How to use greedy algorithm in C++
How to use the greedy algorithm in C
The greedy algorithm is an algorithm based on the principle of greedy selection. It makes the best decision at every step. selection, hoping to eventually obtain the global optimal solution. In C, we can use greedy algorithms to solve many practical problems. The following will introduce how to use the greedy algorithm in C and give specific code examples.
1. The basic principle of the greedy algorithm
The greedy algorithm is a heuristic algorithm. Its basic principle is to select the currently optimal solution each time and iterate successively until the global optimal is obtained. untie. The greedy algorithm has the following characteristics:
1. It is not guaranteed to obtain the optimal solution, but it can often obtain an approximately optimal solution;
2. It is usually more efficient than other algorithms such as dynamic programming;
3. It can solve some problems Special types of problems, such as activity selection problems, knapsack problems, etc.
2. Application of Greedy Algorithm
Greedy algorithm can be applied to many fields. Common problems are:
1. Activity selection problem: Assume there are n activities, each activity has an Start time and end time, how to arrange activities so that as many activities as possible can be carried out?
2. Backpack problem: Given the capacity of a backpack and a number of items, each item has its own weight and value. How to choose items to put into the backpack so that the total value of the items in the backpack is maximized?
3. Interval coverage problem: Given some closed intervals, select as few intervals as possible to cover the entire target interval.
3. Implementation of Greedy Algorithm
The following takes the activity selection problem as an example to explain in detail how to use the greedy algorithm in C.
Problem description:
Suppose there are n activities, each activity has a start time and end time. It is required to select as many activities as possible so that these activities do not conflict, that is, the time periods of any two activities cannot overlap.
Problem-solving ideas:
1. Sort the activities according to the end time, giving priority to activities with an early end time;
2. Select the first activity initially, and then select the next end time and Activities that do not conflict with the end time of the previous activity.
Code implementation:
#include<iostream>
#include<vector>
#include<algorithm>
using namespace std;
//定义活动结构体
struct activity{
int start;
int end;
};
//比较函数,按照结束时间从小到大排序
bool compare(activity a1, activity a2){
return a1.end < a2.end;
}
//贪心算法求解活动选择问题
int greedyActivitySelector(vector<activity>& activities){
//按照结束时间从小到大排序
sort(activities.begin(), activities.end(), compare);
int result = 1; //记录最终选择的活动数量
int preEnd = activities[0].end; //记录前一个活动的结束时间
for(int i = 1; i < activities.size(); i++){
if(activities[i].start >= preEnd){
result++;
preEnd = activities[i].end;
}
}
return result;
}
int main(){
vector<activity> activities;
int n;
cout << "请输入活动个数:" << endl;
cin >> n;
cout << "请输入每个活动的开始时间和结束时间:" << endl;
for(int i = 0; i < n; i++){
activity act;
cin >> act.start >> act.end;
activities.push_back(act);
}
int result = greedyActivitySelector(activities);
cout << "可以选择的活动数量为:" << result << endl;
return 0;
}The above code implements the greedy algorithm for the activity selection problem. The program first sorts the input activities from small to large by end time. Then starting from the first activity, select the next activity that does not conflict with the previous activity, and finally get the number of activities that can be selected.
4. Summary
The greedy algorithm is a simple and efficient algorithm that is often used to solve practical problems. We can easily use C's containers and algorithm libraries to implement greedy algorithms, such as vector containers, sorting algorithms, etc. However, it should be noted that the greedy algorithm is not suitable for all problems, and an appropriate algorithm needs to be selected according to the characteristics of the specific problem.
The above is the detailed content of How to use greedy algorithm in C++. For more information, please follow other related articles on the PHP Chinese website!
Hot AI Tools
Undresser.AI Undress
AI-powered app for creating realistic nude photos
AI Clothes Remover
Online AI tool for removing clothes from photos.
Undress AI Tool
Undress images for free
Clothoff.io
AI clothes remover
Video Face Swap
Swap faces in any video effortlessly with our completely free AI face swap tool!
