/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* Copyright by the Board of Trustees of the University of Illinois. *
* 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. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*-------------------------------------------------------------------------
*
* Created: H5Opublic.h
* Aug 5 1997
* Robb Matzke
*
* Purpose: Public declarations for the H5O (object header)
* package.
*
*-------------------------------------------------------------------------
*/
#ifndef _H5Opublic_H
#define _H5Opublic_H
/* Public headers needed by this file */
#include "H5public.h" /* Generic Functions */
#include "H5Ipublic.h" /* IDs */
#include "H5Lpublic.h" /* Links */
/*****************/
/* Public Macros */
/*****************/
/* Flags for object copy (H5Ocopy) */
#define H5O_COPY_SHALLOW_HIERARCHY_FLAG (0x0001u) /* Copy only immediate members */
#define H5O_COPY_EXPAND_SOFT_LINK_FLAG (0x0002u) /* Expand soft links into new objects */
#define H5O_COPY_EXPAND_EXT_LINK_FLAG (0x0004u) /* Expand external links into new objects */
#define H5O_COPY_EXPAND_REFERENCE_FLAG (0x0008u) /* Copy objects that are pointed by references */
#define H5O_COPY_WITHOUT_ATTR_FLAG (0x0010u) /* Copy object without copying attributes */
#define H5O_COPY_PRESERVE_NULL_FLAG (0x0020u) /* Copy NULL messages (empty space) */
#define H5O_COPY_MERGE_COMMITTED_DTYPE_FLAG (0x0040u) /* Merge committed datatypes in dest file */
#define H5O_COPY_ALL (0x007Fu) /* All object copying flags (for internal checking) */
/* Flags for shared message indexes.
* Pass these flags in using the mesg_type_flags parameter in
* H5P_set_shared_mesg_index.
* (Developers: These flags correspond to object header message type IDs,
* but we need to assign each kind of message to a different bit so that
* one index can hold multiple types.)
*/
#define H5O_SHMESG_NONE_FLAG 0x0000 /* No shared messages */
#define H5O_SHMESG_SDSPACE_FLAG ((unsigned)1 << 0x0001) /* Simple Dataspace Message. */
#define H5O_SHMESG_DTYPE_FLAG ((unsigned)1 << 0x0003) /* Datatype Message. */
#define H5O_SHMESG_FILL_FLAG ((unsigned)1 << 0x0005) /* Fill Value Message. */
#define H5O_SHMESG_PLINE_FLAG ((unsigned)1 << 0x000b) /* Filter pipeline message. */
#define H5O_SHMESG_ATTR_FLAG ((unsigned)1 << 0x000c) /* Attribute Message. */
#define H5O_SHMESG_ALL_FLAG \
(H5O_SHMESG_SDSPACE_FLAG | H5O_SHMESG_DTYPE_FLAG | H5O_SHMESG_FILL_FLAG | H5O_SHMESG_PLINE_FLAG | \
H5O_SHMESG_ATTR_FLAG)
/* Object header status flag definitions */
#define H5O_HDR_CHUNK0_SIZE 0x03 /* 2-bit field indicating # of bytes to store the size of chunk 0's data */
#define H5O_HDR_ATTR_CRT_ORDER_TRACKED 0x04 /* Attribute creation order is tracked */
#define H5O_HDR_ATTR_CRT_ORDER_INDEXED 0x08 /* Attribute creation order has index */
#define H5O_HDR_ATTR_STORE_PHASE_CHANGE 0x10 /* Non-default attribute storage phase change values stored */
#define H5O_HDR_STORE_TIMES 0x20 /* Store access, modification, change & birth times for object */
#define H5O_HDR_ALL_FLAGS \
(H5O_HDR_CHUNK0_SIZE | H5O_HDR_ATTR_CRT_ORDER_TRACKED | H5O_HDR_ATTR_CRT_ORDER_INDEXED | \
H5O_HDR_ATTR_STORE_PHASE_CHANGE | H5O_HDR_STORE_TIMES)
/* Maximum shared message values. Number of indexes is 8 to allow room to add
* new types of messages.
*/
#define H5O_SHMESG_MAX_NINDEXES 8
#define H5O_SHMESG_MAX_LIST_SIZE 5000
/* Flags for H5Oget_info.
* Theses flags determine which fields will be filled in in the H5O_info_t
* struct.
*/
#define H5O_INFO_BASIC 0x0001u /* Fill in the fileno, addr, type, and rc fields */
#define H5O_INFO_TIME 0x0002u /* Fill in the atime, mtime, ctime, and btime fields */
#define H5O_INFO_NUM_ATTRS 0x0004u /* Fill in the num_attrs field */
#define H5O_INFO_ALL (H5O_INFO_BASIC | H5O_INFO_TIME | H5O_INFO_NUM_ATTRS)
/* Flags for H5Oget_native_info.
* Theses flags determine which fields will be filled in in the H5O_native_info_t
* struct.
*/
//! [H5O_native_info_fields_snip]
#define H5O_NATIVE_INFO_HDR 0x0008u /* Fill in the hdr field */
#define H5O_NATIVE_INFO_META_SIZE 0x0010u /* Fill in the meta_size field */
#define H5O_NATIVE_INFO_ALL (H5O_NATIVE_INFO_HDR | H5O_NATIVE_INFO_META_SIZE)
//! [H5O_native_info_fields_snip]
/* Convenience macro to check if the token is the 'undefined' token value */
#define H5O_IS_TOKEN_UNDEF(token) (!HDmemcmp(&(token), &(H5O_TOKEN_UNDEF), sizeof(H5O_token_t)))
/*******************/
/* Public Typedefs */
/*******************/
//! [H5O_type_t_snip]
/* Types of objects in file */
typedef enum H5O_type_t {
H5O_TYPE_UNKNOWN = -1, /* Unknown object type */
H5O_TYPE_GROUP, /* Object is a group */
H5O_TYPE_DATASET, /* Object is a dataset */
H5O_TYPE_NAMED_DATATYPE, /* Object is a named data type */
H5O_TYPE_MAP, /* Object is a map */
H5O_TYPE_NTYPES /* Number of different object types (must be last!) */
} H5O_type_t;
//! [H5O_type_t_snip]
/* Information struct for object header metadata (for H5Oget_info/H5Oget_info_by_name/H5Oget_info_by_idx) */
//! [H5O_hdr_info_t_snip]
typedef struct H5O_hdr_info_t {
unsigned version; /* Version number of header format in file */
unsigned nmesgs; /* Number of object header messages */
unsigned nchunks; /* Number of object header chunks */
unsigned flags; /* Object header status flags */
struct {
hsize_t total; /* Total space for storing object header in file */
hsize_t meta; /* Space within header for object header metadata information */
hsize_t mesg; /* Space within header for actual message information */
hsize_t free; /* Free space within object header */
} space;
struct {
uint64_t present; /* Flags to indicate presence of message type in header */
uint64_t shared; /* Flags to indicate message type is shared in header */
} mesg;
} H5O_hdr_info_t;
//! [H5O_hdr_info_t_snip]
//! [H5O_info2_t_snip]
/* Data model information struct for objects */
/* (For H5Oget_info / H5Oget_info_by_name / H5Oget_info_by_idx version 3) */
typedef struct H5O_info2_t {
unsigned long fileno; /* File number that object is located in */
H5O_token_t token; /* Token representing the object */
H5O_type_t type; /* Basic object type (group, dataset, etc.) */
unsigned rc; /* Reference count of object */
time_t atime; /* Access time */
time_t mtime; /* Modification time */
time_t ctime; /* Change time */
time_t btime; /* Birth time */
hsize_t num_attrs; /* # of attributes attached to object */
} H5O_info2_t;
//! [H5O_info2_t_snip]
//! [H5O_native_info_t_snip]
/* Native file format information struct for objects */
/* (For H5Oget_native_info / H5Oget_native_info_by_name / H5Oget_native_info_by_idx) */
typedef struct H5O_native_info_t {
H5O_hdr_info_t hdr; /* Object header information */
/* Extra metadata storage for obj & attributes */
struct {
H5_ih_info_t obj; /* v1/v2 B-tree & local/fractal heap for groups, B-tree for chunked datasets */
H5_ih_info_t attr; /* v2 B-tree & heap for attributes */
} meta_size;
} H5O_native_info_t;
//! [H5O_native_info_t_snip]
/* Typedef for message creation indexes */
typedef uint32_t H5O_msg_crt_idx_t;
/* Prototype for H5Ovisit/H5Ovisit_by_name() operator (version 3) */
//! [H5O_iterate2_t_snip]
typedef herr_t (*H5O_iterate2_t)(hid_t obj, const char *name, const H5O_info2_t *info, void *op_data);
//! [H5O_iterate2_t_snip]
typedef enum H5O_mcdt_search_ret_t {
H5O_MCDT_SEARCH_ERROR = -1, /* Abort H5Ocopy */
H5O_MCDT_SEARCH_CONT, /* Continue the global search of all committed datatypes in the destination file */
H5O_MCDT_SEARCH_STOP /* Stop the search, but continue copying. The committed datatype will be copied but
not merged. */
} H5O_mcdt_search_ret_t;
/* Callback to invoke when completing the search for a matching committed datatype from the committed dtype
* list */
typedef H5O_mcdt_search_ret_t (*H5O_mcdt_search_cb_t)(void *op_data);
/********************/
/* Public Variables */
/********************/
/*********************/
/* Public Prototypes */
/*********************/
#ifdef __cplusplus
extern "C" {
#endif
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Opens an object in an HDF5 file by location identifier and path name.
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] name Path to the object; relative to \p loc_id
* \lapl_id
*
* \return \hid_tv{object}
*
* \details H5Oopen() opens a group, dataset, or committed (named) datatype
* specified by a location, \p loc_id, and a path name, \p name, in an HDF5 file.
*
* This function opens the object in the same manner as H5Gopen(), H5Topen(), and H5Dopen().
* However, H5Oopen() does not require the type of object to be known beforehand.
* This can be useful with user-defined links, for instance, when only a path may be known.
*
* H5Oopen() cannot be used to open a dataspace, attribute, property list, or file.
*
* Once an object of unknown type has been opened with H5Oopen(),
* the type of that object can be determined by means of an H5Iget_type() call.
*
* \p loc_id may be a file, group, dataset, named datatype, or attribute.
* If an attribute is specified for \p loc_id then the object where the
* attribute is attached will be accessed.
*
* \p name must be the path to that object relative to \p loc_id.
*
* \p lapl_id is the link access property list associated with the link pointing to
* the object. If default link access properties are appropriate, this can be
* passed in as #H5P_DEFAULT.
*
* When it is no longer needed, the opened object should be closed with
* H5Oclose(), H5Gclose(), H5Tclose(), or H5Dclose().
*
* \version 1.8.1 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL hid_t H5Oopen(hid_t loc_id, const char *name, hid_t lapl_id);
H5_DLL hid_t H5Oopen_async(const char *app_file, const char *app_func, unsigned app_line, hid_t loc_id,
const char *name, hid_t lapl_id, hid_t es_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Opens an object in an HDF5 file using its VOL independent token
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] token Object token
*
* \return \hid_ti{object}
*
* \details H5Oopen_by_token() opens an object specified by the object
* identifier, \p loc_id and object token, \p token.
*
* \par Example
* An example snippet from examples/h5_extlink.c:
* \snippet h5_extlink.c H5Open_by_token_snip
*
* \since 1.12.0
*
*/
H5_DLL hid_t H5Oopen_by_token(hid_t loc_id, H5O_token_t token);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Opens the nth object in a group
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] group_name Name of group, relative to \p loc_id, in which object is located
* \idx_type
* \order
* \param[in] n Object to open
* \lapl_id
*
* \return \hid_tv{object}
*
* \details H5Open_by_idx() opens the nth object in the group specified by \p loc_id
* and \p group_name.
*
* \p loc_id specifies a location identifier.
* \p group_name specifies the group relative to \p loc_id in which the object can be found.
* If \p loc_id fully specifies the group in which the object resides,
* \p group_name can be a dot (.).
*
* The specific object to be opened within the group is specified by the three parameters:
* \p idx_type, \p order and \p n.
