/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * 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 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://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have * * access to either file, you may request a copy from help@hdfgroup.org. * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ #include #include #include "H5private.h" /* Generic Functions */ #include "h5tools.h" #include "h5tools_utils.h" #include "h5tools_ref.h" #include "h5trav.h" #include "hdf5.h" /* Name of tool */ #define PROGRAMNAME "h5stat" /* Parameters to control statistics gathered */ /* Default threshold for small groups/datasets/attributes */ #define DEF_SIZE_SMALL_GROUPS 10 #define DEF_SIZE_SMALL_DSETS 10 #define DEF_SIZE_SMALL_ATTRS 10 #define SIZE_SMALL_SECTS 10 #define H5_NFILTERS_IMPL 8 /* Number of currently implemented filters + one to accommodate for user-define filters + one to accomodate datasets whithout any filters */ /* File space management strategies: see H5Fpublic.h for declarations */ const char *FS_STRATEGY_NAME[] = { "unknown", "H5F_FILE_SPACE_ALL_PERSIST", "H5F_FILE_SPACE_ALL", "H5F_FILE_SPACE_AGGR_VFD", "H5F_FILE_SPACE_VFD", NULL }; /* Datatype statistics for datasets */ typedef struct dtype_info_t { hid_t tid; /* ID of datatype */ unsigned long count; /* Number of types found */ unsigned long named; /* Number of types that are named */ } dtype_info_t; typedef struct ohdr_info_t { hsize_t total_size; /* Total size of object headers */ hsize_t free_size; /* Total free space in object headers */ } ohdr_info_t; /* Info to pass to the iteration functions */ typedef struct iter_t { hid_t fid; /* File ID */ hsize_t filesize; /* Size of the file */ unsigned long uniq_groups; /* Number of unique groups */ unsigned long uniq_dsets; /* Number of unique datasets */ unsigned long uniq_dtypes; /* Number of unique named datatypes */ unsigned long uniq_links; /* Number of unique links */ unsigned long uniq_others; /* Number of other unique objects */ unsigned long max_links; /* Maximum # of links to an object */ hsize_t max_fanout; /* Maximum fanout from a group */ unsigned long *num_small_groups; /* Size of small groups tracked */ unsigned group_nbins; /* Number of bins for group counts */ unsigned long *group_bins; /* Pointer to array of bins for group counts */ ohdr_info_t group_ohdr_info; /* Object header information for groups */ hsize_t max_attrs; /* Maximum attributes from a group */ unsigned long *num_small_attrs; /* Size of small attributes tracked */ unsigned attr_nbins; /* Number of bins for attribute counts */ unsigned long *attr_bins; /* Pointer to array of bins for attribute counts */ unsigned max_dset_rank; /* Maximum rank of dataset */ unsigned long dset_rank_count[H5S_MAX_RANK]; /* Number of datasets of each rank */ hsize_t max_dset_dims; /* Maximum dimension size of dataset */ unsigned long *small_dset_dims; /* Size of dimensions of small datasets tracked */ unsigned long dset_layouts[H5D_NLAYOUTS]; /* Type of storage for each dataset */ unsigned long dset_comptype[H5_NFILTERS_IMPL]; /* Number of currently implemented filters */ unsigned long dset_ntypes; /* Number of diff. dataset datatypes found */ dtype_info_t *dset_type_info; /* Pointer to dataset datatype information found */ unsigned dset_dim_nbins; /* Number of bins for dataset dimensions */ unsigned long *dset_dim_bins; /* Pointer to array of bins for dataset dimensions */ ohdr_info_t dset_ohdr_info; /* Object header information for datasets */ hsize_t dset_storage_size; /* Size of raw data for datasets */ hsize_t dset_external_storage_size; /* Size of raw data for datasets with external storage */ ohdr_info_t dtype_ohdr_info; /* Object header information for datatypes */ hsize_t groups_btree_storage_size; /* btree size for group */ hsize_t groups_heap_storage_size; /* heap size for group */ hsize_t attrs_btree_storage_size; /* btree size for attributes (1.8) */ hsize_t attrs_heap_storage_size; /* fractal heap size for attributes (1.8) */ hsize_t SM_hdr_storage_size; /* header size for SOHM table (1.8) */ hsize_t SM_index_storage_size; /* index (btree & list) size for SOHM table (1.8) */ hsize_t SM_heap_storage_size; /* fractal heap size for SOHM table (1.8) */ hsize_t super_size; /* superblock size */ hsize_t super_ext_size; /* superblock extension size */ hsize_t ublk_size; /* user block size (if exists) */ H5F_file_space_type_t fs_strategy; /* File space management strategy */ hsize_t fs_threshold; /* Free-space section threshold */ hsize_t free_space; /* amount of freespace in the file */ hsize_t free_hdr; /* size of free space manager metadata in the file */ unsigned long num_small_sects[SIZE_SMALL_SECTS]; /* Size of small free-space sections */ unsigned sect_nbins; /* Number of bins for free-space section sizes */ unsigned long *sect_bins; /* Pointer to array of bins for free-space section sizes */ hsize_t datasets_index_storage_size;/* meta size for chunked dataset's indexing type */ hsize_t datasets_heap_storage_size; /* heap size for dataset with external storage */ unsigned long nexternal; /* Number of external files for a dataset */ int local; /* Flag to indicate iteration over the object*/ } iter_t; static int display_all = TRUE; /* Enable the printing of selected statistics */ static int display_file = FALSE; /* display file information */ static int display_group = FALSE; /* display groups information */ static int display_dset = FALSE; /* display datasets information */ static int display_dset_dtype_meta = FALSE; /* display datasets' datatype information */ static int display_attr = FALSE; /* display attributes information */ static int display_free_sections = FALSE; /* display free space information */ static int display_summary = FALSE; /* display summary of file space information */ static int