sets the chunk cache to
* use a hash table with 12421 elements and a maximum size of
* 16 MB, while using the preemption policy specified for the
* entire file:
* \Code{
* H5Pset_chunk_cache(dapl_id, 12421, 16*1024*1024,
* H5D_CHUNK_CACHE_W0_DEFAULT);}
*
* \b Usage \b Notes: The chunk cache size is a property for
* accessing a dataset and is not stored with a dataset or a
* file. To guarantee the same chunk cache settings each time
* the dataset is opened, call H5Dopen() with a dataset access
* property list where the chunk cache size is set by calling
* H5Pset_chunk_cache() for that property list. The property
* list can be used for multiple accesses in the same
* application.
*
* For files where the same chunk cache size will be
* appropriate for all or most datasets, H5Pset_cache() can
* be called with a file access property list to set the
* chunk cache size for accessing all datasets in the file.
*
* Both methods can be used in combination, in which case
* the chunk cache size set by H5Pset_cache() will apply
* except for specific datasets where H5Dopen() is called
* with dataset property list with the chunk cache size
* set by H5Pset_chunk_cache().
*
* In the absence of any cache settings, H5Dopen() will
* by default create a 1 MB chunk cache for the opened
* dataset. If this size happens to be appropriate, no
* call will be needed to either function to set the
* chunk cache size.
*
* It is also possible that a change in access pattern
* for later access to a dataset will change the
* appropriate chunk cache size.
*
* \since 1.8.3
*
*/
H5_DLL herr_t H5Pset_chunk_cache(hid_t dapl_id, size_t rdcc_nslots, size_t rdcc_nbytes, double rdcc_w0);
/**
* \ingroup DAPL
*
* \brief Sets the external dataset storage file prefix in the dataset
* access property list
*
* \dapl_id
* \param[in] prefix Dataset external storage prefix in UTF-8 or ASCII
* (<em>Path and filename must be ASCII on Windows systems.</em>)
*
* \return \herr_t
*
* \details H5Pset_efile_prefix() sets the prefix used to locate raw data
* files for a dataset that uses external storage. This prefix
* can provide either an absolute path or a relative path to the
* external files.
*
* H5Pset_efile_prefix() is used in conjunction with
* H5Pset_external() to control the behavior of the HDF5 library
* when searching for the raw data files associated with a dataset
* that uses external storage:
*
* \li The default behavior of the library is to search for the
* dataset’s external storage raw data files in the same
* directory as the HDF5 file which contains the dataset.
* \li If the prefix is set to an absolute path, the target
* directory will be searched for the dataset’s external
* storage raw data files.
* \li If the prefix is set to a relative path, the target
* directory, relative to the current working directory, will
* be searched for the dataset’s external storage raw data
* files.
* \li If the prefix is set to a relative path that begins with
* the special token ${ORIGIN}, that directory, relative to
* the HDF5 file containing the dataset, will be searched for
* the dataset’s external storage raw data files.
*
* The HDF5_EXTFILE_PREFIX environment variable can be used to
* override the above behavior (the environment variable
* supersedes the API call). Setting the variable to a path
* string and calling H5Dcreate() or H5Dopen() is the equivalent
* of calling H5Pset_efile_prefix() and calling the same create
* or open function. The environment variable is checked at the
* time of the create or open action and copied so it can be
* safely changed after the H5Dcreate() or H5Dopen() call.
*
* Calling H5Pset_efile_prefix() with \p prefix set to NULL or
* the empty string returns the search path to the default. The
* result would be the same as if H5Pset_efile_prefix() had never
* been called.
*
* \note If the external file prefix is not an absolute path and the HDF5
* file is moved, the external storage files will also need to be
* moved so they can be accessed at the new location.
*
* \note As stated above, the use of the HDF5_EXTFILE_PREFIX environment
* variable overrides any property list setting.
* H5Pset_efile_prefix() and H5Pget_efile_prefix(), being property
* functions, set and retrieve only the property list setting; they
* are unaware of the environment variable.
*
* \note On Windows, the prefix must be an ASCII string since the Windows
* standard C library’s I/O functions cannot handle UTF-8 file names.
*
* \since 1.10.0, 1.8.17
*
*/
H5_DLL herr_t H5Pset_efile_prefix(hid_t dapl_id, const char *prefix);
/**
* \ingroup DAPL
*
* \brief Sets prefix to be applied to VDS source file paths
*
* \dapl_id
* \param[in] prefix Prefix to be applied to VDS source file paths
*
* \return \herr_t
*
* \details H5Pset_virtual_prefix() sets the prefix to be applied to the
* path of any VDS source files traversed. The prefix is prepended
* to the filename stored in the VDS virtual file, set with
* H5Pset_virtual().
*
* The prefix is specified in the user-allocated buffer \p prefix
* and set in the dataset access property list \p dapl_id. The
* buffer should not be freed until the property list has been
* closed.
*
* \see_virtual
*
* \since 1.10.2
*
*/
H5_DLL herr_t H5Pset_virtual_prefix(hid_t dapl_id, const char *prefix);
/**
* \ingroup DAPL
*
* \brief Sets the maximum number of missing source files and/or datasets
* with the printf-style names when getting the extent of an
* unlimited virtual dataset
*
* \dapl_id
* \param[in] gap_size Maximum number of files and/or datasets allowed to
* be missing for determining the extent of an
* unlimited virtual dataset with printf-style
* mappings (<em>Default value</em>: 0)
*
* \return \herr_t
*
* \details H5Pset_virtual_printf_gap() sets the access property list for
* the virtual dataset, \p dapl_id, to instruct the library to
* stop looking for the mapped data stored in the files and/or
* datasets with the printf-style names after not finding
* \p gap_size files and/or datasets. The found source files and
* datasets will determine the extent of the unlimited virtual
* dataset with the printf-style mappings.
*
* Consider the following examples where the regularly spaced
* blocks of a virtual dataset are mapped to datasets with the
* names d-1, d-2, d-3, ..., d-N, ... :
*
* \li If the dataset d-2 is missing and \p gap_size is set to 0,
* then the virtual dataset will contain only data found
* in d-1.
* \li If d-2 and d-3 are missing and \p gap_size is set to 2,
* then the virtual dataset will contain the data from
* d-1, d-3, ..., d-N, ... . The blocks that are mapped to
* d-2 and d-3 will be filled according to the virtual
* dataset’s fill value setting.
*
* \see_virtual
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Pset_virtual_printf_gap(hid_t dapl_id, hsize_t gap_size);
/**
* \ingroup DAPL
*
* \brief Sets the view of the virtual dataset (VDS) to include or exclude
* missing mapped elements
*
* \dapl_id
* \param[in] view Flag specifying the extent of the data to be included
* in the view.
*
* \return \herr_t
*
* \details H5Pset_virtual_view() takes the access property list for the
* virtual dataset, \p dapl_id, and the flag, \p view, and sets
* the VDS view according to the flag value.
*
* If \p view is set to #H5D_VDS_FIRST_MISSING, the view includes
* all data before the first missing mapped data. This setting
* provides a view containing only the continuous data starting
* with the dataset’s first data element. Any break in
* continuity terminates the view.
*
* If \p view is set to #H5D_VDS_LAST_AVAILABLE, the view
* includes all available mapped data.
*
* Missing mapped data is filled with the fill value set in the
* VDS creation property list.
*
* \see_virtual
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Pset_virtual_view(hid_t dapl_id, H5D_vds_view_t view);
/* Dataset xfer property list (DXPL) routines */
/**
*
* \ingroup DXPL
*
* \brief Gets B-tree split ratios for a dataset transfer property list
*
* \dxpl_id{plist_id}
* \param[out] left The B-tree split ratio for left-most nodes
* \param[out] middle The B-tree split ratio for right-most nodes and lone nodes
* \param[out] right The B-tree split ratio for all other nodes
* \return \herr_t
*
* \details H5Pget_btree_ratios() returns the B-tree split ratios for a dataset
* transfer property list.
*
* The B-tree split ratios are returned through the non-NULL arguments
* \p left, \p middle, and \p right, as set by the H5Pset_btree_ratios()
* function.
*
*/
H5_DLL herr_t H5Pget_btree_ratios(hid_t plist_id, double *left /*out*/, double *middle /*out*/,
double *right /*out*/);
/**
*
* \ingroup DXPL
*
* \brief Reads buffer settings
*
* \param[in] plist_id Identifier for the dataset transfer property list
* \param[out] tconv Address of the pointer to application-allocated type
* conversion buffer
* \param[out] bkg Address of the pointer to application-allocated
* background buffer
*
* \return Returns buffer size, in bytes, if successful; otherwise 0 on failure.
*
* \details H5Pget_buffer() reads values previously set with H5Pset_buffer().
*
* \version 1.6.0 The return type changed from \p hsize_t to \p size_t.
* \version 1.4.0 The return type changed to \p hsize_t.
*
*/
H5_DLL size_t H5Pget_buffer(hid_t plist_id, void **tconv /*out*/, void **bkg /*out*/);
/**
*
* \ingroup DXPL
*
* \brief Retrieves a data transform expression
*
* \param[in] plist_id Identifier of the property list or class
* \param[out] expression Pointer to memory where the transform expression will
* be copied
* \param[in] size Number of bytes of the transform expression to copy
* to
*
* \return Success: the size of the transform expression. Failure: a negative
* value.
*
* \details H5Pget_data_transform() retrieves the data transform expression
* previously set in the dataset transfer property list \p plist_id
* by H5Pset_data_transform().
*
* H5Pget_data_transform() can be used to both retrieve the transform
* expression and query its size.
*
* If \p expression is non-NULL, up to \p size bytes of the data
* transform expression are written to the buffer. If \p expression
* is NULL, \p size is ignored, and the function does not write
* anything to the buffer. The function always returns the size of
* the data transform expression.
*
* If 0 is returned for the size of the expression, no data transform
* expression exists for the property list.
*
* If an error occurs, the buffer pointed to by \p expression is
* unchanged, and the function returns a negative value.
*
* \since 1.8.0
*
*/
H5_DLL ssize_t H5Pget_data_transform(hid_t plist_id, char *expression /*out*/, size_t size);
/**
*
* \ingroup DXPL
*
* \brief Determines whether error-detection is enabled for dataset reads
*
* \param[in] plist_id Dataset transfer property list identifier
*
* \return Returns \p H5Z_ENABLE_EDC or \p H5Z_DISABLE_EDC if successful;
* otherwise returns a negative value.
*
* \details H5Pget_edc_check() queries the dataset transfer property
* list \p plist to determine whether error detection is enabled for
* data read operations.
*
* \since 1.6.0
*
*/
H5_DLL H5Z_EDC_t H5Pget_edc_check(hid_t plist_id);
/**
*
* \ingroup DXPL
*
* \brief Retrieves number of I/O vectors to be read/written in hyperslab I/O
*
* \param[in] fapl_id Dataset transfer property list identifier
* \param[out] size Number of I/O vectors to accumulate in memory for I/O operations
*
* \return \herr_t
*
* \details H5Pget_hyper_vector_size() retrieves the number of I/O vectors to be accumulated in
* memory before being issued to the lower levels of the HDF5 library for reading or
* writing the actual data.
*
* The number of I/O vectors set in the dataset transfer property list \p fapl_id is
* returned in \p size. Unless the default value is in use, \p size was
* previously set with a call to H5Pset_hyper_vector_size().
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pget_hyper_vector_size(hid_t fapl_id, size_t *size /*out*/);
/**
*
* \ingroup DXPL
*
* \brief Checks status of the dataset transfer property list (\b DEPRECATED)
*
* \deprecated{H5Pget_preserve() is deprecated as it is no longer useful;
* compound datatype field preservation is now core functionality
* in the HDF5 library.}
*
* \param[in] plist_id Identifier for the dataset transfer property list
*
* \return Returns 1 or 0 if successful; otherwise returns a negative value.
*
* \details H5Pget_preserve() checks the status of the dataset transfer
* property list.
*
* \since 1.0.0
*
* \version 1.6.0 The flag parameter was changed from INTEGER to LOGICAL to
* better match the C API. (Fortran 90)
* \version 1.8.2 Deprecated.