*
* \p idx_type specifies the type of index by which objects are ordered.
* Valid index types include the following:
*
* \indexes
*
* \p order specifies the order in which the objects are to be referenced for the purposes
* of this function. Valid orders include the following:
*
* \orders
*
* Note that for #H5_ITER_NATIVE, rather than implying a particular order,
* it instructs the HDF5 library to iterate through the objects in the fastest
* available order, i.e., in a natural order.
*
* \p n specifies the position of the object within the index. Note that this count is
* zero-based; 0 (zero) indicates that the function will return the value of the first object;
* if \p n is 5, the function will return the value of the sixth object; etc.
*
* \p lapl_id specifies the link access property list to be used in accessing the object.
*
* An object opened with this function should be closed when it is no longer needed so that
* resource leaks will not develop. H5Oclose() can be used to close groups, datasets,
* or committed datatypes.
*
* \version 1.8.1 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL hid_t H5Oopen_by_idx(hid_t loc_id, const char *group_name, H5_index_t idx_type, H5_iter_order_t order,
hsize_t n, hid_t lapl_id);
H5_DLL hid_t H5Oopen_by_idx_async(const char *app_file, const char *app_func, unsigned app_line, hid_t loc_id,
const char *group_name, H5_index_t idx_type, H5_iter_order_t order,
hsize_t n, hid_t lapl_id, hid_t es_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Determines whether a link resolves to an actual object.
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] name The name of the link to check
* \lapl_id
*
* \return Returns a positive value if the object pointed to by
* the \p loc_id and \p name combination exists.
* \return Returns 0 if the object pointed to by
* the \p loc_id and \p name combination does not exist.
* \return Returns a negatvie value when the function fails.
*
* \details H5Oexists_by_name() allows an application to determine whether
* the link \p name in the group or file specified with \p loc_id
* resolves to an HDF5 object to open or if the link dangles. The
* link may be of any type, but hard links will always resolve
* to objects and do not need to be verified.
*
* Note that H5Oexists_by_name() verifies only that the target
* object exists. If \p name includes either a relative path or
* an absolute path to the target link, intermediate steps
* along the path must be verified before the existence of
* the target link can be safely checked. If the path is not
* verified and an intermediate element of the path does not
* exist, H5Oexists_by_name() will fail. The example in the next
* paragraph illustrates one step-by-step method for verifying
* the existence of a link with a relative or absolute path.
*
* \par Example
* Use the following steps to verify the existence of
* the link \c datasetD in the \c group group1/group2/softlink_to_group3/,
* where \c group1 is a member of the group specified by \c loc_id:
*
* \par
* - First use H5Lexists() to verify that a link named \c group1 exists.
* - If \c group1 exists, use H5Oexists_by_name() to verify that the
* link \c group1 resolves to an object.
* - If \c group1 exists, use H5Lexists() again, this time with name
* set to \c group1/group2, to verify that the link \c group2 exists
* in \c group1.
* - If the \c group2 link exists, use H5Oexists_by_name() to verify
* that \c group1/group2 resolves to an object.
* - If \c group2 exists, use H5Lexists() again, this time with name
* set to \c group1/group2/softlink_to_group3, to verify that the
* link \c softlink_to_group3 exists in \c group2.
* - If the \c softlink_to_group3 link exists, use H5Oexists_by_name()
* to verify that \c group1/group2/softlink_to_group3 resolves to
* an object.
* - If \c softlink_to_group3 exists, you can now safely use H5Lexists
* with name set to \c group1/group2/softlink_to_group3/datasetD to
* verify that the target link, \c datasetD, exists.
* - And finally, if the link \c datasetD exists, use H5Oexists_by_name
* to verify that \c group1/group2/softlink_to_group3/datasetD
* resolves to an object.
*
* \par
* If the link to be verified is specified with an absolute path,
* the same approach should be used, but starting with the first
* link in the file’s root group. For instance, if \c datasetD
* were in \c /group1/group2/softlink_to_group3, the first call to
* H5Lexists() would have name set to \c /group1.
*
* \par
* Note that this is an outline and does not include all necessary
* details. Depending on circumstances, for example, an application
* may need to verify the type of an object also.
*
* \warning \Bold{Failure Modes:}
* \warning If \p loc_id and \p name both exist but the combination does not
* resolve to an object, the function will return 0 (zero);
* the function does not fail in this case.
* \warning If either the location or the link specified by the \p loc_id
* and \p name combination does not exist, the function will fail,
* returning a negative value.
* \warning Note that verifying the existence of an object within an HDF5
* file is a multistep process. An application can be certain the
* object does not exist only if H5Lexists() and H5Oexists_by_name()
* have been used to verify the existence of the links and groups
* in the hierarchy above that object. The example above, in the
* function description, provides a step-by-step description of
* that verification process.
*
* \version 1.8.11 Fortran subroutine introduced in this release.
*
* \since 1.8.5
*
*/
H5_DLL htri_t H5Oexists_by_name(hid_t loc_id, const char *name, hid_t lapl_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieves the metadata for an object specified by an identifier
*
* \fgdta_loc_obj_id{loc_id}
* \param[out] oinfo Buffer in which to return object information
* \param[in] fields Flags specifying the fields to include in \p oinfo
*
* \return \herr_t
*
* \details H5Oget_info3() specifies an object by its identifier, \p loc_id , and
* retrieves the metadata describing that object in \p oinfo , an H5O_info2_t \c struct.
*
* The H5O_info2_t \c struct is defined in H5Opublic.h as follows :
* \snippet this H5O_info2_t_snip
*
* Note the following about H5O_info2_t :
* - Of the four time fields (\c atime, \c mtime, \c ctime, and \c btime)
* only \c ctime has been implemented.
* - The \c atime value is the last time the object was read or written.
* - The \c mtime value is the last time the raw data in the object was changed.
* - The \c ctime value is the last time the metadata for the object was changed.
* - The \c btime value is the time the object was created.
*
* The H5O_token_t is defined in H5public.h as follows:
* \snippet H5public.h H5O_token_t_snip
*
* The H5O_type_t \c enum indicates the object type and
* is defined in H5Opublic.h as follows:
* \snippet this H5O_type_t_snip
*
* Note that the object retrieved as indicated by \p loc_id
* refers only to the types specified by H5O_type_t.
*
* The \p fields parameter contains flags to determine which fields will be filled in
* the H5O_info2_t \c struct returned in \p oinfo.
* These flags are defined in the H5Opublic.h file:
*
* \obj_info_fields
*
* \par Example
* An example snippet from examples/h5_attribute.c:
* \par
* \snippet h5_attribute.c H5Oget_info3_snip
*
* \note If you are iterating through a lot of different objects to
* retrieve information via the H5Oget_info() family of routines,
* you may see memory building up. This can be due to memory
* allocation for metadata such as object headers and messages
* when the iterated objects are put into the metadata cache.
* \note
* If the memory buildup is not desirable, you can configure a
* smaller cache via H5Fset_mdc_config() or set the file access
* property list via H5Pset_mdc_config(). A smaller sized cache
* will force metadata entries to be evicted from the cache,
* thus freeing the memory associated with the entries.
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Oget_info3(hid_t loc_id, H5O_info2_t *oinfo, unsigned fields);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieves the metadata for an object, identifying the object by
* location and relative name
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] name Name of group, relative to \p loc_id
* \param[out] oinfo Buffer in which to return object information
* \param[in] fields Flags specifying the fields to include in \p oinfo
* \lapl_id
*
* \return \herr_t
*
* \details H5Oget_info_by_name3() specifies an object’s location and name,
* \p loc_id and \p name, respectively, and retrieves the metadata
* describing that object in \p oinfo, an H5O_info2_t struct.
*
* \p oinfo, in which the object information is returned, is a \c struct of
* type H5O_info2_t, which is defined in H5Opublic.h in the HDF5 source code:
*
* \snippet this H5O_info2_t_snip
*
* Note the following about H5O_info2_t :
* - Of the four time fields (\c atime, \c mtime, \c ctime, and \c btime)
* only \c ctime has been implemented.
* - The \c atime value is the last time the object was read or written.
* - The \c mtime value is the last time the raw data in the object was changed.
* - The \c ctime value is the last time the metadata for the object was changed.
* - The \c btime value is the time the object was created.
*
* The H5O_token_t is defined in H5public.h as follows:
* \snippet H5public.h H5O_token_t_snip
*
* The H5O_type_t \c enum indicates the object type and
* is defined in H5Opublic.h as follows:
* \snippet this H5O_type_t_snip
*
* Note that the object retrieved as indicated by \p loc_id
* refers only to the types specified by H5O_type_t.
*
* The \p fields parameter contains flags to determine which fields will be filled in
* the H5O_info2_t \c struct returned in \p oinfo.
* These flags are defined in the H5Opublic.h file:
*
* \obj_info_fields
*
* The link access property list, \c lapl_id, is not currently used;
* it should be passed in as #H5P_DEFAULT.
*
* \par Example
* An example snippet from test/vol.c:
* \snippet vol.c H5Oget_info_by_name3_snip
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Oget_info_by_name3(hid_t loc_id, const char *name, H5O_info2_t *oinfo, unsigned fields,
hid_t lapl_id);
H5_DLL herr_t H5Oget_info_by_name_async(const char *app_file, const char *app_func, unsigned app_line,
hid_t loc_id, const char *name, H5O_info2_t *oinfo /*out*/,
unsigned fields, hid_t lapl_id, hid_t es_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieves the metadata for an object, identifying the object
* by an index position
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] group_name Name of group in which object is located
* \idx_type
* \order
* \param[in] n Position within the index
* \param[out] oinfo Buffer in which to return object information
* \param[in] fields Flags specifying the fields to include in \p oinfo
* \lapl_id
*
* \return \herr_t
*
* \details H5Oget_info_by_idx3() retrieves the metadata describing an
* object in the \c struct \p oinfo, as specified by the location,
* \p loc_id, group name, \p group_name, the index by which objects
* in that group are tracked, \p idx_type, the order by which the
* index is to be traversed, \p order, and an object’s position
* \p n within that index.
*
* If \p loc_id fully specifies the group in which the object resides,
* \p group_name can be a dot (\c .).
*
* \p idx_type is of type #H5_index_t, defined in H5public.h as:
* \snippet H5public.h H5_index_t_snip
*
* \p order is of type #H5_iter_order_t defined in H5public.h as:
* \snippet H5public.h H5_iter_order_t_snip
*
* \p oinfo, in which the object information is returned, is a \c struct of
* type H5O_info2_t, which is defined in H5Opublic.h in the HDF5 source code:
* \snippet this H5O_info2_t_snip
*
* Note the following about H5O_info2_t :
* - Of the four time fields (\c atime, \c mtime, \c ctime, and \c btime)
* only \c ctime has been implemented.
* - The \c atime value is the last time the object was read or written.
* - The \c mtime value is the last time the raw data in the object was changed.
* - The \c ctime value is the last time the metadata for the object was changed.
* - The \c btime value is the time the object was created.
*
* H5O_token_t is defined in H5public.h as follows:
* \snippet H5public.h H5O_token_t_snip
*
* The #H5O_type_t \c enum indicates the object type and
* is defined in H5Opublic.h as follows:
* \snippet this H5O_type_t_snip
*
* Note that the object retrieved as indicated by \p loc_id
* refers only to the types specified by #H5O_type_t.
*
* The \p fields parameter contains flags to determine which fields will be filled in
* the H5O_info2_t \c struct returned in \p oinfo.
* These flags are defined in the H5Opublic.h file:
* \obj_info_fields
*
* The link access property list, \c lapl_id, is not currently used;
* it should be passed in as #H5P_DEFAULT.
