hdf5/test/ttst.c

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/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* 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 files COPYING and Copyright.html. COPYING can be found at the root *
* of the source code distribution tree; Copyright.html can be found at the *
* root level of an installed copy of the electronic HDF5 document set and *
* is linked from the top-level documents page. It can also be found at *
* http://hdf.ncsa.uiuc.edu/HDF5/doc/Copyright.html. If you do not have *
* access to either file, you may request a copy from hdfhelp@ncsa.uiuc.edu. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
[svn-r6252] Purpose: Lots of performance improvements & a couple new internal API interfaces. Description: Performance Improvements: - Cached file offset & length sizes in shared file struct, to avoid constantly looking them up in the FCPL. - Generic property improvements: - Added "revision" number to generic property classes to speed up comparisons. - Changed method of storing properties from using a hash-table to the TBBT routines in the library. - Share the propery names between classes and the lists derived from them. - Removed redundant 'def_value' buffer from each property. - Switching code to use a "copy on write" strategy for properties in each list, where the properties in each list are shared with the properties in the class, until a property's value is changed in a list. - Fixed error in layout code which was allocating too many buffers. - Redefined public macros of the form (H5open()/H5check, <variable>) internally to only be (<variable>), avoiding innumerable useless calls to H5open() and H5check_version(). - Reuse already zeroed buffers in H5F_contig_fill instead of constantly re-zeroing them. - Don't write fill values if writing entire dataset. - Use gettimeofday() system call instead of time() system when checking the modification time of a dataset. - Added reference counted string API and use it for tracking the names of objects opening in a file (for the ID->name code). - Removed redundant H5P_get() calls in B-tree routines. - Redefine H5T datatype macros internally to the library, to avoid calling H5check redundantly. - Keep dataspace information for dataset locally instead of reading from disk each time. Added new module to track open objects in a file, to allow this (which will be useful eventually for some FPH5 metadata caching issues). - Remove H5AC_find macro which was inlining metadata cache lookups, and call function instead. - Remove redundant memset() calls from H5G_namei() routine. - Remove redundant checking of object type when locating objects in metadata cache and rely on the address only. - Create default dataset object to use when default dataset creation property list is used to create datasets, bypassing querying for all the property list values. - Use default I/O vector size when performing raw data with the default dataset transfer property list, instead of querying for I/O vector size. - Remove H5P_DEFAULT internally to the library, replacing it with more specific default property list based on the type of property list needed. - Remove redundant memset() calls in object header message (H5O*) routines. - Remove redunant memset() calls in data I/O routines. - Split free-list allocation routines into malloc() and calloc()- like routines, instead of one combined routine. - Remove lots of indirection in H5O*() routines. - Simplify metadata cache entry comparison routine (used when flushing entire cache out). - Only enable metadata cache statistics when H5AC_DEBUG is turned on, instead of always tracking them. - Simplify address comparison macro (H5F_addr_eq). - Remove redundant metadata cache entry protections during dataset creation by protecting the object header once and making all the modifications necessary for the dataset creation before unprotecting it. - Reduce # of "number of element in extent" computations performed by computing and storing the value during dataspace creation. - Simplify checking for group location's file information, when file has not been involving in file-mounting operations. - Use binary encoding for modification time, instead of ASCII. - Hoist H5HL_peek calls (to get information in a local heap) out of loops in many group routine. - Use static variable for iterators of selections, instead of dynamically allocation them each time. - Lookup & insert new entries in one step, avoiding traversing group's B-tree twice. - Fixed memory leak in H5Gget_objname_idx() routine (tangential to performance improvements, but fixed along the way). - Use free-list for reference counted strings. - Don't bother copying object names into cached group entries, since they are re-created when an object is opened. The benchmark I used to measure these results created several thousand small (2K) datasets in a file and wrote out the data for them. This is Elena's "regular.c" benchmark. These changes resulted in approximately ~4.3x speedup of the development branch when compared to the previous code in the development branch and ~1.4x speedup compared to the release branch. Additionally, these changes reduce the total memory used (code and data) by the development branch by ~800KB, bringing the development branch back into the same ballpark as the release branch. I'll send out a more detailed description of the benchmark results as a followup note. New internal API routines: Added "reference counted strings" API for tracking strings that get used by multiple owners without duplicating the strings. Added "ternary search tree" API for text->object mappings. Platforms tested: Tested h5committest {arabica (fortran), eirene (fortran, C++) modi4 (parallel, fortran)} Other platforms/configurations tested? FreeBSD 4.7 (sleipnir) serial & parallel Solaris 2.6 (baldric) serial
2003-01-10 01:20:03 +08:00
/*
FILE
tst.c
Test HDF Ternary Search Tree (tst) routines.