*
*/
H5_DLL int H5Pget_preserve(hid_t plist_id);
/**
*
* \ingroup DXPL
*
* \brief Gets user-defined datatype conversion callback function
*
* \param[in] dxpl_id Dataset transfer property list identifier
* \param[out] op User-defined type conversion callback function
* \param[out] operate_data User-defined input data for the callback function
*
* \return \herr_t
*
* \details H5Pget_type_conv_cb() gets the user-defined datatype conversion
* callback function \p op in the dataset transfer property list
* \p dxpl_id.
*
* The parameter \p operate_data is a pointer to user-defined input
* data for the callback function.
*
* The callback function \p op defines the actions an application is
* to take when there is an exception during datatype conversion.
*
* Please refer to the function H5Pset_type_conv_cb() for more details.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_type_conv_cb(hid_t dxpl_id, H5T_conv_except_func_t *op, void **operate_data);
/**
*
* \ingroup DXPL
*
* \brief Gets the memory manager for variable-length datatype allocation in H5Dread() and H5Dvlen_reclaim()
*
* \param[in] plist_id Identifier for the dataset transfer property list
* \param[out] alloc_func User's allocate routine, or NULL for system malloc
* \param[out] alloc_info Extra parameter for user’s allocation routine.
* Contents are ignored if preceding
* parameter is NULL \param[out] free_func User's free routine, or NULL for
* system free \param[out] free_info
* Extra parameter for user’s free routine. Contents are ignored if preceding
* parameter is NULL
*
* \return \herr_t
*
* \details H5Pget_vlen_mem_manager() is the companion function to
* H5Pset_vlen_mem_manager(), returning the parameters set by
* that function.
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pget_vlen_mem_manager(hid_t plist_id, H5MM_allocate_t *alloc_func, void **alloc_info,
H5MM_free_t *free_func, void **free_info);
/**
*
* \ingroup DXPL
*
* \brief Sets B-tree split ratios for a dataset transfer property list
*
* \param[in] plist_id The dataset transfer property list identifier
* \param[in] left The B-tree split ratio for left-most nodes
* \param[in] middle The B-tree split ratio for all other nodes
* \param[in] right The B-tree split ratio for right-most nodes and lone
* nodes
*
* \return \herr_t
*
* \details H5Pset_btree_ratios() sets the B-tree split ratios for a dataset
* transfer property list. The split ratios determine what percent of
* children go in the first node when a node splits.
*
* The ratio \p left is used when the splitting node is the left-most
* node at its level in the tree;
* the ratio \p right is used when the splitting node is the right-most
* node at its level; and
* the ratio \p middle is used for all other cases.
*
* A node that is the only node at its level in the tree uses the
* ratio \p right when it splits.
*
* All ratios are real numbers between 0 and 1, inclusive.
*
*/
H5_DLL herr_t H5Pset_btree_ratios(hid_t plist_id, double left, double middle, double right);
/**
*
* \ingroup DXPL
*
* \brief Sets type conversion and background buffers
*
* \dxpl_id{plist_id}
* \param[in] size Size, in bytes, of the type conversion and background buffers
* \param[in] tconv Pointer to application-allocated type conversion buffer
* \param[in] bkg Pointer to application-allocated background buffer
* \return \herr_t
*
* \details Given a dataset transfer property list, H5Pset_buffer() sets the
* maximum size for the type conversion buffer and background buffer
* and optionally supplies pointers to application-allocated
* buffers. If the buffer size is smaller than the entire amount of
* data being transferred between the application and the file, and a
* type conversion buffer or background buffer is required, then strip
* mining will be used.
*
* Note that there are minimum size requirements for the buffer. Strip
* mining can only break the data up along the first dimension, so the
* buffer must be large enough to accommodate a complete slice that
* encompasses all of the remaining dimensions. For example, when strip
* mining a \Code{100x200x300} hyperslab of a simple data space, the
* buffer must be large enough to hold \Code{1x200x300} data
* elements. When strip mining a \Code{100x200x300x150} hyperslab of a
* simple data space, the buffer must be large enough to hold
* \Code{1x200x300x150} data elements.
*
* If \p tconv and/or \p bkg are null pointers, then buffers will be
* allocated and freed during the data transfer.
*
* The default value for the maximum buffer is 1 MiB.
*
* \version 1.6.0 The \p size parameter has changed from type hsize_t to \c size_t.
* \version 1.4.0 The \p size parameter has changed to type hsize_t.
*
*/
H5_DLL herr_t H5Pset_buffer(hid_t plist_id, size_t size, void *tconv, void *bkg);
/**
* \ingroup DXPL
*
* \brief Sets a data transform expression
*
* \dxpl_id{plist_id}
* \param[in] expression Pointer to the null-terminated data transform
* expression
* \return \herr_t
*
* \details H5Pset_data_transform() sets the data transform to be used for
* reading and writing data. This function operates on the dataset
* transfer property list \p plist_id.
*
* The \p expression parameter is a string containing an algebraic
* expression, such as \Code{(5/9.0)*(x-32)} or \Code{x*(x-5)}. When a
* dataset is read or written with this property list, the transform
* expression is applied with the \c x being replaced by the values in
* the dataset. When reading data, the values in the file are not
* changed and the transformed data is returned to the user.
*
* Data transforms can only be applied to integer or
* floating-point datasets. Order of operations is obeyed and
* the only supported operations are +, -, *, and /. Parentheses
* can be nested arbitrarily and can be used to change precedence.
* When writing data back to the dataset, the transformed data is
* written to the file and there is no way to recover the original
* values to which the transform was applied.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_data_transform(hid_t plist_id, const char *expression);
/**
* \ingroup DXPL
*
* \brief Sets the dataset transfer property list to enable or disable error
* detection when reading data
*
* \dxpl_id{plist_id}
* \param[in] check Specifies whether error checking is enabled or disabled
* for dataset read operations
* \return \herr_t
*
* \details H5Pset_edc_check() sets the dataset transfer property list \p plist
* to enable or disable error detection when reading data.
*
* Whether error detection is enabled or disabled is specified in the
* \p check parameter. Valid values are #H5Z_ENABLE_EDC (default) and
* #H5Z_DISABLE_EDC.
*
* \note The initial error detection implementation, Fletcher32 checksum,
* supports error detection for chunked datasets only.
*
* \attention The Fletcher32 EDC checksum filter, set with H5Pset_fletcher32(),
* was added in HDF5 Release 1.6.0. In the original implementation,
* however, the checksum value was calculated incorrectly on
* little-endian systems. The error was fixed in HDF5 Release 1.6.3.\n
* As a result of this fix, an HDF5 library of Release 1.6.0 through
* Release 1.6.2 cannot read a dataset created or written with
* Release 1.6.3 or later if the dataset was created with the
* checksum filter and the filter is enabled in the reading
* library. (Libraries of Release 1.6.3 and later understand the
* earlier error and compensate appropriately.)\n
* \Bold{Work-around:} An HDF5 library of Release 1.6.2 or earlier
* will be able to read a dataset created or written with the
* checksum filter by an HDF5 library of Release 1.6.3 or later if
* the checksum filter is disabled for the read operation. This can
* be accomplished via an H5Pset_edc_check() call with the value
* #H5Z_DISABLE_EDC in the second parameter. This has the obvious
* drawback that the application will be unable to verify the
* checksum, but the data does remain accessible.
*
* \version 1.6.3 Error in checksum calculation on little-endian systems
* corrected in this release.
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pset_edc_check(hid_t plist_id, H5Z_EDC_t check);
/**
* \ingroup DXPL
*
* \brief Sets user-defined filter callback function
*
* \dxpl_id{plist_id}
* \param[in] func User-defined filter callback function
* \param[in] op_data User-defined input data for the callback function
* \return \herr_t
*
* \details H5Pset_filter_callback() sets the user-defined filter callback
* function \p func in the dataset transfer property list \p plist_id.
*
* The parameter \p op_data is a pointer to user-defined input data for
* the callback function and will be passed through to the callback
* function.
*
* The callback function \p func defines the actions an application is
* to take when a filter fails. The function prototype is as follows:
* \snippet H5Zpublic.h H5Z_filter_func_t_snip
* where \c filter indicates which filter has failed, \c buf and \c buf_size
* are used to pass in the failed data, and op_data is the required
* input data for this callback function.
*
* Valid callback function return values are #H5Z_CB_FAIL and #H5Z_CB_CONT.
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pset_filter_callback(hid_t plist_id, H5Z_filter_func_t func, void *op_data);
/**
* \ingroup DXPL
*
* \brief Sets number of I/O vectors to be read/written in hyperslab I/O
*
* \dxpl_id{plist_id}
* \param[in] size Number of I/O vectors to accumulate in memory for I/O
* operations\n
* Must be greater than 1 (one)\n
* Default value: 1024
* \return \herr_t
*
* \details H5Pset_hyper_vector_size() sets the number of I/O vectors to be
* accumulated in memory before being issued to the lower levels of
* the HDF5 library for reading or writing the actual data.
*
* The I/O vectors are hyperslab offset and length pairs and are
* generated during hyperslab I/O.
*
* The number of I/O vectors is passed in \p size to be set in the
* dataset transfer property list \p plist_id. \p size must be
* greater than 1 (one).
*
* H5Pset_hyper_vector_size() is an I/O optimization function;
* increasing vector_size should provide better performance, but the
* library will use more memory during hyperslab I/O. The default value
* of \p size is 1024.
*
* \since 1.6.0
*
*/
H5_DLL herr_t H5Pset_hyper_vector_size(hid_t plist_id, size_t size);
/**
* \ingroup DXPL
*
* \brief Sets the dataset transfer property list \p status
*
* \dxpl_id{plist_id}
* \param[in] status Status toggle of the dataset transfer property list
* \return \herr_t
*
* \deprecated This function is deprecated as it no longer has any effect;
* compound datatype field preservation is now core functionality in
* the HDF5 library.
*
* \details H5Pset_preserve() sets the dataset transfer property list status to
* \c 1 or \c 0.
*
* When reading or writing compound datatypes and the destination is
* partially initialized and the read/write is intended to initialize
* the other members, one must set this property to \c 1. Otherwise the
* I/O pipeline treats the destination datapoints as completely
* uninitialized.
*
* \since 1.0.0
*
* \version 1.8.2 Deprecated.
*
*/
H5_DLL herr_t H5Pset_preserve(hid_t plist_id, hbool_t status);
/**
* \ingroup DXPL
*
* \brief Sets user-defined datatype conversion callback function
*
* \dxpl_id
* \param[in] op User-defined type conversion callback function
* \param[in] operate_data User-defined input data for the callback function
* \return \herr_t
*
* \details H5Pset_type_conv_cb() sets the user-defined datatype conversion
* callback function \p op in the dataset transfer property list \p
* dxpl_id
*
* The parameter operate_data is a pointer to user-defined input data
* for the callback function and will be passed through to the callback
* function.
*
* The callback function \p op defines the actions an application is to
* take when there is an exception during datatype conversion. The
* function prototype is as follows:
* \snippet H5Tpublic.h H5T_conv_except_func_t_snip
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_type_conv_cb(hid_t dxpl_id, H5T_conv_except_func_t op, void *operate_data);
/**
* \ingroup DXPL
*
* \brief Sets the memory manager for variable-length datatype allocation in
* H5Dread() and H5Dvlen_reclaim()
*
* \dxpl_id{plist_id}
* \param[in] alloc_func User's allocate routine, or \c NULL for system \c malloc
* \param[in] alloc_info Extra parameter for user's allocation routine.
* Contents are ignored if preceding parameter is \c NULL.
* \param[in] free_func User's free routine, or \c NULL for system \c free
* \param[in] free_info Extra parameter for user's free routine. Contents are
* ignored if preceding parameter is \c NULL
* \return \herr_t
*
* \details H5Pset_vlen_mem_manager() sets the memory manager for
* variable-length datatype allocation in H5Dread() and free in
* H5Dvlen_reclaim().
