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authorAllen Byrne <byrn@hdfgroup.org>2019-08-15 21:46:00 (GMT)
committerAllen Byrne <byrn@hdfgroup.org>2019-08-15 21:46:15 (GMT)
commit64e6665b5442fc3f46cc7e2b00fe0a1b59f03b22 (patch)
tree138fc73e4863a87dee28574d4d827b2f5a403d84 /tools/src/h5stat/h5stat.c
parent3a504899eef1a66031c6f52623c24bb4e51ca51e (diff)
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Add HD prefix to tests
Diffstat (limited to 'tools/src/h5stat/h5stat.c')
-rw-r--r--tools/src/h5stat/h5stat.c218
1 files changed, 102 insertions, 116 deletions
diff --git a/tools/src/h5stat/h5stat.c b/tools/src/h5stat/h5stat.c
index 75d325a..9528d2c 100644
--- a/tools/src/h5stat/h5stat.c
+++ b/tools/src/h5stat/h5stat.c
@@ -396,12 +396,12 @@ attribute_stats(iter_t *iter, const H5O_info_t *oi)
/* Add attribute count to proper bin */
bin = ceil_log10((unsigned long)oi->num_attrs);
if((bin + 1) > iter->attr_nbins) {
- iter->attr_bins = (unsigned long *)HDrealloc(iter->attr_bins, (bin + 1) * sizeof(unsigned long));
+ iter->attr_bins = (unsigned long *)HDrealloc(iter->attr_bins, (bin + 1) * sizeof(unsigned long));
HDassert(iter->attr_bins);
/* Initialize counts for intermediate bins */
while(iter->attr_nbins < bin)
- iter->attr_bins[iter->attr_nbins++] = 0;
+ iter->attr_bins[iter->attr_nbins++] = 0;
iter->attr_nbins++;
/* Initialize count for new bin */
@@ -549,7 +549,7 @@ dataset_stats(iter_t *iter, const char *name, const H5O_info_t *oi)
/* Get storage info */
/* Failure 0 indistinguishable from no-data-stored 0 */
- storage = H5Dget_storage_size(did);
+ storage = H5Dget_storage_size(did);
/* Gather layout statistics */
if((dcpl = H5Dget_create_plist(did)) < 0)
@@ -574,7 +574,8 @@ dataset_stats(iter_t *iter, const char *name, const H5O_info_t *oi)
if(num_ext) {
iter->nexternal += (unsigned long)num_ext;
iter->dset_external_storage_size += (unsigned long)storage;
- } else
+ }
+ else
iter->dset_storage_size += storage;
/* Gather dataspace statistics */
@@ -971,7 +972,8 @@ parse_command_line(int argc, const char *argv[], struct handler_t **hand_ret)
error_msg("Invalid threshold for small groups\n");
goto error;
}
- } else
+ }
+ else
error_msg("Missing threshold for small groups\n");
break;
@@ -993,7 +995,8 @@ parse_command_line(int argc, const char *argv[], struct handler_t **hand_ret)
error_msg("Invalid threshold for small datasets\n");
goto error;
}
- } else
+ }
+ else
error_msg("Missing threshold for small datasets\n");
break;
@@ -1015,7 +1018,8 @@ parse_command_line(int argc, const char *argv[], struct handler_t **hand_ret)
error_msg("Invalid threshold for small # of attributes\n");
goto error;
}
- } else
+ }
+ else
error_msg("Missing threshold for small # of attributes\n");
break;
@@ -1066,8 +1070,7 @@ parse_command_line(int argc, const char *argv[], struct handler_t **hand_ret)
char **cred = NULL;
char const *ccred[3];
- if (FAIL == parse_tuple((const char *)opt_arg, ',',
- &cred_str, &nelems, &cred)) {
+ if (FAIL == parse_tuple((const char *)opt_arg, ',', &cred_str, &nelems, &cred)) {
