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I've long been under the impression that 'goto' should never be used if possible. While perusing libavcodec (which is written in C) the other day, I noticed multiple uses of it. Is it ever advantageous to use 'goto' in a language that supports loops and functions? If so, why?

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23 Answers

up vote 112 down vote accepted

There are a few reasons for using the "goto" statement that I'm aware of (some have spoken to this already):

Cleanly exiting a function

Often in a function, you may allocate resources and need to exit in multiple places. Programmers can simplify their code by putting the resource cleanup code at the end of the function, and all "exit points" of the function would goto the cleanup label. This way, you don't have to write cleanup code at every "exit point" of the function.

Exiting nested loops

If you're in a nested loop and need to break out of all loops, a goto can make this much cleaner and simpler than break statements and if-checks.

Low-level performance improvements

This is only valid in perf-critical code, but goto statements execute very quickly and can give you a boost when moving through a function. This is a double-edged sword, however, because a compiler typically cannot optimize code that contains gotos.

Note that in all these examples, gotos are restricted to the scope of a single function.

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9  
The right way to exit nested loops is to refactor the inner loop into a separate method. –  Jason Feb 2 '10 at 20:08
66  
@Jason - Bah. That's a load of bull. Replacing goto with return is just silly. It's not "refactoring" anything, it's just "renaming" so that people who grew up in a goto-suppressed environment (i.e. all of us) feel better about using what morally amounts to a goto. I much prefer to see the loop where I use it and see a little goto, which by itself is just a tool, than see someone having moved the loop somewhere unrelated just to avoid a goto. –  Chris Lutz Feb 2 '10 at 20:18
9  
There are sitations where gotos are important: for instance, an exception-less C++ environment. In the Silverlight source we have tens of thousands (or more) of goto statements for safe function exist through the use of macros - key media codecs and libraries often work through return values and never exceptions, and it's difficult to combine these error handling mechanisms in a single performant way. –  Jeff Wilcox May 11 '10 at 9:15
32  
It's worth noting that all break,continue,return are basically goto, just in nice packaging. –  el.pescado Jun 11 '10 at 8:51
4  
For the cleanly exiting a function point, an alternative is to use a do{/*code goes here*/}while(0); and use break (or continue :D) to leave it. No labels. –  Thomas Eding Nov 8 '11 at 0:47
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Everybody who is anti-goto cites, directly or indirectly, Edsger Dijkstra's GoTo Considered Harmful article to substantiate their position. Too bad Dijkstra's article has virtually nothing to do with the way goto statements are used these days and thus what the article says has little to no applicability to the modern programming scene. The goto-less meme verges now on a religion, right down to its scriptures dictated from on high, its high priests and the shunning (or worse) of perceived heretics.

Let's put Dijkstra's paper into context to shed a little light on the subject.

When Dijkstra wrote his paper the popular languages of the time were unstructured procedural ones like BASIC, FORTRAN (the earlier dialects) and various assembly languages. It was quite common for people using the higher-level languages to jump all over their code base in twisted, contorted threads of execution that gave rise to the term "spaghetti code". You can see this by hopping on over to the classic Trek game written by Mike Mayfield and trying to figure out how things work. Take a few moments to look that over.

THIS is "the unbridled use of the go to statement" that Dijkstra was railing against in his paper in 1968. THIS is the environment he lived in that led him to write that paper. The ability to jump anywhere you like in your code at any point you liked was what he was criticising and demanding be stopped. Comparing that to the anaemic powers of goto in C or other such more modern languages is simply risible.

I can already hear the raised chants of the cultists as they face the heretic. "But," they will chant, "you can make code very difficult to read with goto in C." Oh yeah? You can make code very difficult to read without goto as well. Like this one:

#define _ -F<00||--F-OO--;
int F=00,OO=00;main(){F_OO();printf("%1.3f\n",4.*-F/OO/OO);}F_OO()
{
            _-_-_-_
       _-_-_-_-_-_-_-_-_
    _-_-_-_-_-_-_-_-_-_-_-_
  _-_-_-_-_-_-_-_-_-_-_-_-_-_
 _-_-_-_-_-_-_-_-_-_-_-_-_-_-_
 _-_-_-_-_-_-_-_-_-_-_-_-_-_-_
_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_
_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_
_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_
_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_
 _-_-_-_-_-_-_-_-_-_-_-_-_-_-_
 _-_-_-_-_-_-_-_-_-_-_-_-_-_-_
  _-_-_-_-_-_-_-_-_-_-_-_-_-_
    _-_-_-_-_-_-_-_-_-_-_-_
        _-_-_-_-_-_-_-_
            _-_-_-_
}

