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Performance comparison test of static proxy and dynamic proxy

Tina . 2024-03-22

In the software development process, the proxy pattern is a commonly used design pattern that is used to provide a proxy for other objects to control access to this object. Depending on the implementation method, the proxy mode can be divided into static proxy and dynamic proxy. This article will conduct an in-depth discussion of the performance differences between static proxys and dynamic proxys through a series of performance comparison tests, and provide suggestions for selection in practical applications.

1. Basic concepts of static proxy and dynamic proxy

1.1 Static proxy

Static proxy explicitly represents the proxy for the target object at the code level by creating a proxy class. Static proxies usually require the proxy class to implement the same interface as the target object and hold an instance of the target object in the proxy class. When a method of a proxy object is called, the proxy class calls the corresponding method of the target object and adds additional logic before and after the call.

1.2 Dynamic proxy

Dynamic proxy dynamically creates proxy objects at runtime through the reflection mechanism. In Java, dynamic proxy can be implemented through the dynamic proxy API that comes with the JDK or a third-party library (such as CGLIB). Dynamic proxy does not require manual writing of proxy classes, but dynamically generates proxy objects by configuring proxy targets, interfaces and call handlers.

2. Performance comparison test design

In order to comprehensively evaluate the performance of static proxies and dynamic proxies, we designed the following test plan:

2.1 Test environment

This test uses Java as the development language, the test environment is the IntelliJ IDEA integrated development environment, and the JDK version is 1.8. During the test, we will close other programs that may affect the test results to ensure the stability of the test environment.

2.2 Test cases

We designed the following test cases to compare the performance of static and dynamic proxies:

Proxy object creation performance test: Compare the time it takes for static and dynamic proxies to create proxy objects.

Method call performance test: Test the time-consuming difference between static proxy and dynamic proxy when calling the target method through the proxy object.

Memory usage test: Compare the performance of static proxys and dynamic proxys in terms of memory usage.

3. Analysis of test results

3.1 Proxy object creation performance test results

In our proxy object creation performance test, we found that dynamic proxies were created slightly slower than static proxies. This is because dynamic proxies need to dynamically generate proxy classes at runtime and instantiate proxy objects through the reflection mechanism, while static proxies can directly create proxy objects through the new keyword. Therefore, static proxies may have higher performance benefits in scenarios where proxy objects need to be created frequently.

3.2 Method calling performance test results

In the method calling performance test, the performance of static proxys and dynamic proxys is relatively close. This is because whether it is a static proxy or a dynamic proxy, the target method is called indirectly through the proxy object when the method is called. Although dynamic proxy involves a reflection mechanism during the calling process, under the optimization of modern JVM, the performance loss of reflection calling has been greatly reduced. Therefore, the difference between static and dynamic proxies is not significant in terms of method invocation performance.

3.3 Memory usage test results

In terms of memory usage testing, dynamic proxies have a certain increase in memory overhead compared to static proxies. This is because dynamic proxies need to dynamically generate proxy classes at runtime and load these classes in memory.

In addition, dynamic proxys also need to maintain additional metadata (such as interface mapping, method call handlers, etc.), which will occupy a certain amount of memory space. However, in real applications, these memory overheads are usually acceptable and do not have a significant impact on system performance.

4. Selection suggestions in practical applications

Based on the above performance comparison test results, we can draw the following selection suggestions:

Static proxies can be selected when the proxy relationship is fixed and does not need to change frequently. Static proxy has the advantages of clear code structure, easy to understand and maintain, and it also performs better in terms of proxy object creation performance.

When the agency relationship needs to change dynamically or the proxy has many interfaces, you can choose dynamic agency. Dynamic proxies have the advantages of high flexibility and easy expansion, and can easily implement dynamic proxies for interfaces. Although dynamic proxies are slightly inferior to static proxies in terms of creation speed and memory footprint, under the optimization of modern JVMs, these differences usually do not have a significant impact on system performance.

In practical applications, we can choose the appropriate proxy model according to specific needs and scenarios. At the same time, we can also further improve the performance of the proxy mode by optimizing code and adjusting JVM parameters.

5. Summary

This article uses performance comparison testing to deeply explore the performance differences between static proxys and dynamic proxys. Static proxies perform better in proxy object creation, while dynamic proxies have more advantages in flexibility. In practical applications, we should choose the appropriate proxy mode according to specific needs and scenarios, and improve performance through optimization methods.


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