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|
/****************************************************************************
* NCSA HDF *
* Software Development Group *
* National Center for Supercomputing Applications *
* University of Illinois at Urbana-Champaign *
* 605 E. Springfield, Champaign IL 61820 *
* *
* For conditions of distribution and use, see the accompanying *
* hdf/COPYING file. *
* *
****************************************************************************/
#ifdef RCSID
static char RcsId[] = "@(#)$Revision$";
#endif
/* $Id$ */
/*
FILE
atom.c - Internal storage routines for handling "atoms"
REMARKS
Atoms are just ID's which allow objects (void *'s currently) to be
bundled into "groups" for more general storage.
DESIGN
The groups are stored in an array of pointers to store each group in an
element. Each "atomic group" node contains a link to a hash table to
manage the atoms in each group. The allowed "atomic groups" are stored
in an enum (called group_t) in atom.h.
BUGS/LIMITATIONS
Can't interate over the atoms in a group.
LOCAL ROUTINES
H5A_find_atom - Returns a pointer to an atom_info_t from a atom ID
H5A_get_atom_node - Gets an atom node (uses the atom free list)
H5A_release_atom_node - Releases an atom node (uses the atom free list)
EXPORTED ROUTINES
Atom Functions:
H5Aregister_atom - Register an object in a group and get an atom for it
H5Aatom_object - Get the object for an atom
H5Aatom_group - Get the group for an atom
H5Aremove_atom - Remove an atom from a group
H5Asearch_atom - Search a group for a particular object
H5Ais_reserved - Check whether an atom is a reserved atom in a group
Atom Group Functions:
H5Ainit_group - Initialize a group to store atoms in
H5Adestroy_group - Destroy an atomic group
Atom Group Cleanup:
H5Ashutdown - Terminate various static buffers.
AUTHOR
Quincey Koziol
MODIFICATION HISTORY
1/3/96 - Starting writing specs & coding prototype
1/7/96 - Finished coding prototype
6/10/97 - Moved into HDF5 library
*/
#define HDF5_ATOM_MASTER
#include "hdf5.h"
#include "H5Aprivate.h"
/* Private function prototypes */
static atom_info_t *H5A_find_atom(hatom_t atm);
static atom_info_t *H5A_get_atom_node(void);
static void H5A_release_atom_node(atom_info_t *atm);
/******************************************************************************
NAME
H5Ainit_group - Initialize an atomic group
DESCRIPTION
Creates a global atomic group to store atoms in. If the group has already
been initialized, this routine just increments the count of # of
initializations and returns without trying to change the size of the hash
table. A specific number of group entries may be reserved to enable
"constant" values to be handed out which are valid atoms in the group, but
which do not map to any data structures and are not allocated dynamicly
later.
RETURNS
Returns SUCCEED if successful and FAIL otherwise
*******************************************************************************/
intn H5Ainit_group(group_t grp, /* IN: Group to initialize */
intn hash_size, /* IN: Minimum hash table size to use for group */
uintn reserved /* IN: Number of hash table entries to reserve */
)
{
#ifdef LATER
CONSTR(FUNC, "H5Ainit_group"); /* for HERROR */
#endif /* LATER */
atom_group_t *grp_ptr=NULL; /* ptr to the atomic group */
intn ret_value=SUCCEED;
PABLO_TRACE_ON(H5A_mask, ID_H5Ainit_group);
if((grp<=BADGROUP || grp>=MAXGROUP) && hash_size>0)
HGOTO_DONE(FAIL);
#ifdef HASH_SIZE_POWER_2
/* If anyone knows a faster test for a power of two, please change this silly code -QAK */
if(!(hash_size==2 || hash_size==4 || hash_size==8 || hash_size==16
|| hash_size==32 || hash_size==64 || hash_size==128 || hash_size==256
|| hash_size==512 || hash_size==1024 || hash_size==2048