Not a goto in sight, so it must be easy to read, right? Or how about this one:

a[900];     b;c;d=1     ;e=1;f;     g;h;O;      main(k,
l)char*     *l;{g=      atoi(*      ++l);       for(k=
0;k*k<      g;b=k       ++>>1)      ;for(h=     0;h*h<=
g;++h);     --h;c=(     (h+=g>h     *(h+1))     -1)>>1;
while(d     <=g){       ++O;for     (f=0;f<     O&&d<=g
;++f)a[     b<<5|c]     =d++,b+=    e;for(      f=0;f<O
&&d<=g;     ++f)a[b     <<5|c]=     d++,c+=     e;e= -e
;}for(c     =0;c<h;     ++c){       for(b=0     ;b<k;++
b){if(b     <k/2)a[     b<<5|c]     ^=a[(k      -(b+1))
<<5|c]^=    a[b<<5      |c]^=a[     (k-(b+1     ))<<5|c]
;printf(    a[b<<5|c    ]?"%-4d"    :"    "     ,a[b<<5
|c]);}      putchar(    '\n');}}    /*Mike      Laman*/

No goto there either. It must therefore be readable.

What's my point with these examples? It's not language features that make unreadable, unmaintainable code. It's not syntax that does it. It's bad programmers that cause this. And bad programmers, as you can see in that above item, can make any language feature unreadable and unusable. Like the for loops up there. (You can see them, right?)

Now to be fair, some language constructs are easier to abuse than others. If you're a C programmer, however, I'd peer far more closely at about 50% of the uses of #define long before I'd go on a crusade against goto!

So, for those who've bothered to read this far, there are several key points to note.

  1. Dijstra's paper on goto statements was written for a programming environment where goto was a lot more potentially damaging than it is in most modern languages that aren't an assembler.
  2. Automatically throwing away all uses of goto because of this is about as rational as saying "I tried to have fun once but didn't like it so now I'm against it".
  3. There are legitimate uses of the modern (anaemic) goto statements in code that cannot be adequately replaced by other constructs.
  4. There are, of course, illegitimate uses of the same statements.
  5. There are, too, illegitimate uses of the modern control statements like the "godo" abomination where an always-false do loop is broken out of using break in place of a goto. These are often worse than judicious use of goto.

Keep in mind while you're voting me down with one -1 after another that I have used goto in my own (non-assembler) code precisely 3 times in the past 15-20 years.

I await the flood of outraged shrieks and -1 votes with bated breath.

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23  
So here is the first wave: +1 for a clear statement while keeping free of dogma. –  Boldewyn May 11 '10 at 10:03
89  
"Not a goto in sight, so it must be easy to read, right?" <-- this is a pretty blatant straw man from denying the antecedent right here, fyi. –  Nietzche-jou May 12 '10 at 4:53
13  
… @sgm has already said it: that’s one huge pile of logical fallacies. I just want to comment on one thing: You said you have used goto 3 times in the past x years – tell me, how does this compare to any other “general-purpose” language feature (I explicitly exclude specialized, yet sometimes necessary language features such as volatile which some people just don’t need)? Isn’t it odd that a general-purpose language feature gets used so little in good code? For me, that’s a strong indication that goto doesn’t bring much to the table. I.e., that it is defective. Go figure. –  Konrad Rudolph May 12 '10 at 8:35
55  
+1 for putting Dijkstra's article into the historical context. –  Treb Jun 11 '10 at 8:23
15  
@pocjoc: Writing tail-recursive optimization in C, for example. This comes up in implementation of functional language interpreters/runtimes, but is representative of an interesting category of problems. Most compilers written in C make use of goto for this reason. Its a niche use that doesn't occur in most situations, of course, but in the situations it is called for it makes a lot of sense to use. –  zxq9 Dec 30 '13 at 2:46
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Obeying best practices blindly is not a best practice. The idea of avoiding goto statements as one's primary form of flow control is to avoid producing unreadable spaghetti code. If used sparingly in the right places, they can sometimes be the simplest, clearest way of expressing an idea. Walter Bright, the creator of the Zortech C++ compiler and the D programming language, uses them frequently, but judiciously. Even with the goto statements, his code is still perfectly readable.

