/* * * Copyright 2015 gRPC authors. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * */ #include #include #include #include #include #include gpr_avl gpr_avl_create(const gpr_avl_vtable *vtable) { gpr_avl out; out.vtable = vtable; out.root = NULL; return out; } static gpr_avl_node *ref_node(gpr_avl_node *node) { if (node) { gpr_ref(&node->refs); } return node; } static void unref_node(const gpr_avl_vtable *vtable, gpr_avl_node *node) { if (node == NULL) { return; } if (gpr_unref(&node->refs)) { vtable->destroy_key(node->key); vtable->destroy_value(node->value); unref_node(vtable, node->left); unref_node(vtable, node->right); gpr_free(node); } } static long node_height(gpr_avl_node *node) { return node == NULL ? 0 : node->height; } #ifndef NDEBUG static long calculate_height(gpr_avl_node *node) { return node == NULL ? 0 : 1 + GPR_MAX(calculate_height(node->left), calculate_height(node->right)); } static gpr_avl_node *assert_invariants(gpr_avl_node *n) { if (n == NULL) return NULL; assert_invariants(n->left); assert_invariants(n->right); assert(calculate_height(n) == n->height); assert(labs(node_height(n->left) - node_height(n->right)) <= 1); return n; } #else static gpr_avl_node *assert_invariants(gpr_avl_node *n) { return n; } #endif gpr_avl_node *new_node(void *key, void *value, gpr_avl_node *left, gpr_avl_node *right) { gpr_avl_node *node = (gpr_avl_node *)gpr_malloc(sizeof(*node)); gpr_ref_init(&node->refs, 1); node->key = key; node->value = value; node->left = assert_invariants(left); node->right = assert_invariants(right); node->height = 1 + GPR_MAX(node_height(left), node_height(right)); return node; } static gpr_avl_node *get(const gpr_avl_vtable *vtable, gpr_avl_node *node, void *key) { long cmp; if (node == NULL) { return NULL; } cmp = vtable->compare_keys(node->key, key); if (cmp == 0) { return node; } else if (cmp > 0) { return get(vtable, node->left, key); } else { return get(vtable, node->right, key); } } void *gpr_avl_get(gpr_avl avl, void *key) { gpr_avl_node *node = get(avl.vtable, avl.root, key); return node ? node->value : NULL; } int gpr_avl_maybe_get(gpr_avl avl, void *key, void **value) { gpr_avl_node *node = get(avl.vtable, avl.root, key); if (node != NULL) { *value = node->value; return 1; } return 0; } static gpr_avl_node *rotate_left(const gpr_avl_vtable *vtable, void *key, void *value, gpr_avl_node *left, gpr_avl_node *right) { gpr_avl_node *n = new_node(vtable->copy_key(right->key), vtable->copy_value(right->value), new_node(key, value, left, ref_node(right->left)), ref_node(right->right)); unref_node(vtable, right); return n; } static gpr_avl_node *rotate_right(const gpr_avl_vtable *vtable, void *key, void *value, gpr_avl_node *left, gpr_avl_node *right) { gpr_avl_node *n = new_node( vtable->copy_key(left->key), vtable->copy_value(left->value), ref_node(left->left), new_node(key, value, ref_node(left->right), right)); unref_node(vtable, left); return n; } static gpr_avl_node *rotate_left_right(const gpr_avl_vtable *vtable, void *key, void *value, gpr_avl_node *left, gpr_avl_node *right) { /* rotate_right(..., rotate_left(left), right) */ gpr_avl_node *n = new_node( vtable->copy_key(left->right->key), vtable->copy_value(left->right->value), new_node(vtable->copy_key(left->key), vtable->copy_value(left->value), ref_node(left->left), ref_node(left->right->left)), new_node(key, value, ref_node(left->right->right), right)); unref_node(vtable, left); return n; } static gpr_avl_node *rotate_right_left(const gpr_avl_vtable *vtable, void *key, void *value, gpr_avl_node *left, gpr_avl_node *right) { /* rotate_left(..., left, rotate_right(right)) */ gpr_avl_node *n = new_node( vtable->copy_key(right->left->key), vtable->copy_value(right->left->value), new_node(key, value, left, ref_node(right->left->left)), new_node(vtable->copy_key(right->key), vtable->copy_value(right->value), ref_node(right->left->right), ref_node(right->right))); unref_node(vtable, right); return n; } static gpr_avl_node *rebalance(const gpr_avl_vtable *vtable, void *key, void *value, gpr_avl_node *left, gpr_avl_node *right) { switch (node_height(left) - node_height(right)) { case 2: if (node_height(left->left) - node_height(left->right) == -1) { return assert_invariants( rotate_left_right(vtable, key, value, left, right)); } else { return assert_invariants(rotate_right(vtable, key, value, left, right)); } case -2: if (node_height(right->left) - node_height(right->right) == 1) { return assert_invariants( rotate_right_left(vtable, key, value, left, right)); } else { return assert_invariants(rotate_left(vtable, key, value, left, right)); } default: return assert_invariants(new_node(key, value, left, right)); } } static gpr_avl_node *add_key(const gpr_avl_vtable *vtable, gpr_avl_node *node, void *key, void *value) { long cmp; if (node == NULL) { return new_node(key, value, NULL, NULL); } cmp = vtable->compare_keys(node->key, key); if (cmp == 0) { return new_node(key, value, ref_node(node->left), ref_node(node->right)); } else if (cmp > 0) { return rebalance( vtable, vtable->copy_key(node->key), vtable->copy_value(node->value), add_key(vtable, node->left, key, value), ref_node(node->right)); } else { return rebalance(vtable, vtable->copy_key(node->key), vtable->copy_value(node->value), ref_node(node->left), add_key(vtable, node->right, key, value)); } } gpr_avl gpr_avl_add(gpr_avl avl, void *key, void *value) { gpr_avl_node *old_root = avl.root; avl.root = add_key(avl.vtable, avl.root, key, value); assert_invariants(avl.root); unref_node(avl.vtable, old_root); return avl; } static gpr_avl_node *in_order_head(gpr_avl_node *node) { while (node->left != NULL) { node = node->left; } return node; } static gpr_avl_node *in_order_tail(gpr_avl_node *node) { while (node->right != NULL) { node = node->right; } return node; } static gpr_avl_node *remove_key(const gpr_avl_vtable *vtable, gpr_avl_node *node, void *key) { long cmp; if (node == NULL) { return NULL; } cmp = vtable->compare_keys(node->key, key); if (cmp == 0) { if (node->left == NULL) { return ref_node(node->right); } else if (node->right == NULL) { return ref_node(node->left); } else if (node->left->height < node->right->height) { gpr_avl_node *h = in_order_head(node->right); return rebalance(vtable, vtable->copy_key(h->key), vtable->copy_value(h->value), ref_node(node->left), remove_key(vtable, node->right, h->key)); } else { gpr_avl_node *h = in_order_tail(node->left); return rebalance( vtable, vtable->copy_key(h->key), vtable->copy_value(h->value), remove_key(vtable, node->left, h->key), ref_node(node->right)); } } else if (cmp > 0) { return rebalance( vtable, vtable->copy_key(node->key), vtable->copy_value(node->value), remove_key(vtable, node->left, key), ref_node(node->right)); } else { return rebalance(vtable, vtable->copy_key(node->key), vtable->copy_value(node->value), ref_node(node->left), remove_key(vtable, node->right, key)); } } gpr_avl gpr_avl_remove(gpr_avl avl, void *key) { gpr_avl_node *old_root = avl.root; avl.root = remove_key(avl.vtable, avl.root, key); assert_invariants(avl.root); unref_node(avl.vtable, old_root); return avl; } gpr_avl gpr_avl_ref(gpr_avl avl) { ref_node(avl.root); return avl; } void gpr_avl_unref(gpr_avl avl) { unref_node(avl.vtable, avl.root); } int gpr_avl_is_empty(gpr_avl avl) { return avl.root == NULL; }