REMARKS
DESIGN
BUGS/LIMITATIONS
EXPORTED ROUTINES
AUTHOR
Quincey Koziol
MODIFICATION HISTORY
12/9/02 - Started coding
*/
#include <time.h>
#include <stdlib.h>
[svn-r6252] Purpose: Lots of performance improvements & a couple new internal API interfaces. Description: Performance Improvements: - Cached file offset & length sizes in shared file struct, to avoid constantly looking them up in the FCPL. - Generic property improvements: - Added "revision" number to generic property classes to speed up comparisons. - Changed method of storing properties from using a hash-table to the TBBT routines in the library. - Share the propery names between classes and the lists derived from them. - Removed redundant 'def_value' buffer from each property. - Switching code to use a "copy on write" strategy for properties in each list, where the properties in each list are shared with the properties in the class, until a property's value is changed in a list. - Fixed error in layout code which was allocating too many buffers. - Redefined public macros of the form (H5open()/H5check, <variable>) internally to only be (<variable>), avoiding innumerable useless calls to H5open() and H5check_version(). - Reuse already zeroed buffers in H5F_contig_fill instead of constantly re-zeroing them. - Don't write fill values if writing entire dataset. - Use gettimeofday() system call instead of time() system when checking the modification time of a dataset. - Added reference counted string API and use it for tracking the names of objects opening in a file (for the ID->name code). - Removed redundant H5P_get() calls in B-tree routines. - Redefine H5T datatype macros internally to the library, to avoid calling H5check redundantly. - Keep dataspace information for dataset locally instead of reading from disk each time. Added new module to track open objects in a file, to allow this (which will be useful eventually for some FPH5 metadata caching issues). - Remove H5AC_find macro which was inlining metadata cache lookups, and call function instead. - Remove redundant memset() calls from H5G_namei() routine. - Remove redundant checking of object type when locating objects in metadata cache and rely on the address only. - Create default dataset object to use when default dataset creation property list is used to create datasets, bypassing querying for all the property list values. - Use default I/O vector size when performing raw data with the default dataset transfer property list, instead of querying for I/O vector size. - Remove H5P_DEFAULT internally to the library, replacing it with more specific default property list based on the type of property list needed. - Remove redundant memset() calls in object header message (H5O*) routines. - Remove redunant memset() calls in data I/O routines. - Split free-list allocation routines into malloc() and calloc()- like routines, instead of one combined routine. - Remove lots of indirection in H5O*() routines. - Simplify metadata cache entry comparison routine (used when flushing entire cache out). - Only enable metadata cache statistics when H5AC_DEBUG is turned on, instead of always tracking them. - Simplify address comparison macro (H5F_addr_eq). - Remove redundant metadata cache entry protections during dataset creation by protecting the object header once and making all the modifications necessary for the dataset creation before unprotecting it. - Reduce # of "number of element in extent" computations performed by computing and storing the value during dataspace creation. - Simplify checking for group location's file information, when file has not been involving in file-mounting operations. - Use binary encoding for modification time, instead of ASCII. - Hoist H5HL_peek calls (to get information in a local heap) out of loops in many group routine. - Use static variable for iterators of selections, instead of dynamically allocation them each time. - Lookup & insert new entries in one step, avoiding traversing group's B-tree twice. - Fixed memory leak in H5Gget_objname_idx() routine (tangential to performance improvements, but fixed along the way). - Use free-list for reference counted strings. - Don't bother copying object names into cached group entries, since they are re-created when an object is opened. The benchmark I used to measure these results created several thousand small (2K) datasets in a file and wrote out the data for them. This is Elena's "regular.c" benchmark. These changes resulted in approximately ~4.3x speedup of the development branch when compared to the previous code in the development branch and ~1.4x speedup compared to the release branch. Additionally, these changes reduce the total memory used (code and data) by the development branch by ~800KB, bringing the development branch back into the same ballpark as the release branch. I'll send out a more detailed description of the benchmark results as a followup note. New internal API routines: Added "reference counted strings" API for tracking strings that get used by multiple owners without duplicating the strings. Added "ternary search tree" API for text->object mappings. Platforms tested: Tested h5committest {arabica (fortran), eirene (fortran, C++) modi4 (parallel, fortran)} Other platforms/configurations tested? FreeBSD 4.7 (sleipnir) serial & parallel Solaris 2.6 (baldric) serial
2003-01-10 01:20:03 +08:00
#include "testhdf5.h"
#include "H5STprivate.h"
/* Test words to insert into s TST */
static const char *words[]={
"We", "hold", "these", "truths", "to", "be", "self-evident,", "that",
"all", "men", "are", "created", "equal,", "that", "they", "are", "endowed",
"by", "their", "Creator", "with", "certain", "unalienable", "Rights,",
"that", "among", "these", "are", "Life,", "Liberty", "and", "the",
"pursuit", "of", "Happiness."
