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How to deal with resource management in C++ class design?

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Release: 2024-06-02 13:14:57
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Resource management strategy: RAII: Automatically obtain resources during object construction and release resources during destruction. Reference counting: Track the number of resource references and release the resource when the reference count reaches 0. Manual release: Manually release resources by calling specific functions.

How to deal with resource management in C++ class design?

How to handle resource management in C++ class design

In C++ class design, it is crucial to handle resource management correctly to avoid memory leaks, Unreleased resources and other runtime issues. Resource management strategies mainly include the following:

RAII (resource acquisition is initialization)

RAII is a resource management technology that obtains resources in the object constructor and executes them in the object destructor. Release resources to manage resources. For example:

class Resource {
public:
    Resource() {
        // 获取资源
    }

    ~Resource() {
        // 释放资源
    }
};

void function() {
    {
        Resource resource; // 在构造时获取资源
    } // 在析构时释放资源
}
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Reference counting

Reference counting is a technology that tracks the number of resource references and releases the resource when the reference count reaches 0. For example:

class Resource {
public:
    Resource() : count(0) {}

    void acquire() { count++; }

    void release() {
        if (--count == 0) {
            // 释放资源
        }
    }

private:
    int count;
};

void function() {
    Resource resource;
    resource.acquire(); // 引用计数 +1
    resource.release(); // 引用计数 -1
    // ...
    resource.release(); // 引用计数 -1,释放资源
}
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Manual release

Manual release is a method to explicitly release resources. You need to manually call release() or delete# at the appropriate time. ## Function. For example:

class Resource {
public:
    Resource() : ptr(nullptr) {}

    void acquire(void* ptr) { this->ptr = ptr; }

    void release() {
        if (ptr) {
            // 释放资源
        }
        ptr = nullptr;
    }

private:
    void* ptr;
};

void function() {
    Resource resource;
    resource.acquire(malloc(1024));
    resource.release(); // 手动释放资源
}
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Practical case

In the scenario of file reading, using RAII to manage file resources can ensure that the file handle is automatically released after the file reading and writing is completed:

#include <iostream>
#include <fstream>

class FileHandle {
public:
    FileHandle(const std::string& filename) {
        file.open(filename);
    }

    ~FileHandle() {
        file.close();
    }

    std::fstream& file;
};

int main() {
    {
        FileHandle file("myfile.txt"); // 构造时打开文件
        // 进行文件读写操作...
    } // 析构时关闭文件
}
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Notes

When designing a resource management strategy, you need to pay attention to the following points:

    Avoid resource leaks: Ensure that all resources are released after use.
  • Avoid deadlock: Ensure resources are released in the proper order.
  • Consider efficiency: Choose a strategy that fits your application's performance requirements.

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