error_msg("Unable to parse s3 credential\n");
goto error;
}
@@ -1078,9 +1081,7 @@ parse_command_line(int argc, const char *argv[], struct handler_t **hand_ret)
ccred[0] = (const char *)cred[0];
ccred[1] = (const char *)cred[1];
ccred[2] = (const char *)cred[2];
- if (0 ==
- h5tools_populate_ros3_fapl(&ros3_fa, ccred))
- {
+ if (0 == h5tools_populate_ros3_fapl(&ros3_fa, ccred)) {
error_msg("Unable to set ros3 fapl config\n");
goto error;
}
@@ -1101,13 +1102,8 @@ parse_command_line(int argc, const char *argv[], struct handler_t **hand_ret)
char *props_src = NULL;
char **props = NULL;
unsigned long k = 0;
- if (FAIL == parse_tuple(
- (const char *)opt_arg,
- ',',
- &props_src,
- &nelems,
- &props))
- {
+ if (FAIL == parse_tuple((const char *)opt_arg,
+ ',', &props_src, &nelems, &props)) {
error_msg("unable to parse hdfs properties tuple\n");
goto error;
}
@@ -1115,7 +1111,7 @@ parse_command_line(int argc, const char *argv[], struct handler_t **hand_ret)
*/
if (nelems != 5) {
char str[64] = "";
- sprintf(str,
+ HDsprintf(str,
"expected 5 elements in hdfs properties tuple "
"but found %u\n",
nelems);
@@ -1130,12 +1126,10 @@ parse_command_line(int argc, const char *argv[], struct handler_t **hand_ret)
* input strings... Silent overflow is possible,
* albeit unlikely.
*/
- if (strncmp(props[0], "", 1)) {
- HDstrncpy(hdfs_fa.namenode_name,
- (const char *)props[0],
- HDstrlen(props[0]));
+ if (HDstrncmp(props[0], "", 1)) {
+ HDstrncpy(hdfs_fa.namenode_name,(const char *)props[0], HDstrlen(props[0]));
}
- if (strncmp(props[1], "", 1)) {
+ if (HDstrncmp(props[1], "", 1)) {
k = strtoul((const char *)props[1], NULL, 0);
if (errno == ERANGE) {
error_msg("supposed port number wasn't.\n");
@@ -1143,18 +1137,14 @@ parse_command_line(int argc, const char *argv[], struct handler_t **hand_ret)
}
hdfs_fa.namenode_port = (int32_t)k;
}
- if (strncmp(props[2], "", 1)) {
- HDstrncpy(hdfs_fa.kerberos_ticket_cache,
- (const char *)props[2],
- HDstrlen(props[2]));
+ if (HDstrncmp(props[2], "", 1)) {
+ HDstrncpy(hdfs_fa.kerberos_ticket_cache, (const char *)props[2], HDstrlen(props[2]));
}
- if (strncmp(props[3], "", 1)) {
- HDstrncpy(hdfs_fa.user_name,
- (const char *)props[3],
- HDstrlen(props[3]));
+ if (HDstrncmp(props[3], "", 1)) {
+ HDstrncpy(hdfs_fa.user_name, (const char *)props[3], HDstrlen(props[3]));
}
if (strncmp(props[4], "", 1)) {
- k = strtoul((const char *)props[4], NULL, 0);
+ k = HDstrtoul((const char *)props[4], NULL, 0);
if (errno == ERANGE) {
error_msg("supposed buffersize number wasn't.\n");
goto error;
@@ -1279,13 +1269,13 @@ iter_free(iter_t *iter)
static herr_t
print_file_info(const iter_t *iter)
{
- printf("File information\n");
- printf("\t# of unique groups: %lu\n", iter->uniq_groups);
- printf("\t# of unique datasets: %lu\n", iter->uniq_dsets);
- printf("\t# of unique named datatypes: %lu\n", iter->uniq_dtypes);
- printf("\t# of unique links: %lu\n", iter->uniq_links);
- printf("\t# of unique other: %lu\n", iter->uniq_others);
