/* * WrapSix * Copyright (C) 2008-2013 Michal Zima * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include /* free, malloc */ #include /* memcpy */ #include "log.h" #include "radixtree.h" /** * Creates root of radix tree. * * @return Root of new radix tree */ radixtree_t *radixtree_create(void) { radixtree_t *radixtree; if ((radixtree = (radixtree_t *) malloc(sizeof(radixtree_t))) == NULL) { log_error("Lack of free memory"); return NULL; } memset(radixtree, 0, sizeof(radixtree_t)); radixtree->count = 0; return radixtree; } /** * Destroys a radix tree. * * @param root Root of the tree to destroy * @param depth Depth of the tree */ void radixtree_destroy(radixtree_t *root, unsigned char depth) { unsigned char i; for (i = 0; i < ARRAY_SIZE; i++) { if (depth != 1 && root->array[i] != NULL) { radixtree_destroy(root->array[i], depth - 1); } else if (depth == 1) { free(root->array[i]); } } free(root); } /** * Inserts new data entry into the tree. * * @param root Root of the radix tree * @param chunker Function to use to get chunks for indexing * internal array * @param search_data Key used to search in the tree * @param size Length of the key * @param data Data to store in the tree */ void radixtree_insert(radixtree_t *root, unsigned char *(chunker)(void *data, unsigned char size, unsigned char *count), void *search_data, unsigned char size, void *data) { radixtree_t *tmp; unsigned char i, chunk_count; unsigned char *chunks; chunks = chunker(search_data, size, &chunk_count); tmp = root; for (i = 0; i < chunk_count; i++) { unsigned char id; id = chunks[i]; if (i == chunk_count - 1) { tmp->array[id] = data; tmp->count++; free(chunks); return; } if (tmp->array[id] == NULL) { tmp->array[id] = radixtree_create(); tmp->count++; } tmp = tmp->array[id]; } free(chunks); } /** * Deletes an entry from the tree. * * @param root Root of the radix tree * @param chunker Function to use to get chunks for indexing * internal array * @param data Key used to search in the tree * @param size Length of the key */ void radixtree_delete(radixtree_t *root, unsigned char *(chunker)(void *data, unsigned char size, unsigned char *count), void *data, unsigned char size) { radixtree_t *tmp, *next; unsigned char i, chunk_count; unsigned char *chunks; unsigned int flags = 0; chunks = chunker(data, size, &chunk_count); for (i = 0, tmp = root; i < chunk_count && tmp != NULL; tmp = tmp->array[chunks[i++]]) { flags = tmp->count == 1 ? flags | (0x1 << i) : 0; if (i + 1 == chunk_count) { break; } } /* if was at leaf, decrement counter */ if (i + 1 == chunk_count) { tmp->count--; } tmp = root; flags &= 0xfffffffe; /* unflag root */ for (i = 0; i < chunk_count; i++) { next = tmp->array[chunks[i]]; if (flags & (0x1 << (i + 1))) { tmp->array[chunks[i]] = NULL; tmp->count--; } if (flags & (0x1 << i)) { free(tmp); } tmp = next; } free(chunks); } /** * Lookups an entry in the tree. * * @param root Root of the radix tree * @param chunker Function to use to get chunks for indexing * internal array * @param data Key used to search in the tree * @param size Length of the key */ void *radixtree_lookup(radixtree_t *root, unsigned char *(chunker)(void *data, unsigned char size, unsigned char *count), void *data, unsigned char size) { radixtree_t *tmp; unsigned char i, chunk_count, id; unsigned char *chunks; chunks = chunker(data, size, &chunk_count); tmp = root; for (i = 0;; i++) { id = chunks[i]; /* leave the for cycle before tmp gets overwritten, * if the final result was found */ if (i == chunk_count - 1) { free(chunks); return tmp->array[id]; } /* leave if there is no result */ if (tmp->array[id] == NULL) { free(chunks); return NULL; } /* go deeper */ tmp = tmp->array[id]; } /* we never get here ;c) */ } /** * Universal chunker. * * @param data Data to chunk * @param size Size of the data; must be divisible by 3 * @param count Variable into which is put information about number of * chunks produced * * @return Array of chunks */ unsigned char *radixtree_chunker(void *data, unsigned char size, unsigned char *count) { short i; unsigned char counter; unsigned char *chunks; unsigned char *cdata = (unsigned char *) data; counter = size * 8 / 6; memcpy(count, &counter, sizeof(unsigned char)); if ((chunks = (unsigned char *) malloc(counter * sizeof(unsigned char))) == NULL) { log_error("Lack of free memory"); return NULL; } /* * 3 == 0000 0011 == 0x03 * 15 == 0000 1111 == 0x0f * 48 == 0011 0000 == 0x30 * 60 == 0011 1100 == 0x3c * 63 == 0011 1111 == 0x3f * 192 == 1100 0000 == 0xc0 * 240 == 1111 0000 == 0xf0 * 252 == 1111 1100 == 0xfc */ /* processes 3 bytes at a time */ for (i = 0, counter = 0; counter < *count; i++) { chunks[counter++] = cdata[i] & 0x3f; chunks[counter++] = ((cdata[i] & 0xc0) >> 6) | ((cdata[i + 1] & 0x0f) << 2); i++; chunks[counter++] = ((cdata[i] & 0xf0) >> 4) | ((cdata[i + 1] & 0x03) << 4); i++; chunks[counter++] = ((cdata[i] & 0xfc) >> 2); } return chunks; }