#include "huffman.h" #include #include #include static int find_smallest (struct huffman_node **nodes, int count, int different) { // 'real' weights will always be positive. int smallest = -1; int i; for (i = 0; i < count; i++) { if (i == different) { continue; } if (smallest == -1 || nodes[i]->weight < nodes[smallest]->weight) { smallest = i; } } return smallest; } static void shift_nodes (struct huffman_node **nodes, int count, int start) { int i; for (i = start; i + 1 < count; i++) { nodes[i] = nodes[i + 1]; } nodes[i] = NULL; } struct huffman_node * huffman_build_tree(void **values, int count) { int i; struct huffman_node **nodes; nodes = malloc (sizeof (struct huffman_node *) * count); for (i = 0; i < count; i++) { struct huffman_node *node = malloc (sizeof (struct huffman_node)); node->value = values[i]; node->weight = i + 1; node->left = NULL; node->right = NULL; nodes[i] = node; } int tree1; int tree2; for (; count > 1; count--) { struct huffman_node *tmp; tree1 = find_smallest (nodes, count, -1); tree2 = find_smallest (nodes, count, tree1); tmp = malloc (sizeof (struct huffman_node)); tmp->weight = nodes[tree1]->weight + nodes[tree2]->weight; tmp->value = NULL; tmp->left = nodes[tree1]; tmp->right = nodes[tree2]; if (tree1 > tree2) { shift_nodes (nodes, count, tree1); shift_nodes (nodes, count, tree2); } else { shift_nodes (nodes, count, tree2); shift_nodes (nodes, count, tree1); } nodes[count - 2] = tmp; } return nodes[0]; } void * huffman_lookup (struct huffman_node *tree, unsigned char *bits, int *bits_read, bool print) { struct huffman_node *node = tree; while (true) { if (node == NULL) { return NULL; } if (node->value != NULL) { return node->value; } if ((bits[0] << *bits_read % 8 & 0x80) == 0) { node = node->left; if (print) { putchar ('0'); } } else { node = node->right; if (print) { putchar ('1'); } } (*bits_read)++; if (*bits_read % 8 == 0) { bits++; } } } struct stack { struct stack *next; bool val; }; static void huffman_lookup_driver (struct huffman_node *tree, void *value, struct stack *head, struct stack *cur) { if (tree->value == value) { struct stack *x = head->next; while (x != NULL) { if (x->val) { putchar ('1'); } else { putchar ('0'); } x = x->next; } return; } struct stack *next = malloc (sizeof (struct stack)); next->next = NULL; cur->next = next; if (tree->left != NULL) { next->val = false; huffman_lookup_driver (tree->left, value, head, next); } if (tree->right != NULL) { next->val = true; huffman_lookup_driver (tree->right, value, head, next); } cur->next = NULL; free (next); } // given a value, print its code to stdout. void huffman_reverse_lookup (struct huffman_node *tree, void *value) { struct stack head; head.next = NULL; huffman_lookup_driver (tree, value, &head, &head); }