|| hash_size==4096 || hash_size==8192 || hash_size==16374
|| hash_size==32768 || hash_size==65536 || hash_size==131072
|| hash_size==262144 || hash_size==524288 || hash_size==1048576
|| hash_size==2097152 || hash_size==4194304 || hash_size==8388608
|| hash_size==16777216 || hash_size==33554432 || hash_size==67108864
|| hash_size==134217728 || hash_size==268435456))
HGOTO_DONE(FAIL);
#endif /* HASH_SIZE_POWER_2 */
if(atom_group_list[grp]==NULL)
{ /* Allocate the group information */
grp_ptr=(atom_group_t *)HDcalloc(1,sizeof(atom_group_t));
if(grp_ptr==NULL)
HGOTO_DONE(FAIL);
atom_group_list[grp]=grp_ptr;
} /* end if */
else /* Get the pointer to the existing group */
grp_ptr=atom_group_list[grp];
if(grp_ptr->count==0)
{ /* Initialize the atom group structure */
grp_ptr->hash_size=hash_size;
grp_ptr->reserved=reserved;
grp_ptr->wrapped=0;
grp_ptr->atoms=0;
grp_ptr->nextid=0;
if((grp_ptr->atom_list=(atom_info_t **)HDcalloc(hash_size,sizeof(atom_info_t *)))==NULL)
HGOTO_DONE(FAIL);
} /* end if */
/* Increment the count of the times this group has been initialized */
grp_ptr->count++;
#ifdef QAK
printf("%s: group ID=%d, count=%d, current # of active atoms=%d\n",FUNC,grp,grp_ptr->count,grp_ptr->atoms);
#endif /* QAK */
done:
if(ret_value == FAIL)
{ /* Error condition cleanup */
if(grp_ptr!=NULL)
{
if(grp_ptr->atom_list!=NULL)
HDfree(grp_ptr->atom_list);
HDfree(grp_ptr);
} /* end if */
} /* end if */
/* Normal function cleanup */
FUNC_LEAVE(H5A_mask, ID_H5Ainit_group, ret_value);
} /* end H5Ainit_group() */
/******************************************************************************
NAME
H5Adestroy_group - Destroy an atomic group
DESCRIPTION
Destroys an atomic group which atoms are stored in. If the group still
has atoms which are registered, this routine fails. If there have been
multiple initializations of the group, this routine just decrements the
count of initializations and does not check the atoms out-standing.
RETURNS
Returns SUCCEED if successful and FAIL otherwise
*******************************************************************************/
intn H5Adestroy_group(group_t grp /* IN: Group to destroy */
)
{
#ifdef LATER
CONSTR(FUNC, "H5Adestroy_group"); /* for HERROR */
#endif /* LATER */
atom_group_t *grp_ptr=NULL; /* ptr to the atomic group */
intn ret_value=SUCCEED;
PABLO_TRACE_ON(H5A_mask, ID_H5Adestroy_group);
if(grp<=BADGROUP || grp>=MAXGROUP)
HGOTO_DONE(FAIL);
grp_ptr=atom_group_list[grp];
if(grp_ptr==NULL || grp_ptr->count<=0)
HGOTO_DONE(FAIL);
#ifdef QAK
printf("%s: group ID=%d, count=%d, current # of active atoms=%d\n",FUNC,grp,grp_ptr->count,grp_ptr->atoms);
#endif /* QAK */
/* Decrement the number of users of the atomic group */
if((--(grp_ptr->count))==0)
{
#ifdef ATOMS_ARE_CACHED
{
uintn i;
for(i=0; i<ATOM_CACHE_SIZE; i++)
if(ATOM_TO_GROUP(atom_id_cache[i])==grp)
{
atom_id_cache[i]=(-1);
atom_obj_cache[i]=NULL;
} /* end if */
} /* end block */
#endif /* ATOMS_ARE_CACHED */
HDfree(grp_ptr->atom_list);
} /* end if */
done:
if(ret_value == FAIL)
{ /* Error condition cleanup */
} /* end if */
/* Normal function cleanup */
FUNC_LEAVE(H5A_mask, ID_H5Adestroy_group, ret_value);
} /* end H5Adestroy_group() */
/******************************************************************************
NAME
H5Aregister_atom - Register an object in a group and get an atom for it.
DESCRIPTION
Registers an object in a group and returns an atom for it. This routine
does _not_ check for unique-ness of the objects, if you register an object
twice, you will get two different atoms for it. This routine does make
certain that each atom in a group is unique. Atoms are created by getting
a unique number for the group the atom is in and incorporating the group
into the atom which is returned to the user.