- printf("\tMax. # of links to object: %lu\n", iter->max_links);
+ HDprintf("File information\n");
+ HDprintf("\t# of unique groups: %lu\n", iter->uniq_groups);
+ HDprintf("\t# of unique datasets: %lu\n", iter->uniq_dsets);
+ HDprintf("\t# of unique named datatypes: %lu\n", iter->uniq_dtypes);
+ HDprintf("\t# of unique links: %lu\n", iter->uniq_links);
+ HDprintf("\t# of unique other: %lu\n", iter->uniq_others);
+ HDprintf("\tMax. # of links to object: %lu\n", iter->max_links);
HDfprintf(stdout, "\tMax. # of objects in group: %Hu\n", iter->max_fanout);
return 0;
@@ -1315,15 +1305,12 @@ print_file_metadata(const iter_t *iter)
HDfprintf(stdout, "\tUser block: %Hu\n", iter->ublk_size);
HDfprintf(stdout, "\tObject headers: (total/unused)\n");
- HDfprintf(stdout, "\t\tGroups: %Hu/%Hu\n",
- iter->group_ohdr_info.total_size,
- iter->group_ohdr_info.free_size);
+ HDfprintf(stdout, "\t\tGroups: %Hu/%Hu\n", iter->group_ohdr_info.total_size,
+ iter->group_ohdr_info.free_size);
HDfprintf(stdout, "\t\tDatasets(exclude compact data): %Hu/%Hu\n",
- iter->dset_ohdr_info.total_size,
- iter->dset_ohdr_info.free_size);
- HDfprintf(stdout, "\t\tDatatypes: %Hu/%Hu\n",
- iter->dtype_ohdr_info.total_size,
- iter->dtype_ohdr_info.free_size);
+ iter->dset_ohdr_info.total_size, iter->dset_ohdr_info.free_size);
+ HDfprintf(stdout, "\t\tDatatypes: %Hu/%Hu\n", iter->dtype_ohdr_info.total_size,
+ iter->dtype_ohdr_info.free_size);
HDfprintf(stdout, "\tGroups:\n");
HDfprintf(stdout, "\t\tB-tree/List: %Hu\n", iter->groups_btree_storage_size);
@@ -1378,32 +1365,32 @@ print_group_info(const iter_t *iter)
unsigned long total; /* Total count for various statistics */
unsigned u; /* Local index variable */
- printf("Small groups (with 0 to %u links):\n", sgroups_threshold-1);
+ HDprintf("Small groups (with 0 to %u links):\n", sgroups_threshold-1);
total = 0;
for(u = 0; u < (unsigned)sgroups_threshold; u++) {
if(iter->num_small_groups[u] > 0) {
- printf("\t# of groups with %u link(s): %lu\n", u, iter->num_small_groups[u]);
+ HDprintf("\t# of groups with %u link(s): %lu\n", u, iter->num_small_groups[u]);
total += iter->num_small_groups[u];
} /* end if */
} /* end for */
- printf("\tTotal # of small groups: %lu\n", total);
+ HDprintf("\tTotal # of small groups: %lu\n", total);
- printf("Group bins:\n");
+ HDprintf("Group bins:\n");
total = 0;
if((iter->group_nbins > 0) && (iter->group_bins[0] > 0)) {
- printf("\t# of groups with 0 link: %lu\n", iter->group_bins[0]);
+ HDprintf("\t# of groups with 0 link: %lu\n", iter->group_bins[0]);
total = iter->group_bins[0];
} /* end if */
power = 1;
for(u = 1; u < iter->group_nbins; u++) {
if(iter->group_bins[u] > 0) {
- printf("\t# of groups with %lu - %lu links: %lu\n", power, (power * 10) - 1,
+ HDprintf("\t# of groups with %lu - %lu links: %lu\n", power, (power * 10) - 1,
iter->group_bins[u]);
total += iter->group_bins[u];
} /* end if */
power *= 10;
} /* end for */
- printf("\tTotal # of groups: %lu\n", total);
+ HDprintf("\tTotal # of groups: %lu\n", total);
return 0;
} /* print_group_info() */