*
* \par Example
* An example snippet from test/titerate.c:
* \snippet titerate.c H5Oget_info_by_idx3_snip
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Oget_info_by_idx3(hid_t loc_id, const char *group_name, H5_index_t idx_type,
H5_iter_order_t order, hsize_t n, H5O_info2_t *oinfo, unsigned fields,
hid_t lapl_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieve native file format information about an object
*
* \fgdta_loc_obj_id{loc_id}
* \param[out] oinfo Buffer in which to return native object information
* \param[in] fields Flags to determine which fields in \p oinfo are filled in
*
* \return \herr_t
*
* \details H5Oget_native_info() retrieves the native file format information for an object
* specified by \p loc_id. The information is retrieved into the
* buffer specified by \p oinfo, which is defined as a \c struct of
* type H5O_native_info_t in H5Opublic.h:
*
* \snippet this H5O_native_info_t_snip
*
* The \p fields parameter indicates which fields to fill in
* H5O_native_info_t. Possible values defined in H5Opublic.h are:
*
* \snippet this H5O_native_info_fields_snip
*
* \par Example
* An example snippet from test/tfile.c:
* \par
* \snippet tfile.c H5Oget_native_info_snip
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Oget_native_info(hid_t loc_id, H5O_native_info_t *oinfo, unsigned fields);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieve native file format information about an object given its name
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] name Name of object
* \param[out] oinfo Buffer in which to return native object information
* \param[in] fields Flags to determine which fields in \p oinfo are filled in
* \lapl_id
*
* \return \herr_t
*
* \details H5Oget_native_info_by_name() retrieves the native file format information for an object
* specified by \p loc_id and the name \p name. The information is
* retrieved into the buffer specified by \p oinfo, which is defined
* as a \c struct of type H5O_native_info_t in H5Opublic.h:
*
* \snippet this H5O_native_info_t_snip
*
* The \p fields parameter which fields to fill in H5O_native_info_t.
* Possible values defined in H5Opublic.h are:
*
* \snippet this H5O_native_info_fields_snip
*
* \par Example
* An example snippet from test/tfile.c:
* \snippet tfile.c H5Oget_native_info_by_name_snip
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Oget_native_info_by_name(hid_t loc_id, const char *name, H5O_native_info_t *oinfo,
unsigned fields, hid_t lapl_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieve native file format information about an object
* according to the order of an index
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] group_name Name of group in which object is located
* \idx_type
* \order
* \param[in] n Position within the index
* \param[out] oinfo Buffer in which to return native object information
* \param[in] fields Flags to determine which fields in \p oinfo are filled in
* \lapl_id
*
* \return \herr_t
*
* \details H5Oget_native_info_by_idx() retrieves the native file format information for an object
* specified by \p loc_id, group name, \p group_name, the index by which
* objects in the group are tracked, \p idx_type, the order by which
* the index is to be traversed, \p order , and an object's position
* \p n within that index. The information is retrieved into the
* buffer specified by \p oinfo, which is defined as a \c struct of
* type H5O_native_info_t in H5Opublic.h:
* \snippet this H5O_native_info_t_snip
*
* \p idx_type is of type #H5_index_t, defined in H5public.h as:
* \snippet H5public.h H5_index_t_snip
*
* \p order is of type #H5_iter_order_t defined in H5public.h as:
* \snippet H5public.h H5_iter_order_t_snip
*
* The \p fields parameter indicates which fields to fill in H5O_native_info_t.
* Possible values defined in H5Opublic.h are:
* \snippet this H5O_native_info_fields_snip
*
* The link access property list, \c lapl_id, is not currently used;
* it should be passed in as #H5P_DEFAULT.
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Oget_native_info_by_idx(hid_t loc_id, const char *group_name, H5_index_t idx_type,
H5_iter_order_t order, hsize_t n, H5O_native_info_t *oinfo,
unsigned fields, hid_t lapl_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Creates a hard link to an object in an HDF5 file
*
* \param[in] obj_id Object to be linked
* \param[in] new_loc_id Location identifier at which object is to be linked;
* may be a file, group, dataset, named datatype or attribute identifier.
* \param[in] new_name Name of link to be created, relative to \p new_loc_id.
* \lcpl_id
* \lapl_id
*
* \return \herr_t
*
* \details H5Olink() creates a new hard link to an object in an HDF5 file.
* \p new_loc_id and \p \p new_link_name specify the location and name of the
* new link while \p object_id identifies the object that the link
* points to.
*
* H5Olink() is designed for two purposes:
* - To create the first hard link to an object that has just
* been created with H5Dcreate_anon(), H5Gcreate_anon(), or
* H5Tcommit_anon().
* - To add additional structure to an existing
* file so that, for example, an object can be shared among
* multiple groups.
*
* \p lcpl and \p lapl are the link creation and access property lists
* associated with the new link.
*
* \par Example:
* To create a new link to an object while simultaneously creating
* missing intermediate groups: Suppose that an application must
* create the group C with the path /A/B01/C but may not know
* at run time whether the groups A and B01 exist. The following
* code ensures that those groups are created if they are missing:
* \par
* \code
*
* // Creates a link creation property list (LCPL).
* hid_t lcpl_id = H5Pcreate(H5P_LINK_CREATE);
*
* // Sets "create missing intermediate groups" property in that LCPL.
* int status = H5Pset_create_intermediate_group(lcpl_id, TRUE);
*
* // Creates a group without linking it into the file structure.
* hid_t gid = H5Gcreate_anon(file_id, H5P_DEFAULT, H5P_DEFAULT);
*
* // Links group into file structure.
* status = H5Olink(gid, file_id, "/A/B01/C", lcpl_id, H5P_DEFAULT);
*
* \endcode
*
* \par
* Note that unless the object is intended to be temporary,
* the H5O_LINK call is mandatory if an object created with one
* of the H5*_CREATE_ANON functions (or with H5T_COMMIT_ANON)
* is to be retained in the file; without an H5O_LINK call,
* the object will not be linked into the HDF5 file structure
* and will be deleted when the file is closed.
*
* \version 1.8.1 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Olink(hid_t obj_id, hid_t new_loc_id, const char *new_name, hid_t lcpl_id, hid_t lapl_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Increments an object reference count
*
* \fgdta_loc_obj_id{object_id}
*
* \return \herr_t
*
* \details H5Oincr_refcount() increments the hard link reference count for an object.
* It should be used any time a user-defined link that references
* an object by address is added. When the link is deleted,
* H5Odecr_refcount() should be used.
*
* An object’s reference count is the number of hard links in the
* file that point to that object. See the “Programming Model”
* section of the HDF5 Groups chapter in the -- HDF5 User’s Guide
* for a more complete discussion of reference counts.
*
* If a user application needs to determine an object’s reference
* count, an H5Oget_info() call is required; the reference count
* is returned in the \c rc field of the #H5O_info_t \c struct.
*
* \warning This function must be used with care!
* \warning Improper use can lead to inaccessible data, wasted space in the file,
* or file corruption.
*
* \version 1.8.11 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Oincr_refcount(hid_t object_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Decrements an object reference count
*
* \fgdta_loc_obj_id{object_id}
*
* \return \herr_t
*
* \details H5Odecr_refcount() decrements the hard link reference count for an object.
* It should be used any time a user-defined link that references
* an object by address is deleted. In general, H5Oincr_refcount() will have
* been used previously, when the link was created.
*
* An object’s reference count is the number of hard links in the
* file that point to that object. See the “Programming Model”
* section of the HDF5 Groups chapter in the HDF5 User’s Guide
* for a more complete discussion of reference counts.
*
* If a user application needs to determine an object’s reference
* count, an H5Oget_info() call is required; the reference count
* is returned in the \c rc field of the #H5O_info_t \c struct.
*
* \warning This function must be used with care!
* \warning Improper use can lead to inaccessible data, wasted space in the file,
* or file corruption.
*
* \version 1.8.11 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Odecr_refcount(hid_t object_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Copies an object in an HDF5 file
*
* \param[in] src_loc_id Object identifier indicating the location of the
* source object to be copied
* \param[in] src_name Name of the source object to be copied
* \param[in] dst_loc_id Location identifier specifying the destination
* \param[in] dst_name Name to be assigned to the new copy
* \param[in] ocpypl_id Object copy property list
* \lcpl_id
*
* \return \herr_t
*
* \details H5Ocopy() copies the group, dataset or committed datatype
* specified by \p src_name from the file or group specified by
* \p src_loc_id to the destination location \p dst_loc_id.
*
* The destination location, as specified in dst_loc_id, may
* be a group in the current file or a location in a different
* file. If dst_loc_id is a file identifier, the copy will be
* placed in that file’s root group.
*
* The copy will be created with the path specified in \p dst_name,
* which must not pre-exist in the destination location. If
* \p dst_name already exists at the location \p dst_loc_id,
* H5Ocopy() will fail. If \p dst_name is an absolute path,
* the copy will be created relative to the file’s root group.
*
* The copy of the object is created with the property lists
* specified by \p ocpypl_id and \p lcpl_id. #H5P_DEFAULT can be passed
* in for these property lists. The default behavior:
*
* - of the link creation property list is to NOT create
* intermediate groups.
* - of the flags specified by the object creation property list
* is described in H5Pset_copy_object().
*
* These property lists or flags can be modified to govern the
* behavior of H5Ocopy() as follows:
*
* - A flag controlling the creation of intermediate groups that
* may not yet exist is set in the link creation property list
* \p lcpl_id with H5Pset_create_intermediate_group().
*
* - Copying of committed datatypes can be tuned through the use
* of H5Pset_copy_object(), H5Padd_merge_committed_dtype_path(),
* H5Pset_mcdt_search_cb(), and related functions.
*
* - Flags controlling other aspects of object copying are set in the
* object copy property list \p ocpypl_id with H5Pset_copy_object().
*
* H5Ocopy() will always try to make a copy of the object specified
* in \p src_name.
*
* - If the object specified by \p src_name is a group containing a
* soft or external link, the default is that the new copy will
* contain a soft or external link with the same value as the
* original. See H5Pset_copy_object() for optional settings.
*
* - If the path specified in \p src_name is or contains a soft link
* or an external link, H5Ocopy() will copy the target object.
* Use H5Lcopy() if the intent is to create a new soft or external
* link with the same value as the original link.
*
* H5Ocopy() can be used to copy an object in an HDF5 file. If
* an object has been changed since it was opened, it should be
* written back to the file before using H5Ocopy(). The object
* can be written back either by closing the object (H5Gclose(),
* H5Oclose(), H5Dclose(), or H5Tclose()) or by flushing
* the HDF5 file (H5Fflush()).
*
* \par See Also:
* - Functions to modify the behavior of H5Ocopy():
* - H5Padd_merge_committed_dtype_path()
* - H5Pset_copy_object()
* - H5Pset_create_intermediate_group()
* - H5Pset_mcdt_search_cb()
* .
* - Copying Committed Datatypes with #H5Ocopy - A comprehensive
* discussion of copying committed datatypes (PDF) in
* Advanced Topics in HDF5
*
* \version 1.8.9 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Ocopy(hid_t src_loc_id, const char *src_name, hid_t dst_loc_id, const char *dst_name,
hid_t ocpypl_id, hid_t lcpl_id);
H5_DLL herr_t H5Ocopy_async(const char *app_file, const char *app_func, unsigned app_line, hid_t src_loc_id,
const char *src_name, hid_t dst_loc_id, const char *dst_name, hid_t ocpypl_id,
hid_t lcpl_id, hid_t es_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Sets comment for specified object
*
* \fgdta_loc_obj_id{obj_id}
* \param[in] comment The new comment
*
* \return \herr_t
*
* \details H5Oset_comment() sets the comment for the specified object
* to the contents of \p comment. Any previously existing comment
* is overwritten.
*
* The target object is specified by an identifier, \p obj_id.
* If \p comment is the empty string or a null pointer, any existing
* comment message is removed from the object.
*
* Comments should be relatively short, null-terminated, ASCII strings.
*
* Comments can be attached to any object that has an object
* header. Datasets, groups, and committed (named) datatypes have
* object headers. Symbolic links do not have object headers.
*
* If a comment is being added to an object attribute, this comment
* will be attached to the object to which the attribute belongs
* and not to the attribute itself.
*
* \version 1.8.11 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Oset_comment(hid_t obj_id, const char *comment);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Sets comment for specified object
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] name Name of the object whose comment is to be set or reset
* \param[in] comment The new comment
* \lapl_id
*
* \return \herr_t
*
* \details H5Oset_comment_by_name() sets the comment for the specified object
* to the contents of \p comment. Any previously existing comment
* is overwritten.
*
* The target object is specified by \p loc_id and \p name.
* \p loc_id can specify any object in the file.