display_file_metadata = FALSE; /* display file space info for file's metadata */ static int display_group_metadata = FALSE; /* display file space info for groups' metadata */ static int display_dset_metadata = FALSE; /* display file space info for datasets' metadata */ static int display_object = FALSE; /* not implemented yet */ /* Initialize threshold for small groups/datasets/attributes */ static int sgroups_threshold = DEF_SIZE_SMALL_GROUPS; static int sdsets_threshold = DEF_SIZE_SMALL_DSETS; static int sattrs_threshold = DEF_SIZE_SMALL_ATTRS; /* a structure for handling the order command-line parameters come in */ struct handler_t { size_t obj_count; char **obj; }; static const char *s_opts ="Aa:Ddm:FfhGgl:sSTO:V"; /* e.g. "filemetadata" has to precede "file"; "groupmetadata" has to precede "group" etc. */ static struct long_options l_opts[] = { {"help", no_arg, 'h'}, {"hel", no_arg, 'h'}, {"he", no_arg, 'h'}, {"filemetadata", no_arg, 'F'}, {"filemetadat", no_arg, 'F'}, {"filemetada", no_arg, 'F'}, {"filemetad", no_arg, 'F'}, {"filemeta", no_arg, 'F'}, {"filemet", no_arg, 'F'}, {"fileme", no_arg, 'F'}, {"filem", no_arg, 'F'}, {"file", no_arg, 'f'}, {"fil", no_arg, 'f'}, {"fi", no_arg, 'f'}, {"groupmetadata", no_arg, 'G'}, {"groupmetadat", no_arg, 'G'}, {"groupmetada", no_arg, 'G'}, {"groupmetad", no_arg, 'G'}, {"groupmeta", no_arg, 'G'}, {"groupmet", no_arg, 'G'}, {"groupme", no_arg, 'G'}, {"groupm", no_arg, 'G'}, {"group", no_arg, 'g'}, {"grou", no_arg, 'g'}, {"gro", no_arg, 'g'}, {"gr", no_arg, 'g'}, { "links", require_arg, 'l' }, { "link", require_arg, 'l' }, { "lin", require_arg, 'l' }, { "li", require_arg, 'l' }, {"dsetmetadata", no_arg, 'D'}, {"dsetmetadat", no_arg, 'D'}, {"dsetmetada", no_arg, 'D'}, {"dsetmetad", no_arg, 'D'}, {"dsetmeta", no_arg, 'D'}, {"dsetmet", no_arg, 'D'}, {"dsetme", no_arg, 'D'}, {"dsetm", no_arg, 'D'}, {"dset", no_arg, 'd'}, {"dse", no_arg, 'd'}, {"ds", no_arg, 'd'}, {"dims", require_arg, 'm'}, {"dim", require_arg, 'm'}, {"di", require_arg, 'm'}, {"dtypemetadata", no_arg, 'T'}, {"dtypemetadat", no_arg, 'T'}, {"dtypemetada", no_arg, 'T'}, {"dtypemetad", no_arg, 'T'}, {"dtypemeta", no_arg, 'T'}, {"dtypemet", no_arg, 'T'}, {"dtypeme", no_arg, 'T'}, {"dtypem", no_arg, 'T'}, {"dtype", no_arg, 'T'}, {"dtyp", no_arg, 'T'}, {"dty", no_arg, 'T'}, {"dt", no_arg, 'T'}, { "object", require_arg, 'O' }, { "objec", require_arg, 'O' }, { "obje", require_arg, 'O' }, { "obj", require_arg, 'O' }, { "ob", require_arg, 'O' }, { "version", no_arg, 'V' }, { "versio", no_arg, 'V' }, { "versi", no_arg, 'V' }, { "vers", no_arg, 'V' }, { "ver", no_arg, 'V' }, { "ve", no_arg, 'V' }, { "attribute", no_arg, 'A' }, { "attribut", no_arg, 'A' }, { "attribu", no_arg, 'A' }, { "attrib", no_arg, 'A' }, { "attri", no_arg, 'A' }, { "attr", no_arg, 'A' }, { "att", no_arg, 'A' }, { "at", no_arg, 'A' }, { "numattrs", require_arg, 'a' }, { "numattr", require_arg, 'a' }, { "numatt", require_arg, 'a' }, { "numat", require_arg, 'a' }, { "numa", require_arg, 'a' }, { "num", require_arg, 'a' }, { "nu", require_arg, 'a' }, { "freespace", no_arg, 's' }, { "freespac", no_arg, 's' }, { "freespa", no_arg, 's' }, { "freesp", no_arg, 's' }, { "frees", no_arg, 's' }, { "free", no_arg, 's' }, { "fre", no_arg, 's' }, { "fr", no_arg, 's' }, { "summary", no_arg, 'S' }, { "summar", no_arg, 'S' }, { "summa", no_arg, 'S' }, { "summ", no_arg, 'S' }, { "sum", no_arg, 'S' }, { "su", no_arg, 'S' }, { NULL, 0, '\0' } }; static void leave(int ret) { h5tools_close(); HDexit(ret); } /*------------------------------------------------------------------------- * Function: usage * * Purpose: Compute the ceiling of log_10(x) * * Return: >0 on success, 0 on failure * *------------------------------------------------------------------------- */ static void usage(const char *prog) { HDfflush(stdout); HDfprintf(stdout, "Usage: %s [OPTIONS] file\n", prog); HDfprintf(stdout, "\n"); HDfprintf(stdout, " OPTIONS\n"); HDfprintf(stdout, " -h, --help Print a usage message and exit\n"); HDfprintf(stdout, " -V, --version Print version number and exit\n"); HDfprintf(stdout, " -f, --file Print file information\n"); HDfprintf(stdout, " -F, --filemetadata Print file space information for file's metadata\n"); HDfprintf(stdout, " -g, --group Print group information\n"); HDfprintf(stdout, " -l N, --links=N Set the threshold for the # of links when printing\n"); HDfprintf(stdout, " information for small groups. N is an integer greater\n"); HDfprintf(stdout, " than 0. The default threshold is 10.\n"); HDfprintf(stdout, " -G, --groupmetadata Print file space information for groups' metadata\n"); HDfprintf(stdout, " -d, --dset Print dataset information\n"); HDfprintf(stdout, " -m N, --dims=N Set the threshold for the dimension sizes when printing\n"); HDfprintf(stdout, " information for small datasets. N is an integer greater\n"); HDfprintf(stdout, " than 0. The default threshold is 10.\n"); HDfprintf(stdout, " -D, --dsetmetadata Print file space information for datasets' metadata\n"); HDfprintf(stdout, " -T, --dtypemetadata Print datasets' datatype information\n"); HDfprintf(stdout, " -A, --attribute Print attribute information\n"); HDfprintf(stdout, " -a N, --numattrs=N Set the threshold for the # of attributes when printing\n"); HDfprintf(stdout, " information for small # of attributes. N is an integer greater\n"); HDfprintf(stdout, " than 0. The default threshold is 10.