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Diffstat (limited to 'src/key-value-store/hashtable/qhasharr.c')
-rw-r--r-- | src/key-value-store/hashtable/qhasharr.c | 869 |
1 files changed, 869 insertions, 0 deletions
diff --git a/src/key-value-store/hashtable/qhasharr.c b/src/key-value-store/hashtable/qhasharr.c new file mode 100644 index 0000000..97169bf --- /dev/null +++ b/src/key-value-store/hashtable/qhasharr.c @@ -0,0 +1,869 @@ +/****************************************************************************** + * qLibc + * + * Copyright (c) 2010-2014 Seungyoung Kim. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" + * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE + * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE + * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE + * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR + * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF + * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) + * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + *****************************************************************************/ + +/** + * @file qhasharr.c Static(array) hash-table implementation. + * + * qhasharr implements a hash-table which maps keys to values and stores into + * fixed size static memory like shared-memory and memory-mapped file. + * The creator qhasharr() initializes static memory to makes small slots in it. + * The default slot size factors are defined in _Q_HASHARR_KEYSIZE and + * _Q_HASHARR_VALUESIZE. And they are applied at compile time. + * + * The value part of an element will be stored across several slots if it's size + * exceeds the slot size. But the key part of an element will be truncated if + * the size exceeds and it's length and more complex MD5 hash value will be + * stored with the key. So to look up a particular key, first we find an element + * which has same hash value. If the key was not truncated, we just do key + * comparison. But if the key was truncated because it's length exceeds, we do + * both md5 and key comparison(only stored size) to verify that the key is same. + * So please be aware of that, theoretically there is a possibility we pick + * wrong element in case a key exceeds the limit, has same length and MD5 hash + * with lookup key. But this possibility is extreamly low and almost never + * happen in practice. If you happpen to want to make sure everything, + * you set _Q_HASHARR_KEYSIZE big enough at compile time to make sure all keys + * fits in it. + * + * qhasharr hash-table does not support thread-safe. So users should handle + * race conditions on application side by raising user lock before calling + * functions which modify the table data. + * + * @code + * [Data Structure Diagram] + * + * +--[Static Flat Memory Area]-----------------------------------------------+ + * | +-[Header]---------+ +-[Slot 0]---+ +-[Slot 1]---+ +-[Slot N]---+ | + * | |Private table data| |KEY A|DATA A| |KEY B|DATA B| .... |KEY N|DATA N| | + * | +------------------+ +------------+ +------------+ +------------+ | + * +--------------------------------------------------------------------------+ + * + * Below diagram shows how a big value is stored. + * +--[Static Flat Memory Area------------------------------------------------+ + * | +--------+ +-[Slot 0]---+ +-[Slot 1]---+ +-[Slot 2]---+ +-[Slot 3]-----+ | + * | |TBL INFO| |KEY A|DATA A| |DATA A cont.