* \p name can be one of the following:
*
* - The name of the object specified as a path relative to \p loc_id
* - An absolute name of the object, starting from \c /, the file’s root group
* - A dot (\c .), if \p loc_id fully specifies the object
*
* If \p comment is the empty string or a null pointer, any existing
* comment message is removed from the object.
*
* Comments should be relatively short, null-terminated, ASCII strings.
*
* Comments can be attached to any object that has an object
* header. Datasets, groups, and committed (named) datatypes have
* object headers. Symbolic links do not have object headers.
*
* If a comment is being added to an object attribute, this comment
* will be attached to the object to which the attribute belongs
* and not to the attribute itself.
*
* \p lapl_id contains a link access property list identifier. A
* link access property list can come into play when traversing
* links to access an object.
*
* \version 1.8.11 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Oset_comment_by_name(hid_t loc_id, const char *name, const char *comment, hid_t lapl_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieves comment for specified object
*
* \fgdta_loc_obj_id{obj_id}
* \param[out] comment The comment
* \param[in] bufsize Anticipated required size of the comment buffer
*
* \return Upon success, returns the number of characters in the
* comment, not including the \c NULL terminator, or zero (\c 0) if
* the object has no comment. The value returned may be larger
* than \p bufsize. Otherwise returns a negative value.
*
* \details H5Oget_comment() retrieves the comment for the specified object in
* the buffer \p comment.
*
* The target object is specified by an identifier, \p object_id.
*
* The size in bytes of the buffer \p comment, including the \c NULL
* terminator, is specified in \p bufsize. If \p bufsize is unknown,
* a preliminary H5Oget_comment() call with the pointer \p comment
* set to \c NULL will return the size of the comment without
* the \c NULL terminator.
*
* If \p bufsize is set to a smaller value than described above,
* only \p bufsize bytes of the comment, without a \c NULL terminator,
* are returned in \p comment.
*
* If an object does not have a comment, the empty string is
* returned in \p comment.
*
* \version 1.8.11 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL ssize_t H5Oget_comment(hid_t obj_id, char *comment, size_t bufsize);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieves comment for specified object
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] name Name of the object whose comment is to be retrieved
* \param[out] comment The comment
* \param[in] bufsize Anticipated required size of the \p comment buffer
* \lapl_id
*
* \return Upon success, returns the number of characters in the comment,
* not including the \c NULL terminator, or zero (\c 0) if the object
* has no comment. The value returned may be larger than \c bufsize.
* Otherwise returns a negative value.
*
* \details H5Oget_comment_by_name() retrieves the comment for an object
* in the buffer \p comment.
*
* The target object is specified by \p loc_id and \p name.
* \p loc_id can specify any object in the file.
* \p name can be one of the following:
*
* - The name of the object relative to \p loc_id
* - An absolute name of the object, starting from \c /, the file’s root group
* - A dot (\c .), if \p loc_id fully specifies the object
*
* The size in bytes of the comment, including the \c NULL terminator,
* is specified in \p bufsize. If \p bufsize is unknown, a preliminary
* H5Oget_comment_by_name() call with the pointer \p comment set
* to \c NULL will return the size of the comment without
* the \c NULL terminator.
*
* If \p bufsize is set to a smaller value than described above,
* only \p bufsize bytes of the comment, without a \c NULL terminator,
* are returned in \p comment.
*
* If an object does not have a comment, the empty string is
* returned in \p comment.
*
* \p lapl_id contains a link access property list identifier. A
* link access property list can come into play when traversing
* links to access an object.
*
* \version 1.8.11 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL ssize_t H5Oget_comment_by_name(hid_t loc_id, const char *name, char *comment, size_t bufsize,
hid_t lapl_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Recursively visits all objects accessible from a specified object
*
* \fgdta_loc_obj_id{obj_id}
* \idx_type
* \order
* \param[in] op Callback function passing data regarding the object
* to the calling application
* \param[in] op_data User-defined pointer to data required by the application
* for its processing of the object
* \param[in] fields Flags specifying the fields to be retrieved to the
* callback \p op
*
* \return On success, returns the return value of the first operator
* that returns a positive value, or zero if all members were
* processed with no operator returning non-zero.
*
* \return On failure, returns a negative value if something goes wrong
* within the library, or the first negative value returned by
* an operator.
*
* \details H5Ovisit3() is a recursive iteration function to visit the
* object \p obj_id and, if \p obj_id is a group, all objects in
* and below it in an HDF5 file, thus providing a mechanism for
* an application to perform a common set of operations across
* all of those objects or a dynamically selected subset.
* For non-recursive iteration across the members of a group,
* see H5Literate2().
*
* If \p obj_id is a group identifier, that group serves as the
* root of a recursive iteration. If \p obj_id is a file identifier,
* that file’s root group serves as the root of the recursive
* iteration. If \p obj_id is an attribute identifier,
* then the object where the attribute is attached will be iterated.
* If \p obj_id is any other type of object, such as a dataset or
* named datatype, there is no iteration.
*
* Two parameters are used to establish the iteration: \p idx_type
* and \p order.
*
* \p idx_type specifies the index to be used. If the links in
* a group have not been indexed by the index type, they will
* first be sorted by that index then the iteration will begin;
* if the links have been so indexed, the sorting step will be
* unnecessary, so the iteration may begin more quickly. Valid
* values include the following:
*
* \indexes
*
* Note that the index type passed in \p idx_type is a
* best effort setting. If the application passes in
* a value indicating iteration in creation order and a group is
* encountered that was not tracked in creation order, that group
* will be iterated over in alpha-numeric order by name, or
* name order. (Name order is the native order
* used by the HDF5 library and is always available.)
*
* \p order specifies the order in which objects are to be inspected
* along the index specified in \p idx_type. Valid values include
* the following:
*
* \orders
*
* The prototype of the callback function op is as follows (as
* defined in the source code file H5Opublic.h):
*
* \snippet this H5O_iterate2_t_snip
*
* The parameters of this callback function have the following values
* or meanings:
*
*
* \c obj |
* Object that serves as root of the iteration;
* same value as the H5Ovisit() \p obj_id parameter |
*
*
* \c name |
* Name of object, relative to \c obj, being examined at
* current step of the iteration |
*
*
* \c info |
* H5O_info2_t \c struct containing information
* regarding that object |
*
*
* \c op_data |
* User-defined pointer to data required by the application in
* processing the object; a pass-through of the \c op_data pointer
* provided with the H5Ovisit() function call |
*
*
*
* The H5O_info2_t \c struct is defined in H5Opublic.h as follows:
* \snippet this H5O_info2_t_snip
*
* H5O_token_t is defined in H5public.h as follows:
* \snippet H5public.h H5O_token_t_snip
*
* The #H5O_type_t enum indicates the object type and is
* defined in H5Opublic.h as follows:
* \snippet this H5O_type_t_snip
*
* Note that the object retrieved as indicated by \p obj_id
* refers only to the types specified by #H5O_type_t.
*
* The return values from an operator are:
* - Zero causes the visit iterator to continue, returning zero when all
* group members have been processed.
* - A positive value causes the visit iterator to immediately return that
* positive value, indicating short-circuit success.
* - A negative value causes the visit iterator to immediately return that
* value, indicating failure.
*
* The H5Ovisit3() \p op_data parameter is a user-defined pointer to the data
* required to process objects in the course of the iteration. This pointer
* is passed back to each step of the iteration in the callback
* function’s \p op_data parameter.
*
* The \p fields parameter contains flags to determine which fields will
* be retrieved by the \p op callback function. These flags are defined
* in the H5Opublic.h file:
* \obj_info_fields
*
* H5Lvisit2() and H5Ovisit3() are companion functions: one for
* examining and operating on links; the other for examining
* and operating on the objects that those links point to. Both
* functions ensure that by the time the function completes
* successfully, every link or object below the specified point
* in the file has been presented to the application for whatever
* processing the application requires. These functions assume
* that the membership of the group being iterated over remains
* unchanged through the iteration; if any of the links in the
* group change during the iteration, the resulting behavior
* is undefined.
*
* \note \Bold{Programming Note for C++ Developers Using C Functions:}
* \note If a C routine that takes a function pointer as an argument is
* called from within C++ code, the C routine should be returned
* from normally.
*
* \note Examples of this kind of routine include callbacks such as
* H5Pset_elink_cb() and H5Pset_type_conv_cb() and
* functions such as H5Tconvert() and H5Ewalk2().
*
* \note Exiting the routine in its normal fashion allows the HDF5
* C library to clean up its work properly. In other words, if
* the C++ application jumps out of the routine back to the C++
* “catch” statement, the library is not given the opportunity
* to close any temporary data structures that were set up when
* the routine was called. The C++ application should save some
* state as the routine is started so that any problem that occurs
* might be diagnosed.
*
* \par Example
* An example snippet from test/links.c:
* \snippet links.c H5Ovisit3_snip
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Ovisit3(hid_t obj_id, H5_index_t idx_type, H5_iter_order_t order, H5O_iterate2_t op,
void *op_data, unsigned fields);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Recursively visits all objects accessible from a specified object
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] obj_name Name of the object, generally relative to
* \p loc_id, that will serve as root of the iteration
* \idx_type
* \order
* \param[in] op Callback function passing data regarding the object
* to the calling application
* \param[in] op_data User-defined pointer to data required by the application
* for its processing of the object
* \param[in] fields Flags specifying the fields to be retrieved to the
* callback function \p op
* \lapl_id
*
* \return On success, returns the return value of the first operator
* that returns a positive value, or zero if all members were
* processed with no operator returning non-zero.
*
* \return On failure, returns a negative value if something goes wrong
* within the library, or the first negative value returned by
* an operator.
*
* \details H5Ovisit_by_name3() is a recursive iteration function to visit
* the object specified by the \p loc_id / \p obj_name parameter
* pair and, if that object is a group, all objects in and below it
* in an HDF5 file, thus providing a mechanism for an application to
* perform a common set of operations across all of those objects or
* a dynamically selected subset. For non-recursive iteration across
* the members of a group, see H5Literate2().
*
* The object serving as the root of the iteration is specified
* by the \p loc_id / \p obj_name parameter pair. \p loc_id specifies
* a file or an object in a file; if \p loc_id is an attribute identifier,
* the object where the attribute is attached will be used.
* \p obj_name specifies either an object in the file (with an absolute
* name based in the file’s root group) or an object name relative
* to \p loc_id. If \p loc_id fully specifies the object that is to serve
* as the root of the iteration, \p obj_name should be '\c .' (a dot).
* (Note that when \p loc_id fully specifies the object that is to serve
* as the root of the iteration, the user may wish to consider
* using H5Ovisit3() instead of H5Ovisit_by_name3().)
*
* Two parameters are used to establish the iteration: \p idx_type
* and \p order.
*
* \p idx_type specifies the index to be used. If the links in
* a group have not been indexed by the index type, they will
* first be sorted by that index then the iteration will begin;
* if the links have been so indexed, the sorting step will be
* unnecessary, so the iteration may begin more quickly. Valid
* values include the following:
*
* \indexes
*
* Note that the index type passed in \p idx_type is a
* best effort setting. If the application passes in a
* value indicating iteration in creation order and a group is
* encountered that was not tracked in creation order, that group
* will be iterated over in alpha-numeric order by name, or
* name order. (Name order is the native order
* used by the HDF5 library and is always available.)
*
* \p order specifies the order in which objects are to be inspected
* along the index specified in \p idx_type. Valid values include
* the following:
*
* \orders
*
* The prototype of the callback function op is as follows (as
* defined in the source code file H5Opublic.h):
*
* \snippet this H5O_iterate2_t_snip
*
* The parameters of this callback function have the following
* values or meanings:
*
*
* \c obj |
* Object that serves as root of the iteration |
*
*
* \c name |
* Name of object, relative to \c obj, being examined at
* current step of the iteration |
*
*
* \c info |
* H5O_info2_t \c struct containing information
* regarding that object |
*
*
* \c op_data |
* User-defined pointer to data required by the application in
* processing the object |
*
*
*
* The H5O_info2_t \c struct is defined in H5Opublic.h as follows:
* \snippet this H5O_info2_t_snip
*
* H5O_token_t is defined in H5public.h as follows:
* \snippet H5public.h H5O_token_t_snip
*
* The #H5O_type_t enum indicates the object type and is
* defined in H5Opublic.h as follows:
* \snippet this H5O_type_t_snip
*
* The H5Ovisit_by_name3() \p op_data parameter is a user-defined
* pointer to the data required to process objects in the course
* of the iteration. This pointer is passed back to each step of
* the iteration in the callback function’s \p op_data parameter.
