forked from vieter-v/libvieter
feat(heap): initially working insert
parent
16b78b8431
commit
c1ad26cf0c
GPG Key ID:
B75D4F293C7052DB
2
Makefile
2
Makefile
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@ -25,7 +25,7 @@ INC_FLAGS := $(addprefix -I,$(INC_DIRS))
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# object file is also recompiled if only a header is changed.
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# -MP: generate a dummy target for every header file (according to the docs it
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# prevents some errors when removing header files)
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CFLAGS ?= -MMD -MP
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CFLAGS ?= -MMD -MP -g
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VIETERCFLAGS := $(INC_FLAGS) $(CFLAGS) -Wall -Wextra
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.PHONY: all
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@ -9,7 +9,18 @@ struct vieter_heap {
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vieter_heap *vieter_heap_init() { return calloc(1, sizeof(vieter_heap)); }
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uint64_t vieter_heap_size(vieter_heap *heap) { return 0; }
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uint64_t vieter_heap_size(vieter_heap *heap) {
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uint64_t size = 0;
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vieter_heap_tree *tree = heap->tree;
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while (tree != NULL) {
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size |= 1 << tree->order;
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tree = tree->next;
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}
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return size;
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}
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void vieter_heap_free(vieter_heap *heap) {}
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@ -34,5 +45,22 @@ vieter_heap_error vieter_heap_pop(void **out, vieter_heap *heap) {
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}
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vieter_heap_error vieter_heap_peek(void **out, vieter_heap *heap) {
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if (heap->tree == NULL) {
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return vieter_heap_empty;
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}
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uint64_t smallest_key;
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vieter_heap_tree *tree = heap->tree;
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while (tree != NULL) {
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if (tree->root->key < smallest_key) {
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smallest_key = tree->root->key;
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*out = tree->root->data;
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}
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tree = tree->next;
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}
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return vieter_heap_ok;
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}
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@ -4,24 +4,6 @@ vieter_heap_node *vieter_heap_node_init() {
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return calloc(1, sizeof(vieter_heap_node));
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}
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vieter_heap_node *vieter_heap_node_merge_same_order(vieter_heap_node *root_a,
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vieter_heap_node *root_b) {
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vieter_heap_node *new_root, *new_child;
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if (root_a->key <= root_b->key) {
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new_root = root_a;
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new_child = root_b;
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} else {
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new_root = root_b;
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new_child = root_a;
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}
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new_root->next_largest_order = new_root->largest_order;
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new_root->largest_order = new_child;
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return new_root;
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}
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vieter_heap_tree *vieter_heap_tree_init(vieter_heap_node *root,
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vieter_heap_tree *next,
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uint64_t order) {
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@ -34,5 +16,98 @@ vieter_heap_tree *vieter_heap_tree_init(vieter_heap_node *root,
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return tree;
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}
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void vieter_heap_tree_swap(vieter_heap_tree *t1, vieter_heap_tree *t2) {
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vieter_heap_tree temp = {
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.order = t1->order, .root = t1->root, .next = t1->next};
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t1->order = t2->order;
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t1->root = t2->root;
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t1->next = t2->next;
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t2->order = temp.order;
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t2->root = temp.root;
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t2->next = temp.next;
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}
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vieter_heap_tree *vieter_heap_tree_merge_same_order(vieter_heap_tree *tree_a,
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vieter_heap_tree *tree_b) {
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vieter_heap_tree *new_tree;
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if (tree_a->root->key <= tree_b->root->key) {
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new_tree = tree_a;
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tree_a->root->next_largest_order = tree_a->root->largest_order;
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tree_a->root->largest_order = tree_b->root;
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free(tree_b);
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} else {
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new_tree = tree_b;
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tree_b->root->next_largest_order = tree_b->root->largest_order;
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tree_b->root->largest_order = tree_a->root;
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free(tree_a);
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}
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new_tree->order++;
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return new_tree;
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}
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vieter_heap_tree *vieter_heap_tree_merge(vieter_heap_tree *tree_a,
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vieter_heap_tree *tree_b) {}
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vieter_heap_tree *tree_b) {
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vieter_heap_tree *tree, *target;
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if (tree_a->order <= tree_b->order) {
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target = tree_a;
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tree = tree_b;
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} else {
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target = tree_b;
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tree = tree_a;
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}
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vieter_heap_tree *next_tree, *next_target;
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vieter_heap_tree *previous_target = NULL;
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while (target != NULL && target != NULL) {
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if (target->order == tree->order) {
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next_tree = tree->next;
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next_target = target->next;
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target = vieter_heap_tree_merge_same_order(target, tree);
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target->next = next_target;
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if (previous_target != NULL) {
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previous_target->next = target;
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}
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tree = next_tree;
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// If this merge produces a binomial tree whose size is already in
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// target, it will be the next target. Therefore, we can target's
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// trees until we no longer have a duplicate depth.