RETURNS
Returns atom if successful and FAIL otherwise
*******************************************************************************/
hatom_t H5Aregister_atom(group_t grp, /* IN: Group to register the object in */
const VOIDP object /* IN: Object to attach to atom */
)
{
#ifdef LATER
CONSTR(FUNC, "H5Aregister_atom"); /* for HERROR */
#endif /* LATER */
atom_group_t *grp_ptr=NULL; /* ptr to the atomic group */
atom_info_t *atm_ptr=NULL; /* ptr to the new atom */
hatom_t atm_id; /* new atom ID */
uintn hash_loc; /* new item's hash table location */
hatom_t ret_value=SUCCEED;
PABLO_TRACE_ON(H5A_mask, ID_H5Aregister_atom);
if(grp<=BADGROUP || grp>=MAXGROUP)
HGOTO_DONE(FAIL);
grp_ptr=atom_group_list[grp];
if(grp_ptr==NULL || grp_ptr->count<=0)
HGOTO_DONE(FAIL);
if((atm_ptr=H5A_get_atom_node())==NULL)
HGOTO_DONE(FAIL);
/* Create the atom & it's ID */
atm_id=MAKE_ATOM(grp,grp_ptr->nextid);
atm_ptr->id=atm_id;
atm_ptr->obj_ptr=object;
atm_ptr->next=NULL;
/* hash bucket already full, prepend to front of chain */
hash_loc=grp_ptr->nextid%(uintn)grp_ptr->hash_size;
if(grp_ptr->atom_list[hash_loc]!=NULL)
atm_ptr->next=grp_ptr->atom_list[hash_loc];
/* Insert into the group */
grp_ptr->atom_list[hash_loc]=atm_ptr;
grp_ptr->atoms++;
grp_ptr->nextid++;
/*
* This next section of code checks for the 'nextid' getting too large and
* wrapping around, thus necessitating checking for duplicate atoms being
* handed out.
*/
if(grp_ptr->nextid>(uintn)ATOM_MASK || grp_ptr->wrapped!=0)
{
if(grp_ptr->wrapped==0)
{
grp_ptr->wrapped=1; /* set the "wrapped around" flag if it isn't already */
grp_ptr->nextid=grp_ptr->reserved; /* re-start the ID counter */
} /* end if */
do {
hatom_t next_atom=MAKE_ATOM(grp,grp_ptr->nextid); /* new atom to check for */
atom_info_t *curr_atm; /* ptr to the current atom */
curr_atm=grp_ptr->atom_list[(uintn)ATOM_TO_LOC(grp_ptr->nextid,grp_ptr->hash_size)];
if(curr_atm==NULL) /* Ha! this is not likely... */
break;
while(curr_atm!=NULL)
{
if(curr_atm->id==next_atom)
break;
curr_atm=curr_atm->next;
} /* end while */
if(curr_atm==NULL) /* must not have found a match */
break;
grp_ptr->nextid++;
} while(grp_ptr->nextid<=(uintn)ATOM_MASK);
if(grp_ptr->nextid>(uintn)ATOM_MASK) /* All the atoms are gone! */
HGOTO_DONE(FAIL);
} /* end if */
ret_value=atm_id;
done:
if(ret_value == FAIL)
{ /* Error condition cleanup */
} /* end if */
/* Normal function cleanup */
FUNC_LEAVE(H5A_mask, ID_H5Aregister_atom, ret_value);
} /* end H5Aregister_atom() */
/******************************************************************************
NAME
H5Aatom_object - Returns to the object ptr for the atom
DESCRIPTION
Retrieves the object ptr which is associated with the atom.