Bottom line: Avoiding goto for the sake of avoiding goto is pointless. What you really want to avoid is producing unreadable code. If your goto-laden code is readable, then there's nothing wrong with it.

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8  
+1 This is very reasonable and well written, who downvoted is yet another goto-hating-zombie. –  Lohoris May 11 '10 at 9:14
10  
+1 for Obeying best practices blindly is not a best practice. I really like it :) –  mmdemirbas Jul 10 '12 at 8:20
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Basically, due to goto's defective nature (and I believe that this is uncontroversial), it is only used to compensate for missing features. So the use of goto may actually be acceptable, but only if the language doesn't offer a more structured variant to obtain the same goal. Take Doubt's example:

The rule with goto that we use is that goto is okay to for jumping forward to a single exit cleanup point in a function.

This is true – but only if the language doesn't allow structured exception handling with cleanup code (such as RAII or finally), which does the same job better (as it is specially built for doing it), or when there's a good reason not to employ structured exception handling (but you will never have this case except at a very low level).

In most other languages, the only acceptable use of goto is to exit nested loops. And even there it is almost always better to lift the outer loop into an own method and use return instead.

Other than that, goto is a sign that not enough thought has gone into the particular piece of code.

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Just curious here, but what about the case of using gotos for clean up code. By clean-up, I mean, not only deallocation of memory, but also, say error logging. I was reading through a bunch of posts, and apparently, no one writes code that prints logs.. hmm?! –  shiva Apr 3 '09 at 21:32
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"Basically, due to goto's defective nature (and I believe that this is uncontroversial)" -1 and I stopped reading there. –  Lohoris May 11 '10 at 9:09
17  
@Lo'oris: That’s a pity. You could have learned something. –  Konrad Rudolph May 11 '10 at 13:56
2  
The admonition against goto comes from the structured programming era, where early returns were also considered evil. Moving nested loops into a function trades one "evil" for another, and creates a function that has no real reason to exist (outside of "it allowed me to avoid using a goto!"). It's true that goto is the single most powerful tool for producing spaghetti code if used without constraints, but this is a perfect application for it; it simplifies the code. Knuth argued for this usage, and Dijkstra said "Don't fall into the trap of believing that I am terribly dogmatical about goto". –  Mud May 5 '12 at 19:30
2  
finally? So using exceptions for things other than error handling is good but using goto is bad? I think exceptions are quite aptly named. –  Christian Aug 30 '13 at 15:26
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In C# switch statement doest not allow fall-through. So goto is used to transfer control to a specific switch-case label or the default label.

For example:

switch(value)
{
  case 0:
    Console.Writeln("In case 0");
    goto case 1;
  case 1:
    Console.Writeln("In case 1");
    goto case 2;
  case 2:
    Console.Writeln("In case 2");
    goto default;
  default:
    Console.Writeln("In default");
    break;
}

Edit: There is one exception on "no fall-through" rule. Fall-through is allowed if a case statement has no code.

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3  
Switch fall-through is supported in .NET 2.0 - msdn.microsoft.com/en-us/library/06tc147t(VS.80).aspx –  rjzii Sep 16 '08 at 17:28
8  
Only if the case doesn't have a code body. If it does have code then you must use the goto keyword. –  Matthew Whited Dec 9 '09 at 18:07
10  
This answer is so funny - C# removed fall-through because many see it as harmful, and this example uses goto (also seen as harmful by many) to revive the original, supposedly harmful, behaviour, BUT the overall result is actually less harmful (because the code makes it clear that the fallthrough is intentional!). –  thomasrutter May 31 '10 at 7:15
4  
Just because a keyword is written with the letters G-O-T-O does not make it a goto. This presented case is not a goto. It is a switch statement construct for fallthrough. Then again, I don't really know C# very well, so I could be wrong. –  Thomas Eding Nov 8 '11 at 1:00
    
Well, in this case it's a bit more than fall-through (because you can say goto case 5: when you're in case 1). It seems like Konrad Rudolph's answer is correct here: goto is compensating for a missing feature (and is less clear than the real feature would be). If what we really want is fall-through, perhaps the best default would be no fall-through, but something like continue to explicitly request it. –  David Stone Apr 30 '12 at 17:16
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Well, there's one thing that's always worse than goto's; strange use of other programflow operators to avoid a goto:

