I was surprised to find that Go has a 'goto' statement. I've always been taught that 'goto' statements are a thing of the past and evil for it occludes the actual flow of a program, and that functions or methods are always a better way of controlling flow.

I must be missing something. Why did Google include it?

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    There are times where you really need a goto statement. Goto's are evil only when used indiscriminately. For example, if it is very difficult, if not impossible, to write a Finite state machine parser withou goto statements. – xbonez Jun 16 '12 at 16:02
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    It's not specific to Go, but for a good discussion on why languages retain the statement, and to see arguments against its use, check out this post. There are some good references linked in the question. Edit: here's another. – Cᴏʀʏ Jun 16 '12 at 16:05
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    To save the OP from grepping through the provided SO discussions, here's the discussion on LKML which pretty much sums it up why goto is useful in certain cases. Read after studying @Kissaki's answer. – kostix Jun 16 '12 at 18:17
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    Related: programmers.stackexchange.com/q/566/33478 (and see my answer). – Keith Thompson Dec 16 '14 at 23:45
  • Its useful implementing a continuation pattern, where you save off the stack then goto back to where you were when you want to resume. – Justin Dennahower Jan 12 '18 at 23:47

When we actually check the source code of the Go standard library, we can see where gotos are actually well applied.

For example, in the math/gamma.go file, the goto statement is used:

  for x < 0 {
    if x > -1e-09 {
      goto small
    z = z / x
    x = x + 1
  for x < 2 {
    if x < 1e-09 {
      goto small
    z = z / x
    x = x + 1

  if x == 2 {
    return z

  x = x - 2
  p = (((((x*_gamP[0]+_gamP[1])*x+_gamP[2])*x+_gamP[3])*x+_gamP[4])*x+_gamP[5])*x + _gamP[6]
  q = ((((((x*_gamQ[0]+_gamQ[1])*x+_gamQ[2])*x+_gamQ[3])*x+_gamQ[4])*x+_gamQ[5])*x+_gamQ[6])*x + _gamQ[7]
  return z * p / q

  if x == 0 {
    return Inf(1)
  return z / ((1 + Euler*x) * x)

The goto in this case saves us from introducing another (boolean) variable used just for control-flow, checked for at the end. In this case, the goto statement makes the code actually better to read and easier follow (quite in contrary to the argument against goto you mentioned).

Also note, that the goto statement has a very specific use-case. The language specification on goto states that it may not jump over variables coming into scope (being declared), and it may not jump into other (code-)blocks.

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    In your example, why not just introduce a function small(x,z) to call instead? That way we don't have to think about what variables are accessible in the small: label. I suspect the reason is go still lacks certain types of inlining support in the compiler. – Thomas Ahle Jun 2 '13 at 12:11
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    @Jessta: That's what we've got visibility and scope for, right? – Thomas Ahle Jul 11 '14 at 0:13
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    @ThomasAhle Go does not allow goto to point to a label after new variables have been introduced. Executing the "goto" statement must not cause any variables to come into scope that were not already in scope at the point of the goto. – km6zla Sep 11 '14 at 17:50
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    @ogc-nick Sorry I wasn't clear, I meant the functions can be declared in the scope where they are needed, so they aren't visible to code that doesn't need them. I wasn't talking about goto's and scope. – Thomas Ahle Sep 11 '14 at 23:09
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    @MosheRevah The referenced code is not optimized for readability. It is optimized for raw performance, using a goto that spans 22 lines within a single function. (And Thomas Ahle's proposal is even more readable to my eye.) – joel.neely Jun 28 '16 at 11:14

Goto is a good idea when none of the built-in control features do quite what you want, and when you can express what you want with a goto. (It's a shame in these cases in some languages when you don't have a goto. You end up abusing some control feature, using boolean flags, or using other solutions worse than goto.)

If some other control feature (used in a reasonably obvious way) can do what you want, you should use it in preference to goto. If not, be bold and use goto!

Finally it's worth noting that Go's goto has some restrictions designed to avoid some obscure bugs. See these restrictions in the spec.


Goto statements has received a lot of discredit since the era of Spaghetti code in the 60s and 70s. Back then there was very poor to none software development methodology. However Goto are not natively evil but can of course be misused and abused by lazy or unskilled programmers. Many problems with abused Gotos can be solved with development processes such as team code reviews.

goto are jumps in the same technical manner as continue, break and return. One could argue that these are statements are evil in the same manner but they are not.

Why the Go team has included Gotos are probably because of the fact that it is a common flow control primitive. Additionally they hopefully concluded that the scope of Go excludes making an idiot-safe language not possible to abuse.

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    continue, break, and return are very different in one key particular: they specify only "leave the enclosing scope". They not only encourage but explicitly require that the developer consider the structure of their code and rely on structured programming primitives (for loops, functions, and switch statements). The one and only saving grace of goto statements is that they allow you write assembly in an HLL when the compiler's optimizer is not up to the task, but this comes at the cost of readability and maintainability. – Parthian Shot Jan 9 '19 at 23:12
  • The reason this is so surprising to find in go is that, in every other case where the golang developers had a choice between structured programming paradigm and "exceptional flow control" / instruction pointer manipulations like setjmp, longjmp, goto, and try / except / finally they chose to err on the side of caution. goto, fwict, is the sole acquiescence to pre-"structured programming" control flow. – Parthian Shot Jan 9 '19 at 23:20

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