*
* The \p alloc_func and \p free_func parameters identify the memory
* management routines to be used. If the user has defined custom
* memory management routines, \p alloc_func and/or free_func should be
* set to make those routine calls (i.e., the name of the routine is
* used as the value of the parameter); if the user prefers to use the
* system's \c malloc and/or \c free, the \p alloc_func and \p
* free_func parameters, respectively, should be set to \c NULL
*
* The prototypes for these user-defined functions are as follows:
* \snippet H5MMpublic.h H5MM_allocate_t_snip
*
* \snippet H5MMpublic.h H5MM_free_t_snip
*
* The \p alloc_info and \p free_info parameters can be used to pass
* along any required information to the user's memory management
* routines.
*
* In summary, if the user has defined custom memory management
* routines, the name(s) of the routines are passed in the \p
* alloc_func and \p free_func parameters and the custom routines'
* parameters are passed in the \p alloc_info and \p free_info
* parameters. If the user wishes to use the system \c malloc and \c
* free functions, the \p alloc_func and/or \p free_func parameters are
* set to \c NULL and the \p alloc_info and \p free_info parameters are
* ignored.
*
* \since 1.0.0
*
*/
H5_DLL herr_t H5Pset_vlen_mem_manager(hid_t plist_id, H5MM_allocate_t alloc_func, void *alloc_info,
H5MM_free_t free_func, void *free_info);
#ifdef H5_HAVE_PARALLEL
/**
* \ingroup DXPL
*
* \brief Retrieves the type of chunk optimization that HDF5 actually performed
* on the last parallel I/O call (not necessarily the type requested)
*
* \dxpl_id{plist_id}
* \param[out] actual_chunk_opt_mode The type of chunk optimization performed by HDF5
* \return \herr_t
*
* \par Motivation:
* A user can request collective I/O via a data transfer property list
* (DXPL) that has been suitably modified with H5Pset_dxpl_mpio().
* However, HDF5 will sometimes ignore this request and perform independent
* I/O instead. This property allows the user to see what kind of I/O HDF5
* actually performed. Used in conjunction with H5Pget_mpio_actual_io_mode(),
* this property allows the user to determine exactly what HDF5 did when
* attempting collective I/O.
*
* \details H5Pget_mpio_actual_chunk_opt_mode() retrieves the type of chunk
* optimization performed when collective I/O was requested. This
* property is set before I/O takes place, and will be set even if I/O
* fails.
*
* Valid values returned in \p actual_chunk_opt_mode:
* \snippet this H5D_mpio_actual_chunk_opt_mode_t_snip
* \click4more
*
* \since 1.8.8
*
*/
H5_DLL herr_t H5Pget_mpio_actual_chunk_opt_mode(hid_t plist_id,
H5D_mpio_actual_chunk_opt_mode_t *actual_chunk_opt_mode);
/**
* \ingroup DXPL
*
* \brief Retrieves the type of I/O that HDF5 actually performed on the last
* parallel I/O call (not necessarily the type requested)
*
* \dxpl_id{plist_id}
* \param[out] actual_io_mode The type of I/O performed by this process
* \return \herr_t
*
* \par Motivation:
* A user can request collective I/O via a data transfer property list
* (DXPL) that has been suitably modified with H5Pset_dxpl_mpio().
* However, HDF5 will sometimes ignore this request and perform independent
* I/O instead. This property allows the user to see what kind of I/O HDF5
* actually performed. Used in conjunction with H5Pget_mpio_actual_chunk_opt_mode(),
* this property allows the user to determine exactly HDF5 did when
* attempting collective I/O.
*
* \details H5Pget_mpio_actual_io_mode() retrieves the type of I/O performed on
* the selection of the current process. This property is set after all
* I/O is completed; if I/O fails, it will not be set.
*
* Valid values returned in \p actual_io_mode:
* \snippet this H5D_mpio_actual_io_mode_t_snip
* \click4more
*
* \attention All processes do not need to have the same value. For example, if
* I/O is being performed using the multi chunk optimization scheme,
* one process's selection may include only chunks accessed
* collectively, while another may include chunks accessed
* independently. In this case, the first process will report
* #H5D_MPIO_CHUNK_COLLECTIVE while the second will report
* #H5D_MPIO_CHUNK_INDEPENDENT.
*
* \see H5Pget_mpio_no_collective_cause(), H5Pget_mpio_actual_chunk_opt_mode()
*
* \since 1.8.8
*
*/
H5_DLL herr_t H5Pget_mpio_actual_io_mode(hid_t plist_id, H5D_mpio_actual_io_mode_t *actual_io_mode);
/**
* \ingroup DXPL
*
* \brief Retrieves local and global causes that broke collective I/O on the last
* parallel I/O call
*
* \dxpl_id{plist_id}
* \param[out] local_no_collective_cause An enumerated set value indicating the
* causes that prevented collective I/O in the local process
* \param[out] global_no_collective_cause An enumerated set value indicating
* the causes across all processes that prevented collective I/O
* \return \herr_t
*
* \par Motivation:
* A user can request collective I/O via a data transfer property list (DXPL)
* that has been suitably modified with H5P_SET_DXPL_MPIO. However, there are
* conditions that can cause HDF5 to forgo collective I/O and perform
* independent I/O. Such causes can be different across the processes of a
* parallel application. This function allows the user to determine what
* caused the HDF5 library to skip collective I/O locally, that is in the
* local process, and globally, across all processes.
*
* \details H5Pget_mpio_no_collective_cause() serves two purposes. It can be
* used to determine whether collective I/O was used for the last
* preceding parallel I/O call. If collective I/O was not used, the
* function retrieves the local and global causes that broke collective
* I/O on that parallel I/O call. The properties retrieved by this
* function are set before I/O takes place and are retained even when
* I/O fails.
*
* Valid values returned in \p local_no_collective_cause and \p
* global_no_collective_cause are as follows or, if there are multiple
* causes, a bitwise OR of the relevant causes; the numbers in the
* center column are the bitmask values:
* \snippet this H5D_mpio_no_collective_cause_t_snip
* \click4more
*
* \attention Each process determines whether it can perform collective I/O and
* broadcasts the result. Those results are combined to make a
* collective decision; collective I/O will be performed only if all
* processes can perform collective I/O.\n
* If collective I/O was not used, the causes that prevented it are
* reported by individual process by means of an enumerated set. The
* causes may differ among processes, so H5Pget_mpio_no_collective_cause()
* returns two property values. The first value is the one produced
* by the local process to report local causes. This local information
* is encoded in an enumeration, the \ref H5D_mpio_no_collective_cause_t
* described above, with all individual causes combined into a single
* enumeration value by means of a bitwise OR operation. The second
* value reports global causes; this global value is the result of a
* bitwise-OR operation across the values returned by all the processes.
*
* \since 1.8.10
*
*/
H5_DLL herr_t H5Pget_mpio_no_collective_cause(hid_t plist_id, uint32_t *local_no_collective_cause,
uint32_t *global_no_collective_cause);
#endif /* H5_HAVE_PARALLEL */
/**
*
* \ingroup DXPL
*
* \brief Sets a hyperslab file selection for a dataset I/O operation
*
* \param[in] plist_id Property list identifier
* \param[in] rank Number of dimensions of selection
* \param[in] op Operation to perform on current selection
* \param[in] start Offset of start of hyperslab
* \param[in] stride Hyperslab stride
* \param[in] count Number of blocks included in hyperslab
* \param[in] block Size of block in hyperslab
*
* \return \herr_t
*
* \details H5Pset_dataset_io_hyperslab_selection() is designed to be used
* in conjunction with using #H5S_PLIST for the file dataspace
* ID when making a call to H5Dread() or H5Dwrite(). When used
* with #H5S_PLIST, the selection created by one or more calls to
* this routine is used for determining which dataset elements to
* access.
*
* \p rank is the dimensionality of the selection and determines
* the size of the \p start, \p stride, \p count, and \p block arrays.
* \p rank must be between 1 and #H5S_MAX_RANK, inclusive.
*
* The \p op, \p start, \p stride, \p count, and \p block parameters
* behave identically to their behavior for H5Sselect_hyperslab(),
* please see the documentation for that routine for details about
* their use.
*
* \since 1.14.0
*
*/
H5_DLL herr_t H5Pset_dataset_io_hyperslab_selection(hid_t plist_id, unsigned rank, H5S_seloper_t op,
const hsize_t start[], const hsize_t stride[],
const hsize_t count[], const hsize_t block[]);
/**
*
* \ingroup DXPL
*
* \brief Sets the selection I/O mode
*
* \dxpl_id{plist_id}
* \param[in] selection_io_mode The selection I/O mode to be set
*
* \return \herr_t
*
* \details H5Pset_selection_io() sets the selection I/O mode
* \p selection_io_mode in the dataset transfer property
* list \p plist_id.
*
* This can be used to enable collective I/O with type conversion, or
* with custom VFDs that support vector or selection I/O.
*
* Values that can be set in \p selection_io_mode:
* \snippet this H5D_selection_io_mode_t_snip
* \click4more
*
* \note The library may not perform selection I/O as it asks for if the
* layout callback determines that it is not feasible to do so. Please
* refer to H5Pget_no_selection_io_cause() for details.
*
* When used with type conversion, selection I/O requires the type
* conversion buffer (and the background buffer if applicable) be large
* enough to hold the entirety of the data involved in the I/O. For
* read operations, the library will use the application's read buffer
* as the type conversion buffer if the memory type is not smaller than
* the file type, eliminating the need for a separate type conversion
* buffer (a background buffer may still be required). For write
* operations, the library will similarly use the write buffer as a
* type conversion buffer, but only if H5Pset_modify_write_buf() is
* used to allow the library to modify the contents of the write
* buffer.
*
* \since 1.14.1
*
*/
H5_DLL herr_t H5Pset_selection_io(hid_t plist_id, H5D_selection_io_mode_t selection_io_mode);
/**
*
* \ingroup DXPL
*
* \brief Retrieves the selection I/O mode
*
* \dxpl_id{plist_id}
* \param[out] selection_io_mode The selection I/O mode
*
* \return \herr_t
*
* \details H5Pget_selection_io() queries the selection I/O mode set in
* in the dataset transfer property list \p plist_id.
*
* Values returned in \p selection_io_mode:
* \snippet this H5D_selection_io_mode_t_snip
* \click4more
*
* \note The library may not perform selection I/O as it asks for if the
* layout callback determines that it is not feasible to do so. Please
* refer to H5Pget_no_selection_io_cause() for details.
*
* \since 1.14.1
*
*/
H5_DLL herr_t H5Pget_selection_io(hid_t plist_id, H5D_selection_io_mode_t *selection_io_mode);
/**
* \ingroup DXPL
*
* \brief Retrieves the cause for not performing selection or vector I/O on the
* last parallel I/O call
*
* \dxpl_id{plist_id}
* \param[out] no_selection_io_cause A bitwise set value indicating the relevant
* causes that prevented selection I/O from
* being performed
* \return \herr_t
*
* \par Motivation:
* A user can request selection I/O to be performed via a data transfer
* property list (DXPL). This can be used to enable collective I/O with
* type conversion, or with custom VFDs that support vector or selection
* I/O. However, there are conditions that can cause HDF5 to forgo
* selection or vector I/O and perform legacy (scalar) I/O instead.
*
* \details H5Pget_no_selection_io_cause() can be used to determine whether
* selection or vector I/O was applied for the last preceding I/O call.
* If selection or vector I/O was not used, this function retrieves the
* cause(s) that prevent selection or vector I/O to be performed on
* that I/O call. The properties retrieved by this function are set
* before I/O takes place and are retained even when I/O fails.
*
* If a selection I/O request falls back to vector I/O, that is not
* considered "breaking" selection I/O by this function, since vector
* I/O still passes all information to the file driver in a single
* callback.
*
* Valid values returned in \p no_selection_io_cause are listed
* as follows. If there are multiple causes, it is a bitwise OR of
* the relevant causes.