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while (target->next != NULL && target->next->order == target->order) {
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next_target = target->next;
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target = vieter_heap_tree_merge_same_order(target, target->next);
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target->next = next_target;
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}
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} else if (target->order > tree->order) {
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if (previous_target == NULL) {
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previous_target = tree;
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} else {
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previous_target->next = tree;
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}
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tree->next = target;
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tree = tree->next;
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} else {
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previous_target = target;
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target = target->next;
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}
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}
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// Append final part of tree to target
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target->next = tree;
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return target;
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}
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@ -15,8 +15,6 @@ vieter_heap_node *vieter_heap_node_init();
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void vieter_heap_node_free(vieter_heap_node *node);
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vieter_heap_node *vieter_heap_tree_merge_same_order(vieter_heap_node *root_a, vieter_heap_node *root_b);
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typedef struct vieter_heap_tree {
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uint64_t order;
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vieter_heap_node *root;
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@ -27,4 +25,7 @@ vieter_heap_tree *vieter_heap_tree_init(vieter_heap_node *root, vieter_heap_tree
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vieter_heap_tree *vieter_heap_tree_merge(vieter_heap_tree *tree_a, vieter_heap_tree *tree_b);
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vieter_heap_tree *vieter_heap_tree_merge_same_order(vieter_heap_tree *tree_a,
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vieter_heap_tree *tree_b);
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#endif
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@ -13,7 +13,41 @@ void test_init() {
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vieter_heap_free(heap);
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}
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void test_merge_same_order() {
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vieter_heap_node *root_a = vieter_heap_node_init();
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root_a->key = 1;
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vieter_heap_tree *tree_a = vieter_heap_tree_init(root_a, NULL, 1);
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vieter_heap_node *root_b = vieter_heap_node_init();
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root_b->key = 2;
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vieter_heap_tree *tree_b = vieter_heap_tree_init(root_b, NULL, 1);
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vieter_heap_tree *merged = vieter_heap_tree_merge_same_order(tree_a, tree_b);
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TEST_CHECK(merged == tree_a);
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TEST_CHECK(merged->root->key == 1);
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TEST_CHECK(merged->root->largest_order == root_b);
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TEST_CHECK(merged->root->next_largest_order == NULL);
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}
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void test_insert() {
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vieter_heap *heap = vieter_heap_init();
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TEST_SIZE(heap, 0);
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void *data;
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for (uint64_t i = 50; i <= 0; i--) {
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vieter_heap_insert(heap, i, (void *)i);
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TEST_SIZE(heap, (uint64_t)51 - i);
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TEST_CHECK(vieter_heap_peek(&data, heap) == vieter_heap_ok);
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TEST_CHECK(data == (void*)i);
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}
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}
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TEST_LIST = {
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{"test_init", test_init},
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{"test_merge_same_order", test_merge_same_order},
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{"test_insert", test_insert},
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{NULL, NULL}
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};
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