*
* \p lapl_id is a link access property list. In the general case,
* when default link access properties are acceptable, this can
* be passed in as #H5P_DEFAULT. An example of a situation that
* requires a non-default link access property list is when
* the link is an external link; an external link may require
* that a link prefix be set in a link access property list
* (see H5Pset_elink_prefix()).
*
* The \p fields parameter contains flags to determine which fields will
* be retrieved by the \p op callback function. These flags are defined
* in the H5Opublic.h file:
* \obj_info_fields
*
* H5Lvisit_by_name2() and H5Ovisit_by_name3() are companion
* functions: one for examining and operating on links; the other
* for examining and operating on the objects that those links point to.
* Both functions ensure that by the time the function completes
* successfully, every link or object below the specified point
* in the file has been presented to the application for whatever
* processing the application requires.
*
* \note \Bold{Programming Note for C++ Developers Using C Functions:}
* \note If a C routine that takes a function pointer as an argument is
* called from within C++ code, the C routine should be returned
* from normally.
*
* \note Examples of this kind of routine include callbacks such as
* H5Pset_elink_cb() and H5Pset_type_conv_cb() and
* functions such as H5Tconvert() and H5Ewalk2().
*
* \note Exiting the routine in its normal fashion allows the HDF5
* C library to clean up its work properly. In other words, if
* the C++ application jumps out of the routine back to the C++
* “catch” statement, the library is not given the opportunity
* to close any temporary data structures that were set up when
* the routine was called. The C++ application should save some
* state as the routine is started so that any problem that occurs
* might be diagnosed.
*
* \par Example
* An example snippet from test/links.c:
* \snippet links.c H5Ovisit_by_name3_snip
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Ovisit_by_name3(hid_t loc_id, const char *obj_name, H5_index_t idx_type,
H5_iter_order_t order, H5O_iterate2_t op, void *op_data, unsigned fields,
hid_t lapl_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Closes an object in an HDF5 file
*
* \obj_id{object_id}
*
* \return \herr_t
*
* \details H5Oclose() closes the group, dataset, or named datatype specified by
* object_id.
*
* This function is the companion to H5Oopen(), and has the same
* effect as calling H5Gclose(), H5Dclose(), or H5Tclose().
*
* H5Oclose() is not used to close a dataspace, attribute, property
* list, or file.
*
* \version 1.8.8 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Oclose(hid_t object_id);
H5_DLL herr_t H5Oclose_async(const char *app_file, const char *app_func, unsigned app_line, hid_t object_id,
hid_t es_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Flushes all buffers associated with an HDF5 object to disk
*
* \fgdta_loc_obj_id{obj_id}
*
* \return \herr_t
*
* \details H5Oflush() causes all buffers associated with an object to be immediately
* flushed to disk without removing the data from the cache.
*
* The object associated with \p object_id can be any named object in an
* HDF5 file including a dataset, a group, or a committed datatype.
*
* \note HDF5 does not possess full control over buffering. H5Oflush()
* flushes the internal HDF5 buffers and then asks the operating
* system (the OS) to flush the system buffers for the open
* files. After that, the OS is responsible for ensuring that
* the data is actually flushed to disk.
*
* \par See Also:
* - H5Dflush()
* - H5Drefresh()
* - H5Oflush()
* - H5Grefresh()
* - H5Oflush()
* - H5Orefresh()
* - H5Tflush()
* - H5Trefresh()
* \par
* - \c H5DOappend()
* - H5Fstart_swmr_write()
* - H5Pget_append_flush()
* - H5Pget_object_flush_cb()
* - H5Pset_append_flush()
* - H5Pset_object_flush_cb()
* \par
* - H5Oare_mdc_flushes_disabled()
* - H5Odisable_mdc_flushes()
* - H5Oenable_mdc_flushes()
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Oflush(hid_t obj_id);
H5_DLL herr_t H5Oflush_async(const char *app_file, const char *app_func, unsigned app_line, hid_t obj_id,
hid_t es_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Refreshes all buffers associated with an HDF5 object
*
* \fgdta_loc_obj_id{oid}
*
* \return \herr_t
*
* \details H5Orefresh() causes all buffers associated with an object to be cleared
* and immediately re-loaded with updated contents from disk.
*
* This function essentially closes the object, evicts all
* metadata associated with it from the cache, and then re-opens
* the object. The reopened object is automatically re-registered
* with the same identifier.
*
* The object associated with \p oid can be any named object in an
* HDF5 file including a dataset, a group, or a committed datatype.
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Orefresh(hid_t oid);
H5_DLL herr_t H5Orefresh_async(const char *app_file, const char *app_func, unsigned app_line, hid_t oid,
hid_t es_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Prevents metadata entries for an HDF5 object from being flushed
* from the metadata cache to storage
*
* \param[in] object_id Identifier of the object that will have flushes disabled;
* may be a group, named datatype, or dataset identifier
*
* \return \herr_t
*
* \details H5Odisable_mdc_flushes(), H5Oenable_mdc_flushes() and associated flush
* functions can be used to control the flushing of entries from
* a file’s metadata cache.
*
* This function prevents an object’s or cache’s dirty metadata
* entries from being flushed from the cache by the usual cache
* eviction/flush policy. Instead, users must manually flush the
* cache or entries for individual objects via the appropriate
* H5Fflush(), H5Dflush(), H5Gflush(), H5Tflush(), and H5Oflush() calls.
*
* Metadata cache entries can be controlled at both the individual
* HDF5 object level (datasets, groups, committed datatypes)
* and the entire metadata cache level.
*
* \note HDF5 objects include datasets, groups, and committed datatypes.
* Only #hid_t identifiers that represent these objects can be passed to the function.
* \note Passing in a #hid_t identifier that represents any other HDF5 entity is
* considered an error.
* \note It is an error to pass an HDF5 file identifier
* (obtained from H5Fopen() or H5Fcreate())
* to this function.
* \note Misuse of this function can cause the cache to exhaust
* available memory.
* \note Objects can be returned to the default automatic flush behavior
* with H5Oenable_mdc_flushes().
* \note Flush prevention only pertains to new or dirty metadata entries.
* Clean entries can be evicted from the cache.
* \note Calling this function on an object that has already had flushes
* disabled will return an error.
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Odisable_mdc_flushes(hid_t object_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Enables flushing of dirty metadata entries from a file’s metadata cache
*
* \param[in] object_id Identifier of the object that will have flushes re-enabled;
* may be a group, named datatype, or dataset identifier
*
* \return \herr_t
*
* \details H5Oenable_mdc_flushes(), H5Odisable_mdc_flushes()
* and associated flush functions can be used to control the flushing
* of entries from a file’s metadata cache.
*
* This function allows an object or cache’s dirty metadata entries to be
* flushed from the cache by the usual cache eviction/flush policy.
*
* Metadata cache entries can be controlled at both the individual HDF5
* object level (datasets, groups, committed datatypes) and the entire
* metadata cache level.
*
*
* \note HDF5 objects include datasets, groups, and committed datatypes.
* Only #hid_t identifiers that represent these objects can be
* passed to the function.
*
* \note Passing in a #hid_t identifier that represents any other HDF5 entity
* is considered an error.
*
* \note It is an error to pass an HDF5 file identifier
* (obtained from H5Fopen() or H5Fcreate())
* to this function.
*
* \note Using this function on an object that has not had flushes disabled
* is considered an error. The state of an object can be determined
* with H5Oare_mdc_flushes_disabled().
*
* \note An object will be returned to the default flush algorithm when it is closed.
*
* \note All objects will be returned to the default flush algorithm when
* the file is closed.
*
* \note An object’s entries will not necessarily be flushed as a result of
* calling this function.
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Oenable_mdc_flushes(hid_t object_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieves comment for specified object
*
* \param[in] object_id Identifier of an object in the cache;
* may be a group, named datatype, or dataset identifier
* \param[out] are_disabled Flushes enabled/disabled
*
* \return \p are_disabled will be set to \c 1 if an object has had flushes disabled
* and \c 0 if it has not had flushes disabled.
* \return \herr_t
*
* \details H5Oare_mdc_flushes_disabled() determines if an HDF5 object (dataset, group, committed
* datatype) has had flushes of metadata entries disabled.
*
* The H5Oenable_mdc_flushes(), H5Odisable_mdc_flushes() and
* associated flush functions can be used to control the flushing of
* entries from a file’s metadata cache. Metadata cache entries can be controlled
* at both the individual HDF5 object level (datasets, groups,
* committed datatypes) and the entire metadata cache level.
*
* \note HDF5 objects include datasets, groups, and committed datatypes.
* Only #hid_t identifiers that represent these objects can be passed to the function.
* \note Passing in a #hid_t identifier that represents any other HDF5 entity is
* considered an error.
* \note It is an error to pass an HDF5 file identifier
* (obtained from H5Fopen() or H5Fcreate()) to this function.
*
* \since 1.10.0
*
*/
H5_DLL herr_t H5Oare_mdc_flushes_disabled(hid_t object_id, hbool_t *are_disabled);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Compares two VOL connector object tokens
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] token1 First object token
* \param[in] token2 Second object token
* \param[out] cmp_value Comparison value
*
* \return \herr_t
*
* \details H5Otoken_cmp() compares two VOL connector object tokens, \p token1
* and \p token2 for the file or group identifier specified by \p loc_id.
* Both object tokens must be from the same VOL connector class.
*
* H5O_token_t is defined in H5public.h as follows:
* \snippet H5public.h H5O_token_t_snip
*
* A comparison value, \p cmp_value, is returned, which indicates the
* result of the comparison:
*
*
*
* cmp_value |
* Result |
*
*
* > 0 |
* \p token1 > \p token2 |
*
*
* < 0 |
* \p token1 < \p token2 |
*
*
* 0 |
* \p token1 = \p token2 |
*
*
*
* \par Example
* An example snippet from test/links.c:
* \snippet links.c H5Otoken_cmp_snip
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Otoken_cmp(hid_t loc_id, const H5O_token_t *token1, const H5O_token_t *token2,
int *cmp_value);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Serializes a connector's object token into a string
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] token Connector object token
* \param[out] token_str String for connector object token \p token
*
* \return \herr_t
*
* \details H5Otoken_to_str() serializes a connector's object token specified by
* \p token and the location identifier for the object, \p loc_id,
* into a string, \p token_str.
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Otoken_to_str(hid_t loc_id, const H5O_token_t *token, char **token_str);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Deserializes a string into a connector object token
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] token_str Object token string
* \param[out] token Connector object token
*
* \return \herr_t
*
* \details H5Otoken_from_str() deserializes a string, \p token_str, into a
* connector object token, \p token, for the object specified by the
* location identifier, \p loc_id.
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Otoken_from_str(hid_t loc_id, const char *token_str, H5O_token_t *token);
/* API Wrappers for async routines */
/* (Must be defined _after_ the function prototype) */
/* (And must only defined when included in application code, not the library) */
#ifndef H5O_MODULE
#define H5Oopen_async(...) H5Oopen_async(__FILE__, __func__, __LINE__, __VA_ARGS__)
#define H5Oopen_by_idx_async(...) H5Oopen_by_idx_async(__FILE__, __func__, __LINE__, __VA_ARGS__)
#define H5Oget_info_by_name_async(...) H5Oget_info_by_name_async(__FILE__, __func__, __LINE__, __VA_ARGS__)
#define H5Oclose_async(...) H5Oclose_async(__FILE__, __func__, __LINE__, __VA_ARGS__)
#define H5Oflush_async(...) H5Oflush_async(__FILE__, __func__, __LINE__, __VA_ARGS__)
#define H5Orefresh_async(...) H5Orefresh_async(__FILE__, __func__, __LINE__, __VA_ARGS__)
#define H5Ocopy_async(...) H5Ocopy_async(__FILE__, __func__, __LINE__, __VA_ARGS__)
/* Define "wrapper" versions of function calls, to allow compile-time values to
* be passed in by language wrapper or library layer on top of HDF5.