| |KEY B|DATA B| |DATA A cont. | | + * | +--------+ +------------+ +------------+ +------------+ +--------------+ | + * | ^~~link~~^ ^~~~~~~~~~link~~~~~~~~~^ | + * +--------------------------------------------------------------------------+ + * @endcode + * + * @code + * // initialize hash-table. + * char memory[1000 * 10]; + * qhasharr_t *tbl = qhasharr(memory, sizeof(memory)); + * if(tbl == NULL) return; + * + * // insert elements (key duplication does not allowed) + * tbl->putstr(tbl, "e1", "a"); + * tbl->putstr(tbl, "e2", "b"); + * tbl->putstr(tbl, "e3", "c"); + * + * // debug print out + * tbl->//DEBUG(tbl, stdout); + * + * char *e2 = tbl->getstr(tbl, "e2"); + * if(e2 != NULL) { + * printf("getstr('e2') : %s\n", e2); + * free(e2); + * } + * + * // Release reference object. + * tbl->free(tbl); + * @endcode + * + * An example for using hash table over shared memory. + * + * @code + * [CREATOR SIDE] + * int maxslots = 1000; + * int memsize = qhasharr_calculate_memsize(maxslots); + * + * // create shared memory + * int shmid = qshm_init("/tmp/some_id_file", 'q', memsize, true); + * if(shmid < 0) return -1; // creation failed + * void *memory = qshm_get(shmid); + * + * // initialize hash-table + * qhasharr_t *tbl = qhasharr(memory, memsize); + * if(hasharr == NULL) return -1; + * + * (...your codes with your own locking mechanism...) + * + * // Release reference object + * tbl->free(tbl); + * + * // destroy shared memory + * qshm_free(shmid); + * + * [USER SIDE] + * int shmid = qshm_getid("/tmp/some_id_file", 'q'); + * + * // get shared memory + * void *memory = qshm_get(shmid); + * + * // map existing memory into table + * qhasharr_t *tbl = qhasharr(memory, 0); + * + * (...your codes with your own locking mechanism...) + * + * // Release reference object + * tbl->free(tbl); + * @endcode + */ + +/* + * Modified parts of this file by XS Embedded GmbH, 2014 + */ + +#include <stdio.h> +#include <stdlib.h> +#include <stdbool.h> +#include <stdint.h> +#include <inttypes.h> +#include <stdarg.h> +#include <string.h> +#include <errno.h> +#include "qhash.h" +#include "qhasharr.h" + +#ifndef _DOXYGEN_SKIP + +static bool put(qhasharr_t *tbl, const char *key, const void *value, + size_t size); + +static void *get(qhasharr_t *tbl, const char *key, size_t *size); + +static bool getnext(qhasharr_t *tbl, qnobj_t *obj, int *idx); + +static bool remove_(qhasharr_t *tbl, const char *key); + +static int size(qhasharr_t *tbl, int *maxslots, int *usedslots); + +static void free_(qhasharr_t *tbl); + +// internal usages +static int _find_empty(qhasharr_t *tbl, int startidx); +static int _get_idx(qhasharr_t *tbl, const char *key, unsigned int hash); +static void *_get_data(qhasharr_t *tbl, int idx, size_t *size); +static bool _put_data(qhasharr_t *tbl, int idx, unsigned int hash, + const char *key, const void *value, size_t size, + int count); +static bool _copy_slot(qhasharr_t *tbl, int idx1, int idx2); +static bool _remove_slot(qhasharr_t *tbl, int idx); +static bool _remove_data(qhasharr_t *tbl, int idx); + +#endif + +/** + * Get how much memory is needed for N slots. + * + * @param max a number of maximum internal slots + * + * @return memory size needed + * + * @note + * This can be used for calculating minimum memory size for N slots. + */ +size_t qhasharr_calculate_memsize(int max) { + size_t memsize = sizeof(qhasharr_data_t) + + (sizeof(qhasharr_slot_t) * (max)); + return memsize; +} + +/** + * Initialize static hash table + * + * @param memory a pointer of data memory. + * @param memsize a size of data memory, 0 for using existing data. + * + * @return qhasharr_t container pointer, otherwise returns NULL. + * @retval errno will be set in error condition. + * - EINVAL : Assigned memory is too small. It must bigger enough to allocate + * at least 1 slot. + * + * @code + * // initialize hash-table with 100 slots. + * // A single element can take several slots. + * char memory[112 * 100]; + * + * // Initialize new table. + * qhasharr_t *tbl = qhasharr(memory, sizeof(memory)); + * + * // Use existing table. + * qhasharr_t *tbl2 = qhasharr(memory, 0); + * @endcode + */ +qhasharr_t *qhasharr(void *memory, size_t memsize) { + // Structure memory. + qhasharr_data_t *data = (qhasharr_data_t *) memory; + + // Initialize data if memsize is set or use existing