Everyone is aware of Dijkstra's Letters to the editor: go to statement considered harmful (also here .html transcript and here .pdf) and there has been a formidable push since that time to eschew the goto statement whenever possible. While it's possible to use goto to produce unmaintainable, sprawling code, it nevertheless remains in modern programming languages. Even the advanced continuation control structure in Scheme can be described as a sophisticated goto.

What circumstances warrant the use of goto? When is it best to avoid?

As a follow-up question: C provides a pair of functions, setjmp() and longjmp(), that provide the ability to goto not just within the current stack frame but within any of the calling frames. Should these be considered as dangerous as goto? More dangerous?

Dijkstra himself regretted that title, for which he was not responsible. At the end of EWD1308 (also here .pdf) he wrote:

Finally a short story for the record. In 1968, the Communications of the ACM published a text of mine under the title "The goto statement considered harmful", which in later years would be most frequently referenced, regrettably, however, often by authors who had seen no more of it than its title, which became a cornerstone of my fame by becoming a template: we would see all sorts of articles under the title "X considered harmful" for almost any X, including one titled "Dijkstra considered harmful". But what had happened? I had submitted a paper under the title "A case against the goto statement", which, in order to speed up its publication, the editor had changed into a "letter to the Editor", and in the process he had given it a new title of his own invention! The editor was Niklaus Wirth.

A well thought out classic paper about this topic, to be matched to that of Dijkstra, is Structured Programming with go to Statements, by Donald E. Knuth. Reading both helps to reestablish context and a non-dogmatic understanding of the subject. In this paper, Dijkstra's opinion on this case is reported and is even more strong:

Donald E. Knuth: I believe that by presenting such a view I am not in fact disagreeing sharply with Dijkstra's ideas, since he recently wrote the following: "Please don't fall into the trap of believing that I am terribly dogmatical about [the go to statement]. I have the uncomfortable feeling that others are making a religion out of it, as if the conceptual problems of programming could be solved by a single trick, by a simple form of coding discipline!"

  • 6
    I love it, Dijkstra himself is irritated by the flood of 'blah blah considered harmful' articles. I'm getting pretty tired of the phrase.
    – JAL
    Oct 24, 2009 at 4:18
  • 36
    Gotos are good when they add clearity. If you have a long nested loop, it can be better to goto out of it than setting "break" variables and breaking until you get out.
    – simendsjo
    Jun 17, 2010 at 7:45
  • 37
    If you have a nested loop on 4 depths (not that it's a good thing), breaking out of all requires setting temporary values. A goto here is much clearer to me, and the IDE should easily show where the goto is. That said, the use of goto should be sparse, and in my opinion only move down to skip code
    – simendsjo
    Jun 17, 2010 at 7:56
  • 7
    I suggest you go read the nine thousand and one threads tagged goto. Aug 9, 2010 at 20:52
  • 11
    There is one thing clearly worse than using goto: hacking structured programming tools together to implement a goto.
    – user1084944
    Apr 22, 2015 at 16:28

49 Answers 49



A coworker of mine said the only reason to use a GOTO is if you programmed yourself so far into a corner that it is the only way out. In other words, proper design ahead of time and you won't need to use a GOTO later.

I thought this comic illustrates that beautifully "I could restructure the program's flow, or use one little 'GOTO' instead." A GOTO is a weak way out when you have weak design. Velociraptors prey on the weak.

  • 52
    GOTO can make 'jump'ing from one arbitrary spot to another arbitrary spot. Velociraptor jumped to here from nowhere!
    – rpattabi
    Jul 10, 2010 at 18:29
  • 32
    i dont find the joke funny at all because everybody knows that you also have to link before you can execute. Dec 28, 2010 at 15:05
  • 40
    Your coworker is wrong, and obviously didn't read Knuth's paper.
    – Jim Balter
    Jan 7, 2013 at 5:25
  • 40
    I have seen no end of obfuscated and otherwise contorted code over the years put in place just to avoid a goto. @jimmcKeeth, The xkcd cartoon above doesn't establish that goto is weak. It's making fun of the hysteria around using it.
    – user4229245
    Feb 10, 2015 at 17:50
  • 5
    @JimMcKeeth Not so. Some algorithms are easier to understand with goto. There are very few examples, but there are some. In the RTL we have examples in System, System.Generics.Defaults and Vcl.Imaging.GIFImg. You could ask your colleagues why they are there. You can find examples in GR32 and Synopse libraries. This is code written by skilled developers. There are none my code base. But I don't think one needs to be quite so dogmatic about it. Nov 24, 2015 at 13:43

The following statements are generalizations; while it is always possible to plead exception, it usually (in my experience and humble opinion) isn't worth the risks.

