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Detailed explanation of the garbage collection mechanism of Golang functions and custom scenario applications

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Release: 2023-05-16 08:05:08
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Golang, as a newly emerging programming language, has received more and more attention and love from developers in recent years. Among them, Golang's function garbage collection mechanism is also a highlight, because it can dynamically recycle unused memory at runtime, effectively avoiding problems such as memory leaks. This article will introduce in detail the garbage collection mechanism of Golang functions and how to customize applications in different scenarios.

1. Introduction to Golang’s garbage collection mechanism

The garbage collection mechanism is one of the essential mechanisms in modern programming languages. In traditional programming languages ​​such as C, we need to manually manage the allocation and release of memory, which often leads to some memory leaks and other problems. Golang uses an automatic garbage collection mechanism, which can automatically handle unused objects and memory at runtime, greatly reducing the burden on developers.

Golang’s garbage collection mechanism uses a combination of mark-sweep algorithm and three-color marking algorithm. The specific implementation principle is as follows:

  1. Marking phase: Starting from the root object, mark all available reach object.
  2. Termination phase: Clean up unmarked objects and reclaim corresponding memory.
  3. Mark-clear algorithm: Recycle unused memory by marking all reachable objects and then clearing unmarked objects.
  4. Three-color marking algorithm: Mark the reachability and activity of objects through three states of 'white', 'grey' and 'black', making the marking phase more efficient.

2. Application in custom scenarios

Although Golang’s default garbage collection mechanism can meet the needs of most situations, in some specific scenarios, we still need Manually define some parameters and rules. For example, in some situations that are sensitive to memory usage, we need to appropriately adjust the frequency of garbage collection to achieve better memory usage.

In view of the above situation, Golang also provides some custom parameters and functions for developers to define their own garbage collection behavior. These functions and parameters mainly include the following aspects:

  1. GOGC parameter: This parameter is used to control the trigger frequency of garbage collection, that is, when the object occupation in the heap is greater than the proportion at the end of the last GC When this parameter is set, the next garbage collection will be triggered. The default value is 100, which means that garbage collection is triggered when the occupancy ratio of each object in the heap reaches 100%.
  2. runtime.GC function: This function can manually trigger garbage collection. We can use it to actively clean up memory in some specific situations, or trigger garbage collection in advance to reduce memory usage in some situations with high memory usage. pressure.
  3. Finalizer function: This function is used to set the actions that need to be performed when the object is recycled, such as releasing file resources, etc. We can use this function to perform corresponding operations when specific objects that need to release resources are recycled to avoid problems such as resource waste and memory leaks.
  4. External memory objects: For some external memory objects, such as the memory allocated by malloc in C language, it also needs to be released manually in Golang. We can prevent objects from being accidentally released by the garbage collection mechanism by setting the GC mark of the target memory to "No Recycling".

The above is the detailed explanation and custom scenario application of Golang function garbage collection mechanism. By in-depth understanding and effective use of Golang's garbage collection mechanism, we can better control memory usage and recycling, improve program performance and stability, and bring better development and user experience to developers.

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