*
* - #H5D_SEL_IO_DISABLE_BY_API
* Selection I/O was not performed because the feature was disabled by the API
* - #H5D_SEL_IO_NOT_CONTIGUOUS_OR_CHUNKED_DATASET
* Selection I/O was not performed because the dataset was neither contiguous nor chunked
* - #H5D_SEL_IO_CONTIGUOUS_SIEVE_BUFFER
* Selection I/O was not performed because of sieve buffer for contiguous dataset
* - #H5D_SEL_IO_NO_VECTOR_OR_SELECTION_IO_CB
* Selection I/O was not performed because the VFD does not have vector or selection I/O callback
* - #H5D_SEL_IO_PAGE_BUFFER
* Selection I/O was not performed because of page buffer
* - #H5D_SEL_IO_DATASET_FILTER
* Selection I/O was not performed because of dataset filters
* - #H5D_SEL_IO_CHUNK_CACHE
* Selection I/O was not performed because of chunk cache
* - #H5D_SEL_IO_TCONV_BUF_TOO_SMALL
* Selection I/O was not performed because the type conversion buffer is too small
* - #H5D_SEL_IO_BKG_BUF_TOO_SMALL
* Selection I/O was not performed because the type conversion background buffer is too small
* - #H5D_SEL_IO_DEFAULT_OFF
* Selection I/O was not performed because the selection I/O mode is DEFAULT and the library chose it
* to be off for this case
*
* \since 1.14.1
*
*/
H5_DLL herr_t H5Pget_no_selection_io_cause(hid_t plist_id, uint32_t *no_selection_io_cause);
/**
*
* \ingroup DXPL
*
* \brief Allows the library to modify the contents of the write buffer
*
* \dxpl_id{plist_id}
* \param[in] modify_write_buf Whether the library can modify the contents of the write buffer
*
* \return \herr_t
*
* \details H5Pset_modify_write_buf() sets whether the library is allowed to
* modify the contents of write buffers passed to HDF5 API routines
* that are passed the dataset transfer property list \p plist_id. The
* default value for modify_write_buf is FALSE.
*
* This function can be used to allow the library to perform in-place
* type conversion on write operations to save memory space. This is
* currently only used for selection I/O operations, which are used for
* collective I/O with type conversion. After making an API call with
* this parameter set to TRUE, the contents of the write buffer are
* undefined.
*
* \note When modify_write_buf is set to TRUE the library may violate the
* const qualifier on the API parameter for the write buffer.
*
* \since 1.14.1
*
*/
H5_DLL herr_t H5Pset_modify_write_buf(hid_t plist_id, hbool_t modify_write_buf);
/**
*
* \ingroup DXPL
*
* \brief Retrieves the "modify write buffer" property
*
* \dxpl_id{plist_id}
* \param[out] modify_write_buf Whether the library can modify the contents of the write buffer
*
* \return \herr_t
*
* \details H5Pget_modify_write_buf() gets the "modify write buffer" property
* from the dataset transfer property list \p plist_id. This property
* determines whether the library is allowed to modify the contents of
* write buffers passed to HDF5 API routines that are passed
* \p plist_id. The default value for modify_write_buf is FALSE.
*
* \since 1.14.1
*
*/
H5_DLL herr_t H5Pget_modify_write_buf(hid_t plist_id, hbool_t *modify_write_buf);
/**
* \ingroup LCPL
*
* \brief Determines whether property is set to enable creating missing
* intermediate groups
*
* \lcpl_id{plist_id}
* \param[out] crt_intmd Flag specifying whether to create intermediate
* groups upon creation of an object
*
* \return \herr_t
*
* \details H5Pget_create_intermediate_group() determines whether the link
* creation property list \p plist_id is set to allow functions
* that create objects in groups different from the current
* working group to create intermediate groups that may be
* missing in the path of a new or moved object.
*
* Functions that create objects in or move objects to a group
* other than the current working group make use of this
* property. H5Gcreate_anon() and H5Lmove() are examples of such
* functions.
*
* If \p crt_intmd is positive, missing intermediate groups will
* be created; if \p crt_intmd is non-positive, missing intermediate
* groups will not be created.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_create_intermediate_group(hid_t plist_id, unsigned *crt_intmd /*out*/);
/**
* \ingroup LCPL
*
* \brief Specifies in property list whether to create missing
* intermediate groups
*
* \lcpl_id{plist_id}
* \param[in] crt_intmd Flag specifying whether to create intermediate
* groups upon the creation of an object
*
* \return \herr_t
*
* \details H5Pset_create_intermediate_group()
*
* \since
*
*/
H5_DLL herr_t H5Pset_create_intermediate_group(hid_t plist_id, unsigned crt_intmd);
/* Group creation property list (GCPL) routines */
/**
* \ingroup GCPL
*
* \brief Returns the estimated link count and average link name length in a group
*
* \gcpl_id{plist_id}
* \param[out] est_num_entries The estimated number of links in the group
* referenced by \p plist_id
* \param[out] est_name_len The estimated average length of line names in the group
* referenced by \p plist_id
* \return \herr_t
*
* \details H5Pget_est_link_info() retrieves two settings from the group creation
* property list \p plist_id: the estimated number of links that are
* expected to be inserted into a group created with the property list
* and the estimated average length of those link names.
*
* The estimated number of links is returned in \p est_num_entries. The
* limit for \p est_num_entries is 64 K.
*
* The estimated average length of the anticipated link names is returned
* in \p est_name_len. The limit for \p est_name_len is 64 K.
*
* See \ref_group_impls for a discussion of the available types of HDF5
* group structures.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_est_link_info(hid_t plist_id, unsigned *est_num_entries /* out */,
unsigned *est_name_len /* out */);
/**
* \ingroup GCPL
*
* \brief Queries whether link creation order is tracked and/or indexed in
* a group
*
* \param[in] plist_id Group or file creation property list
* identifier
* \param[out] crt_order_flags Creation order flag(s)
*
* \return \herr_t
*
* \details H5Pget_link_creation_order() queries the group or file creation
* property list, \p plist_id, and returns a flag indicating whether
* link creation order is tracked and/or indexed in a group.
*
* See H5Pset_link_creation_order() for a list of valid creation
* order flags, as passed in \p crt_order_flags, and their
* meanings.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_link_creation_order(hid_t plist_id, unsigned *crt_order_flags /* out */);
/**
* \ingroup GCPL
*
* \brief Queries the settings for conversion between compact and dense
* groups
*
* \gcpl_id{plist_id}
* \param[out] max_compact Maximum number of links for compact storage
* \param[out] min_dense Minimum number of links for dense storage
*
* \return \herr_t
*
* \details H5Pget_link_phase_change() queries the maximum number of
* entries for a compact group and the minimum number of links
* to require before converting a group to a dense form.
*
* In the compact format, links are stored as messages in the
* group’s header. In the dense format, links are stored in a
* fractal heap and indexed with a version 2 B-tree.
*
* \p max_compact is the maximum number of links to store as
* header messages in the group header before converting the
* group to the dense format. Groups that are in the compact
* format and exceed this number of links are automatically
* converted to the dense format.
*
* \p min_dense is the minimum number of links to store in the
* dense format. Groups which are in dense format and in which
* the number of links falls below this number are automatically
* converted back to the compact format.
*
* In the compact format, links are stored as messages in the
* group’s header. In the dense format, links are stored in a
* fractal heap and indexed with a version 2 B-tree.
*
* See H5Pset_link_phase_change() for a discussion of
* traditional, compact, and dense group storage.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_link_phase_change(hid_t plist_id, unsigned *max_compact /*out*/,
unsigned *min_dense /*out*/);
/**
* \ingroup GCPL
*
* \brief Retrieves the anticipated size of the local heap for original-style
* groups
*
* \gcpl_id{plist_id}
* \param[out] size_hint Anticipated size of local heap
* \return \herr_t
*
* \details H5Pget_local_heap_size_hint() queries the group creation property
* list, \p plist_id, for the anticipated size of the local heap, \p
* size_hint, for original-style groups, i.e., for groups of the style
* used prior to HDF5 Release 1.8.0. See H5Pset_local_heap_size_hint()
* for further discussion.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_local_heap_size_hint(hid_t plist_id, size_t *size_hint /*out*/);
/**
* \ingroup GCPL
*
* \brief Sets estimated number of links and length of link names in a group
*
* \gcpl_id{plist_id}
* \param[in] est_num_entries Estimated number of links to be inserted into group
* \param[in] est_name_len Estimated average length of link names
* \return \herr_t
*
* \details H5Pset_est_link_info() inserts two settings into the group creation
* property list plist_id: the estimated number of links that are
* expected to be inserted into a group created with the property list
* and the estimated average length of those link names.
*
* The estimated number of links is passed in \p est_num_entries. The
* limit for \p est_num_entries is 64 K.
*
* The estimated average length of the anticipated link names is passed
* in \p est_name_len. The limit for \p est_name_len is 64 K.
*
* The values for these two settings are multiplied to compute the
* initial local heap size (for old-style groups, if the local heap
* size hint is not set) or the initial object header size for
* (new-style compact groups; see \ref_group_impls). Accurately setting
* these parameters will help reduce wasted file space.
*
* If a group is expected to have many links and to be stored in dense
* format, set \p est_num_entries to 0 (zero) for maximum
* efficiency. This will prevent the group from being created in the
* compact format.
*
* See \ref_group_impls for a discussion of the available types of HDF5
* group structures.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_est_link_info(hid_t plist_id, unsigned est_num_entries, unsigned est_name_len);
/**
* \ingroup GCPL
*
* \brief Sets creation order tracking and indexing for links in a group
*
* \param[in] plist_id Group or file creation property list
* identifier
* \param[out] crt_order_flags Creation order flag(s)
*
* \return \herr_t
*
* \details H5Pset_link_creation_order() sets flags for tracking and
* indexing links on creation order in groups created with the
* group (or file) creation property list \p plist_id.
*
* \p crt_order_flags contains flags with the following meanings:
*
* <table>
* <tr>
* <td>#H5P_CRT_ORDER_TRACKED</td>
* <td>Link creation order is tracked but not necessarily
* indexed</td>
* </tr>
* <tr>
* <td>#H5P_CRT_ORDER_INDEXED</td>
* <td>Link creation order is indexed (requires
* #H5P_CRT_ORDER_TRACKED)</td>
* </tr>
* </table>
*
* The default behavior is that links are tracked and indexed by
* name, and link creation order is neither tracked nor indexed.
* The name is always the primary index for links in a group.
*
* H5Pset_link_creation_order() can be used to set link creation
* order tracking, or to set link creation order tracking and
* indexing.
*
* If (#H5P_CRT_ORDER_TRACKED | #H5P_CRT_ORDER_INDEXED) is
* specified for \p crt_order_flags, then links will be tracked
* and indexed by creation order. The creation order is added as
* a secondary index and enables faster queries and iterations
* by creation order.
*
* If just #H5P_CRT_ORDER_TRACKED is specified for
* \p crt_order_flags, then links will be tracked by creation
* order, but not indexed by creation order. Queries and iterations
* by creation order will work but will be much slower for large
* groups than if #H5P_CRT_ORDER_INDEXED had been included.
*
* \note If a creation order index is to be built, it must be specified in
* the group creation property list. HDF5 currently provides no
* mechanism to turn on link creation order tracking at group
* creation time and to build the index later.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_link_creation_order(hid_t plist_id, unsigned crt_order_flags);
/**
* \ingroup GCPL
*
* \brief Sets the parameters for conversion between compact and dense
* groups
*
* \gcpl_id{plist_id}
* \param[in] max_compact Maximum number of links for compact storage
* (\a Default: 8)
* \param[in] min_dense Minimum number of links for dense storage
* (\a Default: 6)
*
* \return \herr_t
*
* \details H5Pset_link_phase_change() sets the maximum number of entries
* for a compact group and the minimum number of links to allow
* before converting a dense group back to the compact format.
*
* \p max_compact is the maximum number of links to store as
* header messages in the group header before converting the
* group to the dense format. Groups that are in compact format
* and which exceed this number of links are automatically
* converted to dense format.
*
* \p min_dense is the minimum number of links to store in the
* dense format. Groups which are in dense format and in which
* the number of links falls below this threshold are
* automatically converted to compact format.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_link_phase_change(hid_t plist_id, unsigned max_compact, unsigned min_dense);
/**
* \ingroup GCPL
*
* \brief Specifies the anticipated maximum size of a local heap
*
* \gcpl_id{plist_id}
* \param[in] size_hint Anticipated maximum size in bytes of local heap
* \return \herr_t
*
* \details H5Pset_local_heap_size_hint() is used with original-style HDF5
* groups (see “Motivation” below) to specify the anticipated maximum
* local heap size, size_hint, for groups created with the group
* creation property list \p plist_id. The HDF5 library then uses \p
* size_hint to allocate contiguous local heap space in the file for
* each group created with \p plist_id.