Examples:

    // 1
    try{
      ...
      throw NoErrorException;
      ...
    } catch (const NoErrorException& noe){
      // This is the worst
    } 


    // 2
    do {
      ...break; 
      ...break;
    } while (false);


    // 3
    for(int i = 0;...) { 
      bool restartOuter = false;
      for (int j = 0;...) {
        if (...)
          restartOuter = true;
      if (restartOuter) {
        i = -1;
      }
    }

etc
etc
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do{}while(false) I think can be considered idiomatic. You are not allowed to disagree :D –  Thomas Eding Nov 8 '11 at 1:06
15  
@trinithis: If it's "idiomatic", that's only because of the anti-goto cult. If you look closely at it, you'll realize it's just a way of saying goto after_do_block; without actually saying that. Otherwise...a "loop" that runs exactly one time? I'd call that abuse of control structures. –  cHao Dec 9 '11 at 19:18
1  
@ThomasEding Eding There's one exception to your point. If you ever done some C/C++ programming and had to use #define, you would know, that do{}while(0) is one of standards for encapsulating multiple lines of code. For example: #define do{memcpy(a,b,1); something++;}while(0) is safer and better than #define memcpy(a,b,1); something++ –  Ignas2526 Apr 8 at 10:51
    
@Ignas2526 You've just very nicely shown how #defines are many, many times much worse than using goto once in a while :D –  Luaan Jun 16 at 8:05
    
@Luaan Really? Well #define and goto are different things for different purposes. Define works perfectly fine when you use it for constants. In some applications, using define for code is the only way. Seems like you haven't grown up yet enough to see such applications. –  Ignas2526 Jun 27 at 12:33
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#ifdef TONGUE_IN_CHEEK

Perl has a goto that allows you to implement poor-man's tail calls. :-P

sub factorial {
    my ($n, $acc) = (@_, 1);
    return $acc if $n < 1;
    @_ = ($n - 1, $acc * $n);
    goto &factorial;
}

#endif

Okay, so that has nothing to do with C's goto. More seriously, I agree with the other comments about using goto for cleanups, or for implementing Duff's device, or the like. It's all about using, not abusing.

(The same comment can apply to longjmp, exceptions, call/cc, and the like---they have legitimate uses, but can easily be abused. For example, throwing an exception purely to escape a deeply-nested control structure, under completely non-exceptional circumstances.)

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I think this is the only reason to use goto in Perl. –  Brad Gilbert Nov 5 '08 at 1:28
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The rule with goto that we use is that goto is okay to for jumping forward to a single exit cleanup point in a function. In really complex functions we relax that rule to allow other jump forwards. In both cases we are avoiding deeply nested if statements that often occur with error code checking, which helps readability and maintance.

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I could see something like that being useful in a language like C. However, when you have the power of C++ constructors / destructors, that's generally not so useful. –  David Stone Jul 10 '12 at 1:51
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I've written more than a few lines of assembly language over the years. Ultimately, every high level language compiles down to gotos. Okay, call them "branches" or "jumps" or whatever else, but they're gotos. Can anyone write goto-less assembler?

Now sure, you can point out to a Fortran, C or BASIC programmer that to run riot with gotos is a recipe for spaghetti bolognaise. The answer however is not to avoid them, but to use them carefully.

A knife can be used to prepare food, free someone, or kill someone. Do we do without knives through fear of the latter? Similarly the goto: used carelessly it hinders, used carefully it helps.

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1  
Perhaps you want to read why I believe this is fundamentally wrong at stackoverflow.com/questions/46586/… –  Konrad Rudolph Sep 17 '08 at 18:46
1  
+1 Totally agree –  Lohoris May 11 '10 at 9:11
10  
Anybody who advances the "it all compiles down to JMP anyway!" argument basically doesn't understand the point behind programming in a higher level language. –  Nietzche-jou May 12 '10 at 5:03
    
Your point being? –  boost May 17 '10 at 7:50
4  
All you really need is subtract-and-branch. Everything else is for convenience or performance. –  David Stone Apr 30 '12 at 17:19
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One of the reasons goto is bad, besides coding style is that you can use it to create overlapping, but non-nested loops:

loop1:
  a
loop2:
  b
  if(cond1) goto loop1
  c
  if(cond2) goto loop2

This would create the bizarre, but possibly legal flow-of-control structure where a sequence like (a, b, c, b, a, b, a, b, ...) is possible, which makes compiler hackers unhappy. Apparently there are a number of clever optimization tricks that rely on this type of structure not occuring. (I should check my copy of the dragon book...) The result of this might (using some compilers) be that other optimizations aren't done for code that contains gotos.

