hello-algo/en/codes/cpp/chapter_heap/my_heap.cpp

/**
 * File: my_heap.cpp
 * Created Time: 2023-02-04
 * Author: LoneRanger (836253168@qq.com), what-is-me (whatisme@outlook.jp)
 */

#include "../utils/common.hpp"

/* Max-heap */
class MaxHeap {
  private:
    // Using a dynamic array to avoid the need for resizing
    vector<int> maxHeap;

    /* Get index of left child node */
    int left(int i) {
        return 2 * i + 1;
    }

    /* Get index of right child node */
    int right(int i) {
        return 2 * i + 2;
    }

    /* Get index of parent node */
    int parent(int i) {
        return (i - 1) / 2; // Integer division down
    }

    /* Start heapifying node i, from bottom to top */
    void siftUp(int i) {
        while (true) {
            // Get parent node of node i
            int p = parent(i);
            // When "crossing the root node" or "node does not need repair", end heapification
            if (p < 0 || maxHeap[i] <= maxHeap[p])
                break;
            // Swap two nodes
            swap(maxHeap[i], maxHeap[p]);
            // Loop upwards heapification
            i = p;
        }
    }

    /* Start heapifying node i, from top to bottom */
    void siftDown(int i) {
        while (true) {
            // Determine the largest node among i, l, r, noted as ma
            int l = left(i), r = right(i), ma = i;
            if (l < size() && maxHeap[l] > maxHeap[ma])
                ma = l;
            if (r < size() && maxHeap[r] > maxHeap[ma])
                ma = r;
            // If node i is the largest or indices l, r are out of bounds, no further heapification needed, break
            if (ma == i)
                break;
            swap(maxHeap[i], maxHeap[ma]);
            // Loop downwards heapification
            i = ma;
        }
    }

  public:
    /* Constructor, build heap based on input list */
    MaxHeap(vector<int> nums) {
        // Add all list elements into the heap
        maxHeap = nums;
        // Heapify all nodes except leaves
        for (int i = parent(size() - 1); i >= 0; i--) {
            siftDown(i);
        }
    }

    /* Get heap size */
    int size() {
        return maxHeap.size();
    }

    /* Determine if heap is empty */
    bool isEmpty() {
        return size() == 0;
    }

    /* Access heap top element */
    int peek() {
        return maxHeap[0];
    }

    /* Push the element into heap */
    void push(int val) {
        // Add node
        maxHeap.push_back(val);
        // Heapify from bottom to top
        siftUp(size() - 1);
    }

    /* Element exits heap */
    void pop() {
        // Empty handling
        if (isEmpty()) {
            throw out_of_range("Heap is empty");
        }
        // Swap the root node with the rightmost leaf node (swap the first element with the last element)
        swap(maxHeap[0], maxHeap[size() - 1]);
        // Remove node
        maxHeap.pop_back();
        // Heapify from top to bottom
        siftDown(0);
    }

    /* Print heap (binary tree)*/
    void print() {
        cout << "Array representation of the heap:";
        printVector(maxHeap);
        cout << "Tree representation of the heap:" << endl;
        TreeNode *root = vectorToTree(maxHeap);
        printTree(root);
        freeMemoryTree(root);
    }
};

/* Driver Code */
int main() {
    /* Initialize max-heap */
    vector<int> vec{9, 8, 6, 6, 7, 5, 2, 1, 4, 3, 6, 2};
    MaxHeap maxHeap(vec);
    cout << "\nEnter list and build heap" << endl;
    maxHeap.print();

    /* Access heap top element */
    int peek = maxHeap.peek();
    cout << "\nTop element of the heap is " << peek << endl;

    /* Push the element into heap */
    int val = 7;
    maxHeap.push(val);
    cout << "\nAfter element " << val << " is added to the heap" << endl;
    maxHeap.print();

    /* Pop the element at the heap top */
    peek = maxHeap.peek();
    maxHeap.pop();
    cout << "\nAfter the top element " << peek << " is removed from the heap" << endl;
    maxHeap.print();

    /* Get heap size */
    int size = maxHeap.size();
    cout << "\nNumber of elements in the heap is " << size << endl;

    /* Determine if heap is empty */
    bool isEmpty = maxHeap.isEmpty();
    cout << "\nIs the heap empty " << isEmpty << endl;

    return 0;
}
Add the initial EN translation for C++ code (#1346) 6 months ago			`/**`
			`* File: my_heap.cpp`
			`* Created Time: 2023-02-04`
			`* Author: LoneRanger (836253168@qq.com), what-is-me (whatisme@outlook.jp)`
			`*/`

