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(NYI = Not yet implemented) |
A group associates names with objects and provides a mechanism for mapping a name to an object. Since all objects appear in at least one group (with the possible exception of the root object) and since objects can have names in more than one group, the set of all objects in an HDF5 file is a directed graph. The internal nodes (nodes with out-degree greater than zero) must be groups while the leaf nodes (nodes with out-degree zero) are either empty groups or objects of some other type. Exactly one object in every non-empty file is the root object. The root object always has a positive in-degree because it is pointed to by the file boot block.
Every file identifier returned by H5Fcreate
or
H5Fopen
maintains an independent current working group
stack, the top item of which is the current working group. The
stack can be manipulated with H5Gset
, H5Gpush
,
and H5Gpop
. The root object is the current working group
if the stack is empty.
An object name consists of one or more components separated from one another by slashes. An absolute name begins with a slash and the object is located by looking for the first component in the root object, then looking for the second component in the first object, etc., until the entire name is traversed. A relative name does not begin with a slash and the traversal begins with the current working group.
The library does not maintain the full absolute name of its current
working group because (1) cycles in the graph can make the name length
unbounded and (2) a group does not necessarily have a unique name. A
more Unix-like hierarchical naming scheme can be implemented on top of
the directed graph scheme by creating a ".." entry in each group that
points to its single predecessor; a getcwd
function would
then be trivial.
H5Gcreate
(hid_t loc_id
,
const char *name
,
size_t size_hint
)
H5Gcreate
creates a new group with the specified
name at the specified location, loc_id
.
The location is identified by a file or group identifier.
The name, name
, must not already be taken by some
other object and all parent groups must already exist.
size_hint
is a hint for the number of bytes to
reserve to store the names which will be eventually added to
the new group. Passing a value of zero for size_hint
is usually adequate since the library is able to dynamically
resize the name heap, but a correct hint may result in better
performance.
If a non-positive value is supplied for size_hint,
then a default size is chosen.
The return value is a group identifier for the open group.
This group identifier should be closed by calling
H5Gclose()
when it is no longer needed.
loc_id
name
size_hint
H5Gopen
(hid_t loc_id
,
const char *name
)
H5Gopen
opens an existing group with the specified name at
the specified location, loc_id
.
The location is identified by a file or
group identifier, and returns a group identifier for the group.
The obtained group identifier should be released by calling
H5Gclose()
when it is no longer needed.
loc_id
name
H5Gset
(hid_t loc_id
,
const char *name
)
H5Gset
sets the group with the specified name
to be the current working group for the file which contains it.
This function sets the current working group by modifying the
top element of the current working group stack or, if the
stack is empty, by pushing a new element onto the stack.
The initial current working group is the root group.
loc_id
can be a file identifier or a group identifier.
name
is an absolute or relative name and is resolved as follows. Each file identifier
has a current working group, initially the root group of the
file. Relative names do not begin with a slash and are relative
to the specified group or to the current working group.
Absolute names begin with a slash and are relative to the file's
root group. For instance, the name /Foo/Bar/Baz
is
resolved by first looking up Foo
in the root group;
the name Foo/Bar/Baz
is resolved by first looking
up the name Foo
in the current working group.
Each file identifier maintains its own notion of the current
working group. If loc_id
is a group identifier, the
file identifier is derived from the group identifier.
If a single file is opened with multiple calls to H5Fopen()
,
which would return multiple file identifiers, then each
identifier's current working group can be set independently
of the other file identifiers for that file.
loc_id
name
H5Gpush
(hid_t loc_id
,
const char *name
)
H5Gpush
pushes a new group
onto the stack, thus setting a new current working group.
loc_id
name
H5Gpop
(hid_t loc_id
)
H5Gpop
restores the previous current working group by
popping an element from the current working group stack.
An empty stack implies that the current working group is the root
object. Attempting to pop an empty stack results in failure.
Each file identfier maintains its own notion of the current
working group. That is, if a single file is opened with
multiple calls to H5Fopen()
, which returns multiple file
handles, then each identfier's current working group can be
set independently of the other file identfiers for that file.
If loc_id
is a group identifier, it is used only to determine the
file identifier for the stack from which to pop the top entry.
loc_id
H5Gclose
(hid_t group_id
)
H5Gclose
releases resources used by a group which was
opened by H5Gcreate()
or H5Gopen()
.
After closing a group, the group_id
cannot be used again.
Failure to release a group with this call will result in resource leaks.
group_id
H5Glink
(hid_t loc_id
,
H5G_link_t link_type
,
const char *current_name
,
const char *new_name
)
new_name
to current_name
.
H5Glink
creates a new name for an object that has some current
name, possibly one of many names it currently has.
If link_type
is H5G_LINK_HARD
, then
current_name
must name an existing object and both
names are interpreted relative to loc_id
, which is
either a file identifier or a group identifier.