It might be useful if you know it just, "oh, by the way", happens to persuade the compiler to emit faster code. Personally, I'd prefer to try to explain to the compiler about what's probable and what's not before using a trick like goto, but arguably, I might also try goto before hacking assembler.

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3  
Well...takes me back to the days of programming FORTRAN in a financial information company. In 2007. –  Marcin Oct 22 '08 at 7:18
2  
Any language structure can be abused in ways that render it unreadable or poorly-performing. –  JUST MY correct OPINION May 11 '10 at 12:22
    
@JUST: The point is not about readability, or poor performance, but assumptions and guarantees about the flow-of-control graph. Any abuse of goto would be for increased performance (or readability). –  Anders Eurenius May 28 '10 at 7:31
    
I'd argue one of the reasons goto is useful is that it allows you to construct loops like this, that would require a bunch of logical contortions otherwise. I'd further argue that if the optimizer doesn't know how to rewrite this, then good. A loop like this shouldn't be done for performance or readability, but because that is exactly the order in which things need to happen. In which case i wouldn't particularly want the optimizer screwing around with it. –  cHao Jan 6 at 15:43
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I find it funny that some people will go as far as to give a list of cases where goto is acceptable, saying that all other uses are unacceptable. Do you really think that you know every case where goto is the best choice for expressing an algorithm?

To illustrate, I'll give you an example that no one here has shown yet:

Today I was writing code for inserting an element in a hash table. The hash table is a cache of previous calculations which can be overwritten at will (affecting performance but not correctness).

Each bucket of the hash table has 4 slots, and I have a bunch of criteria to decide which element to overwrite when a bucket is full. Right now this means making up to three passes through a bucket, like this:

// Overwrite an element with same hash key if it exists
for (add_index=0; add_index < ELEMENTS_PER_BUCKET; add_index++)
  if (slot_p[add_index].hash_key == hash_key)
    goto add;

// Otherwise, find first empty element
for (add_index=0; add_index < ELEMENTS_PER_BUCKET; add_index++)
  if ((slot_p[add_index].type == TT_ELEMENT_EMPTY)
    goto add;

// Additional passes go here...

add:
// element is written to the hash table here

Now if I didn't use goto, what would this code look like?

Something like this:

// Overwrite an element with same hash key if it exists
for (add_index=0; add_index < ELEMENTS_PER_BUCKET; add_index++)
  if (slot_p[add_index].hash_key == hash_key)
    break;

if (add_index >= ELEMENTS_PER_BUCKET) {
  // Otherwise, find first empty element
  for (add_index=0; add_index < ELEMENTS_PER_BUCKET; add_index++)
    if ((slot_p[add_index].type == TT_ELEMENT_EMPTY)
      break;
  if (add_index >= ELEMENTS_PER_BUCKET)
   // Additional passes go here (nested further)...
}

// element is written to the hash table here

It would look worse and worse if more passes are added, while the version with goto keeps the same indentation level at all times and avoids the use of spurious if statements whose result is implied by the execution of the previous loop.

So there's another case where goto makes the code cleaner and easier to write and understand... I'm sure there are many more, so don't pretend to know all the cases where goto is useful, dissing any good ones that you couldn't think of.