@@ -1424,7 +1411,7 @@ print_group_info(const iter_t *iter)
static herr_t
print_group_metadata(const iter_t *iter)
{
- printf("File space information for groups' metadata (in bytes):\n");
+ HDprintf("File space information for groups' metadata (in bytes):\n");
HDfprintf(stdout, "\tObject headers (total/unused): %Hu/%Hu\n",
iter->group_ohdr_info.total_size, iter->group_ohdr_info.free_size);
@@ -1457,66 +1444,66 @@ print_dataset_info(const iter_t *iter)
unsigned u; /* Local index variable */
if(iter->uniq_dsets > 0) {
- printf("Dataset dimension information:\n");
- printf("\tMax. rank of datasets: %u\n", iter->max_dset_rank);
- printf("\tDataset ranks:\n");
+ HDprintf("Dataset dimension information:\n");
+ HDprintf("\tMax. rank of datasets: %u\n", iter->max_dset_rank);
+ HDprintf("\tDataset ranks:\n");
for(u = 0; u < H5S_MAX_RANK; u++)
if(iter->dset_rank_count[u] > 0)
- printf("\t\t# of dataset with rank %u: %lu\n", u, iter->dset_rank_count[u]);
+ HDprintf("\t\t# of dataset with rank %u: %lu\n", u, iter->dset_rank_count[u]);
- printf("1-D Dataset information:\n");
+ HDprintf("1-D Dataset information:\n");
HDfprintf(stdout, "\tMax. dimension size of 1-D datasets: %Hu\n", iter->max_dset_dims);
- printf("\tSmall 1-D datasets (with dimension sizes 0 to %u):\n", sdsets_threshold - 1);
+ HDprintf("\tSmall 1-D datasets (with dimension sizes 0 to %u):\n", sdsets_threshold - 1);
total = 0;
for(u = 0; u < (unsigned)sdsets_threshold; u++) {
if(iter->small_dset_dims[u] > 0) {
- printf("\t\t# of datasets with dimension sizes %u: %lu\n", u,
+ HDprintf("\t\t# of datasets with dimension sizes %u: %lu\n", u,
iter->small_dset_dims[u]);
total += iter->small_dset_dims[u];
} /* end if */
} /* end for */
- printf("\t\tTotal # of small datasets: %lu\n", total);
+ HDprintf("\t\tTotal # of small datasets: %lu\n", total);
/* Protect against no datasets in file */
if(iter->dset_dim_nbins > 0) {
- printf("\t1-D Dataset dimension bins:\n");
+ HDprintf("\t1-D Dataset dimension bins:\n");
total = 0;
if(iter->dset_dim_bins[0] > 0) {
- printf("\t\t# of datasets with dimension size 0: %lu\n", iter->dset_dim_bins[0]);
+ HDprintf("\t\t# of datasets with dimension size 0: %lu\n", iter->dset_dim_bins[0]);
total = iter->dset_dim_bins[0];
} /* end if */
power = 1;
for(u = 1; u < iter->dset_dim_nbins; u++) {
if(iter->dset_dim_bins[u] > 0) {
- printf("\t\t# of datasets with dimension size %lu - %lu: %lu\n", power, (power * 10) - 1,
+ HDprintf("\t\t# of datasets with dimension size %lu - %lu: %lu\n", power, (power * 10) - 1,
iter->dset_dim_bins[u]);
total += iter->dset_dim_bins[u];
} /* end if */
power *= 10;
} /* end for */
- printf("\t\tTotal # of datasets: %lu\n", total);
+ HDprintf("\t\tTotal # of datasets: %lu\n", total);
} /* end if */
- printf("Dataset storage information:\n");
+ HDprintf("Dataset storage information:\n");
HDfprintf(stdout, "\tTotal raw data size: %Hu\n", iter->dset_storage_size);
HDfprintf(stdout, "\tTotal external raw data size: %Hu\n", iter->dset_external_storage_size);
