Let's talk about the implementation principles and usage of map in golang-Golang-php.cn

Home

Backend Development

Golang

Let's talk about the implementation principles and usage of map in golang

PHPz

Apr 04, 2023 pm 04:13 PM

Golang is an efficient programming language, and its built-in map data structure is widely used in actual development. This article introduces the implementation principle and usage of map in golang to help developers better understand and utilize this data structure.

1. Implementation principle of golang map

In golang, map is implemented as a hash table (hash table), also known as hash table (hash map) or dictionary (dictionary) . A hash table is a data structure that stores data in the form of key-value pairs, where each key corresponds to a unique value. The reason why a hash table is efficient is that it can ensure that insertion, search, and deletion operations are completed in O(1) time.

The core idea of a hash table is to convert keys into array subscripts through a hash function, and then store the corresponding values in the array. When a key is looked up, the hash table uses the same hash function to calculate its corresponding array index and looks up the key's value in the array.

In golang, the implementation of map is based on hash table. Specifically, you can think of a map as an array of buckets, where each bucket stores a number of key-value pairs. During insertion, search, and deletion operations, golang will use the hash function to calculate the bucket corresponding to the key and perform related operations in the corresponding bucket.

It is worth noting that the hash function used by map in golang is pseudo-random. This hash function can alleviate the problem of hash collision, that is, when the array index obtained by hashing two keys is the same, the conflict needs to be resolved. There are many ways to resolve conflicts, such as chained hash and open addressing hash. In golang, chain hashing is used to resolve conflicts.

2. How to use golang map

The map in golang is very simple to use. You only need to initialize an empty map with the make function, and then access its value through the key. Here is an example:

m := make(map[string]int)
m["apple"] = 2
m["banana"] = 3
fmt.Println(m["apple"]) // 输出：2

In the above code, the string type key corresponds to the integer type value. As you can see, accessing map values by key is very similar to accessing arrays.

In addition to accessing values through keys, you can also use the range keyword to traverse all key-value pairs in the map. An example is as follows:

m := make(map[string]int)
m["apple"] = 2
m["banana"] = 3
for k, v := range m {
    fmt.Println(k, v)
}
// 输出：
// apple 2
// banana 3

In the above example, the for loop and range keyword are used to traverse all key-value pairs in the map. It should be noted that the order of traversal is not based on the order in which the keys are added, but is random.

In order to delete a key-value pair in the map, you can use the delete function. The example is as follows:

m := make(map[string]int)
m["apple"] = 2
m["banana"] = 3
delete(m, "apple")
fmt.Println(m) // 输出：map[banana:3]

In the above example, the "apple" key and its corresponding value in the map are deleted using the delete function. It should be noted that if the deleted key does not exist, the delete function will silently ignore it.

3. Performance of golang map

Since map in golang is implemented based on hash table, the average complexity of its insertion, search, deletion and other operations is O(1). However, under certain abnormal circumstances, the performance of the hash table may decrease, such as the hash function is not random enough, the number of buckets is not sufficient, etc. In addition, for large maps or high-concurrency environments, if there is no appropriate adjustment, the performance of the map may also decrease.

In order to avoid these problems, developers need to do a good job in map tuning. Specifically, the following methods can be used:

Estimate the size of the map and pass appropriate capacity parameters when using the make function to create the map to avoid performance losses caused by map expansion.
In a high-concurrency environment, lock and synchronize map access. You can use mechanisms such as mutex (mutex) or read-write lock (RWMutex) provided by the sync package in golang.
For large maps, consider sharding. Sharding can divide a large map into multiple small maps, and each small map is managed by an independent goroutine. This can improve concurrency and avoid the performance bottleneck of a single map.

4. Summary

The map in golang is an efficient data structure that can achieve fast access to key-value pairs. Its implementation based on a hash table makes its operation complexity O(1), but developers need to pay attention to problems that may cause performance degradation in special circumstances. Therefore, when using map, you need to pay attention to optimization measures such as estimated size, lock synchronization, and sharding to give full play to the efficiency of map.

The above is the detailed content of Let's talk about the implementation principles and usage of map in golang. For more information, please follow other related articles on the PHP Chinese website!

Statement

The content of this article is voluntarily contributed by netizens, and the copyright belongs to the original author. This site does not assume corresponding legal responsibility. If you find any content suspected of plagiarism or infringement, please contact admin@php.cn

Golang vs. Python: The Pros and ConsApr 21, 2025 am 12:17 AM

Golangisidealforbuildingscalablesystemsduetoitsefficiencyandconcurrency,whilePythonexcelsinquickscriptinganddataanalysisduetoitssimplicityandvastecosystem.Golang'sdesignencouragesclean,readablecodeanditsgoroutinesenableefficientconcurrentoperations,t

Golang and C : Concurrency vs. Raw SpeedApr 21, 2025 am 12:16 AM

Golang is better than C in concurrency, while C is better than Golang in raw speed. 1) Golang achieves efficient concurrency through goroutine and channel, which is suitable for handling a large number of concurrent tasks. 2)C Through compiler optimization and standard library, it provides high performance close to hardware, suitable for applications that require extreme optimization.

Why Use Golang? Benefits and Advantages ExplainedApr 21, 2025 am 12:15 AM

Reasons for choosing Golang include: 1) high concurrency performance, 2) static type system, 3) garbage collection mechanism, 4) rich standard libraries and ecosystems, which make it an ideal choice for developing efficient and reliable software.

Golang vs. C : Performance and Speed ComparisonApr 21, 2025 am 12:13 AM

Golang is suitable for rapid development and concurrent scenarios, and C is suitable for scenarios where extreme performance and low-level control are required. 1) Golang improves performance through garbage collection and concurrency mechanisms, and is suitable for high-concurrency Web service development. 2) C achieves the ultimate performance through manual memory management and compiler optimization, and is suitable for embedded system development.

Is Golang Faster Than C ? Exploring the LimitsApr 20, 2025 am 12:19 AM

Golang performs better in compilation time and concurrent processing, while C has more advantages in running speed and memory management. 1.Golang has fast compilation speed and is suitable for rapid development. 2.C runs fast and is suitable for performance-critical applications. 3. Golang is simple and efficient in concurrent processing, suitable for concurrent programming. 4.C Manual memory management provides higher performance, but increases development complexity.

Golang: From Web Services to System ProgrammingApr 20, 2025 am 12:18 AM

Golang's application in web services and system programming is mainly reflected in its simplicity, efficiency and concurrency. 1) In web services, Golang supports the creation of high-performance web applications and APIs through powerful HTTP libraries and concurrent processing capabilities. 2) In system programming, Golang uses features close to hardware and compatibility with C language to be suitable for operating system development and embedded systems.

Golang vs. C : Benchmarks and Real-World PerformanceApr 20, 2025 am 12:18 AM

Golang and C have their own advantages and disadvantages in performance comparison: 1. Golang is suitable for high concurrency and rapid development, but garbage collection may affect performance; 2.C provides higher performance and hardware control, but has high development complexity. When making a choice, you need to consider project requirements and team skills in a comprehensive way.

Golang vs. Python: A Comparative AnalysisApr 20, 2025 am 12:17 AM

Golang is suitable for high-performance and concurrent programming scenarios, while Python is suitable for rapid development and data processing. 1.Golang emphasizes simplicity and efficiency, and is suitable for back-end services and microservices. 2. Python is known for its concise syntax and rich libraries, suitable for data science and machine learning.

See all articles