\n"); HDfprintf(stdout, " -s, --freespace Print free space information\n"); HDfprintf(stdout, " -S, --summary Print summary of file space information\n"); } /*------------------------------------------------------------------------- * Function: ceil_log10 * * Purpose: Compute the ceiling of log_10(x) * * Return: >0 on success, 0 on failure * * Programmer: Quincey Koziol * Monday, August 22, 2005 * *------------------------------------------------------------------------- */ H5_ATTR_CONST static unsigned ceil_log10(unsigned long x) { unsigned long pow10 = 1; unsigned ret = 0; while(x >= pow10) { pow10 *= 10; ret++; } /* end while */ return ret; } /* ceil_log10() */ /*------------------------------------------------------------------------- * Function: attribute_stats * * Purpose: Gather statistics about attributes on an object * * Return: Success: 0 * * Failure: -1 * * Programmer: Quincey Koziol * Tuesday, July 17, 2007 * *------------------------------------------------------------------------- */ static herr_t attribute_stats(iter_t *iter, const H5O_info_t *oi) { unsigned bin; /* "bin" the number of objects falls in */ /* Update dataset & attribute metadata info */ iter->attrs_btree_storage_size += oi->meta_size.attr.index_size; iter->attrs_heap_storage_size += oi->meta_size.attr.heap_size; /* Update small # of attribute count & limits */ if(oi->num_attrs <= (hsize_t)sattrs_threshold) (iter->num_small_attrs[(size_t)oi->num_attrs])++; if(oi->num_attrs > iter->max_attrs) iter->max_attrs = oi->num_attrs; /* 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)); HDassert(iter->attr_bins); /* Initialize counts for intermediate bins */ while(iter->attr_nbins < bin) iter->attr_bins[iter->attr_nbins++] = 0; iter->attr_nbins++; /* Initialize count for new bin */ iter->attr_bins[bin] = 1; } /* end if */ else (iter->attr_bins[bin])++; return 0; } /* end attribute_stats() */ /*------------------------------------------------------------------------- * Function: group_stats * * Purpose: Gather statistics about the group * * Return: Success: 0 * * Failure: -1 * * Programmer: Quincey Koziol * Tuesday, August 16, 2005 * * Modifications: Refactored code from the walk_function * EIP, Wednesday, August 16, 2006 * * Vailin Choi 12 July 2007 * 1. Gathered storage info for btree and heap * (groups and attributes) * 2. Gathered info for attributes * * Vailin Choi 14 July 2007 * Cast "num_objs" and "num_attrs" to size_t * Due to the -Mbounds problem for the pgi-32 bit compiler on indexing * *------------------------------------------------------------------------- */ static herr_t group_stats(iter_t *iter, const char *name, const H5O_info_t *oi) { H5G_info_t ginfo; /* Group information */ unsigned bin; /* "bin" the number of objects falls in */ herr_t ret; /* Gather statistics about this type of object */ iter->uniq_groups++; /* Get object header information */ iter->group_ohdr_info.total_size += oi->hdr.space.total; iter->group_ohdr_info.free_size += oi->hdr.space.free; /* Get group information */ ret = H5Gget_info_by_name(iter->fid, name, &ginfo, H5P_DEFAULT); HDassert(ret >= 0); /* Update link stats */ /* Collect statistics for small groups */ if(ginfo.nlinks < (hsize_t)sgroups_threshold) (iter->num_small_groups[(size_t)ginfo.nlinks])++; /* Determine maximum link count */ if(ginfo.nlinks > iter->max_fanout) iter->max_fanout = ginfo.nlinks; /* Add group count to proper bin */ bin = ceil_log10((unsigned long)ginfo.nlinks); if((bin + 1) > iter->group_nbins) { /* Allocate more storage for info about dataset's datatype */ iter->group_bins = (unsigned long *)HDrealloc(iter->group_bins, (bin + 1) * sizeof(unsigned long)); HDassert(iter->group_bins); /* Initialize counts for intermediate bins */ while(iter->group_nbins < bin) iter->group_bins[iter->group_nbins++] = 0; iter->group_nbins++; /* Initialize count for new bin */ iter->group_bins[bin] = 1; } /* end if */ else (iter->group_bins[bin])++; /* Update group metadata info */ iter->groups_btree_storage_size += oi->meta_size.obj.index_size; iter->groups_heap_storage_size += oi->meta_size.obj.heap_size; /* Update attribute metadata info */ ret = attribute_stats(iter, oi); HDassert(ret >= 0); return 0; } /* end group_stats() */ /*------------------------------------------------------------------------- * Function: dataset_stats * * Purpose: Gather statistics about the dataset * * Return: Success: 0 * * Failure: -1 * * Programmer: Quincey Koziol * Tuesday, August 16, 2005 * *------------------------------------------------------------------------- */ static herr_t dataset_stats(iter_t *iter, const char *name, const H5O_info_t *oi) { unsigned bin; /* "bin" the number of objects falls in */ hid_t did; /* Dataset ID */ hid_t sid; /* Dataspace ID */ hid_t tid; /* Datatype ID */ hid_t dcpl; /* Dataset creation property list ID */ hsize_t dims[H5S_MAX_RANK];/* Dimensions of dataset */ H5D_layout_t lout; /* Layout of dataset */ unsigned type_found; /* Whether the dataset's datatype was */ /* already found */ int ndims; /* Number of dimensions of dataset */ hsize_t storage; /* Size of dataset storage */ unsigned u; /* Local index variable */ int num_ext; /* Number of external files for a dataset */ int nfltr; /* Number of filters for a dataset */ H5Z_filter_t fltr; /* Filter identifier */ herr_t ret; /* Gather statistics about this type of object */ iter->uniq_dsets++; /* Get object header information */ iter->dset_ohdr_info.total_size += oi->hdr.space.total; iter->dset_ohdr_info.free_size += oi->hdr.space.free; did = H5Dopen2(iter->fid, name, H5P_DEFAULT); HDassert(did > 0); /* Update dataset metadata info */ iter->datasets_index_storage_size += oi->meta_size.obj.index_size; iter->datasets_heap_storage_size += oi->meta_size.obj.heap_size; /* Update attribute metadata info */ ret = attribute_stats(iter, oi); HDassert(ret >= 0); /* Get storage info */ storage = H5Dget_storage_size(did); /* Gather layout statistics */ dcpl = H5Dget_create_plist(did); HDassert(dcpl > 0); lout = H5Pget_layout(dcpl); HDassert(lout >= 0); /* Object header's total size for H5D_COMPACT layout includes raw data size */ /* "storage" also includes H5D_COMPACT raw data size */ if(lout == H5D_COMPACT) iter->dset_ohdr_info.total_size -= storage; /* Track the layout