- printf("Dataset layout information:\n");
+ HDprintf("Dataset layout information:\n");
for(u = 0; u < H5D_NLAYOUTS; u++)
- printf("\tDataset layout counts[%s]: %lu\n", (u == H5D_COMPACT ? "COMPACT" :
+ HDprintf("\tDataset layout counts[%s]: %lu\n", (u == H5D_COMPACT ? "COMPACT" :
(u == H5D_CONTIGUOUS ? "CONTIG" : (u == H5D_CHUNKED ? "CHUNKED" : "VIRTUAL"))), iter->dset_layouts[u]);
- printf("\tNumber of external files : %lu\n", iter->nexternal);
-
- printf("Dataset filters information:\n");
- printf("\tNumber of datasets with:\n");
- printf("\t\tNO filter: %lu\n", iter->dset_comptype[H5Z_FILTER_ERROR+1]);
- printf("\t\tGZIP filter: %lu\n", iter->dset_comptype[H5Z_FILTER_DEFLATE]);
- printf("\t\tSHUFFLE filter: %lu\n", iter->dset_comptype[H5Z_FILTER_SHUFFLE]);
- printf("\t\tFLETCHER32 filter: %lu\n", iter->dset_comptype[H5Z_FILTER_FLETCHER32]);
- printf("\t\tSZIP filter: %lu\n", iter->dset_comptype[H5Z_FILTER_SZIP]);
- printf("\t\tNBIT filter: %lu\n", iter->dset_comptype[H5Z_FILTER_NBIT]);
- printf("\t\tSCALEOFFSET filter: %lu\n", iter->dset_comptype[H5Z_FILTER_SCALEOFFSET]);
- printf("\t\tUSER-DEFINED filter: %lu\n", iter->dset_comptype[H5_NFILTERS_IMPL-1]);
+ HDprintf("\tNumber of external files : %lu\n", iter->nexternal);
+
+ HDprintf("Dataset filters information:\n");
+ HDprintf("\tNumber of datasets with:\n");
+ HDprintf("\t\tNO filter: %lu\n", iter->dset_comptype[H5Z_FILTER_ERROR+1]);
+ HDprintf("\t\tGZIP filter: %lu\n", iter->dset_comptype[H5Z_FILTER_DEFLATE]);
+ HDprintf("\t\tSHUFFLE filter: %lu\n", iter->dset_comptype[H5Z_FILTER_SHUFFLE]);
+ HDprintf("\t\tFLETCHER32 filter: %lu\n", iter->dset_comptype[H5Z_FILTER_FLETCHER32]);
+ HDprintf("\t\tSZIP filter: %lu\n", iter->dset_comptype[H5Z_FILTER_SZIP]);
+ HDprintf("\t\tNBIT filter: %lu\n", iter->dset_comptype[H5Z_FILTER_NBIT]);
+ HDprintf("\t\tSCALEOFFSET filter: %lu\n", iter->dset_comptype[H5Z_FILTER_SCALEOFFSET]);
+ HDprintf("\t\tUSER-DEFINED filter: %lu\n", iter->dset_comptype[H5_NFILTERS_IMPL-1]);
} /* end if */
return 0;
@@ -1539,7 +1526,7 @@ print_dataset_info(const iter_t *iter)
static herr_t
print_dset_metadata(const iter_t *iter)
{
- printf("File space information for datasets' metadata (in bytes):\n");
+ HDprintf("File space information for datasets' metadata (in bytes):\n");
HDfprintf(stdout, "\tObject headers (total/unused): %Hu/%Hu\n",
iter->dset_ohdr_info.total_size, iter->dset_ohdr_info.free_size);
@@ -1573,20 +1560,20 @@ print_dset_dtype_meta(const iter_t *iter)
unsigned u; /* Local index variable */
if(iter->dset_ntypes) {
- printf("Dataset datatype information:\n");
- printf("\t# of unique datatypes used by datasets: %lu\n", iter->dset_ntypes);
+ HDprintf("Dataset datatype information:\n");
+ HDprintf("\t# of unique datatypes used by datasets: %lu\n", iter->dset_ntypes);
total = 0;
for(u = 0; u < iter->dset_ntypes; u++) {
H5Tencode(iter->dset_type_info[u].tid, NULL, &dtype_size);
- printf("\tDataset datatype #%u:\n", u);
- printf("\t\tCount (total/named) = (%lu/%lu)\n",
+ HDprintf("\tDataset datatype #%u:\n", u);
