Consider the following Go code and observe how modifying the slice will also changes the original array.
arr := [...]int{1, 2, 3, 4, 5}
fmt.Println(len(arr), arr) // 5 [1 2 3 4 5]
// slicing the above array
s1 := arr[2:5] // index 2 (inclusive) to index 5 (exclusive)
fmt.Println(len(s1), cap(s1), s1) // 3 3 [3 4 5]
s2 := arr[1:4]
fmt.Println(len(s2), cap(s2), s2) // 3 4 [2 3 4]
s1[0] = 99 // this will modify both the slices and array as well
fmt.Println("arr:", len(arr), arr) // arr: 5 [1 2 99 4 5] π€―
fmt.Println("s1:", len(s1), cap(s1), s1) // s1: 3 3 [99 4 5]
fmt.Println("s2:", len(s2), cap(s2), s2) // s2: 3 4 [2 99 4] π€―
The capacity of each slice is calculated from the specified starting point to the end of the underlying array
- s1 starts at index 2, so capacity is 3
- s2 starts at index 1, so capacity is 4
Modifying s1
s1[0] = 99
- Since both
s1
ands2
pointing to the same underlying array, modifying s1 affects arr and s2 slice as well. - Slice is a view of an underlying array. When we create a slice from an array, data will not be copied. It will just create a reference to array. So modifying the array via slice will be visible to all other slices that share the same underlying array.
Solution: Create independent slices using copy
func
arr := [...]int{1, 2, 3, 4, 5}
s1 := make([]int, 3)
copy(s1, arr[2:5]) // s1 is now a copy of arr[2:5]
s2 := make([]int, 3)
copy(s2, arr[1:4])
s1[0] = 99
fmt.Println("Original array:", arr) // [1 2 3 4 5] π array is safe now
fmt.Println("s1:", s1) // [99 4 5]
fmt.Println("s2:", s2) // [2 3 4]
- When slice is created using
make
with specified size, it will be initialized with zero values. -
copy
function will copy data from array into the slice. So new slice will have their own independent memory and not linked with the original array anymore.
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To learn more about such topics along with code examples, feel free to checkout my Github repo where I regularly commit about Go core-concepts & best practices.
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