type for dataset */ (iter->dset_layouts[lout])++; /* Get the number of external files for the dataset */ num_ext = H5Pget_external_count(dcpl); assert (num_ext >= 0); /* Accumulate raw data size accordingly */ if(num_ext) { iter->nexternal += (unsigned long)num_ext; iter->dset_external_storage_size += (unsigned long)storage; } else iter->dset_storage_size += storage; /* Gather dataspace statistics */ sid = H5Dget_space(did); HDassert(sid > 0); ndims = H5Sget_simple_extent_dims(sid, dims, NULL); HDassert(ndims >= 0); /* Check for larger rank of dataset */ if((unsigned)ndims > iter->max_dset_rank) iter->max_dset_rank = (unsigned)ndims; /* Track the number of datasets with each rank */ (iter->dset_rank_count[ndims])++; /* Only gather dim size statistics on 1-D datasets */ if(ndims == 1) { /* Determine maximum dimension size */ if(dims[0] > iter->max_dset_dims) iter->max_dset_dims = dims[0]; /* Collect statistics for small datasets */ if(dims[0] < (hsize_t)sdsets_threshold) (iter->small_dset_dims[(size_t)dims[0]])++; /* Add dim count to proper bin */ bin = ceil_log10((unsigned long)dims[0]); if((bin + 1) > iter->dset_dim_nbins) { /* Allocate more storage for info about dataset's datatype */ iter->dset_dim_bins = (unsigned long *)HDrealloc(iter->dset_dim_bins, (bin + 1) * sizeof(unsigned long)); HDassert(iter->dset_dim_bins); /* Initialize counts for intermediate bins */ while(iter->dset_dim_nbins < bin) iter->dset_dim_bins[iter->dset_dim_nbins++] = 0; iter->dset_dim_nbins++; /* Initialize count for this bin */ iter->dset_dim_bins[bin] = 1; } /* end if */ else (iter->dset_dim_bins[bin])++; } /* end if */ ret = H5Sclose(sid); HDassert(ret >= 0); /* Gather datatype statistics */ tid = H5Dget_type(did); HDassert(tid > 0); type_found = FALSE; for(u = 0; u < iter->dset_ntypes; u++) if(H5Tequal(iter->dset_type_info[u].tid, tid) > 0) { type_found = TRUE; break; } /* end for */ if(type_found) (iter->dset_type_info[u].count)++; else { unsigned curr_ntype = (unsigned)iter->dset_ntypes; /* Increment # of datatypes seen for datasets */ iter->dset_ntypes++; /* Allocate more storage for info about dataset's datatype */ iter->dset_type_info = (dtype_info_t *)HDrealloc(iter->dset_type_info, iter->dset_ntypes * sizeof(dtype_info_t)); HDassert(iter->dset_type_info); /* Initialize information about datatype */ iter->dset_type_info[curr_ntype].tid = H5Tcopy(tid); HDassert(iter->dset_type_info[curr_ntype].tid > 0); iter->dset_type_info[curr_ntype].count = 1; iter->dset_type_info[curr_ntype].named = 0; /* Set index for later */ u = curr_ntype; } /* end else */ /* Check if the datatype is a named datatype */ if(H5Tcommitted(tid) > 0) (iter->dset_type_info[u].named)++; ret = H5Tclose(tid); HDassert(ret >= 0); /* Track different filters */ if((nfltr = H5Pget_nfilters(dcpl)) >= 0) { if(nfltr == 0) iter->dset_comptype[0]++; for(u = 0; u < (unsigned)nfltr; u++) { fltr = H5Pget_filter2(dcpl, u, 0, 0, 0, 0, 0, NULL); if(fltr >= 0) { if(fltr < (H5_NFILTERS_IMPL - 1)) iter->dset_comptype[fltr]++; else iter->dset_comptype[H5_NFILTERS_IMPL - 1]++; /*other filters*/ } /* end if */ } /* end for */ } /* endif nfltr */ ret = H5Pclose(dcpl); HDassert(ret >= 0); ret = H5Dclose(did); HDassert(ret >= 0); return 0; } /* end dataset_stats() */ /*------------------------------------------------------------------------- * Function: datatype_stats * * Purpose: Gather statistics about the datatype * * Return: Success: 0 * Failure: -1 * * Programmer: Vailin Choi; July 7th, 2009 * *------------------------------------------------------------------------- */ static herr_t datatype_stats(iter_t *iter, const H5O_info_t *oi) { herr_t ret; /* Gather statistics about this type of object */ iter->uniq_dtypes++; /* Get object header information */ iter->dtype_ohdr_info.total_size += oi->hdr.space.total; iter->dtype_ohdr_info.free_size += oi->hdr.space.free; /* Update attribute metadata info */ ret = attribute_stats(iter, oi); HDassert(ret >= 0); return 0; } /* end datatype_stats() */ /*------------------------------------------------------------------------- * Function: obj_stats * * Purpose: Gather statistics about an object * * Return: Success: 0 * Failure: -1 * * Programmer: Quincey Koziol * Tuesday, November 6, 2007 * *------------------------------------------------------------------------- */ static herr_t obj_stats(const char *path, const H5O_info_t *oi, const char *already_visited, void *_iter) { iter_t *iter = (iter_t *)_iter; /* If the object has already been seen then just return */ if(NULL == already_visited) { /* Gather some general statistics about the object */ if(oi->rc > iter->max_links) iter->max_links = oi->rc; switch(oi->type) { case H5O_TYPE_GROUP: group_stats(iter, path, oi); break; case H5O_TYPE_DATASET: dataset_stats(iter, path, oi); break; case H5O_TYPE_NAMED_DATATYPE: datatype_stats(iter, oi); break; case H5O_TYPE_UNKNOWN: case H5O_TYPE_NTYPES: default: /* Gather statistics about this type of object */ iter->uniq_others++; break; } /* end switch */ } /* end if */ return 0; } /* end obj_stats() */ /*------------------------------------------------------------------------- * Function: lnk_stats * * Purpose: Gather statistics about a link * * Return: Success: 0 * * Failure: -1 * * Programmer: Quincey Koziol * Tuesday, November 6, 2007 * *------------------------------------------------------------------------- */ static herr_t lnk_stats(const char H5_ATTR_UNUSED *path, const H5L_info_t *li, void *_iter) { iter_t *iter = (iter_t *)_iter; switch(li->type) { case H5L_TYPE_SOFT: case H5L_TYPE_EXTERNAL: /* Gather statistics about links and UD links */ iter->uniq_links++; break; case H5L_TYPE_HARD: case H5L_TYPE_MAX: case H5L_TYPE_ERROR: default: /* Gather statistics about this type of object */ iter->uniq_others++; break; } /* end switch() */ return 0; } /* end