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Examples of using C++ to solve data structure problems

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Release: 2023-08-22 08:29:04
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With the continuous development of computer science, data structure has become an important field. In computer programming, data structures are very important because they are how data is stored and managed. A perfect data structure can improve the efficiency and scalability of the program. In this article, we will explore how to use C to solve data structure problems.

1. Stack

The stack is a common data structure. In the stack, data can be added or removed, but they must follow the 'Last In First Out' (LIFO) principle. It is very convenient to use the LIFO feature of the stack to solve problems. In C, the stack can be implemented using the stack container in the STL library.

The following example can give you a better understanding of how to use the stack in C:

#include <iostream>
#include <stack>

using namespace std;

int main() {
    stack<int> myStack;

    myStack.push(1);
    myStack.push(2);
    myStack.push(3);

    while (!myStack.empty()) {
        cout << myStack.top() << " ";
        myStack.pop();
    }

    return 0;
}
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In the above example, we create an empty stack and use the push function to push the numbers 1, 2 and 3 are pushed onto the stack. Finally, we use a while loop to pop and output elements from the stack. The advantage of using the stack is that the code is simple, fast and easy to understand.

2. Queue

Queue is another common data structure. Queues can also add and remove elements, but they must use the 'First In First Out' (FIFO) principle. Queues are particularly suitable for tasks that require elements to be processed sequentially. Also in C, queues can be implemented using the queue container in the STL library.

The following example can give you a better understanding of how to use queues in C:

#include <iostream>
#include <queue>

using namespace std;

int main() {
    queue<int> myQueue;

    myQueue.push(1);
    myQueue.push(2);
    myQueue.push(3);

    while (!myQueue.empty()) {
        cout << myQueue.front() << " ";
        myQueue.pop();
    }

    return 0;
}
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In this example, we create an empty queue and use the push function to push the numbers 1, 2 and 3 pushed into the queue. Similarly, we use a while loop to remove and output the elements in the queue.

3. Linked list

A linked list is a data structure that consists of a series of nodes. Each node contains a data element and a pointer to the next node. Linked list is a common data structure that has the advantage of inserting and deleting elements efficiently. In C, linked lists can be implemented using custom linked lists.

The following example shows how to implement a linked list in C:

#include <iostream>

using namespace std;

struct Node {
    int data;
    Node* next;
};

class LinkedList {
    private:
        Node* head;

    public:
        LinkedList() {
            head = NULL;
        }

        void insert(int value) {
            Node* newNode = new Node;
            newNode->data = value;
            newNode->next = head;
            head = newNode;
        }

        void remove(int value) {
            if (head == NULL) {
                return;
            }

            Node* current = head;
            Node* previous = NULL;

            while (current->data != value && current != NULL) {
                previous = current;
                current = current->next;
            }

            if (current == NULL) {
                return;
            }

            if (previous == NULL) {
                head = current->next;
            } else {
                previous->next = current->next;
            }

            delete current;
        }

        void print() {
            Node* current = head;

            while (current != NULL) {
                cout << current->data << " ";
                current = current->next;
            }

            cout << endl;
        }
};

int main() {
    LinkedList myList;

    myList.insert(1);
    myList.insert(2);
    myList.insert(3);

    myList.print();

    myList.remove(2);

    myList.print();

    return 0;
}
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In this example, we first create a Node structure, which contains an int variable and a pointer to the next node . Then we use a class to implement LinkedList. In the LinkedList class, we define functions for inserting, deleting, and printing linked lists. In the main function, we create a LinkedList and insert the numbers 1, 2 and 3 into the linked list. Then we call the remove function to delete the number 2 from the linked list and print the final result.

4. Binary tree

Binary tree is a data structure. Each node has at most two subtrees, called left subtree and right subtree. Binary trees are widely used in searching and sorting. In C, binary trees can be implemented using custom binary tree structures.

The following example shows how to use a custom binary tree in C:

#include <iostream>

using namespace std;

struct TreeNode {
    int value;
    TreeNode* left;
    TreeNode* right;
};

class BinaryTree {
    private:
        TreeNode* root;

    public:
        BinaryTree() {
            root = NULL;
        }

        void insert(int value) {
            if (root == NULL) {
                root = new TreeNode;
                root->value = value;
                root->left = NULL;
                root->right = NULL;
                return;
            }

            TreeNode* current = root;

            while (true) {
                if (value < current->value) {
                    if (current->left == NULL) {
                        current->left = new TreeNode;
                        current->left->value = value;
                        current->left->left = NULL;
                        current->left->right = NULL;
                        break;
                    } else {
                        current = current->left;
                    }
                } else {
                    if (current->right == NULL) {
                        current->right = new TreeNode;
                        current->right->value = value;
                        current->right->left = NULL;
                        current->right->right = NULL;
                        break;
                    } else {
                        current = current->right;
                    }
                }
            }
        }

        void printInorder() {
            printInorder(root);
        }

        void printInorder(TreeNode* node) {
            if (node == NULL) {
                return;
            }

            printInorder(node->left);
            cout << node->value << " ";
            printInorder(node->right);
        }
};

int main() {
    BinaryTree myTree;

    myTree.insert(15);
    myTree.insert(10);
    myTree.insert(20);
    myTree.insert(8);
    myTree.insert(12);
    myTree.insert(17);
    myTree.insert(25);

    myTree.printInorder(); // 8 10 12 15 17 20 25

    return 0;
}
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In this example, we define a TreeNode structure, which contains an int variable and a pointer to the left and right subtrees pointer. Then, we implemented BinaryTree using class and defined the insert and print functions. In the main function, we create a BinaryTree and insert the numbers 15, 10, 20, 8, 12, 17 and 25 into the tree. Then we call the printInorder function to print the values ​​of all nodes in the binary tree.

Summary:

In this article, we explored how to use C to solve data structure problems. We introduced stacks, queues, linked lists, and binary trees and provided examples of how to implement them in C. These data structures can be used for both simple programming problems and more complex algorithmic and computer science tasks. Familiarity with these data structures is critical to becoming a successful computer scientist.

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