RETURNS
Returns object ptr if successful and NULL otherwise
*******************************************************************************/
VOIDP H5Aatom_object(hatom_t atm /* IN: Atom to retrieve object for */
)
{
#ifdef LATER
CONSTR(FUNC, "H5Aatom_object"); /* for HERROR */
#endif /* LATER */
#ifdef ATOMS_ARE_CACHED
uintn i; /* local counter */
#endif /* ATOMS_ARE_CACHED */
atom_info_t *atm_ptr=NULL; /* ptr to the new atom */
VOIDP ret_value=NULL;
PABLO_TRACE_ON(H5A_mask, ID_H5Aatom_object);
#ifdef ATOMS_ARE_CACHED
/* Look for the atom in the cache first */
for(i=0; i<ATOM_CACHE_SIZE; i++)
if(atom_id_cache[i]==atm)
{
ret_value=atom_obj_cache[i];
if(i>0)
{ /* Implement a simple "move forward" caching scheme */
hatom_t t_atom=atom_id_cache[i-1];
VOIDP t_obj=atom_obj_cache[i-1];
atom_id_cache[i-1]=atom_id_cache[i];
atom_obj_cache[i-1]=atom_obj_cache[i];
atom_id_cache[i]=t_atom;
atom_obj_cache[i]=t_obj;
} /* end if */
HGOTO_DONE(ret_value);
} /* end if */
#endif /* ATOMS_ARE_CACHED */
/* General lookup of the atom */
if((atm_ptr=H5A_find_atom(atm))==NULL)
HGOTO_DONE(NULL);
/* Check if we've found the correct atom */
if(atm_ptr!=NULL)
ret_value=atm_ptr->obj_ptr;
done:
if(ret_value == NULL)
{ /* Error condition cleanup */
} /* end if */
/* Normal function cleanup */
FUNC_LEAVE(H5A_mask, ID_H5Aatom_object, ret_value);
} /* end H5Aatom_object() */
/******************************************************************************
NAME
H5Aatom_group - Returns to the group for the atom
DESCRIPTION
Retrieves the group which is associated with the atom.
RETURNS
Returns group if successful and BADGROUP otherwise
*******************************************************************************/
group_t H5Aatom_group(hatom_t atm /* IN: Atom to retrieve group for */
)
{
#ifdef LATER
CONSTR(FUNC, "H5Aatom_group"); /* for HERROR */
#endif /* LATER */
group_t ret_value=BADGROUP;
PABLO_TRACE_ON(H5A_mask, ID_H5Aatom_group);
ret_value=ATOM_TO_GROUP(atm);
if(ret_value<=BADGROUP || ret_value>=MAXGROUP)
HGOTO_DONE(BADGROUP);
done:
if(ret_value == BADGROUP)
{ /* Error condition cleanup */
} /* end if */
/* Normal function cleanup */
FUNC_LEAVE(H5A_mask, ID_H5Aatom_group, ret_value);
} /* end H5Aatom_group() */
/******************************************************************************
NAME
H5Aremove_atom - Removes an atom from a group
DESCRIPTION
Removes an atom from a group.
RETURNS
Returns atom's object if successful and NULL otherwise
*******************************************************************************/
VOIDP H5Aremove_atom(hatom_t atm /* IN: Atom to remove */
)
{
#ifdef LATER
CONSTR(FUNC, "H5Aremove_atom"); /* for HERROR */
#endif /* LATER */
atom_group_t *grp_ptr=NULL; /* ptr to the atomic group */
atom_info_t *curr_atm, /* ptr to the current atom */
*last_atm; /* ptr to the last atom */
group_t grp; /* atom's atomic group */
uintn hash_loc; /* atom's hash table location */
#ifdef ATOMS_ARE_CACHED
uintn i; /* local counting variable */
#endif /* ATOMS_ARE_CACHED */
VOIDP ret_value=NULL;
PABLO_TRACE_ON(H5A_mask, ID_H5Aremove_atom);
grp=ATOM_TO_GROUP(atm);
if(grp<=BADGROUP || grp>=MAXGROUP)
HGOTO_DONE(NULL);
grp_ptr=atom_group_list[grp];
if(grp_ptr==NULL || grp_ptr->count<=0)
HGOTO_DONE(NULL);
/* Get the location in which the atom is located */
hash_loc=(uintn)ATOM_TO_LOC(atm,grp_ptr->hash_size);
curr_atm=grp_ptr->atom_list[hash_loc];
if(curr_atm==NULL)
HGOTO_DONE(NULL);
last_atm=NULL;
while(curr_atm!=NULL)
{
if(curr_atm->id==atm)
break;
last_atm=curr_atm;
curr_atm=curr_atm->next;
} /* end while */
if(curr_atm!=NULL)
{
if(last_atm==NULL) /* atom is the first the chain */
grp_ptr->atom_list[hash_loc]=curr_atm->next;
else
last_atm->next=curr_atm->next;
ret_value=curr_atm->obj_ptr;
H5A_release_atom_node(curr_atm);
} /* end if */
else /* couldn't find the atom in the proper place */
HGOTO_DONE(NULL);
#ifdef ATOMS_ARE_CACHED
/* Delete object from cache */
for(i=0; i<ATOM_CACHE_SIZE; i++)
if(atom_id_cache[i]==atm)
{
atom_id_cache[i]=(-1);
atom_obj_cache[i]=NULL;
break; /* we assume there is only one instance in the cache */
} /* end if */
#endif /* ATOMS_ARE_CACHED */
/* Decrement the number of atoms in the group */
(grp_ptr->atoms)--;
done:
if(ret_value == NULL)
{ /* Error condition cleanup */
} /* end if */
/* Normal function cleanup */
FUNC_LEAVE(H5A_mask, ID_H5Aremove_atom, ret_value);
} /* end H5Aremove_atom() */
/******************************************************************************
NAME
H5Asearch_atom - Search for an object in a group and get it's pointer.