lnk_stats() */ /*------------------------------------------------------------------------- * Function: freespace_stats * * Purpose: Gather statistics for free space sections in the file * * Return: Success: 0 * Failure: -1 * * Programmer: Vailin Choi; July 7th, 2009 * *------------------------------------------------------------------------- */ static herr_t freespace_stats(hid_t fid, iter_t *iter) { H5F_sect_info_t *sect_info = NULL; /* Free space sections */ ssize_t nsects; /* Number of free space sections */ size_t u; /* Local index variable */ /* Query section information */ if((nsects = H5Fget_free_sections(fid, H5FD_MEM_DEFAULT, 0, NULL)) < 0) return(FAIL); else if(nsects) { if(NULL == (sect_info = (H5F_sect_info_t *)HDcalloc((size_t)nsects, sizeof(H5F_sect_info_t)))) return(FAIL); nsects = H5Fget_free_sections(fid, H5FD_MEM_DEFAULT, (size_t)nsects, sect_info); HDassert(nsects); } /* end else-if */ for(u = 0; u < (size_t)nsects; u++) { unsigned bin; /* "bin" the number of objects falls in */ if(sect_info[u].size < SIZE_SMALL_SECTS) (iter->num_small_sects[(size_t)sect_info[u].size])++; /* Add section size to proper bin */ bin = ceil_log10((unsigned long)sect_info[u].size); if(bin >= iter->sect_nbins) { /* Allocate more storage for section info */ iter->sect_bins = (unsigned long *)HDrealloc(iter->sect_bins, (bin + 1) * sizeof(unsigned long)); HDassert(iter->sect_bins); /* Initialize counts for intermediate bins */ while(iter->sect_nbins < bin) iter->sect_bins[iter->sect_nbins++] = 0; iter->sect_nbins++; /* Initialize count for this bin */ iter->sect_bins[bin] = 1; } /* end if */ else (iter->sect_bins[bin])++; } /* end for */ if(sect_info) HDfree(sect_info); return 0; } /* end freespace_stats() */ /*------------------------------------------------------------------------- * Function: hand_free * * Purpose: Free handler structure * * Return: Success: 0 * * Failure: Never fails * *------------------------------------------------------------------------- */ static void hand_free(struct handler_t *hand) { if(hand) { unsigned u; for(u = 0; u < hand->obj_count; u++) if(hand->obj[u]) { HDfree(hand->obj[u]); hand->obj[u] = NULL; } /* end if */ hand->obj_count = 0; HDfree(hand->obj); HDfree(hand); } /* end if */ } /* end hand_free() */ /*------------------------------------------------------------------------- * Function: parse_command_line * * Purpose: Parses command line and sets up global variable to control output * * Return: Success: 0 * * Failure: -1 * * Programmer: Elena Pourmal * Saturday, August 12, 2006 * *------------------------------------------------------------------------- */ static int parse_command_line(int argc, const char *argv[], struct handler_t **hand_ret) { int opt; unsigned u; struct handler_t *hand = NULL; /* parse command line options */ while((opt = get_option(argc, argv, s_opts, l_opts)) != EOF) { switch((char)opt) { case 'h': usage(h5tools_getprogname()); h5tools_setstatus(EXIT_SUCCESS); goto done; break; case 'V': print_version(h5tools_getprogname()); h5tools_setstatus(EXIT_SUCCESS); goto done; break; case 'F': display_all = FALSE; display_file_metadata = TRUE; break; case 'f': display_all = FALSE; display_file = TRUE; break; case 'G': display_all = FALSE; display_group_metadata = TRUE; break; case 'g': display_all = FALSE; display_group = TRUE; break; case 'l': if(opt_arg) { sgroups_threshold = HDatoi(opt_arg); if(sgroups_threshold < 1) { error_msg("Invalid threshold for small groups\n"); goto error; } } else error_msg("Missing threshold for small groups\n"); break; case 'D': display_all = FALSE; display_dset_metadata = TRUE; break; case 'd': display_all = FALSE; display_dset = TRUE; break; case 'm': if(opt_arg) { sdsets_threshold = HDatoi(opt_arg); if(sdsets_threshold < 1) { error_msg("Invalid threshold for small datasets\n"); goto error; } } else error_msg("Missing threshold for small datasets\n"); break; case 'T': display_all = FALSE; display_dset_dtype_meta = TRUE; break; case 'A': display_all = FALSE; display_attr = TRUE; break; case 'a': if(opt_arg) { sattrs_threshold = HDatoi(opt_arg); if(sattrs_threshold < 1) { error_msg("Invalid threshold for small # of attributes\n"); goto error; } } else error_msg("Missing threshold for small # of attributes\n"); break; case 's': display_all = FALSE; display_free_sections = TRUE; break; case 'S': display_all = FALSE; display_summary = TRUE; break; case 'O': display_all = FALSE; display_object = TRUE; /* Allocate space to hold the command line info */ if(NULL == (hand = (struct handler_t *)HDcalloc((size_t)1, sizeof(struct handler_t)))) { error_msg("unable to allocate memory for object struct\n"); goto error; } /* end if */ /* Allocate space to hold the object strings */ hand->obj_count = (size_t)argc; if(NULL == (hand->obj = (char **)HDcalloc((size_t)argc, sizeof(char *)))) { error_msg("unable to allocate memory for object array\n"); goto error; } /* end if */ /* Store object names */ for(u = 0; u < hand->obj_count; u++) if(NULL == (hand->obj[u] = HDstrdup(opt_arg))) { error_msg("unable to allocate memory for object name\n"); goto error; } /* end if */ break; default: usage(h5tools_getprogname()); goto error; } /* end switch */ } /* end while */ /* check for file name to be processed */ if(argc <= opt_ind) { error_msg("missing file name\n"); usage(h5tools_getprogname()); goto error; } /* end if */ /* Set handler structure */ *hand_ret = hand; done: return 0; error: hand_free(hand); h5tools_setstatus(EXIT_FAILURE); return -1; } /*------------------------------------------------------------------------- * Function: iter_free * * Purpose: Free iter structure * * Return: Success: 0 * * Failure: Never fails * *------------------------------------------------------------------------- */ static void iter_free(iter_t *iter) { /* Clear array of bins for group counts */ if(iter->group_bins) { HDfree(iter->group_bins); iter->group_bins = NULL; } /* end if */ /* Clear array for tracking small groups */ if(iter->num_small_groups) { HDfree(iter->num_small_groups); iter->num_small_groups = NULL; } /* end if */ /* Clear array of bins for attribute counts */ if(iter->attr_bins) { HDfree(iter->attr_bins); iter->attr_bins = NULL; } /* end if */ /* Clear array for tracking small attributes */ if(iter->num_small_attrs) { HDfree(iter->num_small_attrs); iter->num_small_attrs= NULL; } /* end if */ /* Clear dataset datatype information found */ if(iter->dset_type_info) { HDfree(iter->dset_type_info); iter->dset_type_info = NULL; } /* end if */ /* Clear array of bins for dataset dimensions */ if(iter->dset_dim_bins) { HDfree(iter->dset_dim_bins); iter->dset_dim_bins = NULL; } /* end if */ /* Clear array of tracking 1-D small datasets */ if(iter->small_dset_dims) { HDfree(iter->small_dset_dims); iter->small_dset_dims = NULL; } /* end if */ /* Clear array of bins for free-space section sizes */ if(iter->sect_bins) { HDfree(iter->sect_bins); iter->sect_bins = NULL; } /* end if */ } /* end iter_free() */ /*------------------------------------------------------------------------- * Function: print_file_info * * Purpose: Prints information about file * * Return: Success: 0 * * Failure: Never fails * * Programmer: Elena Pourmal * Saturday, August 12, 2006 * * Modifications: * *------------------------------------------------------------------------- */ 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); HDfprintf(stdout, "\tMax. # of objects in group: %Hu\n", iter->max_fanout); return 0; } /* print_file_info() */ /*------------------------------------------------------------------------- * Function: print_file_metadata * * Purpose: Prints file space information for file's metadata * * Return: Success: 0 * * Failure: Never fails * * Programmer: Elena Pourmal * Saturday, August 12, 2006 * *------------------------------------------------------------------------- */ static herr_t print_file_metadata(const iter_t *iter) { HDfprintf(stdout, "File space information for file metadata (in bytes):\n"); HDfprintf(stdout, "\tSuperblock: %Hu\n", iter->super_size); HDfprintf(stdout, "\tSuperblock extension: %Hu\n", iter->super_ext_size); 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\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); HDfprintf(stdout, "\tGroups:\n"); HDfprintf(stdout, "\t\tB-tree/List: %Hu\n", iter->groups_btree_storage_size); HDfprintf(stdout, "\t\tHeap: %Hu\n", iter->groups_heap_storage_size); HDfprintf(stdout, "\tAttributes:\n"); HDfprintf(stdout, "\t\tB-tree/List: %Hu\n", iter->attrs_btree_storage_size); HDfprintf(stdout, "\t\tHeap: %Hu\n", iter->attrs_heap_storage_size); HDfprintf(stdout, "\tChunked datasets:\n"); HDfprintf(stdout, "\t\tIndex: %Hu\n", iter->datasets_index_storage_size); HDfprintf(stdout, "\tDatasets:\n"); HDfprintf(stdout, "\t\tHeap: %Hu\n", iter->datasets_heap_storage_size); HDfprintf(stdout, "\tShared Messages:\n"); HDfprintf(stdout, "\t\tHeader: %Hu\n", iter->SM_hdr_storage_size); HDfprintf(stdout, "\t\tB-tree/List: %Hu\n", iter->SM_index_storage_size); HDfprintf(stdout, "\t\tHeap: %Hu\n", iter->SM_heap_storage_size); HDfprintf(stdout, "\tFree-space managers:\n"); HDfprintf(stdout, "\t\tHeader: %Hu\n", iter->free_hdr); HDfprintf(stdout, "\t\tAmount of free space: %Hu\n", iter->free_space); return 0; } /* print_file_metadata() */ /*------------------------------------------------------------------------- * Function: print_group_info * * Purpose: Prints information about groups in the file * * Return: Success: 0 * * Failure: Never fails * * Programmer: Elena Pourmal * Saturday, August 12, 2006 * * Modifications: * bug #1253; Oct 6th 2008; Vailin Choi * Fixed segmentation fault: print iter->group_bins[0] when * there is iter->group_nbins * *------------------------------------------------------------------------- */ static herr_t print_group_info(const iter_t *iter) { unsigned long power; /* Temporary "power" for bins */ 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); 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]); total += iter->num_small_groups[u]; } /* end if */ } /* end for */ printf("\tTotal # of small groups: %lu\n", total); printf("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]); 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, iter->group_bins[u]); total += iter->group_bins[u]; } /* end if */ power *= 10; } /* end for */ printf("\tTotal # of groups: %lu\n", total); return 0; } /* print_group_info() */ /*------------------------------------------------------------------------- * Function: print_group_metadata * * Purpose: Prints file space information for groups' metadata * * Return: Success: 0 * * Failure: Never fails * * Programmer: Vailin Choi; October 2009 * *------------------------------------------------------------------------- */ static herr_t print_group_metadata(const iter_t *iter) { printf("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); HDfprintf(stdout, "\tB-tree/List: %Hu\n", iter->groups_btree_storage_size); HDfprintf(stdout, "\tHeap: %Hu\n", iter->groups_heap_storage_size); return 0; } /* print_group_metadata() */ /*------------------------------------------------------------------------- * Function: print_dataset_info * * Purpose: Prints information about datasets in the file * * Return: Success: 0 * * Failure: Never fails * * Programmer: Elena Pourmal * Saturday, August 12, 2006 * *------------------------------------------------------------------------- */ static herr_t print_dataset_info(const iter_t *iter) { unsigned long power; /* Temporary "power" for bins */ unsigned long total; /* Total count for various statistics */ 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"); 