*/
#define H5Oopen_async_wrap H5_NO_EXPAND(H5Oopen_async)
#define H5Oopen_by_idx_async_wrap H5_NO_EXPAND(H5Oopen_by_idx_async)
#define H5Oget_info_by_name_async_wrap H5_NO_EXPAND(H5Oget_info_by_name_async)
#define H5Oclose_async_wrap H5_NO_EXPAND(H5Oclose_async)
#define H5Oflush_async_wrap H5_NO_EXPAND(H5Oflush_async)
#define H5Orefresh_async_wrap H5_NO_EXPAND(H5Orefresh_async)
#define H5Ocopy_async_wrap H5_NO_EXPAND(H5Ocopy_async)
#endif
/* The canonical 'undefined' token value */
#define H5O_TOKEN_UNDEF (H5OPEN H5O_TOKEN_UNDEF_g)
H5_DLLVAR const H5O_token_t H5O_TOKEN_UNDEF_g;
/* Symbols defined for compatibility with previous versions of the HDF5 API.
*
* Use of these symbols is deprecated.
*/
#ifndef H5_NO_DEPRECATED_SYMBOLS
/* Macros */
/* Deprecated flags for earlier versions of H5Oget_info* */
#define H5O_INFO_HDR 0x0008u /* Fill in the hdr field */
#define H5O_INFO_META_SIZE 0x0010u /* Fill in the meta_size field */
#undef H5O_INFO_ALL
#define H5O_INFO_ALL (H5O_INFO_BASIC | H5O_INFO_TIME | H5O_INFO_NUM_ATTRS | H5O_INFO_HDR | H5O_INFO_META_SIZE)
/* Typedefs */
/* A struct that's part of the H5G_stat_t structure (deprecated) */
//! [H5O_stat_t_snip]
typedef struct H5O_stat_t {
hsize_t size; /* Total size of object header in file */
hsize_t free; /* Free space within object header */
unsigned nmesgs; /* Number of object header messages */
unsigned nchunks; /* Number of object header chunks */
} H5O_stat_t;
//! [H5O_stat_t_snip]
//! [H5O_info1_t_snip]
/* Information struct for object */
/* (For H5Oget_info/H5Oget_info_by_name/H5Oget_info_by_idx versions 1 & 2) */
typedef struct H5O_info1_t {
unsigned long fileno; /* File number that object is located in */
haddr_t addr; /* Object address in file */
H5O_type_t type; /* Basic object type (group, dataset, etc.) */
unsigned rc; /* Reference count of object */
time_t atime; /* Access time */
time_t mtime; /* Modification time */
time_t ctime; /* Change time */
time_t btime; /* Birth time */
hsize_t num_attrs; /* # of attributes attached to object */
H5O_hdr_info_t hdr; /* Object header information */
/* Extra metadata storage for obj & attributes */
struct {
H5_ih_info_t obj; /* v1/v2 B-tree & local/fractal heap for groups, B-tree for chunked datasets */
H5_ih_info_t attr; /* v2 B-tree & heap for attributes */
} meta_size;
} H5O_info1_t;
//! [H5O_info1_t_snip]
/* Prototype for H5Ovisit/H5Ovisit_by_name() operator (versions 1 & 2) */
//! [H5O_iterate1_t_snip]
typedef herr_t (*H5O_iterate1_t)(hid_t obj, const char *name, const H5O_info1_t *info, void *op_data);
//! [H5O_iterate1_t_snip]
/* Function prototypes */
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Opens an object using its address within an HDF5 file.
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] addr Object's address in the file
*
* \return \hid_tv{object}
*
* \deprecated As of HDF5-1.12 this function has been deprecated in favor of
* the function H5Oopen_by_token().
*
* \details H5Oopen_by_addr() opens a group, dataset, or committed (named) datatype using its
* address within an HDF5 file, \p addr. The resulting opened object is identical to
* an object opened with H5Oopen() and should be closed with H5Oclose() or an
* object-type-specific closing function (such as H5Gclose()) when no longer needed.
*
* \p loc_id is a location identifier in the file.
*
* The object’s address within the file, \p addr, is the byte offset of the first byte
* of the object header from the beginning of the HDF5 file space, i.e., from the
* beginning of the super block (see the “HDF5 Storage Model” section of the The
* HDF5 Data Model and File Structure chapter of the HDF5 User's Guide.)
*
* \p addr can be obtained via either of two function calls. H5Gget_objinfo() returns
* the object’s address in the \c objno field of the H5G_stat_t \c struct;
* H5Lget_info() returns the address in the \c address field of the #H5L_info_t \c struct.
*
* The address of the HDF5 file on a physical device has no effect on H5Oopen_by_addr(),
* nor does the use of any file driver. As stated above, the object address is its
* offset within the HDF5 file; HDF5’s file drivers will transparently map this to an
* address on a storage device.
*
* \warning This function must be used with care!
* \warning Improper use can lead to inaccessible data, wasted space in the file,
* or file corruption.
* \warning This function is dangerous if called on an invalid address. The risk can be safely
* overcome by retrieving the object address with H5Gget_objinfo() or H5Lget_info()
* immediately before calling H5Oopen_by_addr(). The immediacy of the operation can be
* important; if time has elapsed and the object has been deleted from the file,
* the address will be invalid and file corruption can result.
*
* \version 1.8.4 Fortran subroutine added in this release.
*
* \since 1.8.0
*
*/
H5_DLL hid_t H5Oopen_by_addr(hid_t loc_id, haddr_t addr);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieves the metadata for an object specified by an identifier
*
* \fgdta_loc_obj_id{loc_id}
* \param[out] oinfo Buffer in which to return object information
*
* \return \herr_t
*
* \deprecated As of HDF5-1.12 this function has been deprecated in favor of
* the function H5Oget_info3() or the macro #H5Oget_info.
*
* \details H5Oget_info1() specifies an object by its identifier, \p loc_id , and
* retrieves the metadata describing that object in \p oinfo ,
* defined as a \c struct of type H5O_info1_t :
*
* \snippet this H5O_info1_t_snip
*
* Note the following about H5O_info1_t :
* - Of the four time fields (\c atime, \c mtime, \c ctime, and \c btime)
* only \c ctime has been implemented.
* - The \c atime value is the last time the object was read or written.
* - The \c mtime value is the last time the raw data in the object was changed.
* - The \c ctime value is the last time the metadata for the object was changed.
* - The \c btime value is the time the object was created.
* - The fields nested in the \c meta_size field are for internal library use only.
*
* The #H5O_type_t \c enum indicates the object type and
* is defined in H5Opublic.h as follows:
* \snippet this H5O_type_t_snip
*
* Note that the object retrieved as indicated by \p loc_id
* refers only to the types specified by #H5O_type_t.
*
* An H5O_hdr_info_t \c struct holds object header metadata and is
* defined in H5Opublic.h as follows:
* \snippet this H5O_hdr_info_t_snip
*
* Valid values for the \c version field are \c H5O_VERSION_1 and \c H5O_VERSION_2.
* Version 2 of the object header is smaller and more efficient than version 1.
*
* Please be aware that the information held by H5O_hdr_info_t may only be useful to
* developers with extensive HDF5 experience.
*
* \note If you are iterating through a lot of different objects to
* retrieve information via the H5Oget_info() family of routines,
* you may see memory building up. This can be due to memory
* allocation for metadata such as object headers and messages
* when the iterated objects are put into the metadata cache.
* \note
* If the memory buildup is not desirable, you can configure a
* smaller cache via H5Fset_mdc_config() or set the file access
* property list via H5Pset_mdc_config(). A smaller sized cache
* will force metadata entries to be evicted from the cache,
* thus freeing the memory associated with the entries.
*
* \version 1.10.5 The macro #H5Oget_info was removed and the function
* H5Oget_info1() was copied to H5Oget_info().
* \version 1.10.3 Function H5Oget_info() was copied to H5Oget_info1(),
* and the macro #H5Oget_info was created.
* \version 1.8.15 Added a note about the valid values for the \c version
* field in the H5O_hdr_info_t structure.
* \version 1.8.11 Fortran subroutine introduced in this release.
* \version 1.8.10 Added #H5O_type_t structure to the Description section. \n
* Separated H5O_hdr_info_t structure from #H5O_info_t in the
* Description section. \n
* Clarified the definition and implementation of the time fields.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Oget_info1(hid_t loc_id, H5O_info1_t *oinfo);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieves the metadata for an object, identifying the object
* by location and relative name
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] name Name of group, relative to \p loc_id
* \param[out] oinfo Buffer in which to return object information
* \lapl_id
*
* \return \herr_t
*
* \deprecated As of HDF5-1.12 this function has been deprecated in favor of
* the function H5Oget_info_by_name2() or the macro #H5Oget_info_by_name.
*
* \details H5Oget_info_by_name1() specifies an object’s location and name, \p loc_id
* and \p name, respectively, and retrieves the metadata describing that object
* in \p oinfo, an H5O_info1_t \c struct.
*
* The \c struct H5O_info1_t is defined in H5Opublic.h and described
* in the H5Oget_info1() function entry.
*
* The link access property list, \p lapl_id, is not currently used;
* it should be passed in as #H5P_DEFAULT.
*
* \version 1.10.5 The macro #H5Oget_info_by_name was removed and the function
* H5Oget_info_by_name1() was copied to H5Oget_info_by_name().
* \version 1.10.3 Function H5Oget_info_by_name() was copied to H5Oget_info_by_name1()
* and the macro #H5Oget_info_by_name was created.
* \version 1.8.8 Fortran 2003 subroutine and \c h5o_info_t derived type introduced
* in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Oget_info_by_name1(hid_t loc_id, const char *name, H5O_info1_t *oinfo, hid_t lapl_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieves the metadata for an object, identifying the object
* by an index position
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] group_name Name of group in which object is located
* \idx_type
* \order
* \param[in] n Position within the index
* \param[out] oinfo Buffer in which to return object information
* \lapl_id
*
* \return \herr_t
*
* \deprecated As of HDF5-1.12 this function has been deprecated in favor of
* the function H5Oget_info_by_idx3() or the macro H5Oget_info_by_idx().
*
* \details H5Oget_info_by_idx1() retrieves the metadata describing an
* object in the \c struct \p oinfo, as specified by the location,
* \p loc_id, group name, \p group_name, the index by which objects
* in that group are tracked, \p idx_type, the order by which the
* index is to be traversed, \p order, and an object’s position
* \p n within that index.
*
* If \p loc_id fully specifies the group in which the object resides,
* \p group_name can be a dot (\c .).
*
* \p idx_type is of type #H5_index_t, defined in H5public.h as:
* \snippet H5public.h H5_index_t_snip
*
* \p order is of type #H5_iter_order_t defined in H5public.h as:
* \snippet H5public.h H5_iter_order_t_snip
*
* \p oinfo, in which the object information is returned, is a \c struct of
* type H5O_info1_t .
* \snippet this H5O_info1_t_snip
*
* The link access property list, \c lapl_id, is not currently used;
* it should be passed in as #H5P_DEFAULT.
*
* \version 1.10.5 The macro #H5Oget_info_by_idx was removed and the function
* H5Oget_info_by_idx() was copied to H5Oget_info_by_idx1().
* \version 1.10.3 Function H5Oget_info_by_idx() was copied to H5Oget_info_by_idx1()
* and the macro #H5Oget_info_by_idx was created.
* \version 1.8.11 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Oget_info_by_idx1(hid_t loc_id, const char *group_name, H5_index_t idx_type,
H5_iter_order_t order, hsize_t n, H5O_info1_t *oinfo, hid_t lapl_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieves the metadata for an object specified by an identifier
*
* \fgdta_loc_obj_id{loc_id}
* \param[out] oinfo Buffer in which to return object information
* \param[in] fields Flags specifying the fields to include in \p oinfo
*
* \return \herr_t
*
* \deprecated As of HDF5-1.12 this function has been deprecated in favor of
* the function H5Oget_info3() or the macro H5Oget_info().
