Go Slice是Go Array的抽象. Go Array允许您定义可以包含多个相同类型数据项的变量,但它不提供任何内置方法来动态增加其大小或获取自己的子数组.切片克服了这个限制.它提供了Array所需的许多实用函数,并广泛用于Go编程.
定义切片
要定义切片,可以声明它作为数组而不指定其大小.或者,您可以使用 make 函数创建切片.
var numbers []int /* a slice of unspecified size *//* numbers == []int{0,0,0,0,0}*/numbers = make([]int,5,5) /* a slice of length 5 and capacity 5*/len()和cap()函数
切片是抽象的阵列.它实际上使用数组作为底层结构. len()函数返回切片中显示的元素,其中 cap()函数返回切片的容量(即,它可以容纳多少元素).以下示例解释了slice的用法;
package mainimport "fmt"func main() { var numbers = make([]int,3,5) printSlice(numbers)}func printSlice(x []int){ fmt.Printf("len=%d cap=%d slice=%v\n",len(x),cap(x),x)}编译并执行上述代码时,会产生以下结果 :
len = 3 cap = 5 slice = [0 0 0]
Nil slice
如果声明切片没有输入,则默认情况下,它被初始化为nil.它的长度和容量为零.例如 :
package mainimport "fmt"func main() { var numbers []int printSlice(numbers) if(numbers == nil){ fmt.Printf("slice is nil") }}func printSlice(x []int){ fmt.Printf("len = %d cap = %d slice = %v\n", len(x), cap(x),x)}编译执行上述代码时,它产生以下结果 :
len = 0 cap = 0 slice = []slice is nil
子分类
切片允许指定下限和上限以使用 [更低 - 获得它的子切片约束:上限] 的.例如 :
package mainimport "fmt"func main() { /* create a slice */ numbers := []int{0,1,2,3,4,5,6,7,8} printSlice(numbers) /* print the original slice */ fmt.Println("numbers ==", numbers) /* print the sub slice starting from index 1(included) to index 4(excluded)*/ fmt.Println("numbers[1:4] ==", numbers[1:4]) /* missing lower bound implies 0*/ fmt.Println("numbers[:3] ==", numbers[:3]) /* missing upper bound implies len(s)*/ fmt.Println("numbers[4:] ==", numbers[4:]) numbers1 := make([]int,0,5) printSlice(numbers1) /* print the sub slice starting from index 0(included) to index 2(excluded) */ number2 := numbers[:2] printSlice(number2) /* print the sub slice starting from index 2(included) to index 5(excluded) */ number3 := numbers[2:5] printSlice(number3) }func printSlice(x []int){ fmt.Printf("len = %d cap = %d slice = %v\n", len(x), cap(x),x)}当编译并执行上述代码时,它会产生以下结果 :
len = 9 cap = 9 slice = [0 1 2 3 4 5 6 7 8]numbers == [0 1 2 3 4 5 6 7 8]numbers[1:4] == [1 2 3]numbers[:3] == [0 1 2]numbers[4:] == [4 5 6 7 8]len = 0 cap = 5 slice = []len = 2 cap = 9 slice = [0 1]len = 3 cap = 7 slice = [2 3 4]
append()和copy()函数
可以使用 append()函数增加切片的容量.使用 copy()功能,将源切片的内容复制到目标切片.例如 :
package mainimport "fmt"func main() { var numbers []int printSlice(numbers) /* append allows nil slice */ numbers = append(numbers, 0) printSlice(numbers) /* add one element to slice*/ numbers = append(numbers, 1) printSlice(numbers) /* add more than one element at a time*/ numbers = append(numbers, 2,3,4) printSlice(numbers) /* create a slice numbers1 with double the capacity of earlier slice*/ numbers1 := make([]int, len(numbers), (cap(numbers))*2) /* copy content of numbers to numbers1 */ copy(numbers1,numbers) printSlice(numbers1) }func printSlice(x []int){ fmt.Printf("len=%d cap=%d slice=%v\n",len(x),cap(x),x)}当编译并执行上面的代码时,它产生以下结果 :
len = 0 cap = 0 slice = []len = 1 cap = 2 slice = [0]len = 2 cap = 2 slice = [0 1]len = 5 cap = 8 slice = [0 1 2 3 4]len = 5 cap = 16 slice = [0 1 2 3 4]