};
/* Number of words in test words set */
size_t num_words;
/* Number of unique words in test word set */
size_t num_uniq_words;
/* Unique words in test word set */
char **uniq_words;
/* Randomized order version of words in test word set */
char **rand_uniq_words;
/* Sorted order version of words in test word set */
char **sort_uniq_words;
static int tst_strcmp(const void *_s1, const void *_s2)
{
return(HDstrcmp(*(const char **)_s1,*(const char **)_s2));
}
/****************************************************************
**
** test_tst_init(): Test basic H5ST (ternary search tree) selection code.
** Initialize data for TST testing
**
****************************************************************/
static void
test_tst_init(void)
{
time_t curr_time; /* Current time, for seeding random number generator */
char *tmp_word=NULL;/* Temporary pointer to word in word set */
size_t u,v,w; /* Local index variables */
/* Compute the number of words in the test set */
num_words=sizeof(words)/sizeof(words[0]);
/* Determine the number of unique words in test set */
/* (Not particularly efficient, be careful if many words are added to set) */
num_uniq_words=0;
for(u=0; u<num_words; u++) {
/* Assume word is unique */
num_uniq_words++;
for(v=0; v<u; v++)
/* If word is already found in words looked at, decrement unique count */
if(!HDstrcmp(words[u],words[v])) {
num_uniq_words--;
break;
} /* end if */
} /* end for */
/* Allocate space for the array of unique words */
uniq_words=HDmalloc(sizeof(char *)*num_uniq_words);
/* Allocate space for the array of randomized order unique words also */
rand_uniq_words=HDmalloc(sizeof(char *)*num_uniq_words);
/* Allocate space for the array of sorted order unique words also */
sort_uniq_words=HDmalloc(sizeof(char *)*num_uniq_words);
/* Insert unique words from test set into unique word set */
w=0;
for(u=0; u<num_words; u++) {
/* Assume word is unique */
tmp_word=(char *)words[u];
for(v=0; v<u; v++)
/* If word is already found in words looked at, decrement unique count */
if(!HDstrcmp(words[u],words[v])) {
tmp_word=NULL;
break;
} /* end if */
/* Check if word was actually unique */
if(tmp_word!=NULL)
uniq_words[w++]=tmp_word;
} /* end for */
/* Create randomized set of unique words */
for(u=0; u<num_uniq_words; u++)
rand_uniq_words[u]=uniq_words[u];
curr_time=time(NULL);
HDsrandom((unsigned long)curr_time);
[svn-r6252] Purpose: Lots of performance improvements & a couple new internal API interfaces. Description: Performance Improvements: - Cached file offset & length sizes in shared file struct, to avoid constantly looking them up in the FCPL. - Generic property improvements: - Added "revision" number to generic property classes to speed up comparisons. - Changed method of storing properties from using a hash-table to the TBBT routines in the library. - Share the propery names between classes and the lists derived from them. - Removed redundant 'def_value' buffer from each property. - Switching code to use a "copy on write" strategy for properties in each list, where the properties in each list are shared with the properties in the class, until a property's value is changed in a list. - Fixed error in layout code which was allocating too many buffers. - Redefined public macros of the form (H5open()/H5check, <variable>) internally to only be (<variable>), avoiding innumerable useless calls to H5open() and H5check_version(). - Reuse already zeroed buffers in H5F_contig_fill instead of constantly re-zeroing them. - Don't write fill values if writing entire dataset. - Use gettimeofday() system call instead of time() system when checking the modification time of a dataset. - Added reference counted string API and use it for tracking the names of objects opening in a file (for the ID->name code). - Removed redundant H5P_get() calls in B-tree routines. - Redefine H5T datatype macros internally to the library, to avoid calling H5check redundantly. - Keep dataspace information for dataset locally instead of reading from disk each time. Added new module to track open objects in a file, to allow this (which will be useful eventually for some FPH5 metadata caching issues). - Remove H5AC_find macro which was inlining metadata cache lookups, and call function instead. - Remove redundant memset() calls from H5G_namei() routine. - Remove redundant checking of object type when locating objects in metadata cache and rely on the address only. - Create default dataset object to use when default dataset creation property list is used to create datasets, bypassing querying for all the property list values. - Use default I/O vector size when performing raw data with the