/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Copyright by The HDF Group. * * 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 COPYING file, which can be found at the root of the source code * * distribution tree, or in https://www.hdfgroup.org/licenses. * * If you do not have access to either file, you may request a copy from * * help@hdfgroup.org. * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ /* * Purpose: Provides a skip list abstract data type. * * (See "Deterministic Skip Lists" by Munro, Papadakis & Sedgewick) * * (Implementation changed to a deterministic skip list from a * probabilistic one. This implementation uses a 1-2-3 skip list * using arrays, as described by Munro, Papadakis & Sedgewick. * * Arrays are allocated using a free list factory for each size * that is a power of two. Factories are created as soon as they * are needed, and are never destroyed until the package is shut * down. There is no longer a maximum level or "p" value. * -NAF 2008/11/05) * * (See "Skip Lists: A Probabilistic Alternative to Balanced Trees" * by William Pugh for additional information) * * (This implementation has the optimization for reducing key * key comparisons mentioned in section 3.5 of "A Skip List * Cookbook" by William Pugh * -Removed as our implementation of this was useless for a 1-2-3 * skip list. The implementation in that document hurts * performance, at least for integer keys. -NAF) * * (Also, this implementation has a couple of home-grown * optimizations, including setting the "update" vector to the * actual 'forward' pointer to update, instead of the node * containing the forward pointer -QAK * -No longer uses update vector, as insertions/deletions are now * always at level 0. -NAF) * * (Note: This implementation does not have the information for * implementing the "Linear List Operations" (like insert/delete/ * search by position) in section 3.4 of "A Skip List Cookbook", * but they shouldn't be that hard to add, if necessary) * * (This implementation has an additional backward pointer, which * allows the list to be iterated in reverse) * * (There's also an article on "Alternating Skip Lists", which * are similar to deterministic skip lists, in the August 2000 * issue of Dr. Dobb's Journal) * */ #include "H5SLmodule.h" /* This source code file is part of the H5SL module */ /* Private headers needed */ #include "H5private.h" /* Generic Functions */ #include "H5Eprivate.h" /* Error handling */ #include "H5FLprivate.h" /* Free Lists */ #include "H5MMprivate.h" /* Memory management */ #include "H5SLprivate.h" /* Skip list routines */ /* Local Macros */ /* Define the code template for searches for the "OP" in the H5SL_LOCATE macro */ #define H5SL_LOCATE_SEARCH_FOUND(SLIST, X, I) \ { \ HDassert(!X->removed); \ HGOTO_DONE(X->item); \ } /* end block */ /* Define the code template for deferred removals for the "OP" in the * H5SL_LOCATE macro */ #define H5SL_LOCATE_SEARCH_DEFER_REMOVE_FOUND(SLIST, X, I) \ { \ HDassert(!X->removed); \ X->removed = TRUE; \ HGOTO_DONE(X->item); \ } /* end block */ /* Define the code template for finds for the "OP" in the H5SL_LOCATE macro */ #define H5SL_LOCATE_FIND_FOUND(SLIST, X, I) \ { \ HDassert(!X->removed); \ HGOTO_DONE(X); \ } /* end block */ /* Define a code template for comparing scalar keys for the "CMP" in the H5SL_LOCATE macro */ #define H5SL_LOCATE_SCALAR_CMP(SLIST, TYPE, PNODE, PKEY, HASHVAL) (*(TYPE *)((PNODE)->key) < *(TYPE *)PKEY) /* Define a code template for comparing string keys for the "CMP" in the H5SL_LOCATE macro */ #define H5SL_LOCATE_STRING_CMP(SLIST, TYPE, PNODE, PKEY, HASHVAL) \ (((PNODE)->hashval == HASHVAL) ? (HDstrcmp((const char *)(PNODE)->key, (const char *)PKEY) < 0) \ : ((PNODE)->hashval < HASHVAL)) /* Define a code template for comparing H5_obj_t keys for the "CMP" in the H5SL_LOCATE macro */ #define H5SL_LOCATE_OBJ_CMP(SLIST, TYPE, PNODE, PKEY, HASHVAL) \ ((((TYPE *)((PNODE)->key))->fileno == ((TYPE *)PKEY)->fileno) \ ? (((TYPE *)((PNODE)->key))->addr < ((TYPE *)PKEY)->addr) \ : (((TYPE *)((PNODE)->key))->fileno < ((TYPE *)PKEY)->fileno)) /* Define a code template for comparing generic keys for the "CMP" in the H5SL_LOCATE macro */ #define H5SL_LOCATE_GENERIC_CMP(SLIST, TYPE, PNODE, PKEY, HASHVAL) \ ((SLIST)->cmp((TYPE *)((PNODE)->key), (TYPE *)PKEY) < 0) /* Define a code template for comparing scalar keys for the "EQ" in the H5SL_LOCATE macro */ #define H5SL_LOCATE_SCALAR_EQ(SLIST, TYPE, PNODE, PKEY, HASHVAL) (*(TYPE *)((PNODE)->key) == *(TYPE *)PKEY) /* Define a code template for comparing string keys for the "EQ" in the H5SL_LOCATE macro */ #define H5SL_LOCATE_STRING_EQ(SLIST, TYPE, PNODE, PKEY, HASHVAL) \ (((PNODE)->hashval == HASHVAL) && (HDstrcmp((const char *)(PNODE)->key, (const char *)PKEY) == 0)) /* Define a code template for comparing H5_obj_t keys for the "EQ" in the H5SL_LOCATE macro */ #define H5SL_LOCATE_OBJ_EQ(SLIST, TYPE, PNODE, PKEY, HASHVAL) \ ((((TYPE *)((PNODE)->key))->fileno == ((TYPE *)PKEY)->fileno) && \ (((TYPE *)((PNODE)->key))->addr == ((TYPE *)PKEY)->addr)) /* Define a code template for comparing generic keys for the "EQ" in the H5SL_LOCATE macro */ #define H5SL_LOCATE_GENERIC_EQ(SLIST, TYPE, PNODE, PKEY, HASHVAL) \ ((SLIST)->cmp((TYPE *)((PNODE)->key), (TYPE *)PKEY) == 0) /* Define a code template for initializing the hash value for scalar keys for the "HASHINIT" in the * H5SL_LOCATE macro */ #define H5SL_LOCATE_SCALAR_HASHINIT(KEY, HASHVAL) /* Define a code template for initializing the hash value for string keys for the "HASHINIT" in the * H5SL_LOCATE macro */ #define H5SL_LOCATE_STRING_HASHINIT(KEY, HASHVAL) HASHVAL = H5_hash_string((const char *)KEY); /* Define a code template for initializing the hash value for H5_obj_t keys for the "HASHINIT" in the * H5SL_LOCATE macro */ #define H5SL_LOCATE_OBJ_HASHINIT(KEY, HASHVAL) /* Define a code template for initializing the hash value for generic keys for the "HASHINIT" in the * H5SL_LOCATE macro */ #define H5SL_LOCATE_GENERIC_HASHINIT(KEY, HASHVAL) /* Macro used to find node for operation, if all keys are valid */ #define H5SL_LOCATE_OPT(OP, CMP, SLIST, X, TYPE, KEY, HASHVAL) \ { \ int _i; /* Local index variable */ \ unsigned _count; /* Num nodes searched at this height */ \ \ H5_GLUE3(H5SL_LOCATE_, CMP, _HASHINIT) \ (KEY, HASHVAL) for (_i = (int)SLIST->curr_level; _i >= 0; _i--) \ { \ _count = 0; \ while (_count < 3 && X->forward[_i] && \ H5_GLUE3(H5SL_LOCATE_, CMP, _CMP)(SLIST, TYPE, X->forward[_i], KEY, HASHVAL)) { \ X = X->forward[_i]; \ _count++; \ } /* end while */ \ } /* end for */ \ X = X->forward[0]; \ if (X != NULL && H5_GLUE3(H5SL_LOCATE_, CMP, _EQ)(SLIST, TYPE, X, KEY, HASHVAL)) { \ /* What to do when a node is found */ \ H5_GLUE3(H5SL_LOCATE_, OP, _FOUND)(SLIST, X, _i) \ } /* end if */ \ } /* Macro used to find node for operation, if there may be "removed" nodes in the * list (whose keys cannot be read) */ #define H5SL_LOCATE_SAFE(OP, CMP, SLIST, X, TYPE, KEY, HASHVAL) \ { \ int _i; /* Local index variable */ \ H5SL_node_t *_low = X; \ H5SL_node_t *_high = NULL; \ \ H5_GLUE3(H5SL_LOCATE_, CMP, _HASHINIT) \ (KEY, HASHVAL) for (_i = (int)SLIST->curr_level; _i >= 0; _i--) \ { \ X = _low->forward[_i]; \ while (X != _high) { \ if (!X->removed) { \ if (H5_GLUE3(H5SL_LOCATE_, CMP, _CMP)(SLIST, TYPE, X, KEY, HASHVAL)) \ _low = X; \ else \ break; \ } /* end if */ \ X = X->forward[_i]; \ } /* end while */ \ _high = X; \ if (X != NULL && H5_GLUE3(H5SL_LOCATE_, CMP, _EQ)(SLIST, TYPE, X, KEY, HASHVAL)) { \ /* What to do when a node is found */ \ H5_GLUE3(H5SL_LOCATE_, OP, _FOUND)(SLIST, X, _i) break; \ } /* end if */ \ } /* end for */ \ } /* Macro used to find node for operation */ #define H5SL_LOCATE(OP, CMP, SLIST, X, TYPE, KEY, HASHVAL) \ { \ if ((SLIST)->safe_iterating) \ H5SL_LOCATE_SAFE(OP, CMP, SLIST, X, TYPE, KEY, HASHVAL) \ else \ H5SL_LOCATE_OPT(OP, CMP, SLIST, X, TYPE, KEY, HASHVAL) \ } /* Macro used to grow a node by 1. Does not update pointers. LVL is the current * level of X. Does not update LVL but does update X->lvl. */ #define H5SL_GROW(X, LVL, ERR) \ { \ /* Check if we need to increase allocation of forward pointers */ \ if (LVL + 1 >= 1u << X->log_nalloc) { \ H5SL_node_t **_tmp; \ HDassert(LVL + 1 == 1u << X->log_nalloc); \ /* Double the amount of allocated space */ \ X->log_nalloc++; \ \ /* Check if we need to create a new factory */ \ if (X->log_nalloc >= H5SL_fac_nused_g) { \ HDassert(X->log_nalloc == H5SL_fac_nused_g); \ \ /* Check if we need to allocate space for the factory pointer*/ \ if (H5SL_fac_nused_g >= H5SL_fac_nalloc_g) { \ HDassert(H5SL_fac_nused_g == H5SL_fac_nalloc_g); \ /* Double the size of the array