/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * 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. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #define _DEFAULT_SOURCE #include "theap.h" size_t heapSize(Heap* heap) { return heap->nelts; } Heap* heapCreate(HeapCompareFn fn) { Heap* heap = calloc(1, sizeof(Heap)); if (heap == NULL) { return NULL; } heap->min = NULL; heap->nelts = 0; heap->compFn = fn; return heap; } void heapDestroy(Heap* heap) { free(heap); } HeapNode* heapMin(const Heap* heap) { return heap->min; } /* Swap parent with child. Child moves closer to the root, parent moves away. */ static void heapNodeSwap(Heap* heap, HeapNode* parent, HeapNode* child) { HeapNode* sibling; HeapNode t; t = *parent; *parent = *child; *child = t; parent->parent = child; if (child->left == child) { child->left = parent; sibling = child->right; } else { child->right = parent; sibling = child->left; } if (sibling != NULL) sibling->parent = child; if (parent->left != NULL) parent->left->parent = parent; if (parent->right != NULL) parent->right->parent = parent; if (child->parent == NULL) heap->min = child; else if (child->parent->left == parent) child->parent->left = child; else child->parent->right = child; } void heapInsert(Heap* heap, HeapNode* newnode) { HeapNode** parent; HeapNode** child; uint32_t path; uint32_t n; uint32_t k; newnode->left = NULL; newnode->right = NULL; newnode->parent = NULL; /* Calculate the path from the root to the insertion point. This is a min * heap so we always insert at the left-most free node of the bottom row. */ path = 0; for (k = 0, n = 1 + heap->nelts; n >= 2; k += 1, n /= 2) path = (path << 1) | (n & 1); /* Now traverse the heap using the path we calculated in the previous step. */ parent = child = &heap->min; while (k > 0) { parent = child; if (path & 1) child = &(*child)->right; else child = &(*child)->left; path >>= 1; k -= 1; } /* Insert the new node. */ newnode->parent = *parent; *child = newnode; heap->nelts += 1; /* Walk up the tree and check at each node if the heap property holds. * It's a min heap so parent < child must be true. */ while (newnode->parent != NULL && (heap->compFn)(newnode, newnode->parent)) heapNodeSwap(heap, newnode->parent, newnode); } void heapRemove(Heap* heap, HeapNode* node) { HeapNode* smallest; HeapNode** max; HeapNode* child; uint32_t path; uint32_t k; uint32_t n; if (heap->nelts == 0) return; /* Calculate the path from the min (the root) to the max, the left-most node * of the bottom row. */ path = 0; for (k = 0, n = heap->nelts; n >= 2; k += 1, n /= 2) path = (path << 1) | (n & 1); /* Now traverse the heap using the path we calculated in the previous step. */ max = &heap->min; while (k > 0) { if (path & 1) max = &(*max)->right; else max = &(*max)->left; path >>= 1; k -= 1; } heap->nelts -= 1; /* Unlink the max node. */ child = *max; *max = NULL; if (child == node) { /* We're removing either the max or the last node in the tree. */ if (child == heap->min) { heap->min = NULL; } return; } /* Replace the to be deleted node with the max node. */ child->left = node->left; child->right = node->right; child->parent = node->parent; if (child->left != NULL) { child->left->parent = child; } if (child->right != NULL) { child->right->parent = child; } if (node->parent == NULL) { heap->min = child; } else if (node->parent->left == node) { node->parent->left = child; } else { node->parent->right = child; } /* Walk down the subtree and check at each node if the heap property holds. * It's a min heap so parent < child must be true. If the parent is bigger, * swap it with the smallest child. */ for (;;) { smallest = child; if (child->left != NULL && (heap->compFn)(child->left, smallest)) smallest = child->left; if (child->right != NULL && (heap->compFn)(child->right, smallest)) smallest = child->right; if (smallest == child) break; heapNodeSwap(heap, child, smallest); } /* Walk up the subtree and check that each parent is less than the node * this is required, because `max` node is not guaranteed to be the * actual maximum in tree */ while (child->parent != NULL && (heap->compFn)(child, child->parent)) heapNodeSwap(heap, child->parent, child); } void heapDequeue(Heap* heap) { heapRemove(heap, heap->min); }