/*------------------------------------------------------------------------- * Copyright (C) 1997 National Center for Supercomputing Applications. * All rights reserved. * *------------------------------------------------------------------------- * * Created: snode.c * Jun 26 1997 * Robb Matzke * * Purpose: Functions for handling symbol table nodes. A * symbol table node is a small collection of symbol * table entries. A B-tree usually points to the * symbol table nodes for any given symbol table. * * Modifications: * *------------------------------------------------------------------------- */ #include #include #include #include "hdf5.h" /* Packages needed by this file... */ #include "H5ACprivate.h" /*cache */ #include "H5Bprivate.h" /*B-link trees */ #include "H5Gprivate.h" /*me */ #include "H5Hprivate.h" /*heap */ #include "H5MFprivate.h" /*file memory management */ #include "H5MMprivate.h" /*core memory management */ /* PRIVATE PROTOTYPES */ static void H5G_node_decode_key (hdf5_file_t *f, uint8 *raw, void *_key); static void H5G_node_encode_key (hdf5_file_t *f, uint8 *raw, void *_key); static size_t H5G_node_size (hdf5_file_t *f); static off_t H5G_node_new (hdf5_file_t *f, void *_lt_key, void *_udata, void *_rt_key); static herr_t H5G_node_flush (hdf5_file_t *f, hbool_t destroy, off_t addr, H5G_node_t *sym); static H5G_node_t *H5G_node_load (hdf5_file_t *f, off_t addr, const void *_data); static intn H5G_node_cmp (hdf5_file_t *f, void *_lt_key, void *_udata, void *_rt_key); static herr_t H5G_node_found (hdf5_file_t *f, off_t addr, void *_lt_key, void *_udata, void *_rt_key); static off_t H5G_node_insert (hdf5_file_t *f, off_t addr, intn *anchor, void *_lt_key, hbool_t *lt_key_changed, void *_md_key, void *_udata, void *_rt_key, hbool_t *rt_key_changed); static herr_t H5G_node_list (hdf5_file_t *f, off_t addr, void *_udata); static size_t H5G_node_sizeof_rkey (hdf5_file_t *f); /* H5G inherits cache-like properties from H5AC */ static const H5AC_class_t H5AC_SNODE[1] = {{ (void*(*)(hdf5_file_t*,off_t,const void*))H5G_node_load, (herr_t(*)(hdf5_file_t*,hbool_t,off_t,void*))H5G_node_flush, }}; /* H5G inherits B-tree like properties from H5B */ static const H5B_class_t H5B_SNODE[1] = {{ 0, /*id */ 64, /*k */ sizeof (H5G_node_key_t), /*sizeof_nkey */ H5G_node_sizeof_rkey, /*get_sizeof_rkey */ H5G_node_new, /*new */ H5G_node_cmp, /*cmp */ H5G_node_found, /*found */ H5G_node_insert, /*insert */ H5G_node_list, /*list */ H5G_node_decode_key, /*decode */ H5G_node_encode_key, /*encode */ }}; /*------------------------------------------------------------------------- * Function: H5G_node_sizeof_rkey * * Purpose: Returns the size of a raw B-link tree key for the specified * file. * * Return: Success: Size of the key. * * Failure: never fails * * Programmer: Robb Matzke * robb@maya.nuance.com * Jul 14 1997 * * Modifications: * *------------------------------------------------------------------------- */ static size_t H5G_node_sizeof_rkey (hdf5_file_t *f) { return SIZEOF_OFFSET(f); } /*------------------------------------------------------------------------- * Function: H5G_node_decode_key * * Purpose: Decodes a raw key into a native key. * * Return: void * * Programmer: Robb Matzke * robb@maya.nuance.com * Jul 8 1997 * * Modifications: * *------------------------------------------------------------------------- */ static void H5G_node_decode_key (hdf5_file_t *f, uint8 *raw, void *_key) { H5G_node_key_t *key = (H5G_node_key_t *)_key; H5F_decode_offset (f, raw, key->offset); } /*------------------------------------------------------------------------- * Function: H5G_node_encode_key * * Purpose: Encodes a native key into a raw key. * * Return: void * * Programmer: Robb Matzke * robb@maya.nuance.com * Jul 8 1997 * * Modifications: * *------------------------------------------------------------------------- */ static void H5G_node_encode_key (hdf5_file_t *f, uint8 *raw, void *_key) { H5G_node_key_t *key = (H5G_node_key_t *)_key; H5F_encode_offset (f, raw, key->offset); } /*------------------------------------------------------------------------- * Function: H5G_node_size * * Purpose: Returns the total size of a symbol table node. * * Return: Success: Total size of the node in bytes. * * Failure: Never fails. * * Programmer: Robb Matzke * robb@maya.nuance.com * Jun 23 1997 * * Modifications: * *------------------------------------------------------------------------- */ static size_t H5G_node_size (hdf5_file_t *f) { return H5G_HDR_SIZE(f) + (2*H5G_NODE_K) * (2*SIZEOF_OFFSET(f)); } /*------------------------------------------------------------------------- * Function: H5G_node_new * * Purpose: Creates a new empty symbol table. This function is called * by the B-tree insert function for an empty tree. It is * also called internally to split a symbol node with * LT_KEY and RT_KEY null pointers. * * Return: Success: Address of symbol table node. * * Failure: 0 * * Programmer: Robb Matzke * robb@maya.nuance.com * Jun 23 1997 * * Modifications: * *------------------------------------------------------------------------- */ static off_t H5G_node_new (hdf5_file_t *f, void *_lt_key, void *_udata, void *_rt_key) { H5G_node_key_t *lt_key = (H5G_node_key_t*)_lt_key; H5G_node_key_t *rt_key = (H5G_node_key_t*)_rt_key; H5G_node_t *sym = H5MM_xcalloc (1, sizeof(H5G_node_t)); size_t size = H5G_node_size (f); off_t addr = H5MF_alloc (f, size); sym->dirty = 1; sym->entry = H5MM_xcalloc (2 * H5G_NODE_K, sizeof(H5G_entry_t)); H5AC_set (f, H5AC_SNODE, addr, sym); /* * The left and right symbols in an empty tree are both the * empty string stored at offset zero by the symtab.c functions. This * allows the comparison functions to work correctly without knowing * that there are no symbols. */ if (lt_key) lt_key->offset = 0; if (rt_key) rt_key->offset = 0; return addr; } /*------------------------------------------------------------------------- * Function: H5G_node_flush * * Purpose: Flush a symbol table node to disk. * * Return: Success: 0 * * Failure: -1 * * Programmer: Robb Matzke * robb@maya.nuance.com * Jun 23 1997 * * Modifications: * *------------------------------------------------------------------------- */ static herr_t H5G_node_flush (hdf5_file_t *f, hbool_t destroy, off_t addr, H5G_node_t *sym) { uint8 *buf=NULL, *p=NULL; size_t size; if (sym->dirty) { size = H5G_node_size (f); buf = p = H5MM_xmalloc (size); /* magic number */ HDmemcpy (p, H5G_NODE_MAGIC, 4); p += 4; /* version number */ *p++ = H5G_NODE_VERS; /* reserved */ *p++ = 0; /* number of symbols */ UINT16ENCODE (p, sym->nsyms); /* entries */ H5G_encode_vec (f, &p, sym->entry, sym->nsyms); H5F_block_write (f, addr, p-buf, buf); buf = H5MM_xfree (buf); } if (destroy) { sym->entry = H5MM_xfree (sym->entry); H5MM_xfree (sym); } return 0; } /*------------------------------------------------------------------------- * Function: H5G_node_load * * Purpose: Loads a symbol table from the file. * * Return: Success: Ptr to the new table. * * Failure: NULL * * Programmer: Robb Matzke * robb@maya.nuance.com * Jun 23 1997 * * Modifications: * *------------------------------------------------------------------------- */ static H5G_node_t * H5G_node_load (hdf5_file_t *f, off_t addr, const void *_udata) { H5G_node_t *sym = H5MM_xcalloc (1, sizeof(H5G_node_t)); size_t size = H5G_node_size (f); uint8 *buf = H5MM_xmalloc (size); uint8 *p = buf; sym->entry = H5MM_xcalloc (2*H5G_NODE_K, sizeof(H5G_entry_t)); H5F_block_read (f, addr, size, buf); /* magic */ if (HDmemcmp (p, H5G_NODE_MAGIC, 4)) goto error; p += 4; /* version */ if (H5G_NODE_VERS!