of factory pointers */ \ H5SL_fac_nalloc_g *= 2; \ if (NULL == (H5SL_fac_g = (H5FL_fac_head_t **)H5MM_realloc( \ (void *)H5SL_fac_g, H5SL_fac_nalloc_g * sizeof(H5FL_fac_head_t *)))) \ HGOTO_ERROR(H5E_SLIST, H5E_CANTALLOC, ERR, "memory allocation failed") \ } /* end if */ \ \ /* Create the new factory */ \ H5SL_fac_g[H5SL_fac_nused_g] = \ H5FL_fac_init((1u << H5SL_fac_nused_g) * sizeof(H5SL_node_t *)); \ H5SL_fac_nused_g++; \ } /* end if */ \ \ /* Allocate space for new forward pointers */ \ if (NULL == (_tmp = (H5SL_node_t **)H5FL_FAC_MALLOC(H5SL_fac_g[X->log_nalloc]))) \ HGOTO_ERROR(H5E_SLIST, H5E_CANTALLOC, ERR, "memory allocation failed") \ H5MM_memcpy((void *)_tmp, (const void *)X->forward, (LVL + 1) * sizeof(H5SL_node_t *)); \ X->forward = (H5SL_node_t **)H5FL_FAC_FREE(H5SL_fac_g[X->log_nalloc - 1], (void *)X->forward); \ X->forward = _tmp; \ } /* end if */ \ \ X->level++; \ } /* Macro used to shrink a node by 1. Does not update pointers. LVL is the * current level of X. Does not update LVL but does update X->level. */ #define H5SL_SHRINK(X, LVL) \ { \ /* Check if we can reduce the allocation of forward pointers */ \ if (LVL <= 1u << (X->log_nalloc - 1)) { \ H5SL_node_t **_tmp; \ HDassert(LVL == 1u << (X->log_nalloc - 1)); \ X->log_nalloc--; \ \ /* Allocate space for new forward pointers */ \ if (NULL == (_tmp = (H5SL_node_t **)H5FL_FAC_MALLOC(H5SL_fac_g[X->log_nalloc]))) \ HGOTO_ERROR(H5E_SLIST, H5E_NOSPACE, NULL, "memory allocation failed") \ H5MM_memcpy((void *)_tmp, (const void *)X->forward, (LVL) * sizeof(H5SL_node_t *)); \ X->forward = (H5SL_node_t **)H5FL_FAC_FREE(H5SL_fac_g[X->log_nalloc + 1], (void *)X->forward); \ X->forward = _tmp; \ } /* end if */ \ \ X->level--; \ } /* Macro used to grow the level of a node by 1, with appropriate changes to the * head node if necessary. PREV is the previous node of the height that X is to * grow to. */ #define H5SL_PROMOTE(SLIST, X, PREV, ERR) \ { \ size_t _lvl = X->level; \ \ H5SL_GROW(X, _lvl, ERR); \ \ if (_lvl == (size_t)SLIST->curr_level) { \ HDassert(PREV == SLIST->header); \ /* Grow the head */ \ H5SL_GROW(PREV, _lvl, ERR) \ SLIST->curr_level++; \ X->forward[_lvl + 1] = NULL; \ } \ else { \ HDassert(_lvl < (size_t)SLIST->curr_level); \ X->forward[_lvl + 1] = PREV->forward[_lvl + 1]; \ } /* end else */ \ PREV->forward[_lvl + 1] = X; \ } /* Macro used to reduce the level of a node by 1. Does not update the head node * "current level". PREV is the previous node of the current height of X. */ #define H5SL_DEMOTE(X, PREV) \ { \ size_t _lvl = X->level; \ \ HDassert(PREV->forward[_lvl] == X); \ PREV->forward[_lvl] = X->forward[_lvl]; \ H5SL_SHRINK(X, _lvl); \ } /* Macro used to insert node. Does not actually insert the node. After running * this macro, X will contain the node before where the new node should be * inserted (at level 0). */ #define H5SL_INSERT(CMP, SLIST, X, TYPE, KEY, HASHVAL) \ { \ H5SL_node_t *_last = X; /* Lowest node in the current gap */ \ H5SL_node_t *_next = NULL; /* Highest node in the current gap */ \ H5SL_node_t *_drop; /* Low node of the gap to drop into */ \ int _count; /* Number of nodes in the current gap */ \ int _i; \ \ H5_GLUE3(H5SL_LOCATE_, CMP, _HASHINIT) \ (KEY, HASHVAL) for (_i = (int)SLIST->curr_level; _i >= 0; _i--) \ { \ /* Search for the node to drop into, also count the number of nodes */ \ /* of height _i in this gap */ \ _drop = NULL; \ for (_count = 0;; _count++) { \ /* Terminate if this is the last node in the gap */ \ if (X->forward[_i] == _next) { \ if (!_drop) \ _drop = X; \ break; \ } /* end if */ \ \ /* Check if this node is the start of the next gap */ \ if (!_drop && !H5_GLUE3(H5SL_LOCATE_, CMP, _CMP)(SLIST, TYPE, X->forward[_i], KEY, HASHVAL)) \ _drop = X; \ \ /* No need to check the last node in the gap if there are 3, as */ \ /* there cannot be a fourth */ \ if (_count == 2) { \ if (!_drop) \ _drop = X->forward[_i]; \ _count = 3; \ break; \ } \ X = X->forward[_i]; \ } /* end for */ \ HDassert(!_drop->forward[_i] || \ !H5_GLUE3(H5SL_LOCATE_, CMP, _CMP)(SLIST, TYPE, _drop->forward[_i], KEY, HASHVAL)); \ \ /* Promote the middle node if necessary */ \ if (_count == 3) { \ HDassert(X == _last->forward[_i]->forward[_i]); \ H5SL_PROMOTE(SLIST, X, _last, NULL) \ } \ \ /* Prepare to drop down */ \ X = _last = _drop; \ _next = _drop->forward[_i]; \ } /* end for */ \ \ if (_next && H5_GLUE3(H5SL_LOCATE_, CMP, _EQ)(SLIST, TYPE, _next, KEY, HASHVAL)) \ HGOTO_ERROR(H5E_SLIST, H5E_CANTINSERT, NULL, "can't insert duplicate key") \ } /* Macro used to remove node */ #define H5SL_REMOVE(CMP, SLIST, X, TYPE, KEY, HASHVAL) \ { \ /* Check for deferred removal */ \ if (SLIST->safe_iterating) \ H5SL_LOCATE(SEARCH_DEFER_REMOVE, CMP, SLIST, X, TYPE, KEY, HASHVAL) \ else { \ H5SL_node_t *_last = X; /* Lowest node in the current gap */ \ H5SL_node_t *_llast = X; /* Lowest node in the previous gap */ \ H5SL_node_t *_next = NULL; /* Highest node in the current gap */ \ H5SL_node_t *_drop = NULL; /* Low node of the gap to drop into */ \ H5SL_node_t *_ldrop = NULL; /* Low node of gap before the one to drop into */ \ H5SL_node_t *_head = SLIST->header; /* Head of the skip list */ \ int _count; /* Number of nodes in the current gap */ \ int _i = (int)SLIST->curr_level; \ \ if (_i < 0) \ HGOTO_DONE(NULL); \ \ H5_GLUE3(H5SL_LOCATE_, CMP, _HASHINIT) \ (KEY, HASHVAL) \ \ /* Find the gap to drop in to at the highest level */ \ while (X && (!X->key || H5_GLUE3(H5SL_LOCATE_, CMP, _CMP)(SLIST, TYPE, X, KEY, HASHVAL))) \ { \ _llast = _last; \ _last = X; \ X = X->forward[_i]; \ } \ _next = X; \ \ /* Main loop */ \ for (_i--; _i >= 0; _i--) { \ /* Search for the node to drop into, also count the number of */ \ /* nodes of height _i in this gap and keep track of of the node */ \ /* before the one to drop into (_ldrop will become _llast, */ \ /* _drop will become _last). */ \ X = _ldrop = _last; \ _drop = NULL; \ for (_count = 0;; _count++) { \ /* Terminate if this is the last node in the gap */ \ if (X->forward[_i] == _next) { \ if (!_drop) \ _drop = X; \ break; \ } /* end if */ \ \ /* If we have already found the node to drop into and there */ \ /* is more than one node in this gap, we can stop searching */ \ if (_drop) { \ HDassert(_count >= 1); \ _count = 2; \ break; \ } \ else { /* !_drop */ \ /* Check if this node is the start of the next gap */ \ if (!H5_GLUE3(H5SL_LOCATE_, CMP, _CMP)(SLIST, TYPE, X->forward[_i], KEY, HASHVAL)) { \ _drop = X; \ /* Again check if we can stop searching */ \ if (_count) { \ _count = 2; \ break; \ } /* end if */ \ } /* end if */ \ else \ _ldrop = X; \ } /* end else */ \ \ /* No need to check the last node in the gap if there are */ \ /* 3, as there cannot be a fourth */ \ if (_count == 2) { \ if (!_drop) \ _drop = X->forward[_i]; \ break; \ } /* end if */ \ X = X->forward[_i]; \ } /* end for */ \ HDassert(_count >= 1 && _count <= 3); \ HDassert(!_drop->forward[_i] || \ !H5_GLUE3(H5SL_LOCATE_, CMP, _CMP)(SLIST, TYPE, _drop->forward[_i], KEY, HASHVAL)); \ \ /* Check if we need to adjust node heights */ \ if (_count == 1) { \ /* Check if we are in the first gap */ \ if (_llast == _last) { \ /* We are in the first gap, count the number of nodes */ \ /* of height _i in the next gap. We need only check */ \ /* onenode to see if we should promote the first node */ \ /* in the next gap */ \ _llast = _next->forward[_i + 1]; \ \ /* Demote the separator node */ \ H5SL_DEMOTE(_next, _last) \ \ /* If there are 2 or more nodes, promote the first */ \ if (_next->forward[_i]->forward[_i] != _llast) { \ X = _next->forward[_i]; \ H5SL_PROMOTE(SLIST, X, _last, NULL) \ } \ else if (!_head->forward[_i + 1]) { \ /* shrink the header */ \ HDassert(_i == SLIST->curr_level - 1); \ HDassert((size_t)SLIST->curr_level == _head->level); \ \ H5SL_SHRINK(_head, (size_t)(_i + 1)) \ SLIST->curr_level--; \ } /* end else */ \ } \ else { \ /* We are not in the first gap, count the number of */ \ /* nodes of height _i in the previous gap. Note we */ \ /* "look ahead" in this loop so X has the value of the */ \ /* last node in the previous gap. */ \ X = _llast->forward[_i]; \ for (_count = 1; _count < 3 && X->forward[_i] != _last; _count++) \ X = X->forward[_i]; \ HDassert(X->forward[_i] == _last); \ \ /* Demote the separator node */ \ H5SL_DEMOTE(_last, _llast) \ \ /* If there are 2 or more nodes, promote the last */ \ if (_count >= 2) \ H5SL_PROMOTE(SLIST, X, _llast, NULL) \ else if (!