*
* For groups with many members or very few members, an appropriate
* initial value of \p size_hint would be the anticipated number of
* group members times the average length of group member names, plus a
* small margin:
* \code
* size_hint = max_number_of_group_members *
* (average_length_of_group_member_link_names + 2)
* \endcode
* If it is known that there will be groups with zero members, the use
* of a group creation property list with \p size_hint set to to 1 (one)
* will guarantee the smallest possible local heap for each of those groups.
*
* Setting \p size_hint to zero (0) causes the library to make a
* reasonable estimate for the default local heap size.
*
* \par Motivation:
* In situations where backward-compatibility is required, specifically, when
* libraries prior to HDF5 Release 1.8.0 may be used to read the file, groups
* must be created and maintained in the original style. This is HDF5’s default
* behavior. If backward compatibility with pre-1.8.0 libraries is not a concern,
* greater efficiencies can be obtained with the new-format compact and indexed
* groups. See <a href="https://portal.hdfgroup.org/display/HDF5/Groups">Group
* implementations in HDF5</a> in the \ref H5G API introduction (at the bottom).\n
* H5Pset_local_heap_size_hint() is useful for tuning file size when files
* contain original-style groups with either zero members or very large
* numbers of members.\n
* The original style of HDF5 groups, the only style available prior to HDF5
* Release 1.8.0, was well-suited for moderate-sized groups but was not optimized
* for either very small or very large groups. This original style remains the
* default, but two new group implementations were introduced in HDF5 Release 1.8.0:
* compact groups to accommodate zero to small numbers of members and indexed groups
* for thousands or tens of thousands of members ... or millions, if that's what
* your application requires.\n
* The local heap size hint, \p size_hint, is a performance tuning parameter for
* original-style groups. As indicated above, an HDF5 group may have zero, a handful,
* or tens of thousands of members. Since the original style of HDF5 groups stores the
* metadata for all of these group members in a uniform format in a local heap, the size
* of that metadata (and hence, the size of the local heap) can vary wildly from group
* to group. To intelligently allocate space and to avoid unnecessary fragmentation of
* the local heap, it can be valuable to provide the library with a hint as to the local
* heap’s likely eventual size. This can be particularly valuable when it is known that
* a group will eventually have a great many members. It can also be useful in conserving
* space in a file when it is known that certain groups will never have any members.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_local_heap_size_hint(hid_t plist_id, size_t size_hint);
/* Map access property list (MAPL) routines */
#ifdef H5_HAVE_MAP_API
/**
* \ingroup MAPL
*
* \brief Set map iteration hints
*
* \mapl_id
* \param[in] key_prefetch_size Number of keys to prefetch at a time during
* iteration
* \param[in] key_alloc_size The initial size of the buffer allocated to hold
* prefetched keys
* \return \herr_t
*
* \details H5Pset_map_iterate_hints() adjusts the behavior of H5Miterate() when
* prefetching keys for iteration. The \p key_prefetch_size parameter
* specifies the number of keys to prefetch at a time during
* iteration. The \p key_alloc_size parameter specifies the initial
* size of the buffer allocated to hold these prefetched keys. If this
* buffer is too small it will be reallocated to a larger size, though
* this may result in an additional I/O.
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Pset_map_iterate_hints(hid_t mapl_id, size_t key_prefetch_size, size_t key_alloc_size);
/**
* \ingroup MAPL
*
* \brief Set map iteration hints
*
* \mapl_id
* \param[out] key_prefetch_size Pointer to number of keys to prefetch at a time
* during iteration
* \param[out] key_alloc_size Pointer to the initial size of the buffer allocated
* to hold prefetched keys
* \return \herr_t
*
* \details H5Pget_map_iterate() returns the map iterate hints, \p key_prefetch_size
* and \p key_alloc_size, as set by H5Pset_map_iterate_hints().
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Pget_map_iterate_hints(hid_t mapl_id, size_t *key_prefetch_size /*out*/,
size_t *key_alloc_size /*out*/);
#endif /* H5_HAVE_MAP_API */
/**
* \ingroup ACPL
*
* \brief Retrieves the character encoding used to create a link or
* attribute name
*
* \param[in] plist_id Link creation or attribute creation property list
* identifier
* \param[out] encoding String encoding character set
*
* \return \herr_t
*
* \details H5Pget_char_encoding() retrieves the character encoding used
* to encode link or attribute names that are created with the
* property list \p plist_id.
*
* Valid values for \p encoding are defined in H5Tpublic.h and
* include the following:
*
* \csets
*
* \note H5Pget_char_encoding() retrieves the character set used for an
* HDF5 link or attribute name while H5Tget_cset() retrieves the
* character set used in a character or string datatype.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_char_encoding(hid_t plist_id, H5T_cset_t *encoding /*out*/);
/**
* \ingroup ACPL
*
* \brief Sets the character encoding used to encode link and attribute
* names
*
* \param[in] plist_id Link creation or attribute creation property list
* identifier
* \param[in] encoding String encoding character set
*
* \return \herr_t
*
* \details H5Pset_char_encoding() sets the character encoding used for
* the names of links (which provide the names by which objects
* are referenced) or attributes created with the property list
* \p plist_id.
*
* Valid values for encoding include the following:
* \csets
* \details For example, if the character set for the property list
* \p plist_id is set to #H5T_CSET_UTF8, link names pointing to
* objects created with the link creation property list
* \p plist_id will be encoded using the UTF-8 character set.
* Similarly, names of attributes created with the attribute
* creation property list \p plist_id will be encoded as UTF-8.
*
* ASCII and UTF-8 Unicode are the only currently supported
* character encodings. Extended ASCII encodings (for example,
* ISO 8859) are not supported. This encoding policy is not
* enforced by the HDF5 library. Using encodings other than
* ASCII and UTF-8 can lead to compatibility and usability
* problems.
*
* \note H5Pset_char_encoding() sets the character set used for an
* HDF5 link or attribute name while H5Tset_cset() sets the
* character set used in a character or string datatype.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_char_encoding(hid_t plist_id, H5T_cset_t encoding);
/**
* \ingroup LAPL
*
* \brief Retrieves the external link traversal file access flag from the
* specified link access property list
*
* \lapl_id
* \param[out] flags File access flag for link traversal
*
* \return \herr_t
*
* \details H5Pget_elink_acc_flags() retrieves the file access flag used
* to open an external link target file from the specified link
* access property list.
*
* Valid values for \p flags include:
* \li #H5F_ACC_RDWR - Files opened through external links will
* be opened with write access
* \li #H5F_ACC_RDONLY - Files opened through external links will
* be opened with read-only access
* \li #H5F_ACC_DEFAULT - Files opened through external links will
* be opened with the same access flag as
* the parent file
*
* The value returned, if it is not #H5F_ACC_DEFAULT, will
* override the default access flag, which is the access flag
* used to open the parent file.
*
* <b>Example Usage:</b>
* The following code retrieves the external link access flag
* settings on the link access property list \p lapl_id into a
* local variable:
* <pre>
* unsigned acc_flags;
* status = H5Pget_elink_acc_flags(lapl_id, &acc_flags);
* </pre>
*
* \since 1.8.3
*
*/
H5_DLL herr_t H5Pget_elink_acc_flags(hid_t lapl_id, unsigned *flags);
/**
* \ingroup LAPL
*
* \brief Retrieves the external link traversal callback function from the
* specified link access property list
*
* \lapl_id
* \param[out] func User-defined external link traversal callback
* function
* \param[out] op_data User-defined input data for the callback function
*
* \return \herr_t
*
* \details H5Pget_elink_cb() retrieves the user-defined external link
* traversal callback function defined in the specified link
* access property list.
*
* The callback function may adjust the file access property
* list and file access flag to use when opening a file through
* an external link. The callback will be executed by the HDF5
* library immediately before opening the target file.
*
* <b>Failure Modes:</b> H5Pget_elink_cb() will fail if the link
* access property list identifier, \p lapl_id, is invalid.
*
* An invalid function pointer or data pointer, \p func or
* \p op_data respectively, may cause a segmentation fault or an
* invalid memory access.
*
* <b>Example Usage:</b> The following code retrieves the external
* link callback settings on the link access property list
* \p lapl_id into local variables:
* <pre>
* H5L_elink_traverse_t elink_callback_func;
* void *elink_callback_udata;
* status = H5Pget_elink_cb (lapl_id, &elink_callback_func,
* &elink_callback_udata);
* </pre>
*
* \since 1.8.3
*
*/
H5_DLL herr_t H5Pget_elink_cb(hid_t lapl_id, H5L_elink_traverse_t *func, void **op_data);
/**
* \ingroup LAPL
*
* \brief Retrieves the file access property list identifier associated
* with the link access property list
*
* \lapl_id
*
* \return \hid_t{file access property list}
*
* \details H5Pget_elink_fapl() retrieves the file access property list
* identifier that is set for the link access property list
* identifier, \p lapl_id. The library uses this file access
* property list identifier to open the target file for the
* external link access. When no such identifier is set, this
* routine returns #H5P_DEFAULT.
*
* \see H5Pset_elink_fapl() and H5Lcreate_external().
*
* \since 1.8.0
*
*/
H5_DLL hid_t H5Pget_elink_fapl(hid_t lapl_id);
/**
* \ingroup LAPL
*
* \brief Retrieves prefix applied to external link paths
*
* \lapl_id{plist_id}
* \param[out] prefix Prefix applied to external link paths
* \param[in] size Size of prefix, including null terminator
*
* \return If successful, returns a non-negative value specifying the size
* in bytes of the prefix without the NULL terminator; otherwise
* returns a negative value.
*
* \details H5Pget_elink_prefix() retrieves the prefix applied to the
* path of any external links traversed.
*
* When an external link is traversed, the prefix is retrieved
* from the link access property list \p plist_id, returned in
* the user-allocated buffer pointed to by \p prefix, and
* prepended to the filename stored in the external link.
*
* The size in bytes of the prefix, including the NULL terminator,
* is specified in \p size. If size is unknown, a preliminary
* H5Pget_elink_prefix() call with the pointer \p prefix set to
* NULL will return the size of the prefix without the NULL
* terminator.
*
* \since 1.8.0
*
*/
H5_DLL ssize_t H5Pget_elink_prefix(hid_t plist_id, char *prefix, size_t size);
/**
* \ingroup LAPL
*
* \brief Retrieves the maximum number of link traversals
*
* \lapl_id{plist_id}
* \param[out] nlinks Maximum number of links to traverse
*
* \return \herr_t
*
* \details H5Pget_nlinks() retrieves the maximum number of soft or
* user-defined link traversals allowed, \p nlinks, before the
* library assumes it has found a cycle and aborts the traversal.
* This value is retrieved from the link access property list
* \p plist_id.
*
* The limit on the number of soft or user-defined link traversals
* is designed to terminate link traversal if one or more links
* form a cycle. User control is provided because some files may
* have legitimate paths formed of large numbers of soft or
* user-defined links. This property can be used to allow
* traversal of as many links as desired.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_nlinks(hid_t plist_id, size_t *nlinks);
/**
* \ingroup LAPL
*
* \brief Sets the external link traversal file access flag in a link
* access property list
*
* \lapl_id
* \param[in] flags The access flag for external link traversal
*
* \return \herr_t
*
* \details H5Pset_elink_acc_flags() specifies the file access flag to use
* to open the target file of an external link. This allows
* read-only access of files reached through an external link in
* a file opened with write access, or vice-versa.
*
* Valid values for \p flags include:
* \li #H5F_ACC_RDWR - Causes files opened through external links
* to be opened with write access
* \li #H5F_ACC_RDONLY - Causes files opened through external
* links to be opened with read-only access
* \li #H5F_ACC_DEFAULT - Removes any external link file access
* flag setting from \p lapl_id, causing the file access flag
* setting to be taken from the parent file
*
* The library will normally use the file access flag used to
* open the parent file as the file access flag for the target
* file. This function provides a way to override that behavior.