default dataset transfer property list, instead of querying for I/O vector size. - Remove H5P_DEFAULT internally to the library, replacing it with more specific default property list based on the type of property list needed. - Remove redundant memset() calls in object header message (H5O*) routines. - Remove redunant memset() calls in data I/O routines. - Split free-list allocation routines into malloc() and calloc()- like routines, instead of one combined routine. - Remove lots of indirection in H5O*() routines. - Simplify metadata cache entry comparison routine (used when flushing entire cache out). - Only enable metadata cache statistics when H5AC_DEBUG is turned on, instead of always tracking them. - Simplify address comparison macro (H5F_addr_eq). - Remove redundant metadata cache entry protections during dataset creation by protecting the object header once and making all the modifications necessary for the dataset creation before unprotecting it. - Reduce # of "number of element in extent" computations performed by computing and storing the value during dataspace creation. - Simplify checking for group location's file information, when file has not been involving in file-mounting operations. - Use binary encoding for modification time, instead of ASCII. - Hoist H5HL_peek calls (to get information in a local heap) out of loops in many group routine. - Use static variable for iterators of selections, instead of dynamically allocation them each time. - Lookup & insert new entries in one step, avoiding traversing group's B-tree twice. - Fixed memory leak in H5Gget_objname_idx() routine (tangential to performance improvements, but fixed along the way). - Use free-list for reference counted strings. - Don't bother copying object names into cached group entries, since they are re-created when an object is opened. The benchmark I used to measure these results created several thousand small (2K) datasets in a file and wrote out the data for them. This is Elena's "regular.c" benchmark. These changes resulted in approximately ~4.3x speedup of the development branch when compared to the previous code in the development branch and ~1.4x speedup compared to the release branch. Additionally, these changes reduce the total memory used (code and data) by the development branch by ~800KB, bringing the development branch back into the same ballpark as the release branch. I'll send out a more detailed description of the benchmark results as a followup note. New internal API routines: Added "reference counted strings" API for tracking strings that get used by multiple owners without duplicating the strings. Added "ternary search tree" API for text->object mappings. Platforms tested: Tested h5committest {arabica (fortran), eirene (fortran, C++) modi4 (parallel, fortran)} Other platforms/configurations tested? FreeBSD 4.7 (sleipnir) serial & parallel Solaris 2.6 (baldric) serial
2003-01-10 01:20:03 +08:00
for(u=0; u<num_uniq_words; u++) {
v=u+(HDrandom()%(num_uniq_words-u));
[svn-r6252] Purpose: Lots of performance improvements & a couple new internal API interfaces. Description: Performance Improvements: - Cached file offset & length sizes in shared file struct, to avoid constantly looking them up in the FCPL. - Generic property improvements: - Added "revision" number to generic property classes to speed up comparisons. - Changed method of storing properties from using a hash-table to the TBBT routines in the library. - Share the propery names between classes and the lists derived from them. - Removed redundant 'def_value' buffer from each property. - Switching code to use a "copy on write" strategy for properties in each list, where the properties in each list are shared with the properties in the class, until a property's value is changed in a list. - Fixed error in layout code which was allocating too many buffers. - Redefined public macros of the form (H5open()/H5check, <variable>) internally to only be (<variable>), avoiding innumerable useless calls to H5open() and H5check_version(). - Reuse already zeroed buffers in H5F_contig_fill instead of constantly re-zeroing them. - Don't write fill values if writing entire dataset. - Use gettimeofday() system call instead of time() system when checking the modification time of a dataset. - Added reference counted string API and use it for tracking the names of objects opening in a file (for the ID->name code). - Removed redundant H5P_get() calls in B-tree routines. - Redefine H5T datatype macros internally to the library, to avoid calling H5check redundantly. - Keep dataspace information for dataset locally instead of reading from