data. + if (memsize > 0) { + // calculate max + int maxslots = (memsize - sizeof(qhasharr_data_t)) + / sizeof(qhasharr_slot_t); + if (maxslots < 1 || memsize <= sizeof(qhasharr_t)) { + //errno = EINVAL; + return NULL; + } + + // Set memory. + //memset((void *) data, 0, memsize); //TODO check if initialisation is needed + data->maxslots = maxslots; + data->usedslots = 0; + data->num = 0; + } + + // Set data address. Shared memory returns virtul address. + data->slots = (qhasharr_slot_t *) (memory + sizeof(qhasharr_data_t)); + + // Create the table object. + qhasharr_t *tbl = (qhasharr_t *) malloc(sizeof(qhasharr_t)); + if (tbl == NULL) { + //errno = ENOMEM; + return NULL; + } + memset((void *) tbl, 0, sizeof(qhasharr_t)); + + // assign methods + tbl->put = put; + + tbl->get = get; + + tbl->getnext = getnext; + + tbl->remove = remove_; + + tbl->size = size; + + tbl->free = free_; + + tbl->data = data; + + return tbl; +} + +/** + * qhasharr->put(): Put an object into this table. + * + * @param tbl qhasharr_t container pointer. + * @param key key string + * @param value value object data + * @param size size of value + * + * @return true if successful, otherwise returns false + * @retval errno will be set in error condition. + * - ENOBUFS : Table doesn't have enough space to store the object. + * - EINVAL : Invalid argument. + * - EFAULT : Unexpected error. Data structure is not constant. + */ +static bool put(qhasharr_t *tbl, const char *key, const void *value, + size_t size) { + if (tbl == NULL || key == NULL || value == NULL) { + //errno = EINVAL; + return false; + } + + qhasharr_data_t *data = tbl->data; + + // check full + if (data->usedslots >= data->maxslots || ((data->usedslots + (size / 32)) >= data->maxslots)) { + //DEBUG("hasharr: put %s - FULL", key); + //errno = ENOBUFS; + return false; + } + + // get hash integer + unsigned int hash = qhashmurmur3_32(key, strlen(key)) % data->maxslots; + + // check, is slot empty + if (data->slots[hash].count == 0) { // empty slot + // put data + if (_put_data(tbl, hash, hash, key, value, size, 1) == false) { + //DEBUG("hasharr: FAILED put(new) %s", key); + return false; + } //DEBUG("hasharr: put(new) %s (idx=%d,hash=%u,tot=%d)", + // key, hash, hash, data->usedslots); + } else if (data->slots[hash].count > 0) { // same key or hash collision + // check same key; + int idx = _get_idx(tbl, key, hash); + if (idx >= 0) { // same key + // remove and recall + remove_(tbl, key); + //printf("overwriting existent key 2%s\n", key); + return put(tbl, key, value, size); + } else { // no same key, just hash collision + // find empty slot + int idx = _find_empty(tbl, hash); + if (idx < 0) { + //errno = ENOBUFS; + return false; + } + + // put data. -1 is used for collision resolution (idx != hash); + if (_put_data(tbl, idx, hash, key, value, size, -1) == false) { + //DEBUG("hasharr: FAILED put(col) %s", key); + return false; + } + + // increase counter from leading slot + data->slots[hash].count++; + + //DEBUG("hasharr: put(col) %s (idx=%d,hash=%u,tot=%d)", + // key, idx, hash, data->usedslots); + } + } else { + // in case of -1 or -2, move it. -1 used for collision resolution, + // -2 used for oversized value data. + + // find empty slot + int idx = _find_empty(tbl, hash + 1); + if (idx < 0) { + //errno = ENOBUFS; + return false; + } + + // move dup slot to empty + _copy_slot(tbl, idx, hash); + _remove_slot(tbl, hash); + + // in case of -2, adjust link of mother + if (data->slots[idx].count == -2) { + data->slots[data->slots[idx].hash].link = idx; + if (data->slots[idx].link != -1) { + data->slots[data->slots[idx].link].hash = idx; + } + } + + // store data + if (_put_data(tbl, hash, hash, key, value, size, 1) == false) { + //DEBUG("hasharr: FAILED put(swp) %s", key); + return false; + } + + //DEBUG("hasharr: put(swp) %s (idx=%u,hash=%u,tot=%d)", + // key, hash, hash, data->usedslots); + } + return