*
* \details H5Oget_info2() specifies an object by its identifier, \p loc_id , and
* retrieves the metadata describing that object in \p oinfo , an H5O_info1_t \c struct.
* This \c struct type is described in H5Oget_info1().
*
* The \p fields parameter contains flags to determine which fields will be filled in
* the H5O_info1_t \c struct returned in \p oinfo.
* These flags are defined in the H5Opublic.h file:
*
* \obj_info_fields
*
* \note If you are iterating through a lot of different objects to
* retrieve information via the H5Oget_info() family of routines,
* you may see memory building up. This can be due to memory
* allocation for metadata such as object headers and messages
* when the iterated objects are put into the metadata cache.
* \note
* If the memory buildup is not desirable, you can configure a
* smaller cache via H5Fset_mdc_config() or set the file access
* property list via H5Pset_mdc_config(). A smaller sized cache
* will force metadata entries to be evicted from the cache,
* thus freeing the memory associated with the entries.
*
* \since 1.10.3
*
*/
H5_DLL herr_t H5Oget_info2(hid_t loc_id, H5O_info1_t *oinfo, unsigned fields);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieves the metadata for an object, identifying the object
* by location and relative name
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] name Name of group, relative to \p loc_id
* \param[out] oinfo Buffer in which to return object information
* \param[in] fields Flags specifying the fields to include in \p oinfo
* \lapl_id
*
* \return \herr_t
*
* \deprecated As of HDF5-1.12 this function has been deprecated in favor of
* the function H5Oget_info_by_name3() or the macro H5Oget_info_by_name().
*
* \details H5Oget_info_by_name2() specifies an object’s location and name, \p loc_id and
* \p name, respectively, and retrieves the metadata describing
* that object in \p oinfo, an H5O_info1_t \c struct.
*
* The \c struct H5O_info1_t is defined in H5Opublic.h and described
* in the H5Oget_info1() function entry.
*
* The \p fields parameter contains flags to determine which fields
* will be filled in in the H5O_info1_t \c struct returned in
* \p oinfo. These flags are defined in the H5Opublic.h file:
*
* \obj_info_fields
*
* The link access property list, \p lapl_id, is not currently used;
* it should be passed in as #H5P_DEFAULT.
*
* \since 1.10.3
*
*/
H5_DLL herr_t H5Oget_info_by_name2(hid_t loc_id, const char *name, H5O_info1_t *oinfo, unsigned fields,
hid_t lapl_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Retrieves the metadata for an object, identifying the object
* by an index position
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] group_name Name of group in which object is located
* \idx_type
* \order
* \param[in] n Position within the index
* \param[out] oinfo Buffer in which to return object information
* \param[in] fields Flags specifying the fields to include in \p oinfo
* \lapl_id
*
* \return \herr_t
*
* \deprecated As of HDF5-1.12 this function is deprecated in favor of
* the function H5Oget_info_by_idx3() or the macro #H5Oget_info_by_idx.
*
* \details H5Oget_info_by_idx2() retrieves the metadata describing an
* object in the \c struct \p oinfo, as specified by the location,
* \p loc_id, group name, \p group_name, the index by which objects
* in that group are tracked, \p idx_type, the order by which the
* index is to be traversed, \p order, and an object’s position
* \p n within that index.
*
* \p oinfo, in which the object information is returned, is a \c struct of
* type H5O_info1_t. This and other \c struct types used
* by H5Oget_info_by_idx2() are described in H5Oget_info_by_idx1().
*
* If \p loc_id fully specifies the group in which the object resides,
* i\p group_name can be a dot (\c .).
*
* The \p fields parameter contains flags to determine which fields will be
* filled in the H5O_info1_t \c struct returned in \p oinfo.
* These flags are defined in the H5Opublic.h file:
* \obj_info_fields
*
* The link access property list, \c lapl_id, is not currently used;
* it should be passed in as #H5P_DEFAULT.
*
* \since 1.10.3
*
*/
H5_DLL herr_t H5Oget_info_by_idx2(hid_t loc_id, const char *group_name, H5_index_t idx_type,
H5_iter_order_t order, hsize_t n, H5O_info1_t *oinfo, unsigned fields,
hid_t lapl_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Recursively visits all objects accessible from a specified object
*
* \fgdta_loc_obj_id{obj_id}
* \idx_type
* \order
* \param[in] op Callback function passing data regarding the object
* to the calling application
* \param[in] op_data User-defined pointer to data required by the application
* for its processing of the object
*
* \return On success, returns the return value of the first operator
* that returns a positive value, or zero if all members were
* processed with no operator returning non-zero.
*
* \return On failure, returns a negative value if something goes wrong
* within the library, or the first negative value returned by
* an operator.
*
* \deprecated As of HDF5-1.12 this function has been deprecated in favor of
* the function H5Ovisit3() or the macro #H5Ovisit.
*
* \details H5Ovisit1() is a recursive iteration function to visit the
* object \p obj_id and, if \p obj_id is a group, all objects in
* and below it in an HDF5 file, thus providing a mechanism for
* an application to perform a common set of operations across all
* of those objects or a dynamically selected subset. For
* non-recursive iteration across the members of a group,
* see H5Literate1().
*
* If \p obj_id is a group identifier, that group serves as the
* root of a recursive iteration. If \p obj_id is a file identifier,
* that file’s root group serves as the root of the recursive
* iteration. If \p obj_id is an attribute identifier,
* then the object where the attribute is attached will be iterated.
* If \p obj_id is any other type of object, such as a dataset or
* named datatype, there is no iteration.
*
* Two parameters are used to establish the iteration: \p idx_type
* and \p order.
*
* \p idx_type specifies the index to be used. If the links in
* a group have not been indexed by the index type, they will
* first be sorted by that index then the iteration will begin;
* if the links have been so indexed, the sorting step will be
* unnecessary, so the iteration may begin more quickly. Valid
* values include the following:
*
* \indexes
*
* Note that the index type passed in \p idx_type is a
* best effort setting. If the application passes in
* a value indicating iteration in creation order and a group is
* encountered that was not tracked in creation order, that group
* will be iterated over in alpha-numeric order by name, or
* name order. (Name order is the native order
* used by the HDF5 library and is always available.)
*
* \p order specifies the order in which objects are to be inspected
* along the index specified in \p idx_type. Valid values include
* the following:
*
* \orders
*
* The prototype of the callback function op is as follows (as
* defined in the source code file H5Opublic.h):
*
* \snippet this H5O_iterate1_t_snip
*
* The parameters of this callback function have the following values
* or meanings:
*
*
* \c obj |
* Object that serves as root of the iteration;
* same value as the H5Ovisit1() \p obj_id parameter |
*
*
* \c name |
* Name of object, relative to \c obj, being examined at
* current step of the iteration |
*
*
* \c info |
* H5O_info1_t \c struct containing information
* regarding that object |
*
*
* \c op_data |
* User-defined pointer to data required by the application in
* processing the object |
*
*
*
* The H5O_info1_t \c struct is defined in H5Opublic.h:
* \snippet this H5O_info1_t_snip
*
* The return values from an operator are:
* - Zero causes the visit iterator to continue, returning zero when all
* group members have been processed.
* - A positive value causes the visit iterator to immediately return that
* positive value, indicating short-circuit success.
* - A negative value causes the visit iterator to immediately return that
* value, indicating failure.
*
* The H5Ovisit1() \p op_data parameter is a user-defined pointer to the data
* required to process objects in the course of the iteration. This pointer
* is passed back to each step of the iteration in the callback
* function’s \p op_data parameter.
*
* H5Lvisit1() and H5Ovisit1() are companion functions: one for
* examining and operating on links; the other for examining
* and operating on the objects that those links point to. Both
* functions ensure that by the time the function completes
* successfully, every link or object below the specified point
* in the file has been presented to the application for whatever
* processing the application requires. These functions assume
* that the membership of the group being iterated over remains
* unchanged through the iteration; if any of the links in the
* group change during the iteration, the resulting behavior
* is undefined.
*
* \note \Bold{Programming Note for C++ Developers Using C Functions:}
* \note If a C routine that takes a function pointer as an argument is
* called from within C++ code, the C routine should be returned
* from normally.
*
* \note Examples of this kind of routine include callbacks such as
* H5Pset_elink_cb() and H5Pset_type_conv_cb() and
* functions such as H5Tconvert() and H5Ewalk2().
*
* \note Exiting the routine in its normal fashion allows the HDF5
* C library to clean up its work properly. In other words, if
* the C++ application jumps out of the routine back to the C++
* “catch” statement, the library is not given the opportunity
* to close any temporary data structures that were set up when
* the routine was called. The C++ application should save some
* state as the routine is started so that any problem that occurs
* might be diagnosed.
*
* \version 1.10.5 The macro #H5Ovisit was removed and the function
* H5Ovisit1() was copied to H5Ovisit().
* \version 1.10.3 Function H5Ovisit() was copied to H5Ovisit1(),
* and the macro #H5Ovisit was created.
* \version 1.8.8 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Ovisit1(hid_t obj_id, H5_index_t idx_type, H5_iter_order_t order, H5O_iterate1_t op,
void *op_data);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Recursively visits all objects starting from a specified object
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] obj_name Name of the object, generally relative to
* \p loc_id, that will serve as root of the iteration
* \idx_type
* \order
* \param[in] op Callback function passing data regarding the object
* to the calling application
* \param[in] op_data User-defined pointer to data required by the application
* for its processing of the object
* \lapl_id
*
* \return On success, returns the return value of the first operator
* that returns a positive value, or zero if all members were
* processed with no operator returning non-zero.
*
* \return On failure, returns a negative value if something goes wrong
* within the library, or the first negative value returned by
* an operator.
*
* \deprecated As of HDF5-1.12 this function has been deprecated in favor of
* the function H5Ovisit_by_name3() or the macro #H5Ovisit_by_name.
*
* \details H5Ovisit_by_name1() is a recursive iteration function to visit
* the object specified by the \p loc_id / \p obj_name parameter
* pair and, if that object is a group, all objects in and below it
* in an HDF5 file, thus providing a mechanism for an application to
* perform a common set of operations across all of those objects or
* a dynamically selected subset. For non-recursive iteration across
* the members of a group, see H5Literate1().
*
* The object serving as the root of the iteration is specified
* by the \p loc_id / \p obj_name parameter pair. \p loc_id specifies
* a file or an object in a file; if \p loc_id is an attribute identifier,
* the object where the attribute is attached will be used.
* \p obj_name specifies either an object in the file (with an absolute
* name based in the file’s root group) or an object name relative
* to \p loc_id. If \p loc_id fully specifies the object that is to serve
* as the root of the iteration, \p obj_name should be '\c .' (a dot).
* (Note that when \p loc_id fully specifies the object that is to serve
* as the root of the iteration, the user may wish to consider
* using H5Ovisit1() instead of H5Ovisit_by_name1().)
*
* Two parameters are used to establish the iteration: \p idx_type
* and \p order.
*
* \p idx_type specifies the index to be used. If the links in
* a group have not been indexed by the index type, they will
* first be sorted by that index then the iteration will begin;
* if the links have been so indexed, the sorting step will be
* unnecessary, so the iteration may begin more quickly. Valid
* values include the following:
*
* \indexes
*
* Note that the index type passed in \p idx_type is a
* best effort setting. If the application passes in a
* value indicating iteration in creation order and a group is
* encountered that was not tracked in creation order, that group
* will be iterated over in alpha-numeric order by name, or
* name order. (Name order is the native order
* used by the HDF5 library and is always available.)
*
* \p order specifies the order in which objects are to be inspected
* along the index specified in \p idx_type. Valid values include
* the following:
*
* \orders
*
* The \p op callback function and the effect of the callback
* function’s return value on the application are described
* in H5Ovisit1().
*
* The H5O_info1_t \c struct is defined in H5Opublic.h
* and described in the H5Oget_info1() function entry.
*
* The H5Ovisit_by_name1() \p op_data parameter is a user-defined
* pointer to the data required to process objects in the course
* of the iteration. This pointer is passed back to each step of
* the iteration in the callback function’s \p op_data parameter.
