#include "vieter_heap_internal.h" #include vieter_heap *vieter_heap_init() { return calloc(1, sizeof(vieter_heap)); } uint64_t vieter_heap_size(vieter_heap *heap) { uint64_t size = 0; vieter_heap_node *tree = heap->tree; while (tree != NULL) { size |= (uint64_t)1 << tree->order; tree = tree->ptr.next_tree; } return size; } void vieter_heap_free(vieter_heap *heap) { vieter_heap_node *tree = heap->tree; vieter_heap_node *next; while (tree != NULL) { next = tree->ptr.next_tree; vieter_heap_tree_free(tree); tree = next; } free(heap); } vieter_heap_error vieter_heap_insert(vieter_heap *heap, uint64_t key, void *data) { vieter_heap_node *new_tree = vieter_heap_node_init(); new_tree->key = key; new_tree->data = data; new_tree->order = 0; if (heap->tree == NULL) { heap->tree = new_tree; } else { heap->tree = vieter_heap_tree_merge(heap->tree, new_tree); } return vieter_heap_ok; } vieter_heap_error vieter_heap_pop(void **out, vieter_heap *heap) { if (heap->tree == NULL) { return vieter_heap_empty; } heap->tree = vieter_heap_tree_pop(out, heap->tree); return vieter_heap_ok; } vieter_heap_error vieter_heap_peek(void **out, vieter_heap *heap) { if (heap->tree == NULL) { return vieter_heap_empty; } vieter_heap_node *tree = heap->tree; uint64_t smallest_key = tree->key; *out = tree->data; while (tree->ptr.next_tree != NULL) { tree = tree->ptr.next_tree; if (tree->key < smallest_key) { smallest_key = tree->key; *out = tree->data; } } return vieter_heap_ok; }