true; +} + + + + +/** + * qhasharr->get(): Get an object from this table + * + * @param tbl qhasharr_t container pointer. + * @param key key string + * @param size if not NULL, oject size will be stored + * + * @return malloced object pointer if successful, otherwise(not found) + * returns NULL + * @retval errno will be set in error condition. + * - ENOENT : No such key found. + * - EINVAL : Invalid argument. + * - ENOMEM : Memory allocation failed. + * + * @note + * returned object must be freed after done using. + */ +static void *get(qhasharr_t *tbl, const char *key, size_t *size) { + if (tbl == NULL || key == NULL) { + //errno = EINVAL; + return NULL; + } + + qhasharr_data_t *data = tbl->data; + + // get hash integer + unsigned int hash = qhashmurmur3_32(key, strlen(key)) % data->maxslots; + + int idx = _get_idx(tbl, key, hash); + if (idx < 0) { + //errno = ENOENT; + return NULL; + } + + return _get_data(tbl, idx, size); +} + +/** + * qhasharr->getnext(): Get next element. + * + * @param tbl qhasharr_t container pointer. + * @param idx index pointer + * + * @return key name string if successful, otherwise(end of table) returns NULL + * @retval errno will be set in error condition. + * - ENOENT : No next element. + * - EINVAL : Invald argument. + * - ENOMEM : Memory allocation failed. + * + * @code + * int idx = 0; + * qnobj_t obj; + * while(tbl->getnext(tbl, &obj, &idx) == true) { + * printf("NAME=%s, DATA=%s, SIZE=%zu\n", + * obj.name, (char*)obj.data, obj.size); + * free(obj.name); + * free(obj.data); + * } + * @endcode + * + * @note + * Please be aware a key name will be returned with truncated length + * because key name is truncated when it put into the table if it's length is + * longer than _Q_HASHARR_KEYSIZE. + */ +static bool getnext(qhasharr_t *tbl, qnobj_t *obj, int *idx) { + if (tbl == NULL || obj == NULL || idx == NULL) { + //errno = EINVAL; + return NULL; + } + + qhasharr_data_t *data = tbl->data; + + for (; *idx < data->maxslots; (*idx)++) { + if (data->slots[*idx].count == 0 || data->slots[*idx].count == -2) { + continue; + } + + size_t keylen = data->slots[*idx].data.pair.keylen; + if (keylen > _Q_HASHARR_KEYSIZE) + keylen = _Q_HASHARR_KEYSIZE; + + obj->name = (char *) malloc(keylen + 1); + if (obj->name == NULL) { + //errno = ENOMEM; + return false; + } + memcpy(obj->name, data->slots[*idx].data.pair.key, keylen); + obj->name[keylen] = '\0'; + + obj->data = _get_data(tbl, *idx, &obj->size); + if (obj->data == NULL) { + free(obj->name); + //errno = ENOMEM; + return false; + } + + *idx += 1; + return true; + } + + //errno = ENOENT; + return false; +} + +/** + * qhasharr->remove(): Remove an object from this table. + * + * @param tbl qhasharr_t container pointer. + * @param key key string + * + * @return true if successful, otherwise(not found) returns false + * @retval errno will be set in error condition. + * - ENOENT : No such key found. + * - EINVAL : Invald argument. + * - EFAULT : Unexpected error. Data structure is not constant. + */ +static bool remove_(qhasharr_t *tbl, const char *key) { + if (tbl == NULL || key == NULL) { + //errno = EINVAL; + return false; + } + + qhasharr_data_t *data = tbl->data; + + // get hash integer + unsigned int hash = qhashmurmur3_32(key, strlen(key)) % data->maxslots; + + int idx = _get_idx(tbl, key, hash); + if (idx < 0) { + //DEBUG("not found %s", key); + //errno = ENOENT; + return false; + } + + if (data->slots[idx].count == 1) { + // just remove + _remove_data(tbl, idx); + //DEBUG("hasharr: rem %s (idx=%d,tot=%d)", key, idx, data->usedslots); + } else if (data->slots[idx].count > 1) { // leading slot and has dup + // find dup + int idx2; + for (idx2 = idx + 1;; idx2++) + { + if (idx2 >= data->maxslots) + idx2 = 0; + if (idx2 == idx) { + //DEBUG("hasharr: [BUG] failed to remove dup key %s.", key); + //errno = EFAULT; + return false; + } + if (data->slots[idx2].count == -1 && data->slots[idx2].hash == hash) + { + break; + } + } + + // move to leading slot + int backupcount = data->slots[idx].count; + _remove_data(tbl, idx); // remove leading data + _copy_slot(tbl, idx, idx2); // copy slot + _remove_slot(tbl, idx2); // remove moved slot + + data->slots[idx].count = backupcount - 1; // adjust collision counter + if (data->slots[idx].link != -1) { + data->slots[data->slots[idx].link].hash = idx; + } + + //DEBUG("hasharr: rem(lead) %s (idx=%d,tot=%d)", + // key, idx, data->usedslots); + } else { // in case of -1. used for collision resolution + // decrease counter from leading slot + if (data->slots[data->slots[idx].hash].count <= 1) { + //DEBUG("hasharr: [BUG] failed to remove %s. " + // "counter of leading slot mismatch.", key); + //errno = EFAULT; + return false; + } + data->slots[data->slots[idx].hash].count--; + + // remove data + _remove_data(tbl, idx); + //DEBUG("hasharr: rem(dup) %s (idx=%d,tot=%d)", key, idx, data->usedslots); + } + + return true; +} + +/** + * qhasharr->size(): Returns the number of objects in this table. + * + * @param tbl qhasharr_t container pointer. + * + * @return a number of elements stored. + */ +static int size(qhasharr_t *tbl, int *maxslots, int *usedslots) { + if (tbl == NULL) { + //errno = EINVAL; + return -1; + } + + qhasharr_data_t *data = tbl->data; + + if (maxslots != NULL) + *maxslots = data->maxslots; + if (usedslots != NULL) + *usedslots = data->usedslots; + + return data->num; +} + + +/** + * qhasharr->free(): De-allocate table reference object. + * + * @param tbl qhashtbl_t container pointer. + * + * @note + * This does not de-allocate memory but only function reference object. + * Data memory such as shared memory must be de-allocated separately. + */ +void free_(qhasharr_t *tbl) { + free(tbl); +} + +#ifndef _DOXYGEN_SKIP + +// find empty slot : return empty slow number, otherwise returns -1. +static int _find_empty(qhasharr_t *tbl, int startidx) { + qhasharr_data_t *data = tbl->data; + + if (startidx >= data->maxslots) + startidx = 0; + + int idx = startidx; + while (true) { + if (data->slots[idx].count == 0) + return idx; + + idx++; + if (idx >= data->maxslots) + idx = 0; + if (idx == startidx) + break; + } + + return -1; +} + +static int _get_idx(qhasharr_t *tbl, const char *key, unsigned int hash) { + qhasharr_data_t *data = tbl->data; + + if (data->slots[hash].count > 0) { + int count, idx; + for (count = 0, idx = hash; count < data->slots[hash].count;) { + if (data->slots[idx].hash == hash + && (data->slots[idx].count > 0 + || data->slots[idx].count == -1)) { + // same hash + count++; + + // is same key? + size_t keylen = strlen(key); + // first check key length + if (keylen == data->slots[idx].data.pair.keylen) { + if (keylen <= _Q_HASHARR_KEYSIZE) { + // original key is stored + if (!memcmp(key, data->slots[idx].data.pair.key, keylen)) + { + return idx; + } + } else { + // key is truncated, compare MD5 also. + unsigned char keymd5[16]; + qhashmd5(key, keylen, keymd5); + if (!memcmp(key, data->slots[idx].data.pair.key, _Q_HASHARR_KEYSIZE) && !memcmp(keymd5, data->slots[idx].data.pair.keymd5, 16)) + { + return idx; + } + } + } + } + + // increase idx + idx++; + if (idx >= data->maxslots) + idx = 0; + + // check loop + if (idx == hash) + break; + + continue; + } + } + + return -1; +} + +static void *_get_data(qhasharr_t *tbl, int idx, size_t *size) { + if (idx < 0) { + //errno = ENOENT; + return NULL; + } + + qhasharr_data_t *data = tbl->data; + + int newidx; + size_t valsize; + for (newidx = idx, valsize = 0;; newidx = data->slots[newidx].link) + { + valsize += data->slots[newidx].size; + if (data->slots[newidx].link == -1) + break; + } + + void *value, *vp; + value = malloc(valsize); + if (value == NULL) { + //errno = ENOMEM; + return NULL; + } + + for (newidx = idx, vp = value;; newidx = data->slots[newidx].link) { + if (data->slots[newidx].count == -2) { + // extended data block + memcpy(vp, (void *) data->slots[newidx].data.ext.value, + data->slots[newidx].size); + } else { + // key/value pair data block + memcpy(vp, (void *) data->slots[newidx].data.pair.value, + data->slots[newidx].size); + } + + vp += data->slots[newidx].size; + if (data->slots[newidx].link == -1) + break; + } + + if (size != NULL) + { + *size = valsize; + } + return value; +} + +static bool _put_data(qhasharr_t *tbl, int idx, unsigned int hash, + const char *key, const void *value, size_t size, + int count) { + qhasharr_data_t *data = tbl->data; + + // check if used + if (data->slots[idx].count != 0) { + //DEBUG("hasharr: BUG found."); + //errno = EFAULT; + return false; + } + + size_t keylen = strlen(key); + unsigned char keymd5[16]; + qhashmd5(key, keylen, keymd5); + + // store key + data->slots[idx].count = count; + data->slots[idx].hash = hash; + strncpy(data->slots[idx].data.pair.key, key, _Q_HASHARR_KEYSIZE); + memcpy((char *) data->slots[idx].data.pair.keymd5, (char *) keymd5, 16); + data->slots[idx].data.pair.keylen = keylen; + data->slots[idx].link = -1; + + // store value + int newidx; + size_t savesize; + for (newidx = idx, savesize = 0; savesize < size;) { + if (savesize > 0) { // find next empty slot + int tmpidx = _find_empty(tbl, newidx + 1); + if (tmpidx < 0) { + //DEBUG("hasharr: Can't expand slot for key %s.", key); + _remove_data(tbl, idx); + //errno = ENOBUFS; + return false; + } + + // clear & set + memset((void *) (&data->slots[tmpidx]), '\0', + sizeof(qhasharr_slot_t)); + + data->slots[tmpidx].count = -2; // extended data block + data->slots[tmpidx].hash = newidx; // prev link + data->slots[tmpidx].link = -1; // end block mark + data->slots[tmpidx].size = 0; + + data->slots[newidx].link = tmpidx; // link chain + + //DEBUG("hasharr: slot %d is linked to slot %d for key %s.", + // tmpidx, newidx, key); + newidx = tmpidx; + } + + // copy data + size_t copysize = size - savesize; + + if (data->slots[newidx].count == -2) { + // extended value + if (copysize > sizeof(struct _Q_HASHARR_SLOT_EXT)) { + copysize = sizeof(struct _Q_HASHARR_SLOT_EXT); + } + memcpy(data->slots[newidx].data.ext.value, value + savesize, + copysize); + } else { + // first slot + if (copysize > _Q_HASHARR_VALUESIZE) { + copysize = _Q_HASHARR_VALUESIZE; + } + memcpy(data->slots[newidx].data.pair.value, value + savesize, + copysize); + + // increase stored key counter + data->num++; + } + data->slots[newidx].size = copysize; + savesize += copysize; + + // increase used slot counter + data->usedslots++; + } + + return true; +} + +static bool _copy_slot(qhasharr_t *tbl, int idx1, int idx2) { + qhasharr_data_t *data = tbl->data; + + if (data->slots[idx1].count != 0 || data->slots[idx2].count == 0) { + //DEBUG("hasharr: BUG found."); + //errno = EFAULT; + return false; + } + + memcpy((void *) (&data->slots[idx1]), (void *) (&data->slots[idx2]), + sizeof(qhasharr_slot_t)); + + // increase used slot counter + data->usedslots++; + + return true; +} + +static bool _remove_slot(qhasharr_t *tbl, int idx) +{ + qhasharr_data_t *data = tbl->data; + + if (data->slots[idx].count == 0) + { + //DEBUG("hasharr: BUG found."); + //errno = EFAULT; + return false; + } + + data->slots[idx].count = 0; + + // decrease used slot counter + data->usedslots--; + + return true; +} + +static bool _remove_data(qhasharr_t *tbl, int idx) { + qhasharr_data_t *data = tbl->data; + + if (data->slots[idx].count == 0) { + //DEBUG("hasharr: BUG found."); + //errno = EFAULT; + return false; + } + + while (true) { + int link = data->slots[idx].link; + _remove_slot(tbl, idx); + + if (link == -1) + break; + + idx = link; + } + + // decrease stored key counter + data->num--; + + return true; +} + +#endif /* _DOXYGEN_SKIP */ |