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In the example you gave, I'd prefer to refactor that pretty significantly. In general, I try to avoid one-liner comments that say what the next chunk of code is doing. Instead, I break that out into its own function that is named similar to the comment. If you were to make such a transformation, then this function would give a high level overview of what the function is doing, and each of the new functions would state how you do each step. I feel that much more important than any opposition to goto is having each function be at the same level of abstraction. That it avoids goto is a bonus. –  David Stone Apr 30 '12 at 17:26
    
You haven't really explained how adding more functions gets rid of the goto, the multiple indentation levels and spurious if statements... –  Ricardo Jul 9 '12 at 10:30
    
It would look something like this, using standard container notation: container::iterator it = slot_p.find(hash_key); if (it != slot_p.end()) it->overwrite(hash_key); else it = slot_p.find_first_empty(); I find that sort of programming much easier to read. Each function in this case could be written as a pure function, which is much easier to reason about. The main function now explains what the code does just by the name of the functions, and then if you want, you can look at their definitions to find out how it does it. –  David Stone Jul 10 '12 at 1:43
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The GOTO can be used, of course, but there is one more important thing than the code style, or if the code is or not readable that you must have in mind when you use it: the code inside may not be as robust as you think.

For instance, look at the following two code snippets:

If A <> 0 Then A = 0 EndIf
Write("Value of A:" + A)

An equivalent code with GOTO

If A == 0 Then GOTO FINAL EndIf
   A = 0
FINAL:
Write("Value of A:" + A)

The first thing we think is that the result of both bits of code will be that "Value of A: 0" (we suppose an execution without parallelism, of course)

That's not correct: in the first sample, A will always be 0, but in the second sample (with the GOTO statement) A might not be 0. Why?

The reason is because from another point of the program I can insert a GOTO FINAL without controlling the value of A.

This example is very obvious, but as programs get more complicated, the difficulty of seeing those kind of things increases.

Related material can be found into the famous article from Mr. Dijkstra "A case against the GO TO statement"

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This was often the case in old-school BASIC. In modern variants, though, you're not allowed to jump into the middle of another function...or in many cases, even past the declaration of a variable. Basically (pun not intended), modern languages have largely done away with the "unbridled" GOTOs that Dijkstra was talking about...and the only way to use it as he was arguing against, is to commit certain other heinous sins. :) –  cHao Jan 6 at 17:48
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In a Perl module, you occasionally want to create subroutines or closures on the fly. The thing is, that once you have created the subroutine, how do you get to it. You could just call it, but then if the subroutine uses caller() it won't be as helpful as it could be. That is where the goto &subroutine variation can be helpful.

Here is a quick example:

sub AUTOLOAD{
  my($self) = @_;
  my $name = $AUTOLOAD;
  $name =~ s/.*:://;

  *{$name} = my($sub) = sub{
    # the body of the closure
  }

  goto $sub;

  # nothing after the goto will ever be executed.
}

You can also use this form of goto to provide a rudimentary form of tail-call optimization.

sub factorial($){
  my($n,$tally) = (@_,1);

  return $tally if $n <= 1;

  $tally *= $n--;
  @_ = ($n,$tally);
  goto &factorial;
}

( In Perl 5 version 16 that would be better written as goto __SUB__; )

There is a module that will import a tail modifier and one that will import recur if you don't like using this form of goto.

use Sub::Call::Tail;
sub AUTOLOAD {
  ...
  tail &$sub( @_ );
}

use Sub::Call::Recur;
sub factorial($){
  my($n,$tally) = (@_,1);

  return $tally if $n <= 1;
  recur( $n-1, $tally * $n );
}

Most of the other reasons to use goto are better done with other keywords.

Like redoing a bit of code:

LABEL: ;
...
goto LABEL if $x;
{
  ...
  redo if $x;
}

Or going to the last of a bit of code from multiple places:

goto LABEL if $x;
...
goto LABEL if $y;
...
LABEL: ;
{
  last if $x;
  ...
  last if $y
  ...
}
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The problem with 'goto' and the most important argument of the 'goto-less programming' movement is, that if you use it too frequently your code, although it might behave correctly, becomes unreadable, unmaintainable, unreviewable etc. In 99.99% of the cases 'goto' leads to spaghetti code. Personally, I cannot think of any good reason as to why I would use 'goto'.

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4  
Saying "I cannot think of any reason" in your argument is, formally, en.wikipedia.org/wiki/Argument_from_ignorance, although I prefer the terminology "proof by lack of imagination". –  JUST MY correct OPINION May 11 '10 at 11:37
    
@JUST MY correct OPINION: It’s a logical fallacy only if it’s employed post-hoc. From a language designer’s point of view it may be a valid argument to weigh the cost of including a feature (goto). @cschol’s usage is similar: While maybe not designing a language right now, (s)he’s basically evaluating the designer’s effort. –  Konrad Rudolph May 12 '10 at 12:03
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If so, why?