DESCRIPTION
Searchs for an object in a group and returns the pointer to it.
This routine calls the function pointer passed in for each object in the
group until it finds a match. Currently there is no way to resume a
search.
RETURNS
Returns pointer an atom's object if successful and NULL otherwise
*******************************************************************************/
VOIDP H5Asearch_atom(group_t grp, /* IN: Group to search for the object in */
H5Asearch_func_t func, /* IN: Ptr to the comparison function */
const VOIDP key /* IN: pointer to key to compare against */
)
{
#ifdef LATER
CONSTR(FUNC, "H5Asearch_atom"); /* for HERROR */
#endif /* LATER */
atom_group_t *grp_ptr=NULL; /* ptr to the atomic group */
atom_info_t *atm_ptr=NULL; /* ptr to the new atom */
intn i; /* local counting variable */
VOIDP ret_value=NULL;
PABLO_TRACE_ON(H5A_mask, ID_H5Asearch_atom);
if(grp<=BADGROUP || grp>=MAXGROUP)
HGOTO_DONE(NULL);
grp_ptr=atom_group_list[grp];
if(grp_ptr==NULL || grp_ptr->count<=0)
HGOTO_DONE(NULL);
/* Start at the beginning of the array */
for(i=0; i<grp_ptr->hash_size; i++)
{
atm_ptr=grp_ptr->atom_list[i];
while(atm_ptr!=NULL)
{
if((*func)(atm_ptr->obj_ptr,key))
HGOTO_DONE(atm_ptr->obj_ptr); /* found the item we are looking for */
atm_ptr=atm_ptr->next;
} /* end while */
} /* end for */
done:
if(ret_value == NULL)
{ /* Error condition cleanup */
} /* end if */
/* Normal function cleanup */
FUNC_LEAVE(H5A_mask, ID_H5Asearch_atom, ret_value);
} /* end H5Asearch_atom() */
/******************************************************************************
NAME
H5Ais_reserved - Check whether an atom is a reserved atom in a group
DESCRIPTION
Determines the group an atom belongs to and checks if the atom is a
reserved atom in the group.
RETURNS
Returns BTRUE/BFALSE/BFAIL
*******************************************************************************/
intn H5Ais_reserved(hatom_t atm /* IN: Group to search for the object in */
)
{
#ifdef LATER
CONSTR(FUNC, "H5Ais_reserved"); /* for HERROR */
#endif /* LATER */
atom_group_t *grp_ptr=NULL; /* ptr to the atomic group */
group_t grp; /* atom's atomic group */
hbool_t ret_value=BFAIL;
PABLO_TRACE_ON(H5A_mask, ID_H5Ais_reserved);
grp=ATOM_TO_GROUP(atm);
if(grp<=BADGROUP || grp>=MAXGROUP)
HGOTO_DONE(BFAIL);
grp_ptr=atom_group_list[grp];
if(grp_ptr==NULL)
HGOTO_DONE(BFAIL);
/* Get the location in which the atom is located */
if((atm&ATOM_MASK)<grp_ptr->reserved)
ret_value=BTRUE;
else
ret_value=BFALSE;
done:
if(ret_value == BFAIL)
{ /* Error condition cleanup */
} /* end if */
/* Normal function cleanup */
FUNC_LEAVE(H5A_mask, ID_H5Ais_reserved, ret_value);
} /* end H5Ais_reserved() */
/******************************************************************************
NAME
H5A_find_atom - Finds a atom in a group
DESCRIPTION
Retrieves the atom ptr which is associated with the atom.
