PHP is a popular programming language. The latest version of PHP is PHP7.0. In new versions of PHP, memory management is an important topic worthy of attention. This article will explore memory management in PHP7.0 and how it is implemented.
Memory management refers to the management of various operations such as the allocation, use, and recycling of memory space when the computer system is running. In programming languages, memory management plays a vital role. For dynamic languages like PHP, memory allocation and release have a great impact on performance. Generally speaking, the implementation of memory management must take into account both performance and security to achieve optimal results.
In PHP7.0, memory management is divided into two parts. One part is Zend Memory Manager, which is responsible for managing PHP’s own Internal memory usage; the other part is allocated using the system's memory management mechanism. When performing memory management, PHP7.0 uses a variety of implementation methods.
(1) Reference counting
PHP7.0 uses reference counting to manage memory. This method uses a reference count for each variable to determine whether the variable can be recycled. When the reference count of a variable decreases to 0, it means that the variable is no longer referenced and the memory can be reclaimed. Although this method is simple, it may cause the risk of memory leaks due to the problem of circular references. In order to solve this problem, PHP7.0 also introduced GC.
(2) Garbage collection
In order to solve the problems in reference counting, PHP7.0 adds a new GC method, which is to find inaccessible objects by scanning reachability. variables and immediately reclaim their memory. This method effectively solves the memory leak problem in reference counting, but it will bring additional performance overhead.
(3) Memory pool
The memory pool is a common memory management method. In PHP7.0, PHP can better control memory usage by using memory pools. The memory pool can improve the efficiency and performance of the program because it eliminates the need for the program to frequently call system APIs when allocating and recycling memory, thereby reducing memory fragmentation and system burden.
(4) Memory allocator
In PHP7.0, the role of the memory allocator is very important. There are many ways to implement memory allocators, common ones include malloc/free, mmap/munmap and brk/sbrk, etc. Among them, malloc/free is the most commonly used memory allocation function. It allows the program to flexibly control the use of memory by dynamically allocating and releasing memory blocks. However, due to its frequent operations of applying for and releasing memory, it will generate a lot of memory fragments, so it needs to be optimized.
With the release of PHP7.0, memory management has become a very important topic. In order to better control memory usage, PHP7.0 uses a variety of implementation methods, including reference counting, garbage collection, memory pools, and memory allocators. Through the analysis of these implementation methods, we can find that memory management has a great impact on the performance and efficiency of the program, so programmers need to pay attention to and optimize it.
The above is the detailed content of What are the implementation methods of memory management in PHP7.0?. For more information, please follow other related articles on the PHP Chinese website!