Hot Article
Hot Tools
Notepad++7.3.1
Easy-to-use and free code editor
SublimeText3 Chinese version
Chinese version, very easy to use
Zend Studio 13.0.1
Powerful PHP integrated development environment
Dreamweaver CS6
Visual web development tools
SublimeText3 Mac version
God-level code editing software (SublimeText3)
Hot Topics
C language data structure: data representation and operation of trees and graphs
Apr 04, 2025 am 11:18 AM
C language data structure: The data representation of the tree and graph is a hierarchical data structure consisting of nodes. Each node contains a data element and a pointer to its child nodes. The binary tree is a special type of tree. Each node has at most two child nodes. The data represents structTreeNode{intdata;structTreeNode*left;structTreeNode*right;}; Operation creates a tree traversal tree (predecision, in-order, and later order) search tree insertion node deletes node graph is a collection of data structures, where elements are vertices, and they can be connected together through edges with right or unrighted data representing neighbors.
The truth behind the C language file operation problem
Apr 04, 2025 am 11:24 AM
The truth about file operation problems: file opening failed: insufficient permissions, wrong paths, and file occupied. Data writing failed: the buffer is full, the file is not writable, and the disk space is insufficient. Other FAQs: slow file traversal, incorrect text file encoding, and binary file reading errors.
How to calculate c-subscript 3 subscript 5 c-subscript 3 subscript 5 algorithm tutorial
Apr 03, 2025 pm 10:33 PM
The calculation of C35 is essentially combinatorial mathematics, representing the number of combinations selected from 3 of 5 elements. The calculation formula is C53 = 5! / (3! * 2!), which can be directly calculated by loops to improve efficiency and avoid overflow. In addition, understanding the nature of combinations and mastering efficient calculation methods is crucial to solving many problems in the fields of probability statistics, cryptography, algorithm design, etc.
What are the basic requirements for c language functions
Apr 03, 2025 pm 10:06 PM
C language functions are the basis for code modularization and program building. They consist of declarations (function headers) and definitions (function bodies). C language uses values to pass parameters by default, but external variables can also be modified using address pass. Functions can have or have no return value, and the return value type must be consistent with the declaration. Function naming should be clear and easy to understand, using camel or underscore nomenclature. Follow the single responsibility principle and keep the function simplicity to improve maintainability and readability.
Function name definition in c language
Apr 03, 2025 pm 10:03 PM
The C language function name definition includes: return value type, function name, parameter list and function body. Function names should be clear, concise and unified in style to avoid conflicts with keywords. Function names have scopes and can be used after declaration. Function pointers allow functions to be passed or assigned as arguments. Common errors include naming conflicts, mismatch of parameter types, and undeclared functions. Performance optimization focuses on function design and implementation, while clear and easy-to-read code is crucial.
C language multithreaded programming: a beginner's guide and troubleshooting
Apr 04, 2025 am 10:15 AM
C language multithreading programming guide: Creating threads: Use the pthread_create() function to specify thread ID, properties, and thread functions. Thread synchronization: Prevent data competition through mutexes, semaphores, and conditional variables. Practical case: Use multi-threading to calculate the Fibonacci number, assign tasks to multiple threads and synchronize the results. Troubleshooting: Solve problems such as program crashes, thread stop responses, and performance bottlenecks.
Concept of c language function
Apr 03, 2025 pm 10:09 PM
C language functions are reusable code blocks. They receive input, perform operations, and return results, which modularly improves reusability and reduces complexity. The internal mechanism of the function includes parameter passing, function execution, and return values. The entire process involves optimization such as function inline. A good function is written following the principle of single responsibility, small number of parameters, naming specifications, and error handling. Pointers combined with functions can achieve more powerful functions, such as modifying external variable values. Function pointers pass functions as parameters or store addresses, and are used to implement dynamic calls to functions. Understanding function features and techniques is the key to writing efficient, maintainable, and easy to understand C programs.
How to output a countdown in C language
Apr 04, 2025 am 08:54 AM
How to output a countdown in C? Answer: Use loop statements. Steps: 1. Define the variable n and store the countdown number to output; 2. Use the while loop to continuously print n until n is less than 1; 3. In the loop body, print out the value of n; 4. At the end of the loop, subtract n by 1 to output the next smaller reciprocal.
