Golang (also known as Go) is a modern, fast and concurrent programming language. Go provides many built-in types and data structures, the most commonly used of which is map. Map is one of the most commonly used data structures in Go programming. It provides a simple key-value storage solution and supports fast query and modification operations, so it is essential in Go programming.
When using map, we usually need to perform query operations to obtain the value corresponding to a specific key value. So, how to perform map query operations? This article will introduce the method of Golang map query.
map is a reference type. You can create an empty map using the make function. The syntax of the make function is as follows:
make(map[KeyType]ValueType, [cap])
where KeyType is the key Type, ValueType is the type of value, cap is the optional map capacity, indicating the initial capacity of the map.
The following is a sample program that creates a map, adds elements and queries:
package main import "fmt" func main() { // 创建一个空的 map scores := make(map[string]int) // 添加键值对 scores["Alice"] = 90 scores["Bob"] = 85 scores["Charlie"] = 80 // 查询键值对应的值 fmt.Println(scores["Bob"]) // 输出 85 }
In the above sample program, we first use the make function to create an empty map, and then pass the scores[key ] = value adds three sets of key-value pairs. Finally, we use scores["Bob"] to query Bob's scores and output the results.
It should be noted that when using map query, if the specified key does not exist, a zero value of the corresponding value type, such as nil, will be returned. In the above example, if we query for a key that does not exist, such as scores["David"], a zero value of type int 0 will be returned.
In actual programming, we often need to determine whether the specified key exists in the map. The method to determine whether the specified key exists in the map is very simple. Just use the comma operator directly:
value, ok := scores["Bob"] if ok == true { fmt.Println("Bob's score is", value) } else { fmt.Println("Bob's score does not exist") }
In the above code, we use the comma operator to receive the return value of scores["Bob"] and ok at the same time. Boolean value. If ok is true, it means that the key Bob exists in scores and its value can be obtained; otherwise, it means that this key does not exist in scores.
When using map, we often need to traverse all key-value pairs in the map. Go provides the range keyword for iterating over the elements in a map.
The following is a sample program for traversing the map:
package main import "fmt" func main() { // 创建一个 map scores := map[string]int{ "Alice": 90, "Bob": 85, "Charlie": 80, } // 遍历 map for key, value := range scores { fmt.Println(key, value) } }
In the above code, we use the range keyword to iterate through all key-value pairs in the scores map and output their key sums value.
In Golang, map is a very powerful data structure, which provides a simple key-value storage solution and supports fast query and modification operations. This article introduces the basic usage of map queries, methods of determining whether a specified key exists in the map, and traversing the map. Mastering this knowledge allows programmers to use the Golang programming language more efficiently.
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