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]); printf("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); 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, iter->small_dset_dims[u]); total += iter->small_dset_dims[u]; } /* end if */ } /* end for */ printf("\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"); 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]); 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, 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); } /* end if */ printf("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"); for(u = 0; u < H5D_NLAYOUTS; u++) printf("\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]); } /* end if */ return 0; } /* print_dataset_info() */ /*------------------------------------------------------------------------- * Function: print_dataset_metadata * * Purpose: Prints file space information for datasets' metadata * * Return: Success: 0 * * Failure: Never fails * * Programmer: Vailin Choi; October 2009 * *------------------------------------------------------------------------- */ static herr_t print_dset_metadata(const iter_t *iter) { printf("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); HDfprintf(stdout, "\tIndex for Chunked datasets: %Hu\n", iter->datasets_index_storage_size); HDfprintf(stdout, "\tHeap: %Hu\n", iter->datasets_heap_storage_size); return 0; } /* print_dset_metadata() */ /*------------------------------------------------------------------------- * Function: print_dset_dtype_meta * * Purpose: Prints datasets' datatype information * * Return: Success: 0 * * Failure: Never fails * * Programmer: Vailin Choi; October 2009 * *------------------------------------------------------------------------- */ static herr_t print_dset_dtype_meta(const iter_t *iter) { unsigned long total; /* Total count for various statistics */ size_t dtype_size; /* Size of encoded datatype */ 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); 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", iter->dset_type_info[u].count, iter->dset_type_info[u].named); printf("\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); } /* end if */ return 0; } /* print_dset_dtype_meta() */ /*------------------------------------------------------------------------- * Function: print_attr_info * * Purpose: Prints information about attributes in the file * * Return: Success: 0 * * Failure: Never fails * * Programmer: Vailin Choi * July 12, 2007 * *------------------------------------------------------------------------- */ static herr_t print_attr_info(const iter_t *iter) { unsigned long power; /* Temporary "power" for bins */ 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); 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]); total += iter->num_small_attrs[u]; } /* end if */ } /* end for */ printf("\tTotal # of objects with small # of attributes: %lu\n", total); printf("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, 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); return 0; } /* print_attr_info() */ /*------------------------------------------------------------------------- * Function: print_freespace_info * * Purpose: Prints information about free space in the file * * Return: Success: 0 * * Failure: Never fails * * Programmer: Vailin Choi; July 7th, 2009 * *------------------------------------------------------------------------- */ static herr_t print_freespace_info(const iter_t *iter) { unsigned long power; /* Temporary "power" for bins */ unsigned long total; /* Total count for various statistics */ unsigned u; /* Local index variable */ 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); 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]); total += iter->num_small_sects[u]; } /* end if */ } /* end for */ printf("\tTotal # of small size sections: %lu\n", total); printf("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, iter->sect_bins[u]); total += iter->sect_bins[u]; } /* end if */ power *= 10; } /* end for */ printf("\tTotal # of sections: %lu\n", total); return 0; } /* print_freespace_info() */ /*------------------------------------------------------------------------- * Function: print_storage_summary * * Purpose: Prints file space information for the file * * Return: Success: 0 * * Failure: Never fails * * Programmer: Vailin Choi; August 2009 * *------------------------------------------------------------------------- */ static herr_t print_storage_summary(const iter_t *iter) { hsize_t total_meta = 0; hsize_t unaccount = 0; double percent = 0.0f; HDfprintf(stdout, "File space management strategy: %s\n", FS_STRATEGY_NAME[iter->fs_strategy]); printf("Summary of file space information:\n"); total_meta = iter->super_size + iter->super_ext_size + iter->ublk_size + iter->group_ohdr_info.total_size + iter->dset_ohdr_info.total_size + iter->dtype_ohdr_info.total_size + iter->groups_btree_storage_size + iter->groups_heap_storage_size + iter->attrs_btree_storage_size + iter->attrs_heap_storage_size + iter->datasets_index_storage_size + iter->datasets_heap_storage_size + iter->SM_hdr_storage_size + iter->SM_index_storage_size + iter->SM_heap_storage_size + iter->free_hdr; HDfprintf(stdout, " File metadata: %Hu bytes\n", total_meta); HDfprintf(stdout, " Raw data: %Hu bytes\n", iter->dset_storage_size); percent = ((double)iter->free_space / (double)iter->filesize) * (double)100.0f; HDfprintf(stdout, " Amount/Percent of tracked free space: %Hu bytes/%3.1f%\n", iter->free_space, percent); if(iter->filesize < (total_meta + iter->dset_storage_size + iter->free_space)) { unaccount = (total_meta + iter->dset_storage_size + iter->free_space) - iter->filesize; HDfprintf(stdout, " ??? File has %Hu more bytes accounted for than its size! ???