169

What is the appropriate way to clear a slice in Go?

Here's what I've found in the go forums:

// test.go
package main

import (
    "fmt"
)

func main() {
    letters := []string{"a", "b", "c", "d"}
    fmt.Println(cap(letters))
    fmt.Println(len(letters))
    // clear the slice
    letters = letters[:0]
    fmt.Println(cap(letters))
    fmt.Println(len(letters))
}

Is this correct?

To clarify, the buffer is cleared so it can be reused.

An example is Buffer.Truncate function in the bytes package.

Notice that Reset just calls Truncate(0). So it appears that in this case line 70 would evaluate: b.buf = b.buf[0 : 0]

http://golang.org/src/pkg/bytes/buffer.go

// Truncate discards all but the first n unread bytes from the buffer.
60  // It panics if n is negative or greater than the length of the buffer.
61  func (b *Buffer) Truncate(n int) {
62      b.lastRead = opInvalid
63      switch {
64      case n < 0 || n > b.Len():
65          panic("bytes.Buffer: truncation out of range")
66      case n == 0:
67          // Reuse buffer space.
68          b.off = 0
69      }
70      b.buf = b.buf[0 : b.off+n]
71  }
72  
73  // Reset resets the buffer so it has no content.
74  // b.Reset() is the same as b.Truncate(0).
75  func (b *Buffer) Reset() { b.Truncate(0) }
1

4 Answers 4

254

Setting the slice to nil is the best way to clear a slice. nil slices in go are perfectly well behaved and setting the slice to nil will release the underlying memory to the garbage collector.

See playground

package main

import (
    "fmt"
)

func dump(letters []string) {
    fmt.Println("letters = ", letters)
    fmt.Println(cap(letters))
    fmt.Println(len(letters))
    for i := range letters {
        fmt.Println(i, letters[i])
    }
}

func main() {
    letters := []string{"a", "b", "c", "d"}
    dump(letters)
    // clear the slice
    letters = nil
    dump(letters)
    // add stuff back to it
    letters = append(letters, "e")
    dump(letters)
}

Prints

letters =  [a b c d]
4
4
0 a
1 b
2 c
3 d
letters =  []
0
0
letters =  [e]
1
1
0 e

Note that slices can easily be aliased so that two slices point to the same underlying memory. The setting to nil will remove that aliasing.

This method changes the capacity to zero though.

8
  • Nick thanks of the response. Please see my update it you would. I'm clearing the slice for reuse. So I don't necessarily want that the underlying memory released to the GC as I'll just have to allocate it again. Jun 7, 2013 at 15:17
  • it is what I searched!) Dec 19, 2014 at 20:31
  • 6
    Based on the title "How do you clear a slice in Go?" this is by far and away the safer answer and should be the accepted one. A perfect answer would be the combination of the originally accepted answer and this one so people can decide for themselves, though.
    – Shadoninja
    Oct 13, 2015 at 20:35
  • 2
    appending to a nil slice has always worked in Go? Jan 10, 2016 at 16:12
  • @alediaferia ever since go 1.0 certainly. Jan 11, 2016 at 21:48
156

It all depends on what is your definition of 'clear'. One of the valid ones certainly is:

slice = slice[:0]

But there's a catch. If slice elements are of type T:

var slice []T

then enforcing len(slice) to be zero, by the above "trick", doesn't make any element of

slice[:cap(slice)]

eligible for garbage collection. This might be the optimal approach in some scenarios. But it might also be a cause of "memory leaks" - memory not used, but potentially reachable (after re-slicing of 'slice') and thus not garbage "collectable".