_head->forward[_i + 1]) { \ /* shrink the header */ \ HDassert(_i == SLIST->curr_level - 1); \ HDassert((size_t)SLIST->curr_level == _head->level); \ \ H5SL_SHRINK(_head, (size_t)(_i + 1)) \ SLIST->curr_level--; \ } /* end else */ \ } /* end else */ \ } /* end if */ \ \ /* Prepare to drop down */ \ _llast = _ldrop; \ _last = _drop; \ _next = _drop->forward[_i]; \ } /* end for */ \ \ /* Check if we've found the node */ \ if (_next && H5_GLUE3(H5SL_LOCATE_, CMP, _EQ)(SLIST, TYPE, _next, KEY, HASHVAL)) { \ void *tmp = _next->item; \ X = _next; \ \ /* If the node has a height > 0, swap it with its (lower) */ \ /* neighbor */ \ if (X->level) { \ X = X->backward; \ _next->key = X->key; \ _next->item = X->item; \ _next->hashval = X->hashval; \ } /* end if */ \ HDassert(!X->level); \ \ /* Remove the node */ \ X->backward->forward[0] = X->forward[0]; \ if (SLIST->last == X) \ SLIST->last = X->backward; \ else \ X->forward[0]->backward = X->backward; \ SLIST->nobjs--; \ X->forward = (H5SL_node_t **)H5FL_FAC_FREE(H5SL_fac_g[0], X->forward); \ X = H5FL_FREE(H5SL_node_t, X); \ \ HGOTO_DONE(tmp); \ } /* end if */ \ } /* end else */ \ } /* Macro used to search for node */ #define H5SL_SEARCH(CMP, SLIST, X, TYPE, KEY, HASHVAL) H5SL_LOCATE(SEARCH, CMP, SLIST, X, TYPE, KEY, HASHVAL) /* Macro used to find a node */ #define H5SL_FIND(CMP, SLIST, X, TYPE, KEY, HASHVAL) H5SL_LOCATE(FIND, CMP, SLIST, X, TYPE, KEY, HASHVAL) /* Private typedefs & structs */ /* Skip list node data structure */ struct H5SL_node_t { const void *key; /* Pointer to node's key */ void *item; /* Pointer to node's item */ size_t level; /* The level of this node */ size_t log_nalloc; /* log2(Number of slots allocated in forward) */ uint32_t hashval; /* Hash value for key (only for strings, currently) */ hbool_t removed; /* Whether the node is "removed" (actual removal deferred) */ struct H5SL_node_t **forward; /* Array of forward pointers from this node */ struct H5SL_node_t *backward; /* Backward pointer from this node */ }; /* Main skip list data structure */ struct H5SL_t { /* Static values for each list */ H5SL_type_t type; /* Type of skip list */ H5SL_cmp_t cmp; /* Comparison callback, if type is H5SL_TYPE_GENERIC */ /* Dynamic values for each list */ int curr_level; /* Current top level used in list */ size_t nobjs; /* Number of active objects in skip list */ H5SL_node_t *header; /* Header for nodes in skip list */ H5SL_node_t *last; /* Pointer to last node in skip list */ hbool_t safe_iterating; /* Whether a routine is "safely" iterating over the list and removals should be deferred */ }; /* Static functions */ static H5SL_node_t *H5SL_new_node(void *item, const void *key, uint32_t hashval); static H5SL_node_t *H5SL_insert_common(H5SL_t *slist, void *item, const void *key); static herr_t H5SL_release_common(H5SL_t *slist, H5SL_operator_t op, void *op_data); static herr_t H5SL_close_common(H5SL_t *slist, H5SL_operator_t op, void *op_data); /* Package initialization variable */ hbool_t H5_PKG_INIT_VAR = FALSE; /* Declare a free list to manage the H5SL_t struct */ H5FL_DEFINE_STATIC(H5SL_t); /* Declare a free list to manage the H5SL_node_t struct */ H5FL_DEFINE_STATIC(H5SL_node_t); /* Global variables */ static H5FL_fac_head_t **H5SL_fac_g; static size_t H5SL_fac_nused_g; static size_t H5SL_fac_nalloc_g; /*-------------------------------------------------------------------------- NAME H5SL__init_package PURPOSE Initialize interface-specific information USAGE herr_t H5SL__init_package() RETURNS Non-negative on success/Negative on failure DESCRIPTION Initializes any interface-specific data or routines. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ herr_t H5SL__init_package(void) { FUNC_ENTER_PACKAGE_NOERR /* Allocate space for array of factories */ H5SL_fac_g = (H5FL_fac_head_t **)H5MM_malloc(sizeof(H5FL_fac_head_t *)); HDassert(H5SL_fac_g); H5SL_fac_nalloc_g = 1; /* Initialize first factory */ H5SL_fac_g[0] = H5FL_fac_init(sizeof(H5SL_node_t *)); HDassert(H5SL_fac_g[0]); H5SL_fac_nused_g = 1; FUNC_LEAVE_NOAPI(SUCCEED) } /* end H5SL__init_package() */ /*-------------------------------------------------------------------------- NAME H5SL_term_package PURPOSE Terminate all the H5FL factories used in this package, and clear memory USAGE int H5SL_term_package() RETURNS Success: Positive if any action might have caused a change in some other interface; zero otherwise. Failure: Negative DESCRIPTION Release any resources allocated. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS Can't report errors... EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ int H5SL_term_package(void) { int n = 0; FUNC_ENTER_NOAPI_NOINIT_NOERR if (H5_PKG_INIT_VAR) { /* Terminate all the factories */ if (H5SL_fac_nused_g > 0) { size_t i; herr_t H5_ATTR_NDEBUG_UNUSED ret; for (i = 0; i < H5SL_fac_nused_g; i++) { ret = H5FL_fac_term(H5SL_fac_g[i]); HDassert(ret >= 0); } /* end if */ H5SL_fac_nused_g = 0; n++; } /* end if */ /* Free the list of factories */ if (H5SL_fac_g) { H5SL_fac_g = (H5FL_fac_head_t **)H5MM_xfree((void *)H5SL_fac_g); H5SL_fac_nalloc_g = 0; n++; } /* end if */ /* Mark the interface as uninitialized */ if (0 == n) H5_PKG_INIT_VAR = FALSE; } /* end if */ FUNC_LEAVE_NOAPI(n) } /* H5SL_term_package() */ /*-------------------------------------------------------------------------- NAME H5SL_new_node PURPOSE Create a new skip list node of level 0 USAGE H5SL_node_t *H5SL_new_node(item,key,hasval) void *item; IN: Pointer to item info for node void *key; IN: Pointer to key info for node uint32_t hashval; IN: Hash value for node RETURNS Returns a pointer to a skip list node on success, NULL on failure. DESCRIPTION Create a new skip list node of the height 0, setting the item and key values internally. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS This routine does _not_ initialize the 'forward' pointers EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ static H5SL_node_t * H5SL_new_node(void *item, const void *key, uint32_t hashval) { H5SL_node_t *ret_value = NULL; /* New skip list node */ FUNC_ENTER_NOAPI_NOINIT /* Allocate the node */ if (NULL == (ret_value = (H5SL_node_t *)H5FL_MALLOC(H5SL_node_t))) HGOTO_ERROR(H5E_SLIST, H5E_NOSPACE, NULL, "memory allocation failed") /* Initialize node */ ret_value->key = key; ret_value->item = item; ret_value->level = 0; ret_value->hashval = hashval; ret_value->removed = FALSE; if (NULL == (ret_value->forward = (H5SL_node_t **)H5FL_FAC_MALLOC(H5SL_fac_g[0]))) { ret_value = H5FL_FREE(H5SL_node_t, ret_value); HGOTO_ERROR(H5E_SLIST, H5E_NOSPACE, NULL, "memory allocation failed") } /* end if */ ret_value->log_nalloc = 0; done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_new_node() */ /*-------------------------------------------------------------------------- NAME H5SL_insert_common PURPOSE Common code for inserting an object into a skip list USAGE H5SL_node_t *H5SL_insert_common(slist,item,key) H5SL_t *slist; IN/OUT: Pointer to skip list void *item; IN: Item to insert void *key; IN: Key for item to insert RETURNS Returns pointer to new node on success, NULL on failure. DESCRIPTION Common code for inserting an element into a skip list. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS Inserting an item with the same key as an existing object fails. EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ static H5SL_node_t * H5SL_insert_common(H5SL_t *slist, void *item, const void *key) { H5SL_node_t *x; /* Current node to examine */ H5SL_node_t *prev; /* Node before the new node */ uint32_t hashval = 0; /* Hash value for key */ H5SL_node_t *ret_value = NULL; /* Return value */ FUNC_ENTER_NOAPI_NOINIT /* Check args */ HDassert(slist); HDassert(key); /* Check internal consistency */ /* (Pre-condition) */ /* Insert item into skip list */ /* Work through the forward pointers for a node, finding the node at each * level that is before the location to insert */ prev = slist->header; switch (slist->type) { case H5SL_TYPE_INT: H5SL_INSERT(SCALAR, slist, prev, const int, key, -) break; case H5SL_TYPE_HADDR: H5SL_INSERT(SCALAR, slist, prev, const haddr_t, key, -) break; case H5SL_TYPE_STR: H5SL_INSERT(STRING, slist, prev, char *, key, hashval) break; case H5SL_TYPE_HSIZE: H5SL_INSERT(SCALAR, slist, prev, const hsize_t, key, -) break; case H5SL_TYPE_UNSIGNED: H5SL_INSERT(SCALAR, slist, prev, const unsigned, key, -) break; case H5SL_TYPE_SIZE: H5SL_INSERT(SCALAR, slist, prev, const size_t, key, -) break; case H5SL_TYPE_OBJ: H5SL_INSERT(OBJ, slist, prev, const H5_obj_t, key, -) break; case H5SL_TYPE_HID: H5SL_INSERT(SCALAR, slist, prev, const hid_t, key, -) break; case H5SL_TYPE_GENERIC: H5SL_INSERT(GENERIC, slist, prev, const void, key, -) break; default: HDassert(0 && "Unknown skiplist type!"); } /* end switch */ /* 'key' must not have been found in existing list, if we get here */ if (slist->curr_level < 0) slist->curr_level = 0; /* Create new node of level 0 */ if (NULL == (x = H5SL_new_node(item, key, hashval))) HGOTO_ERROR(H5E_SLIST, H5E_NOSPACE, NULL, "can't create new skip list node") /* Update the links */ x->backward = prev; x->forward[0] = prev->forward[0]; prev->forward[0] = x; if (x->forward[0]) x->forward[0]->backward = x; else { HDassert(slist->last == prev); slist->last = x; } /* Increment the number of nodes in the skip list */ slist->nobjs++; /* Set return value */ ret_value = x; done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_insert_common() */ /*-------------------------------------------------------------------------- NAME H5SL_release_common PURPOSE Release all nodes from a skip list, optionally calling a 'free' operator USAGE herr_t H5SL_release_common(slist,op,opdata) H5SL_t *slist; IN/OUT: Pointer to skip list to release nodes H5SL_operator_t op; IN: Callback function to free item & key void *op_data; IN/OUT: Pointer to application data for callback RETURNS Returns non-negative on success, negative on failure. DESCRIPTION Release all the nodes in a skip list. The 'op' routine is called for each node in the list. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS The return value from the 'op' routine is ignored. The skip list itself is still valid, it just has all its nodes removed. EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ static herr_t H5SL_release_common(H5SL_t *slist, H5SL_operator_t op, void *op_data) { H5SL_node_t *node, *next_node; /* Pointers to skip list nodes */ herr_t ret_value = SUCCEED; FUNC_ENTER_NOAPI_NOINIT /* Check args */ HDassert(slist); /* Check internal consistency */ /* (Pre-condition) */ /* Free skip list nodes */ node = slist->header->forward[0]; while (node) { next_node = node->forward[0]; /* Call callback, if one is given. * * Ignoring const here is fine as we only need the value to be const * with respect to the list code, which should never modify the * elements. The library code that is making use of the skip list * container can do what it likes with the elements. */ H5_GCC_DIAG_OFF("cast-qual") if (op) /* Casting away const OK -QAK */ (void)(op)(node->item, (void *)node->key, op_data); H5_GCC_DIAG_ON("cast-qual") node->forward = (H5SL_node_t **)H5FL_FAC_FREE(H5SL_fac_g[node->log_nalloc], node->forward); node = H5FL_FREE(H5SL_node_t, node); node = next_node; } /* end while */ /* Reset the header pointers */ slist->header->forward = (H5SL_node_t **)H5FL_FAC_FREE(H5SL_fac_g[slist->header->log_nalloc], slist->header->forward); if (NULL == (slist->header->forward = (H5SL_node_t **)H5FL_FAC_MALLOC(H5SL_fac_g[0]))) HGOTO_ERROR(H5E_SLIST, H5E_NOSPACE, FAIL, "memory allocation failed") slist->header->forward[0] = NULL; slist->header->log_nalloc = 0; slist->header->level = 0; /* Reset the last pointer */ slist->last = slist->header; /* Reset the dynamic internal fields */ slist->curr_level = -1; slist->nobjs = 0; done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_release_common() */ /*-------------------------------------------------------------------------- NAME H5SL_close_common PURPOSE Close a skip list, deallocating it and potentially freeing all its nodes. USAGE herr_t H5SL_close_common(slist,op,opdata) H5SL_t *slist; IN/OUT: Pointer to skip list to close H5SL_operator_t op; IN: Callback function to free item & key void *op_data; IN/OUT: Pointer to application data for callback RETURNS Returns non-negative on success, negative on failure. DESCRIPTION Close a skip list, freeing all internal information. Any objects left in the skip list have the 'op' routine called for each. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS If the 'op' routine returns non-zero, only the nodes up to that point in the list are released and the list is still valid. EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ static herr_t H5SL_close_common(H5SL_t *slist, H5SL_operator_t op, void *op_data) { herr_t ret_value = SUCCEED; FUNC_ENTER_NOAPI_NOINIT /* Check args */ HDassert(slist); /* Check internal consistency */ /* (Pre-condition) */ /* Free skip list nodes */ if (H5SL_release_common(slist, op, op_data) < 0) HGOTO_ERROR(H5E_SLIST, H5E_CANTFREE, FAIL, "can't release skip list nodes") /* Release header node */ slist->header->forward = (H5SL_node_t **)H5FL_FAC_FREE(H5SL_fac_g[slist->header->log_nalloc], slist->header->forward); slist->header = H5FL_FREE(H5SL_node_t, slist->header); /* Free skip list object */ slist = H5FL_FREE(H5SL_t, slist); done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_close_common() */ /*-------------------------------------------------------------------------- NAME H5SL_create PURPOSE Create a skip list USAGE H5SL_t *H5SL_create(H5SL_type_t type, H5SL_cmp_t cmp) RETURNS Returns a pointer to a skip list on success, NULL on failure. DESCRIPTION Create a skip list. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ H5SL_t * H5SL_create(H5SL_type_t type, H5SL_cmp_t cmp) { H5SL_t *new_slist = NULL; /* Pointer to new skip list object created */ H5SL_node_t *header; /* Pointer to skip list header node */ H5SL_t *ret_value = NULL; /* Return value */ FUNC_ENTER_NOAPI(NULL) /* Check args */ HDassert(type >= H5SL_TYPE_INT && type <= H5SL_TYPE_GENERIC); /* Allocate skip list structure */ if (NULL == (new_slist = H5FL_MALLOC(H5SL_t))) HGOTO_ERROR(H5E_SLIST, H5E_NOSPACE, NULL, "memory allocation failed") /* Set the static internal fields */ new_slist->type = type; HDassert((type == H5SL_TYPE_GENERIC) == !!cmp); new_slist->cmp = cmp; /* Set the dynamic internal fields */ new_slist->curr_level = -1; new_slist->nobjs = 0; new_slist->safe_iterating = FALSE; /* Allocate the header node */ if (NULL == (header = H5SL_new_node(NULL, NULL, (uint32_t)ULONG_MAX))) HGOTO_ERROR(H5E_SLIST, H5E_NOSPACE, NULL, "can't create new skip list node") /* Initialize header node's forward pointer */ header->forward[0] = NULL; /* Initialize header node's backward pointer */ header->backward = NULL; /* Attach the header */ new_slist->header = header; new_slist->last = header; /* Set the return value */ ret_value = new_slist; done: /* Error cleanup */ if (ret_value == NULL) { if (new_slist != NULL) new_slist = H5FL_FREE(H5SL_t, new_slist); } /* end if */ FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_create() */ /*-------------------------------------------------------------------------- NAME H5SL_count PURPOSE Count the number of objects in a skip list USAGE size_t H5SL_count(slist) H5SL_t *slist; IN: Pointer to skip list to count RETURNS Returns number of objects on success, can't fail DESCRIPTION Count elements in a skip list. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ size_t H5SL_count(H5SL_t *slist) { FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); /* Not currently supported */ HDassert(!slist->safe_iterating); /* Check internal consistency */ /* (Pre-condition) */ FUNC_LEAVE_NOAPI(slist->nobjs) } /* end H5SL_count() */ /*-------------------------------------------------------------------------- NAME H5SL_insert PURPOSE Insert an object into a skip list USAGE herr_t H5SL_insert(slist,item,key) H5SL_t *slist; IN/OUT: Pointer to skip list void *item; IN: Item to insert void *key; IN: Key for item to insert RETURNS Returns non-negative on success, negative on failure. DESCRIPTION Insert element into a skip list. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS Inserting an item with the same key as an existing object fails. EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ herr_t H5SL_insert(H5SL_t *slist, void *item, const void *key) { herr_t ret_value = SUCCEED; /* Return value */ FUNC_ENTER_NOAPI_NOINIT /* Check args */ HDassert(slist); HDassert(key); /* Not currently supported */ HDassert(!slist->safe_iterating); /* Check internal consistency */ /* (Pre-condition) */ /* Insert item into skip list */ if (H5SL_insert_common(slist, item, key) == NULL) HGOTO_ERROR(H5E_SLIST, H5E_CANTINSERT, FAIL, "can't create new skip list node") done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_insert() */ /*-------------------------------------------------------------------------- NAME H5SL_add PURPOSE Insert an object into a skip list USAGE H5SL_node_t *H5SL_add(slist,item,key) H5SL_t *slist; IN/OUT: Pointer to skip list void *item; IN: Item to insert void *key; IN: Key for item to insert RETURNS Returns pointer to new skip list node on success, NULL on failure. DESCRIPTION Insert element into a skip list and return the skip list node for the new element in the list. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS Inserting an item with the same key as an existing object fails. This routine is a useful starting point for next/prev calls EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ H5SL_node_t * H5SL_add(H5SL_t *slist, void *item, const void *key) { H5SL_node_t *ret_value = NULL; /* Return value */ FUNC_ENTER_NOAPI_NOINIT /* Check args */ HDassert(slist); HDassert(key); /* Not currently supported */ HDassert(!slist->safe_iterating); /* Check internal consistency */ /* (Pre-condition) */ /* Insert item into skip list */ if ((ret_value = H5SL_insert_common(slist, item, key)) == NULL) HGOTO_ERROR(H5E_SLIST, H5E_CANTINSERT, NULL, "can't create new skip list node") done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_add() */ /*-------------------------------------------------------------------------- NAME H5SL_remove PURPOSE Removes an object from a skip list USAGE void *H5SL_remove(slist,key) H5SL_t *slist; IN/OUT: Pointer to skip list void *key; IN: Key for item to remove RETURNS Returns pointer to item removed on success, NULL on failure. DESCRIPTION Remove element from a skip list. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ void * H5SL_remove(H5SL_t *slist, const void *key) { H5SL_node_t *x; /* Current node to examine */ uint32_t hashval = 0; /* Hash value for key */ void *ret_value = NULL; /* Return value */ FUNC_ENTER_NOAPI_NOINIT /* Check args */ HDassert(slist); HDassert(key); /* Check internal consistency */ /* (Pre-condition) */ /* Remove item from skip list */ /* Work through the forward pointers for a node, finding the node at each * level that is before the location to remove */ x = slist->header; switch (slist->type) { case H5SL_TYPE_INT: H5SL_REMOVE(SCALAR, slist, x, const int, key, -) break; case H5SL_TYPE_HADDR: H5SL_REMOVE(SCALAR, slist, x, const haddr_t, key, -) break; case H5SL_TYPE_STR: H5SL_REMOVE(STRING, slist, x, char *, key, hashval) break; case H5SL_TYPE_HSIZE: H5SL_REMOVE(SCALAR, slist, x, const hsize_t, key, -) break; case H5SL_TYPE_UNSIGNED: H5SL_REMOVE(SCALAR, slist, x, const unsigned, key, -) break; case H5SL_TYPE_SIZE: H5SL_REMOVE(SCALAR, slist, x, const size_t, key, -) break; case H5SL_TYPE_OBJ: H5SL_REMOVE(OBJ, slist, x, const H5_obj_t, key, -) break; case H5SL_TYPE_HID: H5SL_REMOVE(SCALAR, slist, x, const hid_t, key, -) break; case H5SL_TYPE_GENERIC: H5SL_REMOVE(GENERIC, slist, x, const void, key, -) break; default: HDassert(0 && "Unknown skiplist type!"); } /* end switch */ done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_remove() */ /*-------------------------------------------------------------------------- NAME H5SL_remove_first PURPOSE Removes the first object from a skip list USAGE void *H5SL_remove_first(slist) H5SL_t *slist; IN/OUT: Pointer to skip list RETURNS Returns pointer to item removed on success, NULL on failure. DESCRIPTION Remove first element from a skip list. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ void * H5SL_remove_first(H5SL_t *slist) { void *ret_value = NULL; /* Return value */ H5SL_node_t *head = slist->header; /* Skip list header */ H5SL_node_t *tmp = slist->header->forward[0]; /* Temporary node pointer */ H5SL_node_t *next; /* Next node to search for */ size_t level; /* Skip list level */ size_t i; /* Index */ FUNC_ENTER_NOAPI_NOINIT /* Check args */ HDassert(slist); /* Not currently supported */ HDassert(!slist->safe_iterating); /* Assign level */ H5_CHECK_OVERFLOW(slist->curr_level, int, size_t); level = (size_t)slist->curr_level; /* Check internal consistency */ /* (Pre-condition) */ /* Remove item from skip list */ /* Check for empty list */ if (slist->last != slist->header) { /* Assign return value */ ret_value = tmp->item; HDassert(level == head->level); HDassert(0 == tmp->level); /* Remove the first node */ head->forward[0] = tmp->forward[0]; if (slist->last == tmp) slist->last = head; else tmp->forward[0]->backward = head; slist->nobjs--; /* Free memory */ tmp->forward = (H5SL_node_t **)H5FL_FAC_FREE(H5SL_fac_g[0], tmp->forward); tmp = H5FL_FREE(H5SL_node_t, tmp); /* Reshape the skip list as necessary to maintain 1-2-3 condition */ for (i = 0; i < level; i++) { next = head->forward[i + 1]; HDassert(next); /* Check if head->forward[i] == head->forward[i+1] (illegal) */ if (head->forward[i] == next) { tmp = next; next = next->forward[i + 1]; HDassert(tmp->level == i + 1); /* Demote head->forward[i] */ H5SL_DEMOTE(tmp, head) /* Check if we need to promote the following node to maintain * 1-2-3 condition */ if (tmp->forward[i]->forward[i] != next) { HDassert(tmp->forward[i]->forward[i]->forward[i] == next || tmp->forward[i]->forward[i]->forward[i]->forward[i] == next); tmp = tmp->forward[i]; H5SL_PROMOTE(slist, tmp, head, NULL); /* In this case, since there is a node of height = i+1 here * now (tmp), we know the skip list must be valid and can * break */ break; } else if (!head->forward[i + 1]) { /* We just shrunk the largest node, shrink the header */ HDassert(i == level - 1); H5SL_SHRINK(head, level) slist->curr_level--; } /* end else */ } else break; } /* end for */ } /* end if */ done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_remove_first() */ /*-------------------------------------------------------------------------- NAME H5SL_search PURPOSE Search for object in a skip list USAGE void *H5SL_search(slist,key) H5SL_t *slist; IN/OUT: Pointer to skip list void *key; IN: Key for item to search for RETURNS Returns pointer to item on success, NULL on failure DESCRIPTION Search for an object in a skip list, according to it's key GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ void * H5SL_search(H5SL_t *slist, const void *key) { H5SL_node_t *x; /* Current node to examine */ uint32_t hashval = 0; /* Hash value for key */ void *ret_value = NULL; /* Return value */ FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); HDassert(key); /* Check internal consistency */ /* (Pre-condition) */ /* Insert item into skip list */ /* Work through the forward pointers for a node, finding the node at each * level that is before the location to insert */ x = slist->header; switch (slist->type) { case H5SL_TYPE_INT: H5SL_SEARCH(SCALAR, slist, x, const int, key, -) break; case H5SL_TYPE_HADDR: H5SL_SEARCH(SCALAR, slist, x, const haddr_t, key, -) break; case H5SL_TYPE_STR: H5SL_SEARCH(STRING, slist, x, char *, key, hashval) break; case H5SL_TYPE_HSIZE: H5SL_SEARCH(SCALAR, slist, x, const hsize_t, key, -) break; case H5SL_TYPE_UNSIGNED: H5SL_SEARCH(SCALAR, slist, x, const unsigned, key, -) break; case H5SL_TYPE_SIZE: H5SL_SEARCH(SCALAR, slist, x, const size_t, key, -) break; case H5SL_TYPE_OBJ: H5SL_SEARCH(OBJ, slist, x, const H5_obj_t, key, -) break; case H5SL_TYPE_HID: H5SL_SEARCH(SCALAR, slist, x, const hid_t, key, -) break; case H5SL_TYPE_GENERIC: H5SL_SEARCH(GENERIC, slist, x, const void, key, -) break; default: HDassert(0 && "Unknown skiplist type!"); } /* end switch */ /* 'key' must not have been found in list, if we get here */ ret_value = NULL; done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_search() */ /*-------------------------------------------------------------------------- NAME H5SL_less PURPOSE Search for object in a skip list that is less than or equal to 'key' USAGE void *H5SL_less(slist,key) H5SL_t *slist; IN/OUT: Pointer to skip list void *key; IN: Key for item to search for RETURNS Returns pointer to item who key is less than or equal to 'key' on success, NULL on failure DESCRIPTION Search for an object in a skip list, according to it's key, returning the object itself (for an exact match), or the object with the next highest key that is less than 'key' GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ void * H5SL_less(H5SL_t *slist, const void *key) { H5SL_node_t *x; /* Current node to examine */ uint32_t hashval = 0; /* Hash value for key */ void *ret_value = NULL; /* Return value */ FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); HDassert(key); /* Not currently supported */ HDassert(!slist->safe_iterating); /* Check internal consistency */ /* (Pre-condition) */ /* Insert item into skip list */ /* Work through the forward pointers for a node, finding the node at each * level that is before the location to insert */ x = slist->header; switch (slist->type) { case H5SL_TYPE_INT: H5SL_SEARCH(SCALAR, slist, x, const int, key, -) break; case H5SL_TYPE_HADDR: H5SL_SEARCH(SCALAR, slist, x, const haddr_t, key, -) break; case H5SL_TYPE_STR: H5SL_SEARCH(STRING, slist, x, char *, key, hashval) break; case H5SL_TYPE_HSIZE: H5SL_SEARCH(SCALAR, slist, x, const hsize_t, key, -) break; case H5SL_TYPE_UNSIGNED: H5SL_SEARCH(SCALAR, slist, x, const unsigned, key, -) break; case H5SL_TYPE_SIZE: H5SL_SEARCH(SCALAR, slist, x, const size_t, key, -) break; case H5SL_TYPE_OBJ: H5SL_SEARCH(OBJ, slist, x, const H5_obj_t, key, -) break; case