/* * Copyright (c) 2010, Andrea Mazzoleni. 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. */ #include "tommytrieinp.h" #include /* for assert */ /******************************************************************************/ /* trie_inplace */ /** * Mask for the inner branches. */ #define TOMMY_TRIE_INPLACE_TREE_MASK (TOMMY_TRIE_INPLACE_TREE_MAX - 1) /** * Shift for the first level of branches. */ #define TOMMY_TRIE_INPLACE_BUCKET_SHIFT (TOMMY_KEY_BIT - TOMMY_TRIE_INPLACE_BUCKET_BIT) /** * Create a new list with a single element. */ tommy_inline tommy_trie_inplace_node* tommy_trie_inplace_list_insert_first(tommy_trie_inplace_node* node) { /* one element "circular" prev list */ node->prev = node; /* one element "0 terminated" next list */ node->next = 0; return node; } /** * Add an element to an existing list. * \note The element is inserted at the end of the list. */ tommy_inline void tommy_trie_inplace_list_insert_tail_not_empty(tommy_trie_inplace_node* head, tommy_trie_inplace_node* node) { /* insert in the list in the last position */ /* insert in the "circular" prev list */ node->prev = head->prev; head->prev = node; /* insert in the "0 terminated" next list */ node->next = 0; node->prev->next = node; } /** * Remove an element from the list. */ tommy_inline void tommy_trie_inplace_list_remove(tommy_trie_inplace_node** let_ptr, tommy_trie_inplace_node* node) { tommy_trie_inplace_node* head = *let_ptr; /* remove from the "circular" prev list */ if (node->next) node->next->prev = node->prev; else head->prev = node->prev; /* the last */ /* remove from the "0 terminated" next list */ if (head == node) *let_ptr = node->next; /* the new first */ else node->prev->next = node->next; } void tommy_trie_inplace_init(tommy_trie_inplace* trie_inplace) { tommy_uint_t i; for (i = 0; i < TOMMY_TRIE_INPLACE_BUCKET_MAX; ++i) trie_inplace->bucket[i] = 0; trie_inplace->count = 0; } static void trie_inplace_bucket_insert(tommy_uint_t shift, tommy_trie_inplace_node** let_ptr, tommy_trie_inplace_node* insert, tommy_key_t key) { tommy_trie_inplace_node* node; node = *let_ptr; while (node && node->key != key) { let_ptr = &node->map[(key >> shift) & TOMMY_TRIE_INPLACE_TREE_MASK]; node = *let_ptr; shift -= TOMMY_TRIE_INPLACE_TREE_BIT; } /* if null, just insert the node */ if (!node) { /* setup the node as a list */ *let_ptr = tommy_trie_inplace_list_insert_first(insert); } else { /* if it's the same key, insert in the list */ tommy_trie_inplace_list_insert_tail_not_empty(node, insert); } } void tommy_trie_inplace_insert(tommy_trie_inplace* trie_inplace, tommy_trie_inplace_node* node, void* data, tommy_key_t key) { tommy_trie_inplace_node** let_ptr; tommy_uint_t i; node->data = data; node->key = key; /* clear the child pointers */ for (i = 0; i < TOMMY_TRIE_INPLACE_TREE_MAX; ++i) node->map[i] = 0; let_ptr = &trie_inplace->bucket[key >> TOMMY_TRIE_INPLACE_BUCKET_SHIFT]; trie_inplace_bucket_insert(TOMMY_TRIE_INPLACE_BUCKET_SHIFT, let_ptr, node, key); ++trie_inplace->count; } static tommy_trie_inplace_node* trie_inplace_bucket_remove(tommy_uint_t shift, tommy_trie_inplace_node** let_ptr, tommy_trie_inplace_node* remove, tommy_key_t key) { tommy_trie_inplace_node* node; int i; tommy_trie_inplace_node** leaf_let_ptr; tommy_trie_inplace_node* leaf; node = *let_ptr; while (node && node->key != key) { let_ptr = &node->map[(key >> shift) & TOMMY_TRIE_INPLACE_TREE_MASK]; node = *let_ptr; shift -= TOMMY_TRIE_INPLACE_TREE_BIT; } if (!node) return 0; /* if the node to remove is not specified */ if (!remove) remove = node; /* remove the first */ tommy_trie_inplace_list_remove(let_ptr, remove); /* if not change in the node, nothing more to do */ if (*let_ptr == node) return remove; /* if we have a substitute */ if (*let_ptr != 0) { /* copy the child pointers to the new one */ node = *let_ptr; for (i = 0; i < TOMMY_TRIE_INPLACE_TREE_MAX; ++i) node->map[i] = remove->map[i]; return remove; } /* find a leaf */ leaf_let_ptr = 0; leaf = remove; /* search backward, statistically we have more zeros than ones */ i = TOMMY_TRIE_INPLACE_TREE_MAX - 1; while (i >= 0) { if (leaf->map[i]) { leaf_let_ptr = &leaf->map[i]; leaf = *leaf_let_ptr; i = TOMMY_TRIE_INPLACE_TREE_MAX - 1; continue; } --i; } /* if it's itself a leaf */ if (!leaf_let_ptr) return remove; /* remove the leaf */ *leaf_let_ptr = 0; /* copy the child pointers */ for (i = 0; i < TOMMY_TRIE_INPLACE_TREE_MAX; ++i) leaf->map[i] = remove->map[i]; /* put it in place */ *let_ptr = leaf; return remove; } void* tommy_trie_inplace_remove(tommy_trie_inplace* trie_inplace, tommy_key_t key) { tommy_trie_inplace_node* ret; tommy_trie_inplace_node** let_ptr; let_ptr = &trie_inplace->bucket[key >> TOMMY_TRIE_INPLACE_BUCKET_SHIFT]; ret = trie_inplace_bucket_remove(TOMMY_TRIE_INPLACE_BUCKET_SHIFT, let_ptr, 0, key); if (!ret) return 0; --trie_inplace->count; return ret->data; } void* tommy_trie_inplace_remove_existing(tommy_trie_inplace* trie_inplace, tommy_trie_inplace_node* node) { tommy_trie_inplace_node* ret; tommy_key_t key = node->key; tommy_trie_inplace_node** let_ptr; let_ptr = &trie_inplace->bucket[key >> TOMMY_TRIE_INPLACE_BUCKET_SHIFT]; ret = trie_inplace_bucket_remove(TOMMY_TRIE_INPLACE_BUCKET_SHIFT, let_ptr, node, key); /* the element removed must match the one passed */ assert(ret == node); --trie_inplace->count; return ret->data; } tommy_trie_inplace_node* tommy_trie_inplace_bucket(tommy_trie_inplace* trie_inplace, tommy_key_t key) { tommy_trie_inplace_node* node; tommy_uint_t shift; node = trie_inplace->bucket[key >> TOMMY_TRIE_INPLACE_BUCKET_SHIFT]; shift = TOMMY_TRIE_INPLACE_BUCKET_SHIFT; while (node && node->key != key) { node = node->map[(key >> shift) & TOMMY_TRIE_INPLACE_TREE_MASK]; shift -= TOMMY_TRIE_INPLACE_TREE_BIT; } return node; } tommy_size_t tommy_trie_inplace_memory_usage(tommy_trie_inplace* trie_inplace) { return tommy_trie_inplace_count(trie_inplace) * (tommy_size_t)sizeof(tommy_trie_inplace_node); }