+ HDprintf("\t\tCount (total/named) = (%lu/%lu)\n",
iter->dset_type_info[u].count, iter->dset_type_info[u].named);
- printf("\t\tSize (desc./elmt) = (%lu/%lu)\n", (unsigned long)dtype_size,
+ HDprintf("\t\tSize (desc./elmt) = (%lu/%lu)\n", (unsigned long)dtype_size,
(unsigned long)H5Tget_size(iter->dset_type_info[u].tid));
H5Tclose(iter->dset_type_info[u].tid);
total += iter->dset_type_info[u].count;
} /* end for */
- printf("\tTotal dataset datatype count: %lu\n", total);
+ HDprintf("\tTotal dataset datatype count: %lu\n", total);
} /* end if */
return 0;
@@ -1614,29 +1601,29 @@ print_attr_info(const iter_t *iter)
unsigned long total; /* Total count for various statistics */
unsigned u; /* Local index variable */
- printf("Small # of attributes (objects with 1 to %u attributes):\n", sattrs_threshold);
+ HDprintf("Small # of attributes (objects with 1 to %u attributes):\n", sattrs_threshold);
total = 0;
for(u = 1; u <= (unsigned)sattrs_threshold; u++) {
if(iter->num_small_attrs[u] > 0) {
- printf("\t# of objects with %u attributes: %lu\n", u, iter->num_small_attrs[u]);
+ HDprintf("\t# of objects with %u attributes: %lu\n", u, iter->num_small_attrs[u]);
total += iter->num_small_attrs[u];
} /* end if */
} /* end for */
- printf("\tTotal # of objects with small # of attributes: %lu\n", total);
+ HDprintf("\tTotal # of objects with small # of attributes: %lu\n", total);
- printf("Attribute bins:\n");
+ HDprintf("Attribute bins:\n");
total = 0;
power = 1;
for(u = 1; u < iter->attr_nbins; u++) {
if(iter->attr_bins[u] > 0) {
- printf("\t# of objects with %lu - %lu attributes: %lu\n", power, (power * 10) - 1,
+ HDprintf("\t# of objects with %lu - %lu attributes: %lu\n", power, (power * 10) - 1,
iter->attr_bins[u]);
total += iter->attr_bins[u];
} /* end if */
power *= 10;
} /* end for */
- printf("\tTotal # of objects with attributes: %lu\n", total);
- printf("\tMax. # of attributes to objects: %lu\n", (unsigned long)iter->max_attrs);
+ HDprintf("\tTotal # of objects with attributes: %lu\n", total);
+ HDprintf("\tMax. # of attributes to objects: %lu\n", (unsigned long)iter->max_attrs);
return 0;
} /* print_attr_info() */
@@ -1664,29 +1651,29 @@ print_freespace_info(const iter_t *iter)
HDfprintf(stdout, "Free-space persist: %s\n", iter->fs_persist ? "TRUE" : "FALSE");
HDfprintf(stdout, "Free-space section threshold: %Hu bytes\n", iter->fs_threshold);
- printf("Small size free-space sections (< %u bytes):\n", (unsigned)SIZE_SMALL_SECTS);
+ HDprintf("Small size free-space sections (< %u bytes):\n", (unsigned)SIZE_SMALL_SECTS);
total = 0;
for(u = 0; u < SIZE_SMALL_SECTS; u++) {
if(iter->num_small_sects[u] > 0) {
- printf("\t# of sections of size %u: %lu\n", u, iter->num_small_sects[u]);
+ HDprintf("\t# of sections of size %u: %lu\n", u, iter->num_small_sects[u]);
total += iter->num_small_sects[u];
} /* end if */
} /* end for */
- printf("\tTotal # of small size sections: %lu\n", total);
+ HDprintf("\tTotal # of small size sections: %lu\n", total);
- printf("Free-space section bins:\n");
