**A note beforehand:**

Your last proposed solution *is* the shortest, clearest and most efficient way to compare if 3 values are equal:

```
if a == b && a == c {
fmt.Println("Clearest: all 3 are equal")
}
```

or alternatively (to your liking):

```
if a == b && b == c {
fmt.Println("Clearest: all 3 are equal")
}
```

The rest of this answer (what follows) is just toying with the language specification and the language's capabilities, presenting what I find fun and creative. They do not attempt to provide a superior solution.

Try all the examples below on the Go Playground. The examples build on the terms and the result of the comparisons which are defined in Spec: Comparison operators.

General note: in the examples below I used the type `interface{}`

which will work whatever type your values have (`a`

, `b`

and `c`

), but if you know they are of type `int`

for example, you can use that specific type too (which would improve efficiency and shorten the length of the examples).

### With a `map`

as a set

```
if len(map[interface{}]int{a: 0, b: 0, c: 0}) == 1 {
fmt.Println("Map set: all 3 are equal")
}
```

Effectively we put all comparable values into a `map`

as keys, and if all are equal, there will be only 1 pair in the map, so the "length" of the map will be 1. The value type of the map doesn't play any role here, it could be anything. I used `int`

because this results in the shortest composite literal (that defines the `map`

value).

This solution is flexible as you can use any number of values to test if all are equal, not just 3.

### With arrays

Arrays are comparable (unlike slices):

```
if [2]interface{}{a, b} == [2]interface{}{b, c} {
fmt.Println("Arrays: all 3 are equal")
}
```

The result of the array comparison will be `true`

if `a == b`

and `b == c`

(if the corresponding elements are equal).

Note that you can apply this method on any number of values as well. It would look like this for 5 values:

```
if [4]interface{}{a, b, c, d} == [4]interface{}{b, c, d, e} {
fmt.Println("Arrays: all 5 are equal")
}
```

### With a tricky `map`

```
if map[interface{}]bool{a: b == c}[b] {
fmt.Println("Tricky map: all 3 are equal")
}
```

This composite literal will assign the comparision result of `b == c`

to the key `a`

. And we ask the value associated with the key `b`

. If `a == b`

, the result of the indexing expression will be the result of `b == c`

, that is, whether all 3 values are equal. If `a != b`

, then the zero value of the value type will be the result, which is `false`

in case of `bool`

, properly telling that all 3 values are not equal.

### With anonymous `struct`

s

`struct`

values are also comparable, so:

```
if struct{ a, b interface{} }{a, b} == struct{ a, b interface{} }{b, c} {
fmt.Println("Anon structs: all 3 are equal")
}
```

### With (named) `struct`

s

If we define a simple `struct`

beforehand:

```
type P struct{ a, b interface{} }
```

Comparison will be much more compact:

```
if (P{a, b} == P{b, c}) {
fmt.Println("Structs: all 3 are equal")
}
```

(Note that the expression of the `if`

statement must be put in parenthesis to avoid parsing ambiguity - else it's a compile time error!)

### With slices

Slices are not comparable, so we will need to borrow some help from `reflect.DeepEqual()`

:

```
if reflect.DeepEqual([]interface{}{a, b}, []interface{}{b, c}) {
fmt.Println("Slices: all 3 are equal")
}
```

### With a helper function

```
func AllEquals(v ...interface{}) bool {
if len(v) > 1 {
a := v[0]
for _, s := range v {
if a != s {
return false
}
}
}
return true
}
```

And using it:

```
if AllEquals(a, b, c) {
fmt.Println("Helper function: all 3 are equal")
}
```

This solution is also flexible, you can call `AllEquals()`

with any number of values.

Note that we can make the `AllEquals()`

function more compact if we're also willing to call `reflect.DeepEqual()`

here:

```
func AllEquals2(v ...interface{}) bool {
if len(v) < 2 {
return true
}
return reflect.DeepEqual(v[:len(v)-1], v[1:])
}
```

`b == c`

.