6
  • 2
    Interesting. Is there any other way to remove all elements from the underlying array of the slice while leaving the underlying capacity unchanged? Jun 6, 2013 at 21:07
  • 4
    @ChrisWeber: just iterate over the underlying array and set all the elements to a new value
    – newacct
    Jun 7, 2013 at 14:02
  • 3
    @jnml, I do want to reuse the slice (and the underlying array storage) so I'm not constantly allocating a new slice (with array). I've edited my question to clarify and to show some example code from the standard library. Jun 7, 2013 at 15:19
  • 1
    I'm new to Go. Could you please explain more on why this can be an optimal approach please? Thanks in advance.
    – satoru
    May 12, 2016 at 6:14
  • 1
    To clarify a few basic points here, 1. Unlike assigning to nil this does not require garbage collecting/reallocating the memory at all thus depends on the use case it can be faster; 2. It's not a real memory leak in the sense that you can still free it (by assigning it to nil), but if you don't use it properly the program will consume the memory while you don't really need it
    – user202729
    May 17, 2022 at 9:58
20

Go 1.21 introduces a new builtin keyword: clear()

issue 56351 includes the following documentation:

The built-in function clear takes an argument of map, slice or type parameter type, and deletes or zeroes out all elements.

Call Argument type Result >
clear(m) map[K]T deletes all entries, resulting in an empty map (len(m) == 0)
clear(s) []T sets all elements up to the length of s to the zero value of T
clear(t) type parameter see below >

If the argument type is a type parameter, all types in its type set must be maps or slices, and clear performs the operation corresponding to the actual type argument.

If the map or slice is nil, clear is a no-op.

6

I was looking into this issue a bit for my own purposes; I had a slice of structs (including some pointers) and I wanted to make sure I got it right; ended up on this thread, and wanted to share my results.

To practice, I did a little go playground: https://play.golang.org/p/9i4gPx3lnY

which evals to this:

package main

import "fmt"

type Blah struct {
    babyKitten int
    kittenSays *string
}

func main() {
    meow := "meow"
    Blahs := []Blah{}
    fmt.Printf("Blahs: %v\n", Blahs)
    Blahs = append(Blahs, Blah{1, &meow})
    fmt.Printf("Blahs: %v\n", Blahs)
    Blahs = append(Blahs, Blah{2, &meow})
    fmt.Printf("Blahs: %v\n", Blahs)
    //fmt.Printf("kittenSays: %v\n", *Blahs[0].kittenSays)
    Blahs = nil
    meow2 := "nyan"
    fmt.Printf("Blahs: %v\n", Blahs)
    Blahs = append(Blahs, Blah{1, &meow2})
    fmt.Printf("Blahs: %v\n", Blahs)
    fmt.Printf("kittenSays: %v\n", *Blahs[0].kittenSays)
}

Running that code as-is will show the same memory address for both "meow" and "meow2" variables as being the same:

Blahs: []
Blahs: [{1 0x1030e0c0}]
Blahs: [{1 0x1030e0c0} {2 0x1030e0c0}]
Blahs: []
Blahs: [{1 0x1030e0f0}]
kittenSays: nyan

which I think confirms that the struct is garbage collected. Oddly enough, uncommenting the commented print line, will yield different memory addresses for the meows:

Blahs: []
Blahs: [{1 0x1030e0c0}]
Blahs: [{1 0x1030e0c0} {2 0x1030e0c0}]
kittenSays: meow
Blahs: []
Blahs: [{1 0x1030e0f8}]
kittenSays: nyan

I think this may be due to the print being deferred in some way (?), but interesting illustration of some memory mgmt behavior, and one more vote for:

[]MyStruct = nil
3
  • Nice detailed examples. Thanks!
    – Dolanor
    Aug 7, 2017 at 1:40
  • 3
    This does not show the memory addresses of meo1 and meow2 being the same: 0x1030e0c0 is not equal to 0x1030e0f0 (the former ends in c0, the latter in f0). Sep 25, 2018 at 13:15
  • Got to agree with @carbocation here, those memory addresses are not the same. I don't claim to be able to better explain what's going on here, but this doesn't serve as evidence for me. I do see the same 8-byte discrepancy in the addresses of meow2 each run...
    – rbrtl
    Apr 1, 2019 at 13:02

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