* The external link traversal callback function set by
* H5Pset_elink_cb() can override the setting from
* H5Pset_elink_acc_flags().
*
* <b>Motivation:</b> H5Pset_elink_acc_flags() is used to adjust the
* file access flag used to open files reached through external links.
* This may be useful to, for example, prevent modifying files
* accessed through an external link. Otherwise, the target file is
* opened with whatever flag was used to open the parent.
*
* <b>Example Usage:</b> The following code sets the link access
* property list \p lapl_id to open external link target files with
* read-only access:
* <pre>
* status = H5Pset_elink_acc_flags(lapl_id, H5F_ACC_RDONLY);
* </pre>
*
* \since 1.8.3
*
*/
H5_DLL herr_t H5Pset_elink_acc_flags(hid_t lapl_id, unsigned flags);
/**
* \ingroup LAPL
*
* \brief Sets the external link traversal callback function in a link
* access property list
*
* \lapl_id
* \param[in] func User-defined external link traversal callback
* function
* \param[in] op_data User-defined input data for the callback function
*
* \return \herr_t
*
* \details H5Pset_elink_cb() sets a user-defined external link traversal
* callback function in the link access property list \p lapl_id.
* The callback function \p func must conform to the prototype
* specified in #H5L_elink_traverse_t.
*
* The callback function may adjust the file access property
* list and file access flags to use when opening a file through
* an external link. The callback will be executed by the HDF5
* library immediately before opening the target file.
*
* The callback will be made after the file access property list
* set by H5Pset_elink_fapl() and the file access flag set by
* H5Pset_elink_acc_flags() are applied, so changes made by this
* callback function will take precedence.
*
* \attention A file close degree property setting (H5Pset_fclose_degree())
* in this callback function or an associated property list will
* be ignored. A file opened by means of traversing an external
* link is always opened with the weak file close degree
* property setting, #H5F_CLOSE_WEAK.
*
* <b>Motivation:</b> H5Pset_elink_cb() is used to specify a
* callback function that is executed by the HDF5 library when
* traversing an external link. This provides a mechanism to set
* specific access permissions, modify the file access property
* list, modify the parent or target file, or take any other
* user-defined action. This callback function is used in
* situations where the HDF5 library's default behavior is not
* suitable.
*
* <b>Failure Modes:</b> H5Pset_elink_cb() will fail if the link
* access property list identifier, \p lapl_id, is invalid or if
* the function pointer, \p func, is NULL.
*
* An invalid function pointer, \p func, will cause a segmentation
* fault or other failure when an attempt is subsequently made to
* traverse an external link.
*
* <b>Example Usage:</b>
* This example defines a callback function that prints the name
* of the target file every time an external link is followed, and
* sets this callback function on \p lapl_id.
* <pre>
* herr_t elink_callback(const char *parent_file_name, const char
* *parent_group_name, const char *child_file_name, const char
* *child_object_name, unsigned *acc_flags, hid_t fapl_id, void *op_data) {
* puts(child_file_name);
* return 0;
* }
* int main(void) {
* hid_t lapl_id = H5Pcreate(H5P_LINK_ACCESS);
* H5Pset_elink_cb(lapl_id, elink_callback, NULL);
* ...
* }
* </pre>
*
*
* \since 1.8.3
*
*/
H5_DLL herr_t H5Pset_elink_cb(hid_t lapl_id, H5L_elink_traverse_t func, void *op_data);
/**
* \ingroup LAPL
*
* \brief Sets a file access property list for use in accessing a file
* pointed to by an external link
*
* \lapl_id
* \fapl_id
*
* \return \herr_t
*
* \details H5Pset_elink_fapl() sets the file access property list,
* \p fapl_id, to be used when accessing the target file of an
* external link associated with \p lapl_id.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_elink_fapl(hid_t lapl_id, hid_t fapl_id);
/**
* \ingroup LAPL
*
* \brief Sets prefix to be applied to external link paths
*
* \lapl_id{plist_id}
* \param[in] prefix Prefix to be applied to external link paths
*
* \return \herr_t
*
* \details H5Pset_elink_prefix() sets the prefix to be applied to the
* path of any external links traversed. The prefix is prepended
* to the filename stored in the external link.
*
* The prefix is specified in the user-allocated buffer \p prefix
* and set in the link access property list \p plist_id. The buffer
* should not be freed until the property list has been closed.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_elink_prefix(hid_t plist_id, const char *prefix);
/**
* \ingroup LAPL
*
* \brief Sets maximum number of soft or user-defined link traversals
*
* \lapl_id{plist_id}
* \param[in] nlinks Maximum number of links to traverse
*
* \return \herr_t
*
* \details H5Pset_nlinks() sets the maximum number of soft or user-defined
* link traversals allowed, \p nlinks, before the library assumes
* it has found a cycle and aborts the traversal. This value is
* set in the link access property list \p plist_id.
*
* The limit on the number of soft or user-defined link traversals
* is designed to terminate link traversal if one or more links
* form a cycle. User control is provided because some files may
* have legitimate paths formed of large numbers of soft or
* user-defined links. This property can be used to allow
* traversal of as many links as desired.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_nlinks(hid_t plist_id, size_t nlinks);
/* Object copy property list (OCPYPL) routines */
/**
* \ingroup OCPYPL
*
* \brief Adds a path to the list of paths that will be searched in the
* destination file for a matching committed datatype
*
* \param[in] plist_id Object copy property list identifier
* \param[in] path The path to be added
*
* \return \herr_t
*
* \details H5Padd_merge_committed_dtype_path() adds a path, \p path,
* which points to a committed datatype, to the current list of
* suggested paths stored in the object copy property list
* \p plist_id. The search as described in the next paragraph is
* effective only if the #H5O_COPY_MERGE_COMMITTED_DTYPE_FLAG is
* enabled in the object copy property list via
* H5Pset_copy_object().
*
* When copying a committed datatype, a dataset with a committed
* datatype, or an object with an attribute of a committed
* datatype, the default behavior of H5Ocopy() is to search for
* a matching committed datatype:
* <ol>
* <li> First search the list of suggested paths in the object
* copy property list.</li>
* <li> Then, if no match has been found, search all the committed
* datatypes in the destination file.
* </ol>
* The default Step 2 in this search process can be changed by
* setting a callback function (see H5Pset_mcdt_search_cb()).
*
* Two datatypes are determined equal if their descriptions are
* identical, in a manner similar to H5Tequal(). If either
* committed datatype has one or more attributes, then all
* attributes must be present in both committed datatypes and they
* must be identical. Two attributes are considered identical if
* their datatype description, dataspace, and raw data values are
* the same. However, if an attribute uses a committed datatype,
* that committed datatype’s attributes will not be compared.
*
* If a match is found, H5Ocopy() will perform the following in
* the destination file:
* \li For a committed datatype, the library will create a hard
* link to the found datatype.
* \li For a dataset that uses a committed datatype, the library
* will modify the copied dataset to use the found committed
* datatype as its datatype.
* \li For an object with an attribute of a committed datatype,
* the library will modify the copied object’s attribute to
* use the found committed datatype as its datatype.
*
* If no match is found, H5Ocopy() will perform the following in
* the destination file:
* \li For a committed datatype, the library will copy it as it
* would any other object, creating a named committed
* datatype at the destination. That is, the library will
* create a committed datatype that is accessible in the
* file by a unique path.
* \li For a dataset that uses a committed datatype, the
* library will copy the datatype as an anonymous
* committed datatype and use that as the dataset’s
* datatype.
* \li For an object with an attribute of a committed datatype,
* the library will copy the datatype as an anonymous
* committed datatype and use that as the attribute’s
* datatype.
*
* \b Motivation: H5Padd_merge_committed_dtype_path() provides a
* means to override the default behavior of H5Ocopy() when
* #H5O_COPY_MERGE_COMMITTED_DTYPE_FLAG is set in an object
* copy property list.
* H5Padd_merge_committed_dtype_path() is the mechanism for
* suggesting search paths where H5Ocopy() will look for a
* matching committed datatype. This can be substantially
* faster than the default approach of searching the entire
* destination file for a match.
*
* \b Example \b Usage: This example adds two paths to the object
* copy property list. H5Ocopy() will search the two suggested
* paths for a match before searching all the committed datatypes
* in the destination file.
*
* <pre>
* int main(void) {
* hid_t ocpypl_id = H5Pcreate(H5P_OBJECT_COPY);
*
* H5Pset_copy_object(ocpypl_id, H5O_COPY_MERGE_COMMITTED_DTYPE_FLAG);
* H5Padd_merge_committed_dtype_path(ocpypl_id, "/group/committed_dtypeA");
* H5Padd_merge_committed_dtype_path(ocpypl_id, "/group2/committed_dset");
* H5Ocopy(...ocpypl_id...);
* ...
* ...
* }
* </pre>
*
* \note H5Padd_merge_committed_dtype_path() will fail if the object
* copy property list is invalid.
* It will also fail if there is insufficient memory when
* duplicating \p path.
*
* \see
* \li H5Ocopy()
* \li #H5O_mcdt_search_cb_t
* \li H5Padd_merge_committed_dtype_path()
* \li H5Pfree_merge_committed_dtype_paths()
* \li H5Pget_mcdt_search_cb()
* \li H5Pset_copy_object()
* \li H5Pset_mcdt_search_cb()
* \li \ref_h5ocopy
*
* \since 1.8.9
*
*/
H5_DLL herr_t H5Padd_merge_committed_dtype_path(hid_t plist_id, const char *path);
/**
* \ingroup OCPYPL
*
* \brief Clears the list of paths stored in the object copy property list
*
* \param[in] plist_id Object copy property list identifier
*
* \return \herr_t
*
* \details H5Pfree_merge_committed_dtype_paths() clears the suggested
* paths stored in the object copy property list \p plist_id.
* These are the suggested paths previously set with
* H5Padd_merge_committed_dtype_path().
*
* \b Example \b Usage: This example adds a suggested path to the
* object copy property list, does the copy, clears the list, and
* then adds a new suggested path to the list for another copy.
*
* <pre>
* int main(void) {
* hid_t ocpypl_id = H5Pcreate(H5P_OBJECT_COPY);
*
* H5Pset_copy_object(ocpypl_id, H5O_COPY_MERGE_COMMITTED_DTYPE_FLAG);
* H5Padd_merge_committed_dtype_path(ocpypl_id, "/group/committed_dtypeA");
* H5Ocopy(...ocpypl_id...);
* ...
* ...
* H5Pfree_merge_committed_dtype_paths(ocpypl_id);
* H5Padd_merge_committed_dtype_path(ocpypl_id, "/group2/committed_dtypeB");
* H5Ocopy(...ocpypl_id...);
* ...
* ...
* }
* </pre>
*
* \note H5Pfree_merge_committed_dtype_paths() will fail if the
* object copy property list is invalid.
*
* \see
* \li H5Ocopy()
* \li #H5O_mcdt_search_cb_t
* \li H5Padd_merge_committed_dtype_path()
* \li H5Pfree_merge_committed_dtype_paths()
* \li H5Pget_mcdt_search_cb()
* \li H5Pset_copy_object()
* \li H5Pset_mcdt_search_cb()
*
* \since 1.8.9
*
*/
H5_DLL herr_t H5Pfree_merge_committed_dtype_paths(hid_t plist_id);
/**
* \ingroup OCPYPL
*
* \brief Retrieves the properties to be used when an object is copied
*
* \param[in] plist_id Object copy property list identifier
* \param[out] copy_options Copy option(s) set in the object copy property
* list
*
* \return \herr_t
*
* \details H5Pget_copy_object() retrieves the properties currently
* specified in the object copy property list \p plist_id, which
* will be invoked when a new copy is made of an existing object.
*
* \p copy_options is a bit map indicating the flags, or
* properties, governing object copying that are set in the
* property list \p plist_id.
*
* The available flags are described in H5Pset_copy_object().