H5SL_TYPE_HID: H5SL_SEARCH(SCALAR, slist, x, const hid_t, key, -) break; case H5SL_TYPE_GENERIC: H5SL_SEARCH(GENERIC, slist, x, const void, key, -) break; default: HDassert(0 && "Unknown skiplist type!"); } /* end switch */ /* An exact match for 'key' must not have been found in list, if we get here */ /* Check for a node with a key that is less than the given 'key' */ if (x == NULL) { /* Check for walking off the list */ if (slist->last != slist->header) ret_value = slist->last->item; else ret_value = NULL; } /* end if */ else { if (x->backward != slist->header) ret_value = x->backward->item; else ret_value = NULL; } /* end else */ done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_less() */ /*-------------------------------------------------------------------------- NAME H5SL_greater PURPOSE Search for object in a skip list that is greater than or equal to 'key' USAGE void *H5SL_greater(slist, key) H5SL_t *slist; IN/OUT: Pointer to skip list void *key; IN: Key for item to search for RETURNS Returns pointer to item who key is greater than or equal to 'key' on success, NULL on failure DESCRIPTION Search for an object in a skip list, according to it's key, returning the object itself (for an exact match), or the object with the next lowest key that is greater than 'key' GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ void * H5SL_greater(H5SL_t *slist, const void *key) { H5SL_node_t *x; /* Current node to examine */ uint32_t hashval = 0; /* Hash value for key */ void *ret_value = NULL; /* Return value */ FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); HDassert(key); /* Not currently supported */ HDassert(!slist->safe_iterating); /* Check internal consistency */ /* (Pre-condition) */ /* Insert item into skip list */ /* Work through the forward pointers for a node, finding the node at each * level that is before the location to insert */ x = slist->header; switch (slist->type) { case H5SL_TYPE_INT: H5SL_SEARCH(SCALAR, slist, x, const int, key, -) break; case H5SL_TYPE_HADDR: H5SL_SEARCH(SCALAR, slist, x, const haddr_t, key, -) break; case H5SL_TYPE_STR: H5SL_SEARCH(STRING, slist, x, char *, key, hashval) break; case H5SL_TYPE_HSIZE: H5SL_SEARCH(SCALAR, slist, x, const hsize_t, key, -) break; case H5SL_TYPE_UNSIGNED: H5SL_SEARCH(SCALAR, slist, x, const unsigned, key, -) break; case H5SL_TYPE_SIZE: H5SL_SEARCH(SCALAR, slist, x, const size_t, key, -) break; case H5SL_TYPE_OBJ: H5SL_SEARCH(OBJ, slist, x, const H5_obj_t, key, -) break; case H5SL_TYPE_HID: H5SL_SEARCH(SCALAR, slist, x, const hid_t, key, -) break; case H5SL_TYPE_GENERIC: H5SL_SEARCH(GENERIC, slist, x, const void, key, -) break; default: HDassert(0 && "Unknown skiplist type!"); } /* end switch */ /* An exact match for 'key' must not have been found in list, if we get here */ /* ('x' must be the next node with a key greater than the 'key', or NULL) */ if (x) ret_value = x->item; else ret_value = NULL; done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_greater() */ /*-------------------------------------------------------------------------- NAME H5SL_find PURPOSE Search for _node_ in a skip list USAGE H5SL_node_t *H5SL_node(slist,key) H5SL_t *slist; IN/OUT: Pointer to skip list void *key; IN: Key for item to search for RETURNS Returns pointer to _node_ matching key on success, NULL on failure DESCRIPTION Search for an object in a skip list, according to it's key and returns the node that the object is attached to GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS This routine is a useful starting point for next/prev calls EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ H5SL_node_t * H5SL_find(H5SL_t *slist, const void *key) { H5SL_node_t *x; /* Current node to examine */ uint32_t hashval = 0; /* Hash value for key */ H5SL_node_t *ret_value = NULL; /* Return value */ FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); HDassert(key); /* Check internal consistency */ /* (Pre-condition) */ /* Insert item into skip list */ /* Work through the forward pointers for a node, finding the node at each * level that is before the location to insert */ x = slist->header; switch (slist->type) { case H5SL_TYPE_INT: H5SL_FIND(SCALAR, slist, x, const int, key, -) break; case H5SL_TYPE_HADDR: H5SL_FIND(SCALAR, slist, x, const haddr_t, key, -) break; case H5SL_TYPE_STR: H5SL_FIND(STRING, slist, x, char *, key, hashval) break; case H5SL_TYPE_HSIZE: H5SL_FIND(SCALAR, slist, x, const hsize_t, key, -) break; case H5SL_TYPE_UNSIGNED: H5SL_FIND(SCALAR, slist, x, const unsigned, key, -) break; case H5SL_TYPE_SIZE: H5SL_FIND(SCALAR, slist, x, const size_t, key, -) break; case H5SL_TYPE_OBJ: H5SL_FIND(OBJ, slist, x, const H5_obj_t, key, -) break; case H5SL_TYPE_HID: H5SL_FIND(SCALAR, slist, x, const hid_t, key, -) break; case H5SL_TYPE_GENERIC: H5SL_FIND(GENERIC, slist, x, const void, key, -) break; default: HDassert(0 && "Unknown skiplist type!"); } /* end switch */ /* 'key' must not have been found in list, if we get here */ ret_value = NULL; done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_find() */ /*-------------------------------------------------------------------------- NAME H5SL_below PURPOSE Search for _node_ in a skip list whose object is less than or equal to 'key' USAGE H5SL_node_t *H5SL_below(slist, key) H5SL_t *slist; IN/OUT: Pointer to skip list void *key; IN: Key for item to search for RETURNS Returns pointer to _node_ who key is less than or equal to 'key' on success, NULL on failure DESCRIPTION Search for a node with an object in a skip list, according to it's key, returning the node itself (for an exact match), or the node with the next highest key that is less than 'key' GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ H5SL_node_t * H5SL_below(H5SL_t *slist, const void *key) { H5SL_node_t *x; /* Current node to examine */ uint32_t hashval = 0; /* Hash value for key */ H5SL_node_t *ret_value = NULL; /* Return value */ FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); HDassert(key); /* Check internal consistency */ /* (Pre-condition) */ /* Insert item into skip list */ /* Work through the forward pointers for a node, finding the node at each * level that is before the location to insert */ x = slist->header; switch (slist->type) { case H5SL_TYPE_INT: H5SL_FIND(SCALAR, slist, x, const int, key, -) break; case H5SL_TYPE_HADDR: H5SL_FIND(SCALAR, slist, x, const haddr_t, key, -) break; case H5SL_TYPE_STR: H5SL_FIND(STRING, slist, x, char *, key, hashval) break; case H5SL_TYPE_HSIZE: H5SL_FIND(SCALAR, slist, x, const hsize_t, key, -) break; case H5SL_TYPE_UNSIGNED: H5SL_FIND(SCALAR, slist, x, const unsigned, key, -) break; case H5SL_TYPE_SIZE: H5SL_FIND(SCALAR, slist, x, const size_t, key, -) break; case H5SL_TYPE_OBJ: H5SL_FIND(OBJ, slist, x, const H5_obj_t, key, -) break; case H5SL_TYPE_HID: H5SL_FIND(SCALAR, slist, x, const hid_t, key, -) break; case H5SL_TYPE_GENERIC: H5SL_FIND(GENERIC, slist, x, const void, key, -) break; default: HDassert(0 && "Unknown skiplist type!"); } /* end switch */ /* An exact match for 'key' must not have been found in list, if we get here */ /* Check for a node with a key that is less than the given 'key' */ if (NULL == x) { /* Check for walking off the list */ if (slist->last != slist->header) ret_value = slist->last; else ret_value = NULL; } /* end if */ else { if (x->backward != slist->header) ret_value = x->backward; else ret_value = NULL; } /* end else */ done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_below() */ /*-------------------------------------------------------------------------- NAME H5SL_above PURPOSE Search for _node_ in a skip list whose object is greater than or equal to 'key' USAGE H5SL_node_t *H5SL_above(slist, key) H5SL_t *slist; IN/OUT: Pointer to skip list void *key; IN: Key for item to search for RETURNS Returns pointer to _node_ with object that has a key is greater than or equal to 'key' on success, NULL on failure DESCRIPTION Search for a node with an object in a skip list, according to it's key, returning the node itself (for an exact match), or the node with the next lowest key that is greater than 'key' GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ H5SL_node_t * H5SL_above(H5SL_t *slist, const void *key) { H5SL_node_t *x; /* Current node to examine */ uint32_t hashval = 0; /* Hash value for key */ H5SL_node_t *ret_value = NULL; /* Return value */ FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); HDassert(key); /* Check internal consistency */ /* (Pre-condition) */ /* Insert item into skip list */ /* Work through the forward pointers for a node, finding the node at each * level that is before the location to insert */ x = slist->header; switch (slist->type) { case H5SL_TYPE_INT: H5SL_FIND(SCALAR, slist, x, const int, key, -) break; case H5SL_TYPE_HADDR: H5SL_FIND(SCALAR, slist, x, const haddr_t, key, -) break; case H5SL_TYPE_STR: H5SL_FIND(STRING, slist, x, char *, key, hashval) break; case H5SL_TYPE_HSIZE: H5SL_FIND(SCALAR, slist, x, const hsize_t, key, -) break; case H5SL_TYPE_UNSIGNED: H5SL_FIND(SCALAR, slist, x, const unsigned, key, -) break; case H5SL_TYPE_SIZE: H5SL_FIND(SCALAR, slist, x, const size_t, key, -) break; case H5SL_TYPE_OBJ: H5SL_FIND(OBJ, slist, x, const H5_obj_t, key, -) break; case H5SL_TYPE_HID: H5SL_FIND(SCALAR, slist, x, const hid_t, key, -) break; case H5SL_TYPE_GENERIC: H5SL_FIND(GENERIC, slist, x, const void, key, -) break; default: HDassert(0 && "Unknown skiplist type!"); } /* end switch */ /* An exact match for 'key' must not have been found in list, if we get here */ /* ('x' must be the next node with a key greater than the 'key', or NULL) */ if (x) ret_value = x; else ret_value = NULL; done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_above() */ /*-------------------------------------------------------------------------- NAME H5SL_first PURPOSE Gets a pointer to the first node in a skip list USAGE H5SL_node_t *H5SL_first(slist) H5SL_t *slist; IN: Pointer to skip list RETURNS Returns pointer to first node in skip list on success, NULL on failure. DESCRIPTION Retrieves a pointer to the first node in a skip list, for iterating over the list. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ H5SL_node_t * H5SL_first(H5SL_t *slist) { FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); /* Not currently supported */ HDassert(!slist->safe_iterating); /* Check internal consistency */ /* (Pre-condition) */ FUNC_LEAVE_NOAPI(slist->header->forward[0]) } /* end H5SL_first() */ /*-------------------------------------------------------------------------- NAME H5SL_next PURPOSE Gets a pointer to the next node in a skip list USAGE H5SL_node_t *H5SL_next(slist_node) H5SL_node_t *slist_node; IN: Pointer to skip list node RETURNS Returns pointer to node after slist_node in skip list on success, NULL on failure. DESCRIPTION Retrieves a pointer to the next node in a skip list, for iterating over the list. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ H5SL_node_t * H5SL_next(H5SL_node_t *slist_node) { FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist_node); /* Not currently supported */ HDassert(!slist_node->removed); /* Check internal consistency */ /* (Pre-condition) */ FUNC_LEAVE_NOAPI(slist_node->forward[0]) } /* end H5SL_next() */ /*-------------------------------------------------------------------------- NAME H5SL_prev PURPOSE Gets a pointer to the previous node in a skip list USAGE H5SL_node_t *H5SL_prev(slist_node) H5SL_node_t *slist_node; IN: Pointer to skip list node RETURNS Returns pointer to node before slist_node in skip list on success, NULL on failure. DESCRIPTION Retrieves a pointer to the previous node in a skip list, for iterating over the list. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ H5SL_node_t * H5SL_prev(H5SL_node_t *slist_node) { FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist_node); /* Not currently supported */ HDassert(!slist_node->removed); /* Check internal consistency */ /* (Pre-condition) */ /* Walk backward, detecting the header node (which has it's key set to NULL) */ FUNC_LEAVE_NOAPI(slist_node->backward->key == NULL ? NULL : slist_node->backward) } /* end H5SL_prev() */ /*-------------------------------------------------------------------------- NAME H5SL_last PURPOSE Gets a pointer to the last node in a skip list USAGE H5SL_node_t *H5SL_last(slist) H5SL_t *slist; IN: Pointer to skip list RETURNS Returns pointer to last node in skip list on success, NULL on failure. DESCRIPTION Retrieves a pointer to the last node in a skip list, for iterating over the list. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ H5SL_node_t * H5SL_last(H5SL_t *slist) { FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); /* Not currently supported */ HDassert(!slist->safe_iterating); /* Check internal consistency */ /* (Pre-condition) */ /* Find last node, avoiding the header node */ FUNC_LEAVE_NOAPI(slist->last == slist->header ? NULL : slist->last) } /* end H5SL_last() */ /*-------------------------------------------------------------------------- NAME H5SL_item PURPOSE Gets pointer to the 'item' for a skip list node USAGE void *H5SL_item(slist_node) H5SL_node_t *slist_node; IN: Pointer to skip list node RETURNS Returns pointer to node 'item' on success, NULL on failure. DESCRIPTION Retrieves a node's 'item' GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ void * H5SL_item(H5SL_node_t *slist_node) { FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist_node); /* Not currently supported */ HDassert(!slist_node->removed); /* Check internal consistency */ /* (Pre-condition) */ FUNC_LEAVE_NOAPI(slist_node->item) } /* end H5SL_item() */ /*-------------------------------------------------------------------------- NAME H5SL_iterate PURPOSE Iterate over all nodes in a skip list USAGE herr_t H5SL_iterate(slist, op, op_data) H5SL_t *slist; IN/OUT: Pointer to skip list to iterate over H5SL_operator_t op; IN: Callback function for iteration void *op_data; IN/OUT: Pointer to application data for callback RETURNS Returns a negative value if something is wrong, the return value of the last operator if it was non-zero, or zero if all nodes were processed. DESCRIPTION Iterate over all the nodes in a skip list, calling an application callback with the item, key and any operator data. The operator callback receives a pointer to the item and key for the list being iterated over ('mesg'), and the pointer to the operator data passed in to H5SL_iterate ('op_data'). The return values from an operator are: A. Zero causes the iterator to continue, returning zero when all nodes of that type have been processed. B. Positive causes the iterator to immediately return that positive value, indicating short-circuit success. C. Negative causes the iterator to immediately return that value, indicating failure. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ herr_t H5SL_iterate(H5SL_t *slist, H5SL_operator_t op, void *op_data) { H5SL_node_t *node; /* Pointer to current skip list node */ H5SL_node_t *next; /* Pointer to next skip list node */ herr_t ret_value = 0; /* Return value */ FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); /* Check internal consistency */ /* (Pre-condition) */ /* Free skip list nodes */ node = slist->header->forward[0]; while (node != NULL) { /* Protect against the node being deleted by the callback */ next = node->forward[0]; /* Call the iterator callback * * Ignoring const here is fine as we only need the value to be const * with respect to the list code, which should never modify the * elements. The library code that is making use of the skip list * container can do what it likes with the elements. */ H5_GCC_DIAG_OFF("cast-qual") if (!node->removed) if ((ret_value = (op)(node->item, (void *)node->key, op_data)) != 0) break; H5_GCC_DIAG_ON("cast-qual") /* Advance to next node */ node = next; } /* end while */ FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_iterate() */ /*-------------------------------------------------------------------------- NAME H5SL_release PURPOSE Release all nodes from a skip list USAGE herr_t H5SL_release(slist) H5SL_t *slist; IN/OUT: Pointer to skip list to release nodes RETURNS Returns non-negative on success, negative on failure. DESCRIPTION Release all the nodes in a skip list. Any objects left in the skip list nodes are not deallocated. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS The skip list itself is still valid, it just has all its nodes removed. EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ herr_t H5SL_release(H5SL_t *slist) { FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); /* Not currently supported */ HDassert(!slist->safe_iterating); /* Check internal consistency */ /* (Pre-condition) */ /* Free skip list nodes */ H5SL_release_common(slist, NULL, NULL); /* always succeeds */ FUNC_LEAVE_NOAPI(SUCCEED) } /* end H5SL_release() */ /*-------------------------------------------------------------------------- NAME H5SL_free PURPOSE Release all nodes from a skip list, freeing all nodes USAGE herr_t H5SL_free(slist,op,op_data) H5SL_t *slist; IN/OUT: Pointer to skip list to release nodes H5SL_operator_t op; IN: Callback function to free item & key void *op_data; IN/OUT: Pointer to application data for callback RETURNS Returns non-negative on success, negative on failure. DESCRIPTION Release all the nodes in a skip list. Any objects left in the skip list have the 'op' routine called for each. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS The skip list itself is still valid, it just has all its nodes removed. The return value from the 'op' routine is ignored. This routine is essentially a combination of iterating over all the nodes (where the iterator callback is supposed to free the items and/or keys) followed by a call to H5SL_release(). EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ herr_t H5SL_free(H5SL_t *slist, H5SL_operator_t op, void *op_data) { FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); /* Not currently supported */ HDassert(!slist->safe_iterating); /* Check internal consistency */ /* (Pre-condition) */ /* Free skip list nodes */ H5SL_release_common(slist, op, op_data); /* always succeeds */ FUNC_LEAVE_NOAPI(SUCCEED) } /* end H5SL_free() */ /*-------------------------------------------------------------------------- NAME H5SL_try_free_safe PURPOSE Makes the supplied callback on all nodes in the skip list, freeing each node that the callback returns TRUE for. USAGE herr_t PURPOSE(slist,op,opdata) H5SL_t *slist; IN/OUT: Pointer to skip list to release nodes H5SL_try_free_op_t op; IN: Callback function to try to free item & key void *op_data; IN/OUT: Pointer to application data for callback RETURNS Returns non-negative on success, negative on failure. DESCRIPTION Makes the supplied callback on all nodes in the skip list, freeing each node that the callback returns TRUE for. The iteration is performed in a safe manner, such that the callback can call H5SL_remove(), H5SL_search(), H5SL_find(), and H5SL_iterate() on nodes in this skiplist, except H5SL_remove() may not be call on *this* node. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS This function is written to be most efficient when most nodes are removed from the skiplist, as it rebuilds the nodes afterwards. EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ herr_t H5SL_try_free_safe(H5SL_t *slist, H5SL_try_free_op_t op, void *op_data) { H5SL_node_t *node, *next_node, *last_node; /* Pointers to skip list nodes */ htri_t op_ret; herr_t ret_value = SUCCEED; FUNC_ENTER_NOAPI_NOINIT /* Check args */ HDassert(slist); HDassert(op); /* Not currently supported */ HDassert(!slist->safe_iterating); /* Check internal consistency */ /* (Pre-condition) */ /* Mark skip list as safe iterating, so nodes aren't freed out from under * us */ slist->safe_iterating = TRUE; /* Iterate over skip list nodes, making the callback for each and marking * them as removed if requested by the callback */ node = slist->header->forward[0]; while (node) { /* Check if the node was already removed */ if (!node->removed) { /* Call callback, if one is given. * * Ignoring const here is fine as we only need the value to be const * with respect to the list code, which should never modify the * elements. The library code that is making use of the skip list * container can do what it likes with the elements. */ H5_GCC_DIAG_OFF("cast-qual") if ((op_ret = (op)(node->item, (void *)node->key, op_data)) < 0) HGOTO_ERROR(H5E_SLIST, H5E_CALLBACK, FAIL, "callback operation failed") H5_GCC_DIAG_ON("cast-qual") /* Check if op indicated that the node should be removed */ if (op_ret) /* Mark the node as removed */ node->removed = TRUE; } /* end if */ /* Advance node */ node = node->forward[0]; } /* end while */ /* Reset safe_iterating */ slist->safe_iterating = FALSE; /* Iterate over nodes, freeing ones marked as removed */ node = slist->header->forward[0]; last_node = slist->header; while (node) { /* Save next node */ next_node = node->forward[0]; /* Check if the node was marked as removed */ if (node->removed) { /* Remove the node */ node->forward = (H5SL_node_t **)H5FL_FAC_FREE(H5SL_fac_g[node->log_nalloc], node->forward); node = H5FL_FREE(H5SL_node_t, node); slist->nobjs--; } /* end if */ else { /* Update backwards and forwards[0] pointers, and set the level to * 0. Since the list is flattened we must rebuild the skiplist * afterwards. */ /* Set level to 0. Note there is no need to preserve * node->forward[0] since it was cached above and will always be * updated later. */ if (node->level > 0) { node->forward = (H5SL_node_t **)H5FL_FAC_FREE(H5SL_fac_g[node->log_nalloc], (void *)node->forward); if (NULL == (node->forward = (H5SL_node_t **)H5FL_FAC_MALLOC(H5SL_fac_g[0]))) HGOTO_ERROR(H5E_SLIST, H5E_CANTALLOC, FAIL, "memory allocation failed") node->log_nalloc = 0; node->level = 0; } /* end if */ /* Update pointers */ last_node->forward[0] = node; node->backward = last_node; last_node = node; } /* end else */ /* Advance node */ node = next_node; } /* end while */ /* Final pointer update */ last_node->forward[0] = NULL; slist->last = last_node; /* Demote skip list to level 0 */ if (slist->curr_level > 0) { HDassert(slist->header->level == (size_t)slist->curr_level); node = slist->header->forward[0]; slist->header->forward = (H5SL_node_t **)H5FL_FAC_FREE(H5SL_fac_g[slist->header->log_nalloc], (void *)slist->header->forward); if (NULL == (slist->header->forward = (H5SL_node_t **)H5FL_FAC_MALLOC(H5SL_fac_g[0]))) HGOTO_ERROR(H5E_SLIST, H5E_CANTALLOC, FAIL, "memory allocation failed") slist->header->forward[0] = node; slist->header->log_nalloc = 0; slist->header->level = 0; } /* end if */ /* Check if there are any nodes left */ if (slist->nobjs > 0) { int i; HDassert(slist->header->forward[0]); /* Set skiplist level to 0 */ slist->curr_level = 0; /* Rebuild the forward arrays */ for (i = 0; slist->curr_level >= i; i++) { HDassert(slist->curr_level == i); /* Promote every third node this level until we run out of nodes */ node = last_node = slist->header; while (1) { /* Check second node in gap, if not present, no need to promote * further this level. */ HDassert(node->forward[i]); node = node->forward[i]->forward[i]; if (!node) break; /* Check third and fourth node in gap, if either is not present, * no need to promote further this level. */ node = node->forward[i]; if (!node || !node->forward[i]) break; /* Promote the third node in the gap */ H5SL_PROMOTE(slist, node, last_node, FAIL) last_node = node; } /* end while */ } /* end for */ } /* end if */ else { HDassert(!slist->header->forward[0]); HDassert(slist->last == slist->header); HDassert(slist->nobjs == 0); /* Reset the skiplist level */ slist->curr_level = -1; } /* end else */ done: FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_try_free_safe() */ /*-------------------------------------------------------------------------- NAME H5SL_destroy PURPOSE Close a skip list, deallocating it and freeing all its nodes. USAGE herr_t H5SL_destroy(slist,op,opdata) H5SL_t *slist; IN/OUT: Pointer to skip list to close H5SL_operator_t op; IN: Callback function to free item & key void *op_data; IN/OUT: Pointer to application data for callback RETURNS Returns non-negative on success, negative on failure. DESCRIPTION Close a skip list, freeing all internal information. Any objects left in the skip list have the 'op' routine called for each. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS The return value from the 'op' routine is ignored. This routine is essentially a combination of iterating over all the nodes (where the iterator callback is supposed to free the items and/or keys) followed by a call to H5SL_close(). EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ herr_t H5SL_destroy(H5SL_t *slist, H5SL_operator_t op, void *op_data) { herr_t ret_value = SUCCEED; /* Return value */ FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); /* Check internal consistency */ /* (Pre-condition) */ /* Close skip list */ (void)H5SL_close_common(slist, op, op_data); /* always succeeds */ FUNC_LEAVE_NOAPI(ret_value) } /* end H5SL_destroy() */ /*-------------------------------------------------------------------------- NAME H5SL_close PURPOSE Close a skip list, deallocating it. USAGE herr_t H5SL_close(slist) H5SL_t *slist; IN/OUT: Pointer to skip list to close RETURNS Returns non-negative on success, negative on failure. DESCRIPTION Close a skip list, freeing all internal information. Any objects left in the skip list are not deallocated. GLOBAL VARIABLES COMMENTS, BUGS, ASSUMPTIONS EXAMPLES REVISION LOG --------------------------------------------------------------------------*/ herr_t H5SL_close(H5SL_t *slist) { FUNC_ENTER_NOAPI_NOINIT_NOERR /* Check args */ HDassert(slist); /* Check internal consistency */ /* (Pre-condition) */ /* Close skip list */ (void)H5SL_close_common(slist, NULL, NULL); /* always succeeds */ FUNC_LEAVE_NOAPI(SUCCEED) } /* end H5SL_close() */