=*p++) goto error; /* reserved */ p++; /* number of symbols */ UINT16DECODE (p, sym->nsyms); /* entries */ H5G_decode_vec (f, &p, sym->entry, sym->nsyms); H5MM_xfree (buf); return sym; error: H5MM_xfree (buf); H5MM_xfree (sym); return NULL; } /*------------------------------------------------------------------------- * Function: H5G_node_cmp * * Purpose: Compares two keys from a B-tree node (LEFT and RIGHT) * against another key (not necessarily the same type) * pointed to by UDATA. * * Return: Success: negative if the UDATA key is less than * or equal to the LEFT key. * * positive if the UDATA key is greater * than the RIGHT key. * * zero if the UDATA key falls between * the LEFT key (exclusive) and the * RIGHT key (inclusive). * * Failure: Never fails * * Programmer: Robb Matzke * robb@maya.nuance.com * Jun 23 1997 * * Modifications: * *------------------------------------------------------------------------- */ static intn H5G_node_cmp (hdf5_file_t *f, void *_lt_key, void *_udata, void *_rt_key) { H5G_node_ud1_t *udata = (H5G_node_ud1_t *)_udata; H5G_node_key_t *lt_key = (H5G_node_key_t *)_lt_key; H5G_node_key_t *rt_key = (H5G_node_key_t *)_rt_key; const char *s; /* left side */ s = H5H_peek (f, udata->heap, lt_key->offset); if (HDstrcmp (udata->name, s)<=0) return -1; /* right side */ s = H5H_peek (f, udata->heap, rt_key->offset); if (HDstrcmp (udata->name, s)>0) return 1; return 0; } /*------------------------------------------------------------------------- * Function: H5G_node_found * * Purpose: The B-tree search engine has found the symbol table node * which contains the requested symbol if the symbol exists. * This function should examine that node for the symbol and * return information about the symbol through the UDATA * structure which contains the symbol name on function * entry. * * Return: Success: 0 if found and data returned through the * UDATA pointer. * * Failure: -1 if not found. * * Programmer: Robb Matzke * robb@maya.nuance.com * Jun 23 1997 * * Modifications: * *------------------------------------------------------------------------- */ static herr_t H5G_node_found (hdf5_file_t *f, off_t addr, void *_lt_key, void *_udata, void *_rt_key) { H5G_node_ud1_t *udata = (H5G_node_ud1_t *)_udata; H5G_node_t *sn; intn lt=0, idx=0, rt, cmp=1; const char *s; sn = H5AC_find (f, H5AC_SNODE, addr, NULL); if (!sn) return -1; rt = sn->nsyms; /* * Binary search. */ while (ltheap, sn->entry[idx].name_off); cmp = HDstrcmp (udata->name, s); if (cmp<0) { rt = idx; } else { lt = idx+1; } } if (cmp) return -1; udata->entry = sn->entry[idx]; return 0; } /*------------------------------------------------------------------------- * Function: H5G_node_insert * * Purpose: The B-tree insertion engine has found the symbol table node * which should receive the new symbol/address pair. This * function adds it to that node unless it already existed. * * If the node has no room for the symbol then the node is * split into two nodes. The original node contains the * low values and the new node contains the high values. * The new symbol table entry is added to either node as * appropriate. When a split occurs, this function will * write the maximum key of the low node to the MID buffer * and return the address of the new node. * * If the new key is larger than RIGHT then update RIGHT * with the new key. * * Return: Success: Address of new node if the node was * split. MID has been initialized with * the high key of the left node, RIGHT * has the high key of the right node. * * Zero if the node didn't split. RIGHT has the * high key of the right node. * * Failure: -1 * * Programmer: Robb Matzke * robb@maya.nuance.com * Jun 24 1997 * * Modifications: * *------------------------------------------------------------------------- */ static off_t H5G_node_insert (hdf5_file_t *f, off_t addr, intn *anchor, void *_lt_key, hbool_t *lt_key_changed, void *_md_key, void *_udata, void *_rt_key, hbool_t *rt_key_changed) { H5G_node_key_t *md_key = (H5G_node_key_t *)_md_key; H5G_node_key_t *rt_key = (H5G_node_key_t *)_rt_key; H5G_node_ud1_t *udata = (H5G_node_ud1_t *)_udata; H5G_node_t *sn; H5G_entry_t ent[2*H5G_NODE_K]; off_t new_node=0, offset; const