disk each time. Added new module to track open objects in a file, to allow this (which will be useful eventually for some FPH5 metadata caching issues). - Remove H5AC_find macro which was inlining metadata cache lookups, and call function instead. - Remove redundant memset() calls from H5G_namei() routine. - Remove redundant checking of object type when locating objects in metadata cache and rely on the address only. - Create default dataset object to use when default dataset creation property list is used to create datasets, bypassing querying for all the property list values. - Use default I/O vector size when performing raw data with the default dataset transfer property list, instead of querying for I/O vector size. - Remove H5P_DEFAULT internally to the library, replacing it with more specific default property list based on the type of property list needed. - Remove redundant memset() calls in object header message (H5O*) routines. - Remove redunant memset() calls in data I/O routines. - Split free-list allocation routines into malloc() and calloc()- like routines, instead of one combined routine. - Remove lots of indirection in H5O*() routines. - Simplify metadata cache entry comparison routine (used when flushing entire cache out). - Only enable metadata cache statistics when H5AC_DEBUG is turned on, instead of always tracking them. - Simplify address comparison macro (H5F_addr_eq). - Remove redundant metadata cache entry protections during dataset creation by protecting the object header once and making all the modifications necessary for the dataset creation before unprotecting it. - Reduce # of "number of element in extent" computations performed by computing and storing the value during dataspace creation. - Simplify checking for group location's file information, when file has not been involving in file-mounting operations. - Use binary encoding for modification time, instead of ASCII. - Hoist H5HL_peek calls (to get information in a local heap) out of loops in many group routine. - Use static variable for iterators of selections, instead of dynamically allocation them each time. - Lookup & insert new entries in one step, avoiding traversing group's B-tree twice. - Fixed memory leak in H5Gget_objname_idx() routine (tangential to performance improvements, but fixed along the way). - Use free-list for reference counted strings. - Don't bother copying object names into cached group entries, since they are re-created when an object is opened. The benchmark I used to measure these results created several thousand small (2K) datasets in a file and wrote out the data for them. This is Elena's "regular.c" benchmark. These changes resulted in approximately ~4.3x speedup of the development branch when compared to the previous code in the development branch and ~1.4x speedup compared to the release branch. Additionally, these changes reduce the total memory used (code and data) by the development branch by ~800KB, bringing the development branch back into the same ballpark as the release branch. I'll send out a more detailed description of the benchmark results as a followup note. New internal API routines: Added "reference counted strings" API for tracking strings that get used by multiple owners without duplicating the strings. Added "ternary search tree" API for text->object mappings. Platforms tested: Tested h5committest {arabica (fortran), eirene (fortran, C++) modi4 (parallel, fortran)} Other platforms/configurations tested? FreeBSD 4.7 (sleipnir) serial & parallel Solaris 2.6 (baldric) serial
2003-01-10 01:20:03 +08:00
if(u!=v) {
tmp_word=rand_uniq_words[u];
rand_uniq_words[u]=rand_uniq_words[v];
rand_uniq_words[v]=tmp_word;
} /* end if */
} /* end for */
/* Create sorted set of unique words */
for(u=0; u<num_uniq_words; u++)
sort_uniq_words[u]=uniq_words[u];
HDqsort(sort_uniq_words,num_uniq_words,sizeof(char *),tst_strcmp);
} /* end test_tst_init() */
/****************************************************************
**
** test_tst_create(): Test basic H5ST (ternary search tree) selection code.
** Tests creating and closing TSTs.
**
****************************************************************/
static void
test_tst_create(void)
{
H5ST_tree_t *tree; /* TST created */
herr_t ret; /* Generic return value */
/* Output message about test being performed */
MESSAGE(5, ("Testing Creating & Closing TSTs\n"));
/* Try closing a NULL tree */
tree=NULL;
ret=H5ST_close(tree);
VERIFY(ret, FAIL, "H5ST_close");
/* Try creating a TST */
tree=H5ST_create();
CHECK(tree, NULL, "H5ST_create");
/* Try closing a real tree */
ret=H5ST_close(tree);
CHECK(ret, FAIL, "H5ST_close");