C has no multi-level/labelled break, and not all control flows can be easily modelled with C's iteration and decision primitives. gotos go a long way towards redressing these flaws.

Sometimes it's clearer to use a flag variable of some kind to effect a kind of pseudo-multi-level break, but it's not always superior to the goto (at least a goto allows one to easily determine where control goes to, unlike a flag variable), and sometimes you simply don't want to pay the performance price of flags/other contortions to avoid the goto.

libavcodec is a performance-sensitive piece of code. Direct expression of the control flow is probably a priority, because it'll tend to run better.

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Edsger Dijkstra, a computer scientist that had major contributions on the field, was also famous for criticizing the use of GoTo. There's a short article about his argument on Wikipedia.

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Just as well no one ever implemented the "COME FROM" statement....

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6  
..except in INTERCAL! catb.org/~esr/intercal –  Bruce Alderman Sep 24 '08 at 21:43
2  
Or in C++, C#, Java, JS, Python, Ruby....etc etc etc. Only they call it "exceptions". –  cHao Dec 9 '11 at 19:31
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In Perl, use of a label to "goto" from a loop - using a "last" statement, which is similar to break.

This allows better control over nested loops.

The traditional goto label is supported too, but I'm not sure there are too many instances where this is the only way to achieve what you want - subroutines and loops should suffice for most cases.

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I think the only form of goto that you would ever use in Perl is goto &subroutine. Which starts the subroutine with the current @_, while replacing the current subroutine in the stack. –  Brad Gilbert Nov 5 '08 at 1:27
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I find the do{} while(false) usage utterly revolting. It is conceivable might convince me it is necessary in some odd case, but never that it is clean sensible code.

If you must do some such loop, why not make the dependence on the flag variable explicit?

for (stepfailed=0 ; ! stepfailed ; /*empty*/)
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Shouldn't that /*empty*/ be stepfailed = 1? In any case, how is this better than a do{}while(0)? In both, you need to break out of it (or in yours stepfailed = 1; continue;). Seems unnecessary to me. –  Thomas Eding Nov 8 '11 at 1:13
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The most thoughtful and thorough discussion of goto statements, their legitimate uses, and alternative constructs that can be used in place of "virtuous goto statements" but can be abused as easily as goto statements, is Donald Knuth's article "Structured Programming with goto Statements", in the December 1974 Computing Surveys (volume 6, no. 4. pp. 261 - 301).

Not surprisingly, some aspects of this 39-year old paper are dated: Orders-of-magnitude increases in processing power make some of Knuth's performance improvements unnoticeable for moderately sized problems, and new programming-language constructs have been invented since then. (For example, try-catch blocks subsume Zahn's Construct, although they are rarely used in that way.) But Knuth covers all sides of the argument, and should be required reading before anyone rehashes the issue yet again.

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I use goto in the following case: when needed to return from funcions at different places, and before return some uninitialization needs to be done:

non-goto version:

int doSomething (struct my_complicated_stuff *ctx)    
{
    db_conn *conn;
    RSA *key;
    char *temp_data;
    conn = db_connect();  


    if (ctx->smth->needs_alloc) {
      temp_data=malloc(ctx->some_size);
      if (!temp_data) {
        db_disconnect(conn);
        return -1;      
        }
    }

    ...

    if (!ctx->smth->needs_to_be_processed) {
        free(temp_data);    
        db_disconnect(conn);    
        return -2;
    }

    pthread_mutex_lock(ctx->mutex);

    if (ctx->some_other_thing->error) {
        pthread_mutex_unlock(ctx->mutex);
        free(temp_data);
        db_disconnect(conn);        
        return -3;  
    }

    ...

    key=rsa_load_key(....);

    ...

    if (ctx->something_else->error) {
         rsa_free(key); 
         pthread_mutex_unlock(ctx->mutex);
         free(temp_data);
         db_disconnect(conn);       
         return -4;  
    }

    if (ctx->something_else->additional_check) {
         rsa_free(key); 
         pthread_mutex_unlock(ctx->mutex);
         free(temp_data);
         db_disconnect(conn);       
         return -5;  
    }


    pthread_mutex_unlock(ctx->mutex);
    free(temp_data);    
    db_disconnect(conn);    
    return 0;     
}

goto version:

int doSomething_goto (struct my_complicated_stuff *ctx)
{
    int ret=0;
    db_conn *conn;
    RSA *key;
    char *temp_data;
    conn = db_connect();  


    if (ctx->smth->needs_alloc) {
      temp_data=malloc(ctx->some_size);
      if (!temp_data) {
            ret=-1;
           goto exit_db;   
          }
    }