+ HDprintf("Free-space section bins:\n");
total = 0;
power = 1;
for(u = 1; u < iter->sect_nbins; u++) {
if(iter->sect_bins[u] > 0) {
- printf("\t# of sections of size %lu - %lu: %lu\n", power, (power * 10) - 1,
+ HDprintf("\t# of sections of size %lu - %lu: %lu\n", power, (power * 10) - 1,
iter->sect_bins[u]);
total += iter->sect_bins[u];
} /* end if */
power *= 10;
} /* end for */
- printf("\tTotal # of sections: %lu\n", total);
+ HDprintf("\tTotal # of sections: %lu\n", total);
return 0;
} /* print_freespace_info() */
@@ -1714,7 +1701,7 @@ print_storage_summary(const iter_t *iter)
HDfprintf(stdout, "File space management strategy: %s\n", FS_STRATEGY_NAME[iter->fs_strategy]);
HDfprintf(stdout, "File space page size: %Hu bytes\n", iter->fsp_size);
- printf("Summary of file space information:\n");
+ HDprintf("Summary of file space information:\n");
total_meta =
iter->super_size + iter->super_ext_size + iter->ublk_size +
iter->group_ohdr_info.total_size +
@@ -1822,7 +1809,7 @@ print_file_statistics(const iter_t *iter)
static void
print_object_statistics(const char *name)
{
- printf("Object name %s\n", name);
+ HDprintf("Object name %s\n", name);
} /* print_object_statistics() */
@@ -1905,7 +1892,8 @@ main(int argc, const char *argv[])
conf_fa = (void *)&ros3_fa;
#endif /* H5_HAVE_ROS3_VFD */
- } else if (!HDstrcmp(drivername, "hdfs")) {
+ }
+ else if (!HDstrcmp(drivername, "hdfs")) {
#ifndef H5_HAVE_LIBHDFS
error_msg("HDFS VFD not enabled.\n\n");
goto done;
@@ -1921,11 +1909,7 @@ main(int argc, const char *argv[])
error_msg("Unable to create fapl entry\n");
goto done;
}
- if (1 > h5tools_set_configured_fapl(
- fapl_id,
- drivername,
- conf_fa))
- {
+ if (1 > h5tools_set_configured_fapl(fapl_id, drivername, conf_fa)) {
error_msg("Unable to set fapl\n");
goto done;
}
@@ -1944,7 +1928,7 @@ main(int argc, const char *argv[])
hid_t fcpl;
H5F_info2_t finfo;
- printf("Filename: %s\n", fname);
+ HDprintf("Filename: %s\n", fname);
fid = H5Fopen(fname, H5F_ACC_RDONLY, fapl_id);
if(fid < 0) {
@@ -1979,7 +1963,7 @@ main(int argc, const char *argv[])
if(iter.num_small_groups == NULL || iter.num_small_attrs == NULL || iter.small_dset_dims == NULL) {
error_msg("Unable to allocate memory for tracking small groups/datasets/attributes\n");
- h5tools_setstatus(EXIT_FAILURE);
+ h5tools_setstatus(EXIT_FAILURE);
goto done;
}
@@ -2008,7 +1992,8 @@ main(int argc, const char *argv[])
if(h5trav_visit(fid, hand->obj[u], TRUE, TRUE, obj_stats, lnk_stats, &iter, H5O_INFO_ALL) < 0) {
error_msg("unable to traverse object \"%s\"\n", hand->obj[u]);
h5tools_setstatus(EXIT_FAILURE);
- } else
+ }
+ else
print_statistics(hand->obj[u], &iter);
} /* end for */
} /* end if */
@@ -2016,7 +2001,8 @@ main(int argc, const char *argv[])
if(h5trav_visit(fid, "/", TRUE, TRUE, obj_stats, lnk_stats, &iter, H5O_INFO_ALL) < 0) {
error_msg("unable to traverse objects/links in file \"%s\"\n", fname);
h5tools_setstatus(EXIT_FAILURE);
- } else
+ }
+ else
print_statistics("/", &iter);
} /* end else */
} /* end if */