} /* end test_tst_create() */
/****************************************************************
**
** test_tst_insert(): Test basic H5ST (ternary search tree) selection code.
** Tests inserting key/value pairs into TST
**
****************************************************************/
static void
test_tst_insert(void)
{
H5ST_tree_t *tree; /* TST created */
H5ST_ptr_t found; /* Pointer to TST node found */
void *obj; /* Pointer to object located in TST */
size_t u; /* Local index counter */
htri_t check; /* Is string in TST? */
herr_t ret; /* Generic return value */
/* Output message about test being performed */
MESSAGE(5, ("Testing Inserting Values into TSTs\n"));
/* Create the TST */
tree=H5ST_create();
CHECK(tree, NULL, "H5ST_create");
/* Insert unique words into TST, in random order */
for(u=0; u<num_uniq_words; u++) {
ret=H5ST_insert(tree,rand_uniq_words[u],rand_uniq_words[u]);
CHECK(ret, FAIL, "H5ST_insert");
} /* end for */
/* Verify that all words were inserted into TST properly */
for(u=0; u<num_uniq_words; u++) {
/* Check that the word is present */
check=H5ST_search(tree,uniq_words[u]);
VERIFY(check, TRUE, "H5ST_search");
/* Check that the value "payloads" are correct */
found=H5ST_find(tree,uniq_words[u]);
CHECK(found, NULL, "H5ST_find");
if(HDstrcmp((const char *)found->eqkid,uniq_words[u])) {
num_errs++;
printf("%d: TST node values don't match!, found->eqkid=%s, uniq_words[%u]=%s\n",__LINE__,(char *)found->eqkid,(unsigned)u,uniq_words[u]);
} /* end if */
obj=H5ST_locate(tree,uniq_words[u]);
CHECK(obj, NULL, "H5ST_locate");
if(HDstrcmp((const char *)obj,uniq_words[u])) {
num_errs++;
printf("%d: TST objects don't match!, obj=%s, uniq_words[%u]=%s\n",__LINE__,(char *)obj,(unsigned)u,uniq_words[u]);
} /* end if */
} /* end for */
/* Verify that words not in the TST aren't found */
check=H5ST_search(tree,"foo");
VERIFY(check, FALSE, "H5ST_search");
check=H5ST_search(tree,"bar");
VERIFY(check, FALSE, "H5ST_search");
check=H5ST_search(tree,"baz");
VERIFY(check, FALSE, "H5ST_search");
/* Close the TST */
ret=H5ST_close(tree);
CHECK(ret, FAIL, "H5ST_close");
} /* end test_tst_insert() */
/****************************************************************
**
** test_tst_iterate(): Test basic H5ST (ternary search tree) code.
** Tests iterating through key/value pairs in TST
**
****************************************************************/
static void
test_tst_iterate(void)
{
H5ST_tree_t *tree; /* TST created */
H5ST_ptr_t found; /* Pointer to TST node found */
size_t u; /* Local index counter */
herr_t ret; /* Generic return value */
/* Output message about test being performed */
MESSAGE(5, ("Testing Iterating Over TSTs\n"));
/* Create the TST */
tree=H5ST_create();
CHECK(tree, NULL, "H5ST_create");
/* Insert unique words into TST, in random order */
for(u=0; u<num_uniq_words; u++) {
ret=H5ST_insert(tree,rand_uniq_words[u],rand_uniq_words[u]);
CHECK(ret, FAIL, "H5ST_insert");
} /* end for */
/* Use findfirst/findnext calls to iterate through TST */
found=H5ST_findfirst(tree);
CHECK(found, NULL, "H5ST_findfirst");
u=0;
do {
/* Check that the strings in the TST are in the correct order */
if(HDstrcmp((const char *)found->eqkid,sort_uniq_words[u])) {
num_errs++;
printf("%d: TST node values don't match!, found->eqkid=%s, sort_uniq_words[%u]=%s\n",__LINE__,(char *)found->eqkid,(unsigned)u,sort_uniq_words[u]);
} /* end if */
/* Advance to next string in TST */
found=H5ST_findnext(found);
u++;
} while(found!=NULL);
/* Close the TST */
ret=H5ST_close(tree);
CHECK(ret, FAIL, "H5ST_close");