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pget_copy_object(hid_t plist_id, unsigned *copy_options /*out*/);
/**
* \ingroup OCPYPL
*
* \brief Retrieves the callback function from the specified object copy
* property list
*
* \param[in] plist_id Object copy property list identifier
* \param[out] func User-defined callback function
* \param[out] op_data User-defined data for the callback
* function
*
* \return \herr_t
*
* \details H5Pget_mcdt_search_cb() retrieves the user-defined callback
* function and the user data that are set via
* H5Pset_mcdt_search_cb() in the object copy property list
* \p plist_id.
*
* The callback function will be returned in the parameter \p func
* and the user data will be returned in the parameter \p op_data.
*
* \note H5Pget_mcdt_search_cb() will fail if the object copy property
* list is invalid.
*
* \see
* \li H5Ocopy()
* \li #H5O_mcdt_search_cb_t
* \li H5Padd_merge_committed_dtype_path()
* \li H5Pfree_merge_committed_dtype_paths()
* \li H5Pget_mcdt_search_cb()
* \li H5Pset_copy_object()
* \li H5Pset_mcdt_search_cb()
* \li \ref_h5ocopy
*
* \since 1.8.9
*
*/
H5_DLL herr_t H5Pget_mcdt_search_cb(hid_t plist_id, H5O_mcdt_search_cb_t *func, void **op_data);
/**
* \ingroup OCPYPL
*
* \brief Sets properties to be used when an object is copied
*
* \param[in] plist_id Object copy property list identifier
* \param[out] copy_options Copy option(s) to be set
*
* \return \herr_t
*
* \details H5Pset_copy_object() sets properties in the object copy
* property list \p plist_id. When an existing object is copied,
* that property list will determine how the new copy is created.
*
* The following flags are available for use in an object copy
* property list:
*
* <table>
* <tr>
* <td>#H5O_COPY_SHALLOW_HIERARCHY_FLAG</td>
* <td>Copy only immediate members of a group<br />
* <em>Default behavior, without flag:</em> Recursively
* copy all objects in and below the group.</td>
* </tr>
* <tr>
* <td>#H5O_COPY_EXPAND_SOFT_LINK_FLAG</td>
* <td>Expand soft links into new objects<br />
* <em>Default behavior, without flag:</em> Copy soft
* links as they are.</td>
* </tr>
* <tr>
* <td>#H5O_COPY_EXPAND_EXT_LINK_FLAG</td>
* <td>Expand external link into new objects<br />
* <em>Default behavior, without flag:</em> Copy external
* links as they are.</td>
* </tr>
* <tr>
* <td>#H5O_COPY_EXPAND_REFERENCE_FLAG</td>
* <td>Copy objects that are pointed to by references and
* update reference values in destination file<br />
* <em>Default behavior, without flag:</em> Set reference
* values in destination file to zero (0)</td>
* </tr>
* <tr>
* <td>#H5O_COPY_WITHOUT_ATTR_FLAG</td>
* <td>Copy object without copying attributes<br />
* <em>Default behavior, without flag:</em> Copy object
* with all its attributes</td>
* </tr>
* <tr>
* <td>#H5O_COPY_MERGE_COMMITTED_DTYPE_FLAG</td>
* <td>Use a matching committed datatype in the destination
* file when copying a committed datatype, a dataset with
* a committed datatype, or an object with an attribute
* of committed datatype <br />
* <em>Default behavior without flag:</em>
*
* \li A committed datatype in the source will be copied to
* the destination as a committed datatype.
* \li If a dataset in the source uses a committed
* datatype or an object in the source has an attribute
* of a committed datatype, that committed datatype will
* be written to the destination as an anonymous
* committed datatype.
* If copied in a single H5Ocopy() operation, objects
* that share a committed datatype in the source will
* share an anonymous committed dataype in the
* destination copy. Subsequent H5Ocopy() operations,
* however, will be unaware of prior anonymous committed
* dataypes and will create new ones.
*
* See the “See Also” section immediately below for
* functions related to the use of this flag.</td>
* </tr>
* </table>
*
* \see
* Functions and a callback function used to tune committed datatype
* copying behavior:
* \li #H5O_mcdt_search_cb_t
* \li H5Padd_merge_committed_dtype_path()
* \li H5Pfree_merge_committed_dtype_paths()
* \li H5Pget_mcdt_search_cb()
* \li H5Pset_copy_object()
* \li H5Pset_mcdt_search_cb()
* \li \ref_h5ocopy
*
* \version 1.8.9 #H5O_COPY_MERGE_COMMITTED_DTYPE_FLAG added in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Pset_copy_object(hid_t plist_id, unsigned copy_options);
/**
* \ingroup OCPYPL
*
* \brief Sets the callback function that H5Ocopy() will invoke before
* searching the entire destination file for a matching committed
* datatype
*
* \param[in] plist_id Object copy property list identifier
* \param[in] func User-defined callback function
* \param[in] op_data User-defined input data for the callback function
*
* \return \herr_t
*
* \details H5Pset_mcdt_search_cb() allows an application to set a
* callback function, \p func, that will be invoked before
* searching the destination file for a matching committed
* datatype. The default, global search process is described in
* H5Padd_merge_committed_dtype_path().
*
* The callback function must conform to the #H5O_mcdt_search_cb_t
* prototype and will return an instruction for one of the
* following actions:
*
* \li Continue the search for a matching committed datatype in
* the destination file.
* \li Discontinue the search for a matching committed datatype.
* H5Ocopy() will then apply the default behavior of creating
* an anonymous committed datatype.
* \li Abort the copy operation and exit H5Ocopy().
*
* \b Motivation: H5Pset_mcdt_search_cb() provides the means to
* define a callback function. An application can then use that
* callback to take an additional action before the default search
* of all committed datatypes in the destination file or to take an
* action that replaces the default search. This mechanism is
* intended to improve performance when the global search might
* take a long time.
*
* \b Example \b Usage: This example defines a callback function in
* the object copy property list.
*
* <pre>
* static H5O_mcdt_search_ret_t
* mcdt_search_cb(void *_udata)
* {
* H5O_mcdt_search_ret_t action = *((H5O_mcdt_search_ret_t *)_udata);
*
* return(action);
* }
*
* int main(void) {
* hid_t ocpypl_id = H5Pcreate(H5P_OBJECT_COPY);
*
* H5Pset_copy_object(ocpypl_id, H5O_COPY_MERGE_COMMITTED_DTYPE_FLAG);
* H5Padd_merge_committed_dtype_path(ocpypl_id, "/group/committed_dtypeA");
*
* action = H5O_MCDT_SEARCH_STOP;
* H5Pset_mcdt_search_cb(ocpypl_id, mcdt_search_cb, &action);
* H5Ocopy(...ocpypl_id...);
* ...
* ...
* }
* </pre>
*
* \note H5Pset_mcdt_search_cb() will fail if the
* object copy property list is invalid.
*
* \warning If the callback function return value causes H5Ocopy() to
* abort, the destination file may be left in an inconsistent or
* corrupted state.
*
* \see
* \li H5Ocopy()
* \li #H5O_mcdt_search_cb_t
* \li H5Padd_merge_committed_dtype_path()
* \li H5Pfree_merge_committed_dtype_paths()
* \li H5Pget_mcdt_search_cb()
* \li H5Pset_copy_object()
* \li H5Pset_mcdt_search_cb()
* \li \ref_h5ocopy
*
* \since 1.8.9
*
*/
H5_DLL herr_t H5Pset_mcdt_search_cb(hid_t plist_id, H5O_mcdt_search_cb_t func, void *op_data);
/* Symbols defined for compatibility with previous versions of the HDF5 API.
*
* Use of these symbols is deprecated.
*/
#ifndef H5_NO_DEPRECATED_SYMBOLS
/* Macros */
/* We renamed the "root" of the property list class hierarchy */
#define H5P_NO_CLASS H5P_ROOT
/* Typedefs */
/**
* \ingroup PLCRA
*
* \brief Registers a permanent property with a property list class
*
* \plistcls_id{cls_id}
* \param[in] name Name of property to register
* \param[in] size Size of property in bytes
* \param[in] def_value Default value for property in newly created
* property lists
* \param[in] prp_create Callback routine called when a property list is
* being created and the property value will be
* initialized
* \param[in] prp_set Callback routine called before a new value is
* copied into the property's value
* \param[in] prp_get Callback routine called when a property value is
* retrieved from the property
* \param[in] prp_del Callback routine called when a property is deleted
* from a property list
* \param[in] prp_copy Callback routine called when a property is copied
* from a property list
* \param[in] prp_close Callback routine called when a property list is
* being closed and the property value will be
* disposed of
*
* \return \herr_t
*
* \deprecated As of HDF5-1.8 this function was deprecated in favor of
* H5Pregister2() or the macro H5Pregister().
*
* \details H5Pregister1() registers a new property with a property list
* class. The property will exist in all property list objects
* of that class after this routine is finished. The name of
* the property must not already exist. The default property
* value must be provided and all new property lists created
* with this property will have the property value set to the
* default provided. Any of the callback routines may be set
* to NULL if they are not needed.
*
* Zero-sized properties are allowed and do not store any data in
* the property list. These may be used as flags to indicate the
* presence or absence of a particular piece of information. The
* default pointer for a zero-sized property may be set to NULL.
* The property \p prp_create and \p prp_close callbacks are called for
* zero-sized properties, but the \p prp_set and \p prp_get callbacks
* are never called.
*
* The \p prp_create routine is called when a new property list with
* this property is being created. The #H5P_prp_create_func_t
* callback function is defined as #H5P_prp_cb1_t.
*
* The \p prp_create routine may modify the value to be set and those
* changes will be stored as the initial value of the property.
* If the \p prp_create routine returns a negative value, the new
* property value is not copied into the property and the
* \p prp_create routine returns an error value.
*
* The \p prp_set routine is called before a new value is copied into
* the property. The #H5P_prp_set_func_t callback function is defined
* as #H5P_prp_cb2_t.
*
* The \p prp_set routine may modify the value pointer to be set and
* those changes will be used when setting the property's value.
* If the \p prp_set routine returns a negative value, the new property
* value is not copied into the property and the \p prp_set routine
* returns an error value. The \p prp_set routine will not be called
* for the initial value; only the \p prp_create routine will be
* called.
*
* \b Note: The \p prp_set callback function may be useful to range
* check the value being set for the property or may perform some
* transformation or translation of the value set. The \p prp_get
* callback would then reverse the transformation or translation.
* A single \p prp_get or \p prp_set callback could handle multiple
* properties by performing different actions based on the property
* name or other properties in the property list.
*
* The \p prp_get routine is called when a value is retrieved from a
* property value. The #H5P_prp_get_func_t callback function is
* defined as #H5P_prp_cb2_t.
*
* The \p prp_get routine may modify the value to be returned from the
* query and those changes will be returned to the calling routine.
* If the \p prp_set routine returns a negative value, the query
* routine returns an error value.
*
* The \p prp_del routine is called when a property is being
* deleted from a property list. The #H5P_prp_delete_func_t
* callback function is defined as #H5P_prp_cb2_t.
*
* The \p prp_del routine may modify the value passed in, but the
* value is not used by the library when the \p prp_del routine
* returns. If the \p prp_del routine returns a negative value,
* the property list deletion routine returns an error value but
* the property is still deleted.
*
* The \p prp_copy routine is called when a new property list with
* this property is being created through a \p prp_copy operation.
* The #H5P_prp_copy_func_t callback function is defined as
* #H5P_prp_cb1_t.
*
* The \p prp_copy routine may modify the value to be set and those
* changes will be stored as the new value of the property. If
* the \p prp_copy routine returns a negative value, the new
* property value is not copied into the property and the \p prp_copy
* routine returns an error value.
*
* The \p prp_close routine is called when a property list with this
* property is being closed. The #H5P_prp_close_func_t callback
* function is defined as #H5P_prp_cb1_t.
*
* The \p prp_close routine may modify the value passed in, but the
* value is not used by the library when the \p prp_close routine
* returns. If the \p prp_close routine returns a negative value, the
* property list close routine returns an error value but the property
* list is still closed.