			`#include "../utils/common.hpp"`

			`/* Max-heap */`
			`class MaxHeap {`
			`private:`
			`// Using a dynamic array to avoid the need for resizing`
			`vector<int> maxHeap;`

			`/* Get index of left child node */`
			`int left(int i) {`
			`return 2 * i + 1;`
			`}`

			`/* Get index of right child node */`
			`int right(int i) {`
			`return 2 * i + 2;`
			`}`

			`/* Get index of parent node */`
			`int parent(int i) {`
			`return (i - 1) / 2; // Integer division down`
			`}`

			`/* Start heapifying node i, from bottom to top */`
			`void siftUp(int i) {`
			`while (true) {`
			`// Get parent node of node i`
			`int p = parent(i);`
			`// When "crossing the root node" or "node does not need repair", end heapification`
			`if (p < 0 \|\| maxHeap[i] <= maxHeap[p])`
			`break;`
			`// Swap two nodes`
			`swap(maxHeap[i], maxHeap[p]);`
			`// Loop upwards heapification`
			`i = p;`
			`}`
			`}`

			`/* Start heapifying node i, from top to bottom */`
			`void siftDown(int i) {`
			`while (true) {`
			`// Determine the largest node among i, l, r, noted as ma`
			`int l = left(i), r = right(i), ma = i;`
			`if (l < size() && maxHeap[l] > maxHeap[ma])`
			`ma = l;`
			`if (r < size() && maxHeap[r] > maxHeap[ma])`
			`ma = r;`
			`// If node i is the largest or indices l, r are out of bounds, no further heapification needed, break`
			`if (ma == i)`
			`break;`
			`swap(maxHeap[i], maxHeap[ma]);`
			`// Loop downwards heapification`
			`i = ma;`
			`}`
			`}`

			`public:`
			`/* Constructor, build heap based on input list */`
			`MaxHeap(vector<int> nums) {`
			`// Add all list elements into the heap`
			`maxHeap = nums;`
			`// Heapify all nodes except leaves`
			`for (int i = parent(size() - 1); i >= 0; i--) {`
			`siftDown(i);`
			`}`
			`}`

			`/* Get heap size */`
			`int size() {`
			`return maxHeap.size();`
			`}`

			`/* Determine if heap is empty */`
			`bool isEmpty() {`
			`return size() == 0;`
			`}`

			`/* Access heap top element */`
			`int peek() {`
			`return maxHeap[0];`
			`}`

			`/* Push the element into heap */`
			`void push(int val) {`
			`// Add node`
			`maxHeap.push_back(val);`
			`// Heapify from bottom to top`
			`siftUp(size() - 1);`
			`}`

			`/* Element exits heap */`
			`void pop() {`
			`// Empty handling`
			`if (isEmpty()) {`
			`throw out_of_range("Heap is empty");`
			`}`
			`// Swap the root node with the rightmost leaf node (swap the first element with the last element)`
			`swap(maxHeap[0], maxHeap[size() - 1]);`
			`// Remove node`
			`maxHeap.pop_back();`
			`// Heapify from top to bottom`
			`siftDown(0);`
			`}`

			`/* Print heap (binary tree)*/`
			`void print() {`
			`cout << "Array representation of the heap:";`
			`printVector(maxHeap);`
			`cout << "Tree representation of the heap:" << endl;`
			`TreeNode *root = vectorToTree(maxHeap);`
			`printTree(root);`
			`freeMemoryTree(root);`
			`}`
			`};`

			`/* Driver Code */`
			`int main() {`
			`/* Initialize max-heap */`
			`vector<int> vec{9, 8, 6, 6, 7, 5, 2, 1, 4, 3, 6, 2};`
			`MaxHeap maxHeap(vec);`
			`cout << "\nEnter list and build heap" << endl;`
			`maxHeap.print();`

			`/* Access heap top element */`
			`int peek = maxHeap.peek();`
			`cout << "\nTop element of the heap is " << peek << endl;`

			`/* Push the element into heap */`
			`int val = 7;`
			`maxHeap.push(val);`
			`cout << "\nAfter element " << val << " is added to the heap" << endl;`
			`maxHeap.print();`

			`/* Pop the element at the heap top */`
			`peek = maxHeap.peek();`
			`maxHeap.pop();`
			`cout << "\nAfter the top element " << peek << " is removed from the heap" << endl;`
			`maxHeap.print();`

			`/* Get heap size */`
			`int size = maxHeap.size();`
			`cout << "\nNumber of elements in the heap is " << size << endl;`

			`/* Determine if heap is empty */`
			`bool isEmpty = maxHeap.isEmpty();`
			`cout << "\nIs the heap empty " << isEmpty << endl;`

			`return 0;`
			`}`