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Thoughtstorm on C++ template programming

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Release: 2024-06-06 10:26:05
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Template programming is a C++ technique that allows writing general-purpose code that works across a variety of types. It shifts the mindset to use placeholders and specified type constraints to create reusable components. As shown in the example, you can write a templated vector class to store any data type. If necessary, you can also use type constraints to limit template parameters. Template programming increases code reusability and flexibility, saving time and writing more concise and efficient code.

Thoughtstorm on C++ template programming

C++ Template Programming Thoughtstorm

Template programming is a powerful C++ technique that allows you to write universal code, This code can be adapted to various types. By using templates, you can create reusable components such as data structures and algorithms without writing multiple versions of each data type.

Thinking Model

The key to understanding template programming is to change your thinking model:

  • Abstract from data types: Consider the behavior of the algorithm or data structure, rather than the specific data type.
  • Use placeholders: Declare the template using template<typename t></typename> as a template parameter. T Placeholders represent any data type to which the template will apply.
  • Specify type constraints: If you need to apply restrictions on template parameters, you can use conditional expressions or concept checks.

Practical case: Vector class

Let us write a templated vector class that can store any data type:

template <typename T>
class Vector {
private:
    T* data;
    int size;
public:
    Vector() : data(nullptr), size(0) {}
    // 添加更多方法...
};
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Usage Example

You can use the templated Vector class to store integers or floating point numbers:

Vector<int> intVector; // 声明一个整数向量
Vector<double> doubleVector; // 声明一个浮点数向量
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Type constraints

Sometimes, you need to specify type constraints for template parameters. For example, if you want a vector class to store only primitive types:

template <typename T>
class Vector where std::is_fundamental<T>::value {
    // ...
};
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Conclusion

Template programming is a powerful technique that can greatly improve C++ Code reusability and flexibility. By understanding this mindset, you can create common components that save time and write cleaner, more efficient code.

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