If link_type
is H5G_LINK_SOFT
, then
current_name
can be anything and is interpreted at
lookup time relative to the group which contains the final
component of new_name
. For instance, if
current_name
is ./foo
,
new_name
is ./x/y/bar
, and a request
is made for ./x/y/bar
, then the actual object looked
up is ./x/y/./foo
.
loc_id
link_type
H5G_LINK_HARD
and H5G_LINK_SOFT
.
current_name
new_name
H5Gunlink
(hid_t loc_id
,
const char *name
)
name
from the group graph and
decrements the link count for the object to which name
points
H5Gunlink
removes an association between a name and an object.
Object headers keep track of how many hard links refer to the object;
when the hard link count reaches zero, the object can be removed
from the file. Objects which are open are not removed until all
identifiers to the object are closed.
If the link count reaches zero, all file-space associated with the object will be reclaimed. If the object is open, the reclamation of the file space is delayed until all handles to the object are closed.
loc_id
name
H5Giterate
(hid_t loc_id
,
const char *name
,
int *idx
,
H5G_operator_t operator
,
void *operator_data
)
H5Giterate
iterates over the members of
name
in the file or group specified with
loc_id
.
For each object in the group, the operator_data
and some additional information, specified below, are
passed to the operator
function.
The iteration begins with the idx
object in the
group and the next element to be processed by the operator is
returned in idx
. If idx
is NULL, then the iterator starts at the first group member;
since no stopping point is returned in this case, the iterator
cannot be restarted if one of the calls to its operator returns
non-zero.
The prototype for H5G_operator_t
is:
typedef
herr_t *(H5G_operator_t
)(hid_t group_id
,
const char *member_name
, void *operator_data/*in,out*/
);
group_id
, the name of the current
object within the group, member_name
, and the
pointer to the operator data passed in to H5Giterate
,
operator_data
.
The return values from an operator are:
loc_id
*name
*idx
operator
*operator_data
H5Gmove
(hid_t loc_id
,
const char *src
,
const char *dst
)
H5Gmove
renames an object within an HDF5 file.
The original name, src
, is unlinked from the
group graph and the new name, dst
, is inserted
as an atomic operation. Both names are interpreted relative
to loc_id
, which is either a file or a group
identifier.
loc_id
*src
*dst
H5Gget_objinfo
(hid_t loc_id
,
const char *name
,
hbool_t follow_link
,
H5G_stat_t *statbuf
)
H5Gget_objinfo
returns information about the
specified object through the statbuf
argument.
loc_id
(a file, group, or dataset identifier) and
name
together determine the object.
If the object is a symbolic link and follow_link
is
zero (0
), then the information returned is that for the link itself;
otherwise the link is followed and information is returned about
the object to which the link points.
If follow_link
is non-zero but the final symbolic link
is dangling (does not point to anything), then an error is returned.
The statbuf
fields are undefined for an error.
The existence of an object can be tested by calling this function
with a null statbuf
.
H5Gget_objinfo()
fills in the following data structure:
typedef struct H5G_stat_t { unsigned long fileno; haddr_t objno; unsigned nlink; H5G_obj_t type; time_t mtime; size_t linklen; } H5G_stat_tThe
fileno
and objno
fields contain
values which uniquely itentify an object among those
HDF5 files which are open: if both values are the same
between two objects, then the two objects are the same
(provided both files are still open).
The nlink
field is the number of hard links to
the object or zero when information is being returned about a
symbolic link (symbolic links do not have hard links but
all other objects always have at least one).
The type
field contains the type of the object,
one of H5G_GROUP
, H5G_DATASET
,
or H5G_LINK
.
The mtime
field contains the modification time.
If information is being returned about a symbolic link then
linklen
will be the length of the link value
(the name of the pointed-to object with the null terminator);
otherwise linklen
will be zero.
Other fields may be added to this structure in the future.
mtime
value of 0 (zero).
loc_id
*name
follow_link
*statbuf
statbuf
(if non-null) initialized.
Otherwise returns FAIL (-1).
H5Gget_linkval
(hid_t loc_id
,
const char *name
,
size_t size
,
char *value
)
H5Gget_linkval
returns size
characters of the link value through the value
argument if loc_id
(a file or group identifier)
and name
specify a symbolic link.
If size
is smaller than the link value, then
value
will not be null terminated.
This function fails if the specified object is not a symbolic link.
The presence of a symbolic link can be tested by passing zero for
size
and NULL for value
.
Use H5Gget_objinfo()
to get the size of a link value.
loc_id
name
size
value
to be returned.
value
value
,
if successful.
Otherwise returns FAIL (-1).
H5Gset_comment
(hid_t loc_id
,
const char *name
,
const char *comment
)
H5Gset_comment
sets the comment for the the
object name
to comment
.
Any previously existing comment is overwritten.
If comment
is the empty string or a
null pointer, the 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, e.g., data sets, groups, named data types, and data spaces, but not symbolic links.
loc_id
name
comment
H5Gget_comment
(hid_t loc_id
,
const char *name
,
size_t bufsize
,
char *comment
)
H5Gget_comment
retrieves the comment for the the
object name
. The comment is returned in the buffer
comment
.
At most bufsize
characters, including a null
terminator, are copied. The result is not null terminated
if the comment is longer than the supplied buffer.
If an object does not have a comment, the empty string is returned.
loc_id
name
bufsize
comment
.
comment
bufsize
.
Otherwise returns FAIL (-1).