RETURNS
Returns atom ptr if successful and NULL otherwise
*******************************************************************************/
static atom_info_t *H5A_find_atom(hatom_t atm /* IN: Atom to retrieve atom for */
)
{
#ifdef LATER
CONSTR(FUNC, "H5A_find_atom"); /* for HERROR */
#endif /* LATER */
atom_group_t *grp_ptr=NULL; /* ptr to the atomic group */
atom_info_t *atm_ptr=NULL; /* ptr to the new atom */
group_t grp; /* atom's atomic group */
uintn hash_loc; /* atom's hash table location */
atom_info_t *ret_value=NULL;
grp=ATOM_TO_GROUP(atm);
if(grp<=BADGROUP || grp>=MAXGROUP)
HGOTO_DONE(NULL);
grp_ptr=atom_group_list[grp];
if(grp_ptr==NULL || grp_ptr->count<=0)
HGOTO_DONE(NULL);
/* Get the location in which the atom is located */
hash_loc=(uintn)ATOM_TO_LOC(atm,grp_ptr->hash_size);
atm_ptr=grp_ptr->atom_list[hash_loc];
if(atm_ptr==NULL)
HGOTO_DONE(NULL);
while(atm_ptr!=NULL)
{
if(atm_ptr->id==atm)
break;
atm_ptr=atm_ptr->next;
} /* end while */
ret_value=atm_ptr;
#ifdef ATOMS_ARE_CACHED
atom_id_cache[ATOM_CACHE_SIZE-1]=atm;
atom_obj_cache[ATOM_CACHE_SIZE-1]=atm_ptr->obj_ptr;
#endif /* ATOMS_ARE_CACHED */
done:
if(ret_value == NULL)
{ /* Error condition cleanup */
} /* end if */
/* Normal function cleanup */
return ret_value;
} /* end H5A_find_atom() */
/******************************************************************************
NAME
H5A_get_atom_node - Gets an atom node
DESCRIPTION
Either gets an atom node from the free list (if there is one available)
or allocate a node.
RETURNS
Returns atom ptr if successful and NULL otherwise
*******************************************************************************/
static atom_info_t *H5A_get_atom_node(void)
{
#ifdef LATER
CONSTR(FUNC, "H5A_get_atom_node"); /* for HERROR */
#endif /* LATER */
atom_info_t *ret_value=NULL;
if(atom_free_list!=NULL)
{
ret_value=atom_free_list;
atom_free_list=atom_free_list->next;
} /* end if */
else
{
if((ret_value=(atom_info_t *)HDmalloc(sizeof(atom_info_t)))==NULL)
HGOTO_DONE(NULL);
} /* end else */
done:
if(ret_value == NULL)
{ /* Error condition cleanup */
} /* end if */
/* Normal function cleanup */
return ret_value;
} /* end H5A_get_atom_node() */
/******************************************************************************
NAME
H5A_release_atom_node - Releases an atom node
DESCRIPTION
Puts an atom node into the free list
RETURNS
No return value
*******************************************************************************/
static void H5A_release_atom_node(atom_info_t *atm)
{
#ifdef LATER
CONSTR(FUNC, "H5A_release_atom_node"); /* for HERROR */
#endif /* LATER */
/* Insert the atom at the beginning of the free list */
atm->next=atom_free_list;
atom_free_list=atm;
} /* end H5A_release_atom_node() */
/*--------------------------------------------------------------------------
NAME
H5Ashutdown
PURPOSE
Terminate various static buffers.
USAGE
intn H5Ashutdown()
RETURNS
Returns SUCCEED/FAIL
DESCRIPTION
Free various buffers allocated in the H5A routines.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
Should only ever be called by the "atexit" function HDFend
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
intn
H5Ashutdown(void)
{
atom_info_t *curr;
intn i;
/* Release the free-list if it exists */
if(atom_free_list!=NULL)
{
while(atom_free_list!=NULL)
{
curr=atom_free_list;
atom_free_list=atom_free_list->next;
HDfree(curr);
} /* end while */
} /* end if */
for(i=0; i<(intn)MAXGROUP; i++)
if(atom_group_list[i]!=NULL)
{
HDfree(atom_group_list[i]);
atom_group_list[i]=NULL;
} /* end if */
return (SUCCEED);
} /* end H5Ashutdown() */
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