*
* \p lapl_id is a link access property list. In the general case,
* when default link access properties are acceptable, this can
* be passed in as #H5P_DEFAULT. An example of a situation that
* requires a non-default link access property list is when
* the link is an external link; an external link may require
* that a link prefix be set in a link access property list
* (see H5Pset_elink_prefix()).
*
* H5Lvisit_by_name1() and H5Ovisit_by_name1() are companion
* functions: one for examining and operating on links; the other
* for examining and operating on the objects that those links point to.
* Both functions ensure that by the time the function completes
* successfully, every link or object below the specified point
* in the file has been presented to the application for whatever
* processing the application requires.
*
* \note \Bold{Programming Note for C++ Developers Using C Functions:}
* \note If a C routine that takes a function pointer as an argument is
* called from within C++ code, the C routine should be returned
* from normally.
*
* \note Examples of this kind of routine include callbacks such as
* H5Pset_elink_cb() and H5Pset_type_conv_cb() and
* functions such as H5Tconvert() and H5Ewalk2().
*
* \note Exiting the routine in its normal fashion allows the HDF5
* C library to clean up its work properly. In other words, if
* the C++ application jumps out of the routine back to the C++
* “catch” statement, the library is not given the opportunity
* to close any temporary data structures that were set up when
* the routine was called. The C++ application should save some
* state as the routine is started so that any problem that occurs
* might be diagnosed.
*
* \version 1.10.5 The macro #H5Ovisit_by_name was removed and the function
* H5Ovisit_by_name1() was copied to #H5Ovisit_by_name.
* \version 1.10.3 The H5Ovisit_by_name() function was renamed to H5Ovisit_by_name1(),
* and the macro #H5Ovisit_by_name was created.
* \version 1.8.11 Fortran subroutine introduced in this release.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Ovisit_by_name1(hid_t loc_id, const char *obj_name, H5_index_t idx_type,
H5_iter_order_t order, H5O_iterate1_t op, void *op_data, hid_t lapl_id);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Recursively visits all objects accessible from a specified object
*
* \fgdta_loc_obj_id{obj_id}
* \idx_type
* \order
* \param[in] op Callback function passing data regarding the object
* to the calling application
* \param[in] op_data User-defined pointer to data required by the application
* for its processing of the object
* \param[in] fields Flags specifying the fields to be retrieved to the
* callback \p op
*
* \return On success, returns the return value of the first operator
* that returns a positive value, or zero if all members were
* processed with no operator returning non-zero.
*
* \return On failure, returns a negative value if something goes wrong
* within the library, or the first negative value returned by
* an operator.
*
* \deprecated As of HDF5-1.12 this function has been deprecated in favor of
* the function H5Ovisit3() or the macro #H5Ovisit.
*
* \details H5Ovisit2() is a recursive iteration function to visit the
* object \p obj_id and, if \p obj_id is a group, all objects in
* and below it in an HDF5 file, thus providing a mechanism for
* an application to perform a common set of operations across all
* of those objects or a dynamically selected subset. For
* non-recursive iteration across the members of a group,
* see H5Literate1().
*
* If \p obj_id is a group identifier, that group serves as the
* root of a recursive iteration. If \p obj_id is a file identifier,
* that file’s root group serves as the root of the recursive
* iteration. If \p obj_id is an attribute identifier,
* then the object where the attribute is attached will be iterated.
* If \p obj_id is any other type of object, such as a dataset or
* named datatype, there is no iteration.
*
* Two parameters are used to establish the iteration: \p idx_type
* and \p order.
*
* \p idx_type specifies the index to be used. If the links in
* a group have not been indexed by the index type, they will
* first be sorted by that index then the iteration will begin;
* if the links have been so indexed, the sorting step will be
* unnecessary, so the iteration may begin more quickly. Valid
* values include the following:
*
* \indexes
*
* Note that the index type passed in \p idx_type is a
* best effort setting. If the application passes in
* a value indicating iteration in creation order and a group is
* encountered that was not tracked in creation order, that group
* will be iterated over in alpha-numeric order by name, or
* name order. (Name order is the native order
* used by the HDF5 library and is always available.)
*
* \p order specifies the order in which objects are to be inspected
* along the index specified in \p idx_type. Valid values include
* the following:
*
* \orders
*
* The prototype of the callback function op is as follows (as
* defined in the source code file H5Opublic.h):
*
* \snippet this H5O_iterate1_t_snip
*
* The parameters of this callback function have the following values
* or meanings:
*
*
* \c obj |
* Object that serves as root of the iteration;
* same value as the H5Ovisit1() \p obj_id parameter |
*
*
* \c name |
* Name of object, relative to \c obj, being examined at
* current step of the iteration |
*
*
* \c info |
* H5O_info1_t \c struct containing information
* regarding that object |
*
*
* \c op_data |
* User-defined pointer to data required by the application in
* processing the object; a pass-through of the \c op_data pointer
* provided with the H5Ovisit() function call |
*
*
*
* The H5O_info1_t \c struct is defined in H5Opublic.h and
* described in the H5Oget_info1() function entry.
*
* The return values from an operator are:
* - Zero causes the visit iterator to continue, returning zero when all
* group members have been processed.
* - A positive value causes the visit iterator to immediately return that
* positive value, indicating short-circuit success.
* - A negative value causes the visit iterator to immediately return that
* value, indicating failure.
*
* The H5Ovisit2() \p op_data parameter is a user-defined pointer to the data
* required to process objects in the course of the iteration. This pointer
* is passed back to each step of the iteration in the callback
* function’s \p op_data parameter.
*
* The \p fields parameter contains flags to determine which fields will
* be retrieved by the \p op callback function. These flags are defined
* in the H5Opublic.h file:
* \obj_info_fields
*
* H5Lvisit() and H5Ovisit() are companion functions: one for
* examining and operating on links; the other for examining
* and operating on the objects that those links point to. Both
* functions ensure that by the time the function completes
* successfully, every link or object below the specified point
* in the file has been presented to the application for whatever
* processing the application requires. These functions assume
* that the membership of the group being iterated over remains
* unchanged through the iteration; if any of the links in the
* group change during the iteration, the resulting behavior
* is undefined.
*
* \note \Bold{Programming Note for C++ Developers Using C Functions:}
* \note If a C routine that takes a function pointer as an argument is
* called from within C++ code, the C routine should be returned
* from normally.
*
* \note Examples of this kind of routine include callbacks such as
* H5Pset_elink_cb() and H5Pset_type_conv_cb() and
* functions such as H5Tconvert() and H5Ewalk2().
*
* \note Exiting the routine in its normal fashion allows the HDF5
* C library to clean up its work properly. In other words, if
* the C++ application jumps out of the routine back to the C++
* “catch” statement, the library is not given the opportunity
* to close any temporary data structures that were set up when
* the routine was called. The C++ application should save some
* state as the routine is started so that any problem that occurs
* might be diagnosed.
*
* \since 1.10.3
*
*/
H5_DLL herr_t H5Ovisit2(hid_t obj_id, H5_index_t idx_type, H5_iter_order_t order, H5O_iterate1_t op,
void *op_data, unsigned fields);
/**
*-------------------------------------------------------------------------
* \ingroup H5O
*
* \brief Recursively visits all objects starting from a specified object
*
* \fgdta_loc_obj_id{loc_id}
* \param[in] obj_name Name of the object, generally relative to
* \p loc_id, that will serve as root of the iteration
* \idx_type
* \order
* \param[in] op Callback function passing data regarding the object
* to the calling application
* \param[in] op_data User-defined pointer to data required by the application
* for its processing of the object
* \param[in] fields Flags specifying the fields to be retrieved to the
* callback function \p op
* \lapl_id
*
* \return On success, returns the return value of the first operator
* that returns a positive value, or zero if all members were
* processed with no operator returning non-zero.
*
* \return On failure, returns a negative value if something goes wrong
* within the library, or the first negative value returned by
* an operator.
*
* \deprecated As of HDF5-1.12 this function has been deprecated in favor of
* the function H5Ovisit_by_name3() or the macro #H5Ovisit_by_name.
*
* \details H5Ovisit_by_name2() is a recursive iteration function to visit
* the object specified by the \p loc_id / \p obj_name parameter
* pair and, if that object is a group, all objects in and below it
* in an HDF5 file, thus providing a mechanism for an application to
* perform a common set of operations across all of those objects or
* a dynamically selected subset. For non-recursive iteration across
* the members of a group, see #H5Literate.
*
* The object serving as the root of the iteration is specified
* by the \p loc_id / \p obj_name parameter pair. \p loc_id specifies
* a file or an object in a file; if \p loc_id is an attribute identifier,
* the object where the attribute is attached will be used.
* \p obj_name specifies either an object in the file (with an absolute
* name based in the file’s root group) or an object name relative
* to \p loc_id. If \p loc_id fully specifies the object that is to serve
* as the root of the iteration, \p obj_name should be '\c .' (a dot).
* (Note that when \p loc_id fully specifies the object that is to serve
* as the root of the iteration, the user may wish to consider
* using H5Ovisit2() instead of #H5Ovisit_by_name.)
*
* Two parameters are used to establish the iteration: \p idx_type
* and \p order.
*
* \p idx_type specifies the index to be used. If the links in
* a group have not been indexed by the index type, they will
* first be sorted by that index then the iteration will begin;
* if the links have been so indexed, the sorting step will be
* unnecessary, so the iteration may begin more quickly. Valid
* values include the following:
*
* \indexes
*
* Note that the index type passed in \p idx_type is a
* best effort setting. If the application passes in a
* value indicating iteration in creation order and a group is
* encountered that was not tracked in creation order, that group
* will be iterated over in alpha-numeric order by name, or
* name order. (Name order is the native order
* used by the HDF5 library and is always available.)
*
* \p order specifies the order in which objects are to be inspected
* along the index specified in \p idx_type. Valid values include
* the following:
*
* \orders
*
* The \p op callback function and the effect of the callback
* function’s return value on the application are described
* in H5Ovisit2().
*
* The H5O_info1_t \c struct is defined in H5Opublic.h
* and described in the H5Oget_info1() function entry.
*
* The H5Ovisit_by_name2() \p op_data parameter is a user-defined
* pointer to the data required to process objects in the course
* of the iteration. This pointer is passed back to each step of
* the iteration in the callback function’s \p op_data parameter.
*
* \p lapl_id is a link access property list. In the general case,
* when default link access properties are acceptable, this can
* be passed in as #H5P_DEFAULT. An example of a situation that
* requires a non-default link access property list is when
* the link is an external link; an external link may require
* that a link prefix be set in a link access property list
* (see H5Pset_elink_prefix()).
*
* The \p fields parameter contains flags to determine which fields will
* be retrieved by the \p op callback function. These flags are defined
* in the H5Opublic.h file:
* \obj_info_fields
*
* #H5Lvisit_by_name and #H5Ovisit_by_name are companion
* functions: one for examining and operating on links; the other
* for examining and operating on the objects that those links point to.
* Both functions ensure that by the time the function completes
* successfully, every link or object below the specified point
* in the file has been presented to the application for whatever
* processing the application requires.
*
* \note \Bold{Programming Note for C++ Developers Using C Functions:}
* \note If a C routine that takes a function pointer as an argument is
* called from within C++ code, the C routine should be returned
* from normally.
*
* \note Examples of this kind of routine include callbacks such as
* H5Pset_elink_cb() and H5Pset_type_conv_cb() and
* functions such as H5Tconvert() and H5Ewalk2().
*
* \note Exiting the routine in its normal fashion allows the HDF5
* C library to clean up its work properly. In other words, if
* the C++ application jumps out of the routine back to the C++
* “catch” statement, the library is not given the opportunity
* to close any temporary data structures that were set up when
* the routine was called. The C++ application should save some
* state as the routine is started so that any problem that occurs
* might be diagnosed.
*
* \since 1.10.3
*
*/
H5_DLL herr_t H5Ovisit_by_name2(hid_t loc_id, const char *obj_name, H5_index_t idx_type,
H5_iter_order_t order, H5O_iterate1_t op, void *op_data, unsigned fields,
hid_t lapl_id);
#endif /* H5_NO_DEPRECATED_SYMBOLS */
#ifdef __cplusplus
}
#endif
#endif /* _H5Opublic_H */