132

I have tried:

const ascii = "abcdefghijklmnopqrstuvwxyz"
const letter_goodness []float32  = { .0817,.0149,.0278,.0425,.1270,.0223,.0202, .0609,.0697,.0015,.0077,.0402,.0241,.0675, .0751,.0193,.0009,.0599,.0633,.0906,.0276, .0098,.0236,.0015,.0197,.0007 }
const letter_goodness  = { .0817,.0149,.0278,.0425,.1270,.0223,.0202, .0609,.0697,.0015,.0077,.0402,.0241,.0675, .0751,.0193,.0009,.0599,.0633,.0906,.0276, .0098,.0236,.0015,.0197,.0007 }
const letter_goodness = []float32 { .0817,.0149,.0278,.0425,.1270,.0223,.0202, .0609,.0697,.0015,.0077,.0402,.0241,.0675, .0751,.0193,.0009,.0599,.0633,.0906,.0276, .0098,.0236,.0015,.0197,.0007 }

First, declaration and initialization works fine, but the second, third and fourth don't work. How can I declare and initialize const array of floats?

196

An array isn't immutable by nature; you can't make it constant.

The nearest you can get is:

var letter_goodness = [...]float32 {.0817, .0149, .0278, .0425, .1270, .0223, .0202, .0609, .0697, .0015, .0077, .0402, .0241, .0675, .0751, .0193, .0009, .0599, .0633, .0906, .0276, .0098, .0236, .0015, .0197, .0007 }

Note the [...] instead of []: it ensures you get a (fixed size) array instead of a slice. So the values aren't fixed but the size is.

  • 111
    Just for clarification: the [...]T syntax is sugar for [123]T. It creates a fixed size array, but lets the compiler figure out how many elements are in it. – jimt Oct 30 '12 at 11:21
  • 4
    I guess allowing constant arrays would require updates to the type system. Otherwise if you defined a function f(xs [5]int) you wouldn't know if the array passed was constant or mutable. – Thomas Ahle Jul 6 '14 at 16:13
  • tks, I have problems when I try to strings.Join cannot use constants.FilesRequired (type [4]string) as type []string in argument to strings.Join – Eddy Hernandez Apr 26 '17 at 19:45
  • Thanks for the slice solution. Doubt: an array itself is immutable, right? One can't add or remove elements once an array is created, no? I can, however, edit the array elements. – legends2k Oct 6 '17 at 23:02
  • @legends2k You can't change the size of the array, yes, but you can put other values in its slots. – Denys Séguret Oct 7 '17 at 8:41
53

From Effective Go:

Constants in Go are just that—constant. They are created at compile time, even when defined as locals in functions, and can only be numbers, strings or booleans. Because of the compile-time restriction, the expressions that define them must be constant expressions, evaluatable by the compiler. For instance, 1<<3 is a constant expression, while math.Sin(math.Pi/4) is not because the function call to math.Sin needs to happen at run time.

Slices and arrays are always evaluated during runtime:

var TestSlice = []float32 {.03, .02}
var TestArray = [2]float32 {.03, .02}
var TestArray2 = [...]float32 {.03, .02}

[...] tells the compiler to figure out the length of the array itself. Slices wrap arrays and are easier to work with in most cases. Instead of using constants just make the variables unaccessible to other packages by using a lower case first letter:

var ThisIsPublic = [2]float32 {.03, .02}
var thisIsPrivate = [2]float32 {.03, .02}

thisIsPrivate is available only in the package it is defined. If you need read access from outside you can then write a simple getter function (see Getters in golang).

  • The "use" example code is not valid Go: play.golang.org/p/JUsLIsIwkW – zzzz Oct 30 '12 at 18:44
  • I'm sorry, you're right. My first answer was completely wrong. This edited answer should now provide more help. – fasmat Oct 31 '12 at 11:42
9

There is no such thing as array constant in Go.

Quoting from the Go Language Specification: Constants:

There are boolean constants, rune constants, integer constants, floating-point constants, complex constants, and string constants. Rune, integer, floating-point, and complex constants are collectively called numeric constants.

A Constant expression (which is used to initialize a constant) may contain only constant operands and are evaluated at compile time.

The specification lists the different types of constants. Note that you can create and initialize constants with constant expressions of types having one of the allowed types as the underlying type. For example this is valid:

func main() {
    type Myint int
    const i1 Myint = 1
    const i2 = Myint(2)
    fmt.Printf("%T %v\n", i1, i1)
    fmt.Printf("%T %v\n", i2, i2)
}

Output (try it on the Go Playground):

main.Myint 1
main.Myint 2

If you need an array, it can only be a variable, but not a constant.

I recommend this great blog article about constants: Constants

  • then what do if need an container with constant size? – user4651282 Mar 31 '15 at 10:16
  • @Atomic_alarm Can you elaborate please? – icza Mar 31 '15 at 10:17
  • Exists whether in the golang analogue C-array? – user4651282 Mar 31 '15 at 10:42
  • @Atomic_alarm Yes, arrays do exist in Go too, they are just not constant expressions, they are evaluated at runtime. So a constant cannot be of an array type, but a variable can. For example: var arr = [2]int{2, 3} – icza Mar 31 '15 at 10:45
2

As others have mentioned, there is no official Go construct for this. The closest I can imagine would be a function that returns a slice. In this way, you can guarantee that no one will manipulate the elements of the original slice (as it is "hard-coded" into the array).

I have shortened your slice to make it...shorter...:

func GetLetterGoodness() []float32 {
    return [...]float32 { .0817,.0149,.0278,.0425,.1270,.0223 }
}
  • 2
    this sounds like the best way to go, however the func return type does not match. cannot use [6]string literal (type [6]string) as type []string in return argument so return []float32 { ... } – theRemix Jun 6 '17 at 21:50
  • @theRemix Three possible fixes: (1) remove ... so as to declare a slice literal instead of an array literal. (2) change the return type to [6]float32. (3) assign the expression to an array variable, a := [...]float32 { (etc.) } and return the slice of all elements: return a[:]. (Array literals are not addressable, I'm not clear why.) – David Moles Jan 3 at 17:46
  • I'm not sure what guarantees you mean. It sounds like you try to solve something in your code that is probably solved better with (unit-)tests. – Dynom Apr 9 at 8:49

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