In C/C++ (and many languages of that family), a common idiom to declare and initialize a variable depending on a condition uses the ternary conditional operator :

int index = val > 0 ? val : -val

Go doesn't have the conditional operator. What is the most idiomatic way to implement the same piece of code as above ? I came to the following solution, but it seems quite verbose

var index int

if val > 0 {
    index = val
} else {
    index = -val

Is there something better ?

  • you could initialize the value with the else part and only check for your condition to change, not sure it thats better though – x29a Nov 14 '13 at 13:45
  • A lot of if/thens should have been eliminated anyway. We used to do this all the time from the days I wrote my first BASIC programs 35 years ago. Your example could be: int index = -val + 2 * val * (val > 0); – hyc Sep 12 '14 at 18:25
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    @hyc your example is far from being as readable as go's idiomatic code, or even as C's version using the ternary operator. Anyway, AFAIK, it is not possible to implement this solution in Go as a boolean cannot be used as a numeric value. – Fabien Sep 13 '14 at 23:24
  • Wondering why go didn't provide such an operator? – Eric Wang Jul 31 '18 at 5:51
  • @EricWang Two reasons, AFAIK: 1- you don't need it, and they wanted to keep the language as small as possible. 2- it tends to be abused, i.e used in convoluted multiple-line expressions, and the language designers don't like it. – Fabien Aug 1 '18 at 16:41

As pointed out (and hopefully unsurprisingly), using if+else is indeed the idiomatic way to do conditionals in Go.

In addition to the full blown var+if+else block of code, though, this spelling is also used often:

index := val
if val <= 0 {
    index = -val

and if you have a block of code that is repetitive enough, such as the equivalent of int value = a <= b ? a : b, you can create a function to hold it:

func min(a, b int) int {
    if a <= b {
        return a
    return b


value := min(a, b)

The compiler will inline such simple functions, so it's fast, more clear, and shorter.

  • 136
    Hey guys, look! I just ported the ternarity operator to the golangs! play.golang.org/p/ZgLwC_DHm0. So efficient! – thwd Nov 14 '13 at 14:35
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    @tomwilde your solution looks pretty interesting, but it lacks one of the main features of ternary operator - conditional evaluation. – Vladimir Matveev Nov 14 '13 at 18:13
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    @VladimirMatveev wrap the values in closures ;) – nemo Nov 14 '13 at 20:03
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    c := (map[bool]int{true: a, false: a - 1})[a > b] is an example of obfuscation IMHO, even if it works. – Rick-777 Feb 28 '15 at 12:39
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    If if/else is the idiomatic approach then perhaps Golang could consider letting if/else clauses return a value: x = if a {1} else {0}. Go would be by no means the only language to work this way. A mainstream example is Scala. See: alvinalexander.com/scala/scala-ternary-operator-syntax – Max Murphy Aug 4 '16 at 13:04

No Go doesn't have a ternary operator, using if/else syntax is the idiomatic way: http://golang.org/doc/faq#Does_Go_have_a_ternary_form


Suppose you have the following ternary expression (in C):

int a = test ? 1 : 2;

The idiomatic approach in Go would be to simply use an if block:

var a int

if test {
  a = 1
} else {
  a = 2

However, that might not fit your requirements. In my case, I needed an inline expression for a code generation template.

I used an immediately evaluated anonymous function:

a := func() int { if test { return 1 } else { return 2 } }()

This ensures that both branches are not evaluated as well.

  • Good to know that only one branch of the inlined anon function gets evaluated. But note that cases like this are beyond the scope of C's ternary operator. – Wolf Dec 12 '16 at 10:34
  • The C conditional expression (commonly known as the ternary operator) has three operands: expr1 ? expr2 : expr3. If expr1 evaluates to true, expr2 is evaluated and is the result of the expression. Otherwise, expr3 is evaluated and provided as the result. This is from the ANSI C Programming Language section 2.11 by K&R. My Go solution preserves these specific semantics. @Wolf Can you clarify what you are suggesting? – Peter Boyer May 31 '17 at 1:26
  • I'm not sure what I had in mind, maybe that anon functions provide a scope (local namespace) which is not the case with the ternary operator in C/C++. See an example for using this scope – Wolf May 31 '17 at 12:09

The map ternary is easy to read without parentheses:

c := map[bool]int{true: 1, false: 0} [5 > 4]
  • Not entirely sure why it has got -2 ... yes, it is a workaround but it works and is type-safe. – Alessandro Santini Aug 3 '15 at 11:52
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    Yes, it works, is type-safe, and is even creative; however, there are other metrics. Ternary ops are runtime equivalent to if/else (see e.g. this S/O post). This response is not because 1) both branches are executed, 2) creates a map 3) calls a hash. All of these are "fast", but not as fast as an if/else. Also, I would argue that it's not more readable than var r T if condition { r = foo() } else { r = bar() } – knight Dec 1 '15 at 20:55
  • In other languages I use this approach when I have multiple variables and with closures or function pointers or jumps. Writing nested ifs becomes error prone as the number of variables increases, whereas e.g. {(0,0,0) => {code1}, (0,0,1) => {code2} ...}[(x>1,y>1,z>1)] (pseudocode) becomes more and more attractive as the number of variables goes up. The closures keep this model fast. I expect that similar tradeoffs apply in go. – Max Murphy Jun 29 '16 at 11:10
  • I suppose in go you would use a switch for that model. I love the way go switches break automatically, even if it is occasionally inconvenient. – Max Murphy Jun 29 '16 at 11:14
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    as Cassy Foesch pointed out: simple and clear code is better than creative code. – Wolf Dec 13 '16 at 7:52
func Ternary(statement bool, a, b interface{}) interface{} {
    if statement {
        return a
    return b

func Abs(n int) int {
    return Ternary(n >= 0, n, -n).(int)

This will not outperform if/else and requires cast but works. FYI:

BenchmarkAbsTernary-8 100000000 18.8 ns/op

BenchmarkAbsIfElse-8 2000000000 0.27 ns/op


If all your branches make side-effects or are computationally expensive the following would a semantically-preserving refactoring:

index := func() int {
    if val > 0 {
        return printPositiveAndReturn(val)
    } else {
        return slowlyReturn(-val)  // or slowlyNegate(val)
}();  # exactly one branch will be evaluated

with normally no overhead (inlined) and, most importantly, without cluttering your namespace with a helper functions that are only used once (which hampers readability and maintenance). Live Example

Note if you were to naively apply Gustavo's approach:

    index := printPositiveAndReturn(val);
    if val <= 0 {
        index = slowlyReturn(-val);  // or slowlyNegate(val)

you'd get a program with a different behavior; in case val <= 0 program would print a non-positive value while it should not! (Analogously, if you reversed the branches, you would introduce overhead by calling a slow function unnecessarily.)

  • 1
    Interesting read, but I'm not really understanding the point in your criticism of Gustavo's approach. I see a (kind of) abs function in the original code (well, I'd change <= to <). In your example I see an initialisation, that is redundant in some case and could be expansive. Can you please clarify: explain your idea a bit more? – Wolf Dec 12 '16 at 10:29
  • The prime difference is that calling a function outside of either branch will make side effects even if that branch should not have been taken. In my case, only positive numbers will be printed because the function printPositiveAndReturn is only called for positive numbers. Conversely, always executing one branch, then "fixing" the value with executing a different branch does not undo first branch's side effects. – eold Dec 13 '16 at 0:27
  • I see, but experiences programmers are normally aware of side effects. In that case I'd prefer Cassy Foesch's obvious solution to a embedded function, even if the compiled code may be the same: it's shorter and looks obvious to most programmers. Don't get me wrong: I really love Go's closures ;) – Wolf Dec 13 '16 at 7:12
  • "experiences programmers are normally aware of side effects" - No. Avoiding the evaluation of terms is one of the primary characteristics of a ternary operator. – Jonathan Hartley Sep 14 '18 at 16:12

eold's answer is interesting and creative, perhaps even clever.

However, it would be recommended to instead do:

var index int
if val > 0 {
    index = printPositiveAndReturn(val)
} else {
    index = slowlyReturn(-val)  // or slowlyNegate(val)

Yes, they both compile down to essentially the same assembly, however this code is much more legible than calling an anonymous function just to return a value that could have been written to the variable in the first place.

Basically, simple and clear code is better than creative code.

Additionally, any code using a map literal is not a good idea, because maps are not lightweight at all in Go. Since Go 1.3, random iteration order for small maps is guaranteed, and to enforce this, it's gotten quite a bit less efficient memory-wise for small maps.

As a result, making and removing numerous small maps is both space-consuming and time-consuming. I had a piece of code that used a small map (two or three keys, are likely, but common use case was only one entry) But the code was dog slow. We're talking at least 3 orders of magnitude slower than the same code rewritten to use a dual slice key[index]=>data[index] map. And likely was more. As some operations that were previously taking a couple of minutes to run, started completing in milliseconds.\

  • simple and clear code is better than creative code - this I like very much, but I'm getting a little confused in the last section after dog slow, maybe this could be confusing to others too? – Wolf Dec 12 '16 at 10:42
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    So, basically... I had some code that was creating small maps with one, two, or three entries, but the code was running very slowly. So, a lot of m := map[string]interface{} { a: 42, b: "stuff" }, and then in another function iterating through it: for key, val := range m { code here } After switching to a two slice system: keys = []string{ "a", "b" }, data = []interface{}{ 42, "stuff" }, and then iterate through like for i, key := range keys { val := data[i] ; code here } things sped up 1000 fold. – Cassy Foesch Dec 13 '16 at 17:33
  • I see, thanks for the clarification. (Maybe the answer itself could be improved in this point.) – Wolf Dec 13 '16 at 17:57
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    -.- ... touché, logic... touché... I'll get on that eventually... ;) – Cassy Foesch Dec 14 '16 at 21:34

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