    ...

    if (!ctx->smth->needs_to_be_processed) {
        ret=-2;
        goto exit_freetmp;      
    }

    pthread_mutex_lock(ctx->mutex);

    if (ctx->some_other_thing->error) {
        ret=-3;
        goto exit;  
    }

    ...

    key=rsa_load_key(....);

    ...

    if (ctx->something_else->error) {
        ret=-4;
        goto exit_freekey; 
    }

    if (ctx->something_else->additional_check) {
        ret=-5;
        goto exit_freekey;  
    }

exit_freekey:
    rsa_free(key);
exit:    
    pthread_mutex_unlock(ctx->mutex);
exit_freetmp:
    free(temp_data);        
exit_db:
    db_disconnect(conn);    
    return ret;     
}

The second version makes it easier, when you need to change something in the deallocation statements (each is used once in the code), and reduces the chance to skip any of them, when adding a new branch. Moving them in a function will not help here, because the deallocation can be done at different "levels".

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1  
This is why we have finally blocks in C# –  John Saunders Nov 19 '13 at 20:57
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Take a look at When To Use Goto When Programming in C:

Although the use of goto is almost always bad programming practice (surely you can find a better way of doing XYZ), there are times when it really isn't a bad choice. Some might even argue that, when it is useful, it's the best choice.

Most of what I have to say about goto really only applies to C. If you're using C++, there's no sound reason to use goto in place of exceptions. In C, however, you don't have the power of an exception handling mechanism, so if you want to separate out error handling from the rest of your program logic, and you want to avoid rewriting clean up code multiple times throughout your code, then goto can be a good choice.

What do I mean? You might have some code that looks like this:

int big_function()
{
    /* do some work */
    if([error])
    {
        /* clean up*/
        return [error];
    }
    /* do some more work */
    if([error])
    {
        /* clean up*/
        return [error];
    }
    /* do some more work */
    if([error])
    {
        /* clean up*/
        return [error];
    }
    /* do some more work */
    if([error])
    {
        /* clean up*/
        return [error];
    }
    /* clean up*/
    return [success];
}

This is fine until you realize that you need to change your cleanup code. Then you have to go through and make 4 changes. Now, you might decide that you can just encapsulate all of the cleanup into a single function; that's not a bad idea. But it does mean that you'll need to be careful with pointers -- if you plan to free a pointer in your cleanup function, there's no way to set it to then point to NULL unless you pass in a pointer to a pointer. In a lot of cases, you won't be using that pointer again anyway, so that may not be a major concern. On the other hand, if you add in a new pointer, file handle, or other thing that needs cleanup, then you'll need to change your cleanup function again; and then you'll need to change the arguments to that function.

By using goto, it will be

int big_function()
{
    int ret_val = [success];
    /* do some work */
    if([error])
    {
        ret_val = [error];
        goto end;
    }
    /* do some more work */
    if([error])
    {
        ret_val = [error];
        goto end;
    }
    /* do some more work */
    if([error])
    {
        ret_val = [error];
        goto end;
    }
    /* do some more work */
    if([error])
    {
        ret_val = [error];
        goto end;
    }
end:
    /* clean up*/
    return ret_val;
}

The benefit here is that your code following end has access to everything it will need to perform cleanup, and you've managed to reduce the number of change points considerably. Another benefit is that you've gone from having multiple exit points for your function to just one; there's no chance you'll accidentally return from the function without cleaning up.

Moreover, since goto is only being used to jump to a single point, it's not as though you're creating a mass of spaghetti code jumping back and forth in an attempt to simulate function calls. Rather, goto actually helps write more structured code.


In a word, goto should always be used sparingly, and as a last resort -- but there is a time and a place for it. The question should be not "do you have to use it" but "is it the best choice" to use it.

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A computer science teacher of mine joked that you use Goto when happy hour is approaching and you just need to submit something that works so you can make it in time :p

Otherwise, I've been taught that software programs should have one point of entry and one point of exit.

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