} /* end test_tst_iterate() */
/****************************************************************
**
** test_tst_remove(): Test basic H5ST (ternary search tree) code.
** Tests removing key/value pairs by string value in TST
**
****************************************************************/
static void
test_tst_remove(void)
{
H5ST_tree_t *tree; /* TST created */
H5ST_ptr_t found; /* Pointer to TST node found */
void *obj; /* Pointer to object removed from TST */
htri_t check; /* Is string in TST? */
size_t u; /* Local index counter */
herr_t ret; /* Generic return value */
/* Output message about test being performed */
MESSAGE(5, ("Testing Removing String Values from TSTs\n"));
/* Create the TST */
tree=H5ST_create();
CHECK(tree, NULL, "H5ST_create");
/* Insert unique words into TST, in random order */
for(u=0; u<num_uniq_words; u++) {
ret=H5ST_insert(tree,rand_uniq_words[u],rand_uniq_words[u]);
CHECK(ret, FAIL, "H5ST_insert");
} /* end for */
/* Remove strings from TST in random order */
for(u=0; u<num_uniq_words; u++) {
obj=H5ST_remove(tree,rand_uniq_words[u]);
CHECK(obj, NULL, "H5ST_remove");
/* Check that the correct string was removed from TST */
if(HDstrcmp((const char *)obj,rand_uniq_words[u])) {
num_errs++;
printf("%d: TST node values don't match!, obj=%s, rand_uniq_words[%u]=%s\n",__LINE__,(char *)obj,(unsigned)u,rand_uniq_words[u]);
} /* end if */
/* Check that the string can't be found in the TST any longer */
check=H5ST_search(tree,rand_uniq_words[u]);
VERIFY(check, FALSE, "H5ST_search");
} /* end for */
/* Re-insert unique words into TST, in random order */
for(u=0; u<num_uniq_words; u++) {
ret=H5ST_insert(tree,rand_uniq_words[u],rand_uniq_words[u]);
CHECK(ret, FAIL, "H5ST_insert");
} /* end for */
/* Remove TST nodes from TST in random order */
for(u=0; u<num_uniq_words; u++) {
/* Get the pointer to the node to delete */
found=H5ST_find(tree,rand_uniq_words[u]);
CHECK(found, NULL, "H5ST_find");
/* Check that the correct object will be removed from TST */
if(HDstrcmp((const char *)found->eqkid,rand_uniq_words[u])) {
num_errs++;
printf("%d: TST node values don't match!, found->eqkid=%s, rand_uniq_words[%u]=%s\n",__LINE__,(char *)found->eqkid,(unsigned)u,rand_uniq_words[u]);
} /* end if */
/* Remove the node */
ret=H5ST_delete(tree,found);
CHECK(ret, FAIL, "H5ST_delete");
/* Check that the string can't be found in the TST any longer */
check=H5ST_search(tree,rand_uniq_words[u]);
VERIFY(check, FALSE, "H5ST_search");
} /* end for */
/* Close the TST */
ret=H5ST_close(tree);
CHECK(ret, FAIL, "H5ST_close");
} /* end test_tst_remove() */
/****************************************************************
**
** test_tst_finalize(): Test basic H5ST (ternary search tree) selection code.
** Wrap up data for TST testing
**
****************************************************************/
static void
test_tst_finalize(void)
{
/* Release memory for unordered, randomized and sorted order unique words */
HDfree(uniq_words);
HDfree(rand_uniq_words);
HDfree(sort_uniq_words);
} /* end test_tst_finalize() */
/****************************************************************
**
** test_tst(): Main H5ST selection testing routine.
**
****************************************************************/
void
test_tst(void)
{
/* Output message about test being performed */
MESSAGE(5, ("Testing Ternary Search Trees\n"));
/* Initialize TST testing data */
test_tst_init();
/* Actual TST tests */
test_tst_create(); /* Test TST creation */
test_tst_insert(); /* Test TST insertion */
test_tst_iterate(); /* Test TST iteration */
test_tst_remove(); /* Test TST deletion */
/* Finalize TST testing data */
test_tst_finalize();
} /* end test_tst() */