*
* The #H5P_prp_cb1_t is as follows:
* \snippet this H5P_prp_cb1_t_snip
*
* The #H5P_prp_cb2_t is as follows:
* \snippet this H5P_prp_cb2_t_snip
*
*/
/* Function prototypes */
H5_DLL herr_t H5Pregister1(hid_t cls_id, const char *name, size_t size, void *def_value,
H5P_prp_create_func_t prp_create, H5P_prp_set_func_t prp_set,
H5P_prp_get_func_t prp_get, H5P_prp_delete_func_t prp_del,
H5P_prp_copy_func_t prp_copy, H5P_prp_close_func_t prp_close);
/**
* \ingroup PLCRA
*
* \brief Registers a temporary property with a property list
*
* \plist_id
* \param[in] name Name of property to create
* \param[in] size Size of property in bytes
* \param[in] value Initial value for the property
* \param[in] prp_set Callback routine called before a new value is copied
* into the property's value
* \param[in] prp_get Callback routine called when a property value is
* retrieved from the property
* \param[in] prp_delete Callback routine called when a property is deleted
* from a property list
* \param[in] prp_copy Callback routine called when a property is copied
* from an existing property list
* \param[in] prp_close Callback routine called when a property list is
* being closed and the property value will be disposed
* of
*
* \return \herr_t
*
* \deprecated As of HDF5-1.8 this function was deprecated in favor of
* H5Pinsert2() or the macro H5Pinsert().
*
* \details H5Pinsert1() creates a new property in a property
* list. The property will exist only in this property list and
* copies made from it.
*
* The initial property value must be provided in \p value and
* the property value will be set accordingly.
*
* The name of the property must not already exist in this list,
* or this routine will fail.
*
* The \p prp_set and \p prp_get callback routines may be set to NULL
* if they are not needed.
*
* Zero-sized properties are allowed and do not store any data
* in the property list. The default value of a zero-size
* property may be set to NULL. They may be used to indicate the
* presence or absence of a particular piece of information.
*
* The \p prp_set routine is called before a new value is copied
* into the property. The #H5P_prp_set_func_t callback function
* is defined as #H5P_prp_cb2_t.
* The \p prp_set routine may modify the value pointer to be set and
* those changes will be used when setting the property's value.
* If the \p prp_set routine returns a negative value, the new property
* value is not copied into the property and the \p set routine
* returns an error value. The \p prp_set routine will be called for
* the initial value.
*
* \b Note: The \p prp_set callback function may be useful to range
* check the value being set for the property or may perform some
* transformation or translation of the value set. The \p prp_get
* callback would then reverse the transformation or translation.
* A single \p prp_get or \p prp_set callback could handle multiple
* properties by performing different actions based on the
* property name or other properties in the property list.
*
* The \p prp_get routine is called when a value is retrieved from
* a property value. The #H5P_prp_get_func_t callback function
* is defined as #H5P_prp_cb2_t.
*
* The \p prp_get routine may modify the value to be returned from
* the query and those changes will be preserved. If the \p prp_get
* routine returns a negative value, the query routine returns
* an error value.
*
* The \p prp_delete routine is called when a property is being
* deleted from a property list. The #H5P_prp_delete_func_t
* callback function is defined as #H5P_prp_cb2_t.
*
* The \p prp_copy routine is called when a new property list with
* this property is being created through a \p prp_copy operation.
* The #H5P_prp_copy_func_t callback function is defined as
* #H5P_prp_cb1_t.
*
* The \p prp_copy routine may modify the value to be set and those
* changes will be stored as the new value of the property. If the
* \p prp_copy routine returns a negative value, the new property value
* is not copied into the property and the prp_copy routine returns an
* error value.
*
* The \p prp_close routine is called when a property list with this
* property is being closed.
* The #H5P_prp_close_func_t callback function is defined as
* #H5P_prp_cb1_t.
*
* The \p prp_close routine may modify the value passed in, the
* value is not used by the library when the close routine
* returns. If the \p prp_close routine returns a negative value,
* the property list \p prp_close routine returns an error value
* but the property list is still closed.
*
* \b Note: There is no \p prp_create callback routine for temporary
* property list objects; the initial value is assumed to
* have any necessary setup already performed on it.
*
* The #H5P_prp_cb1_t is as follows:
* \snippet this H5P_prp_cb1_t_snip
*
* The #H5P_prp_cb2_t is as follows:
* \snippet this H5P_prp_cb2_t_snip
*
*/
H5_DLL herr_t H5Pinsert1(hid_t plist_id, const char *name, size_t size, void *value,
H5P_prp_set_func_t prp_set, H5P_prp_get_func_t prp_get,
H5P_prp_delete_func_t prp_delete, H5P_prp_copy_func_t prp_copy,
H5P_prp_close_func_t prp_close);
/**
* \ingroup PLCRA
*
* \brief Encodes the property values in a property list into a binary
* buffer
*
* \plist_id
* \param[out] buf Buffer into which the property list will be encoded.
* If the provided buffer is NULL, the size of the
* buffer required is returned through \p nalloc; the
* function does nothing more.
* \param[out] nalloc The size of the required buffer
*
* \return \herr_t
*
* \deprecated As of HDF5-1.12 this function has been deprecated in favor of
* H5Pencode2() or the macro H5Pencode().
*
* \details H5Pencode1() encodes the property list \p plist_id into the
* binary buffer \p buf.
*
* If the required buffer size is unknown, \p buf can be passed
* in as NULL and the function will set the required buffer size
* in \p nalloc. The buffer can then be created and the property
* list encoded with a subsequent H5Pencode1() call.
*
* If the buffer passed in is not big enough to hold the encoded
* properties, the H5Pencode1() call can be expected to fail with
* a segmentation fault.
*
* Properties that do not have encode callbacks will be skipped.
* There is currently no mechanism to register an encode callback for
* a user-defined property, so user-defined properties cannot currently
* be encoded.
*
* Some properties cannot be encoded, particularly properties that are
* reliant on local context.
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Pencode1(hid_t plist_id, void *buf, size_t *nalloc);
/**
* \ingroup DCPL
*
* \brief Returns information about a filter in a pipeline (DEPRECATED)
*
*
*
* \plist_id{plist_id}
* \param[in] filter Sequence number within the filter pipeline of
* the filter for which information is sought
* \param[out] flags Bit vector specifying certain general properties
* of the filter
* \param[in,out] cd_nelmts Number of elements in \p cd_values
* \param[out] cd_values Auxiliary data for the filter
* \param[in] namelen Anticipated number of characters in \p name
* \param[out] name Name of the filter
*
* \return Returns the filter identifier if successful; Otherwise returns
* a negative value. See: #H5Z_filter_t
*
* \deprecated When was this function deprecated?
*
* \details H5Pget_filter1() returns information about a filter, specified
* by its filter number, in a filter pipeline, specified by the
* property list with which it is associated.
*
* \p plist_id must be a dataset or group creation property list.
*
* \p filter is a value between zero and N-1, as described in
* H5Pget_nfilters(). The function will return a negative value
* if the filter number is out of range.
*
* The structure of the \p flags argument is discussed in
* H5Pset_filter().
*
* On input, \p cd_nelmts indicates the number of entries in the
* \p cd_values array, as allocated by the caller; on return,
* \p cd_nelmts contains the number of values defined by the filter.
*
* If \p name is a pointer to an array of at least \p namelen
* bytes, the filter name will be copied into that array. The name
* will be null terminated if \p namelen is large enough. The
* filter name returned will be the name appearing in the file, the
* name registered for the filter, or an empty string.
*
* \version 1.8.5 Function extended to work with group creation property
* lists.
* \version 1.8.0 N-bit and scale-offset filters added.
* \version 1.8.0 Function H5Pget_filter() renamed to H5Pget_filter1() and
* deprecated in this release.
* \version 1.6.4 \p filter parameter type changed to unsigned.
*
*/
H5_DLL H5Z_filter_t H5Pget_filter1(hid_t plist_id, unsigned filter, unsigned int *flags /*out*/,
size_t *cd_nelmts /*out*/, unsigned cd_values[] /*out*/, size_t namelen,
char name[]);
/**
* \ingroup DCPL
*
* \brief Returns information about the specified filter
*
* \plist_id{plist_id}
* \param[in] id Filter identifier
* \param[out] flags Bit vector specifying certain general properties
* of the filter
* \param[in,out] cd_nelmts Number of elements in \p cd_values
* \param[out] cd_values Auxiliary data for the filter
* \param[in] namelen Anticipated number of characters in \p name
* \param[out] name Name of the filter
*
*
* \return Returns a non-negative value if successful; Otherwise returns
* a negative value.
*
* \deprecated As of HDF5-1.8 this function was deprecated in favor of
* H5Pget_filter_by_id2() or the macro H5Pget_filter_by_id().
*
* \details H5Pget_filter_by_id1() returns information about a filter, specified
* in \p id, a filter identifier.
*
* \p plist_id must be a dataset or group creation property list and
* \p id must be in the associated filter pipeline.
*
* The \p id and \p flags parameters are used in the same
* manner as described in the discussion of H5Pset_filter().
*
* Aside from the fact that they are used for output, the parameters
* \p cd_nelmts and \p cd_values[] are used in the same manner as
* described in the discussion of H5Pset_filter().
* On input, the \p cd_nelmts parameter indicates the number of entries
* in the \p cd_values[] array allocated by the calling program;
* on exit it contains the number of values defined by the filter.
*
* On input, the \p namelen parameter indicates the number of
* characters allocated for the filter name by the calling program
* in the array \p name[]. On exit \p name[] contains the name of the
* filter with one character of the name in each element of the array.
*
* If the filter specified in \p id is not set for the property
* list, an error will be returned and this function will fail.
*
*
* \version 1.8.5 Function extended to work with group creation property
* lists.
* \version 1.8.0 Function H5Pget_filter_by_id() renamed to
* H5Pget_filter_by_id1() and deprecated in this release.
* \version 1.6.0 Function introduced in this release.
*/
H5_DLL herr_t H5Pget_filter_by_id1(hid_t plist_id, H5Z_filter_t id, unsigned int *flags /*out*/,
size_t *cd_nelmts /*out*/, unsigned cd_values[] /*out*/, size_t namelen,
char name[] /*out*/);
/**
* \ingroup FCPL
*
* \brief Retrieves the version information of various objects
* for a file creation property list(deprecated)
*
* \plist_id
* \param[out] boot Pointer to location to return super block version number
* \param[out] freelist Pointer to location to return global freelist version number
* \param[out] stab Pointer to location to return symbol table version number
* \param[out] shhdr Pointer to location to return shared object header version
* number
*
* \return \herr_t
*
* \deprecated Deprecated in favor of the function H5Fget_info()
*
* \details H5Pget_version() retrieves the version information of various objects
* for a file creation property list. Any pointer parameters which are
* passed as NULL are not queried.
*
* \version 1.6.4 \p boot, \p freelist, \p stab, \p shhdr parameter types
* changed to unsigned.
*
*/
H5_DLL herr_t H5Pget_version(hid_t plist_id, unsigned *boot /*out*/, unsigned *freelist /*out*/,
unsigned *stab /*out*/, unsigned *shhdr /*out*/);
/**
* \ingroup FCPL
*
* \brief Sets the file space handling strategy and the free-space section
* size threshold.
*
* \fcpl_id{plist_id}
* \param[in] strategy The file space handling strategy to be used. See:
* #H5F_fspace_strategy_t
* \param[in] threshold The smallest free-space section size that the free
* space manager will track
*
* \return \herr_t
*
* \deprecated When was this function deprecated?
*
* \details Maps to the function H5Pset_file_space_strategy().
*
*/
H5_DLL herr_t H5Pset_file_space(hid_t plist_id, H5F_file_space_type_t strategy, hsize_t threshold);
/**
* \ingroup FCPL
*
* \brief Retrieves the file space handling strategy, and threshold value for
* a file creation property list
*
* \fcpl_id{plist_id}
* \param[out] strategy Pointer to the file space handling strategy
* \param[out] threshold Pointer to the free-space section size threshold value
*
* \return \herr_t
*
* \deprecated When was this function deprecated?
*
* \details Maps to the function H5Pget_file_space_strategy()
*
*
*/
H5_DLL herr_t H5Pget_file_space(hid_t plist_id, H5F_file_space_type_t *strategy, hsize_t *threshold);
#endif /* H5_NO_DEPRECATED_SYMBOLS */
#ifdef __cplusplus
}
#endif
#endif /* H5Ppublic_H */
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