char *s; intn idx=-1, nsyms, cmp=1; intn lt=0, rt; /*binary search cntrs */ /* * Symbol tables are always split so the new symbol table node is * to the right of the old one. */ *anchor = H5B_ANCHOR_LT; *lt_key_changed = FALSE; *rt_key_changed = FALSE; /* * Load the symbol node and buffer the entries so we don't have to * worry about the cached value disappearing. */ sn = H5AC_find (f, H5AC_SNODE, addr, NULL); if (!sn) return -1; HDmemcpy (ent, sn->entry, sn->nsyms * sizeof(H5G_entry_t)); rt = nsyms = sn->nsyms; sn = NULL; /* * Where does the new symbol get inserted? We use a binary search. */ while (ltheap, ent[idx].name_off); if (0==(cmp=HDstrcmp (udata->name, s))) return -1; /*already present*/ if (cmp<0) { rt = idx; } else { lt = idx+1; } } idx += cmp>0 ? 1 : 0; /* * Add the new name to the heap. The caller will check if the * heap address changed and update the symbol table object header * with the new heap address. */ offset = H5H_insert (f, udata->heap, strlen(udata->name)+1, udata->name); if (nsyms>=2*H5G_NODE_K) { /* * The node is full. Split it into a left and right * node and return the address of the new right node (the * left node is at the same address as the original node). */ /* The left node */ sn = H5AC_find (f, H5AC_SNODE, addr, NULL); HDmemset (sn->entry+H5G_NODE_K, 0, H5G_NODE_K*sizeof(H5G_entry_t)); sn->nsyms = H5G_NODE_K; sn->dirty += 1; if (idx<=H5G_NODE_K) { memmove (sn->entry+idx+1, sn->entry+idx, (H5G_NODE_K-idx) * sizeof(H5G_entry_t)); sn->entry[idx] = udata->entry; sn->entry[idx].name_off = offset; sn->nsyms += 1; } /* The middle key */ md_key->offset = sn->entry[sn->nsyms-1].name_off; /* The right node */ new_node = H5G_node_new (f, NULL, NULL, NULL); sn = H5AC_find (f, H5AC_SNODE, new_node, NULL); HDmemcpy (sn->entry, ent+H5G_NODE_K, H5G_NODE_K*sizeof(H5G_entry_t)); sn->nsyms = H5G_NODE_K; sn->dirty += 1; if (idx>H5G_NODE_K) { idx -= H5G_NODE_K; HDmemmove (sn->entry+idx+1, sn->entry+idx, (H5G_NODE_K-idx) * sizeof (H5G_entry_t)); sn->entry[idx] = udata->entry; sn->entry[idx].name_off = offset; sn->nsyms += 1; if (idx+1==sn->nsyms) { rt_key->offset = offset; *rt_key_changed = TRUE; } } } else { /* * Add the new symbol to the node. */ sn = H5AC_find (f, H5AC_SNODE, addr, NULL); sn->dirty += 1; HDmemmove (sn->entry+idx+1, sn->entry+idx, (sn->nsyms-idx) * sizeof (H5G_entry_t)); sn->nsyms += 1; sn->entry[idx] = udata->entry; sn->entry[idx].name_off = offset; if (idx+1==sn->nsyms) { rt_key->offset = offset; *rt_key_changed = TRUE; } } return new_node; } /*------------------------------------------------------------------------- * Function: H5G_node_list * * Purpose: This function gets called during a directory list operation. * It should fill in data in the UDATA struct. * * Return: Success: 0 * * Failure: -1 * * Programmer: Robb Matzke * robb@maya.nuance.com * Jun 24 1997 * * Modifications: * *------------------------------------------------------------------------- */ static herr_t H5G_node_list (hdf5_file_t *f, off_t addr, void *_udata) { H5G_node_list_t *udata = (H5G_node_list_t *)_udata; H5G_entry_t *ent; intn i, nsyms; const char *s; H5G_node_t *sn; /* * Read the symbol table and save the entry info. We save it * in a separate buffer if names are requested because the name * lookup may invalidate the symbol table. */ sn = H5AC_find (f, H5AC_SNODE, addr, NULL); if (!sn) return -1; nsyms = sn->nsyms; if (udata->name) { ent = H5MM_xmalloc (nsyms * sizeof(H5G_entry_t)); HDmemcpy (ent, sn->entry, nsyms*sizeof(H5G_entry_t)); sn = NULL; } else { ent = sn->entry; } /* * Gather the info. */ if (udata->name || udata->entry) { for (i=0; inusednentries; i++) { if (udata->name) { s = H5H_peek (f, udata->heap, ent[i].name_off); udata->name[udata->nused] = H5MM_xstrdup (s); } if (udata->entry) { udata->entry[udata->nused] = ent[i]; } udata->nused += 1; } } else { udata->nused += sn->nsyms; } if (!sn) H5MM_xfree (ent); return 0; }