\n", unaccount); } else { unaccount = iter->filesize - (total_meta + iter->dset_storage_size + iter->free_space); HDfprintf(stdout, " Unaccounted space: %Hu bytes\n", unaccount); } HDfprintf(stdout, "Total space: %Hu bytes\n", total_meta + iter->dset_storage_size + iter->free_space + unaccount); if(iter->nexternal) HDfprintf(stdout, "External raw data: %Hu bytes\n", iter->dset_external_storage_size); return 0; } /* print_storage_summary() */ /*------------------------------------------------------------------------- * Function: print_file_statistics * * Purpose: Prints file statistics * * Return: Success: 0 * * Failure: Never fails * * Programmer: Elena Pourmal * Saturday, August 12, 2006 * *------------------------------------------------------------------------- */ static void print_file_statistics(const iter_t *iter) { if(display_all) { display_file = TRUE; display_group = TRUE; display_dset = TRUE; display_dset_dtype_meta = TRUE; display_attr = TRUE; display_free_sections = TRUE; display_summary = TRUE; display_file_metadata = TRUE; display_group_metadata = TRUE; display_dset_metadata = TRUE; } if(display_file) print_file_info(iter); if(display_file_metadata) print_file_metadata(iter); if(display_group) print_group_info(iter); if(!display_all && display_group_metadata) print_group_metadata(iter); if(display_dset) print_dataset_info(iter); if(display_dset_dtype_meta) print_dset_dtype_meta(iter); if(!display_all && display_dset_metadata) print_dset_metadata(iter); if(display_attr) print_attr_info(iter); if(display_free_sections) print_freespace_info(iter); if(display_summary) print_storage_summary(iter); } /* print_file_statistics() */ /*------------------------------------------------------------------------- * Function: print_object_statistics * * Purpose: Prints object statistics * * Return: Success: 0 * * Failure: Never fails * * Programmer: Elena Pourmal * Thursday, August 17, 2006 * * Modifications: * *------------------------------------------------------------------------- */ static void print_object_statistics(const char *name) { printf("Object name %s\n", name); } /* print_object_statistics() */ /*------------------------------------------------------------------------- * Function: print_statistics * * Purpose: Prints statistics * * Return: Success: 0 * * Failure: Never fails * * Programmer: Elena Pourmal * Thursday, August 17, 2006 * * Modifications: * *------------------------------------------------------------------------- */ static void print_statistics(const char *name, const iter_t *iter) { if(display_object) print_object_statistics(name); else print_file_statistics(iter); } /* print_statistics() */ /*------------------------------------------------------------------------- * Function: main * * Modifications: * 2/2010; Vailin Choi * Get the size of user block * *------------------------------------------------------------------------- */ int main(int argc, const char *argv[]) { iter_t iter; const char *fname = NULL; hid_t fid = -1; struct handler_t *hand = NULL; h5tools_setprogname(PROGRAMNAME); h5tools_setstatus(EXIT_SUCCESS); /* Disable error reporting */ H5Eset_auto2(H5E_DEFAULT, NULL, NULL); /* Initialize h5tools lib */ h5tools_init(); HDmemset(&iter, 0, sizeof(iter)); if(parse_command_line(argc, argv, &hand) < 0) goto done; fname = argv[opt_ind]; /* Check for filename given */ if(fname) { hid_t fcpl; H5F_info2_t finfo; printf("Filename: %s\n", fname); fid = H5Fopen(fname, H5F_ACC_RDONLY, H5P_DEFAULT); if(fid < 0) { error_msg("unable to open file \"%s\"\n", fname); h5tools_setstatus(EXIT_FAILURE); goto done; } /* end if */ /* Initialize iter structure */ iter.fid = fid; if(H5Fget_filesize(fid, &iter.filesize) < 0) warn_msg("Unable to retrieve file size\n"); HDassert(iter.filesize != 0); /* Get storge info for file-level structures */ if(H5Fget_info2(fid, &finfo) < 0) warn_msg("Unable to retrieve file info\n"); else { iter.super_size = finfo.super.super_size; iter.super_ext_size = finfo.super.super_ext_size; iter.SM_hdr_storage_size = finfo.sohm.hdr_size; iter.SM_index_storage_size = finfo.sohm.msgs_info.index_size; iter.SM_heap_storage_size = finfo.sohm.msgs_info.heap_size; iter.free_space = finfo.free.tot_space; iter.free_hdr = finfo.free.meta_size; } /* end else */ iter.num_small_groups = (unsigned long *)HDcalloc((size_t)sgroups_threshold, sizeof(unsigned long)); iter.num_small_attrs = (unsigned long *)HDcalloc((size_t)(sattrs_threshold+1), sizeof(unsigned long)); iter.small_dset_dims = (unsigned long *)HDcalloc((size_t)sdsets_threshold, sizeof(unsigned long)); 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); goto done; } if((fcpl = H5Fget_create_plist(fid)) < 0) warn_msg("Unable to retrieve file creation property\n"); if(H5Pget_userblock(fcpl, &iter.ublk_size) < 0) warn_msg("Unable to retrieve userblock size\n"); if(H5Pget_file_space(fcpl, &iter.fs_strategy, &iter.fs_threshold) < 0) warn_msg("Unable to retrieve file space information\n"); HDassert(iter.fs_strategy != 0 && iter.fs_strategy < H5F_FILE_SPACE_NTYPES); /* get information for free-space sections */ if(freespace_stats(fid, &iter) < 0) warn_msg("Unable to retrieve freespace info\n"); /* Walk the objects or all file */ if(display_object) { unsigned u; for(u = 0; u < hand->obj_count; u++) { if(h5trav_visit(fid, hand->obj[u], TRUE, TRUE, obj_stats, lnk_stats, &iter) < 0) warn_msg("Unable to traverse object \"%s\"\n", hand->obj[u]); else print_statistics(hand->obj[u], &iter); } /* end for */ } /* end if */ else { if(h5trav_visit(fid, "/", TRUE, TRUE, obj_stats, lnk_stats, &iter) < 0) warn_msg("Unable to traverse objects/links in file \"%s\"\n", fname); else print_statistics("/", &iter); } /* end else */ } /* end if */ done: hand_free(hand); /* Free iter structure */ iter_free(&iter); if(fid >= 0 && H5Fclose(fid) < 0) { error_msg("unable to close file \"%s\"\n", fname); h5tools_setstatus(EXIT_FAILURE); } /* end if */ leave(h5tools_getstatus()); } /* end main() */