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To declare a constant and give it a name, the const keyword is used. Constants cannot be declared using the := syntax.
If you're looking for a quick answer: Go doesn't support const arrays. It also doesn't support constant maps, slices, or other complex types. From the official specification: There are boolean constants, rune constants, integer constants, floating-point constants, complex constants, and string constants.
Golang Create Set Fundamentally, sets are a collection of unique values. We can use a map with an empty struct to represent them. Since an empty struct takes 0 bytes, the set is a very efficient method of implementing a set. The following example creates a simple set using the previous syntax.
The type interface{} applies to any value. A variable declared as interface{} can hold a string value, an integer, any kind of struct, a pointer to an os. File , or indeed anything you can think of.
Your syntax is incorrect. To make a literal map (as a pseudo-constant), you can do:
var romanNumeralDict = map[int]string{
1000: "M",
900 : "CM",
500 : "D",
400 : "CD",
100 : "C",
90 : "XC",
50 : "L",
40 : "XL",
10 : "X",
9 : "IX",
5 : "V",
4 : "IV",
1 : "I",
}
Inside a func you can declare it like:
romanNumeralDict := map[int]string{
...
And in Go there is no such thing as a constant map. More information can be found here.
Try it out on the Go playground.
You can create constants in many different ways:
const myString = "hello"
const pi = 3.14 // untyped constant
const life int = 42 // typed constant (can use only with ints)
You can also create a enum constant:
const (
First = 1
Second = 2
Third = 4
)
You can not create constants of maps, arrays and it is written in 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, characters (runes), 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.
You may emulate a map with a closure:
package main
import (
"fmt"
)
// http://stackoverflow.com/a/27457144/10278
func romanNumeralDict() func(int) string {
// innerMap is captured in the closure returned below
innerMap := map[int]string{
1000: "M",
900: "CM",
500: "D",
400: "CD",
100: "C",
90: "XC",
50: "L",
40: "XL",
10: "X",
9: "IX",
5: "V",
4: "IV",
1: "I",
}
return func(key int) string {
return innerMap[key]
}
}
func main() {
fmt.Println(romanNumeralDict()(10))
fmt.Println(romanNumeralDict()(100))
dict := romanNumeralDict()
fmt.Println(dict(400))
}
Try it on the Go playground
And as suggested above by Siu Ching Pong -Asuka Kenji with the function which in my opinion makes more sense and leaves you with the convenience of the map type without the function wrapper around:
// romanNumeralDict returns map[int]string dictionary, since the return
// value is always the same it gives the pseudo-constant output, which
// can be referred to in the same map-alike fashion.
var romanNumeralDict = func() map[int]string { return map[int]string {
1000: "M",
900: "CM",
500: "D",
400: "CD",
100: "C",
90: "XC",
50: "L",
40: "XL",
10: "X",
9: "IX",
5: "V",
4: "IV",
1: "I",
}
}
func printRoman(key int) {
fmt.Println(romanNumeralDict()[key])
}
func printKeyN(key, n int) {
fmt.Println(strings.Repeat(romanNumeralDict()[key], n))
}
func main() {
printRoman(1000)
printRoman(50)
printKeyN(10, 3)
}
Try this at play.golang.org.
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