  1. Unconstrained use of memory addresses (either GOTO or raw pointers) provides too many opportunities to make easily avoidable mistakes.
  2. The more ways there are to arrive at a particular "location" in the code, the less confident one can be about what the state of the system is at that point. (See below.)
  3. Structured programming IMHO is less about "avoiding GOTOs" and more about making the structure of the code match the structure of the data. For example, a repeating data structure (e.g. array, sequential file, etc.) is naturally processed by a repeated unit of code. Having built-in structures (e.g. while, for, until, for-each, etc.) allows the programmer to avoid the tedium of repeating the same cliched code patterns.
  4. Even if GOTO is low-level implementation detail (not always the case!) it's below the level that the programmer should be thinking. How many programmers balance their personal checkbooks in raw binary? How many programmers worry about which sector on the disk contains a particular record, instead of just providing a key to a database engine (and how many ways could things go wrong if we really wrote all of our programs in terms of physical disk sectors)?

Footnotes to the above:

Regarding point 2, consider the following code:

    a = b + 1
    /* do something with a */

At the "do something" point in the code, we can state with high confidence that a is greater than b. (Yes, I'm ignoring the possibility of untrapped integer overflow. Let's not bog down a simple example.)

On the other hand, if the code had read this way:

    goto 10
    a = b + 1
    10: /* do something with a */
    goto 10

The multiplicity of ways to get to label 10 means that we have to work much harder to be confident about the relationships between a and b at that point. (In fact, in the general case it's undecideable!)

Regarding point 4, the whole notion of "going someplace" in the code is just a metaphor. Nothing is really "going" anywhere inside the CPU except electrons and photons (for the waste heat). Sometimes we give up a metaphor for another, more useful, one. I recall encountering (a few decades ago!) a language where

    if (some condition) {
    } else {

was implemented on a virtual machine by compiling action-1 and action-2 as out-of-line parameterless routines, then using a single two-argument VM opcode which used the boolean value of the condition to invoke one or the other. The concept was simply "choose what to invoke now" rather than "go here or go there". Again, just a change of metaphor.

  • 2
    A good point. In higher-level languages goto doesn't really even mean anything (consider jumping between methods in Java). A Haskell function may consist of a single expression; try jumping out of that with a goto! Jul 11, 2011 at 23:08
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    Postscript works like your point 4 example. Jan 9, 2012 at 6:27
  • Smalltalk works similarly to the point 4 example, if by "similarly" you mean "nothing like procedural languages do". :P There's no flow control in the language; all decisions are handled via polymorphism (true and false are of different types), and each branch of an if/else is basically a lambda.
    – cHao
    Jul 25, 2014 at 15:49
  • 3
    These are valid points, but in the end they just reiterate how bad goto can be "if misused". Break, continue, exit, return, gosub, settimeout, global, include, etc. are all modern techniques that require mentally tracing the flow of things and can all be misused to create spaghetti code and skip around to create uncertainty of variable states. To be fair, though I've never seen a bad use of goto first-hand, I've also only ever seen it used once or twice. That speaks to the statement that there are most always better things to use.
    – Beejor
    Sep 12, 2015 at 4:38
  • goto in a modern programming language (Go) stackoverflow.com/a/11065563/3309046. Jun 27, 2016 at 5:51

Sometimes it is valid to use GOTO as an alternative to exception handling within a single function:

    if (f() == false) goto err_cleanup;
    if (g() == false) goto err_cleanup;
    if (h() == false) goto err_cleanup;

COM code seems to fall into this pattern fairly often.

  • 33
    I agree, there are legitimate use cases where, goto can simplify code and make it more readable/maintainable, but there seems to be some sort of goto-phobia floating around ... Nov 28, 2008 at 4:00
  • 55
    @Bob: It's hard to move the err_cleanup code into a subroutine if it's cleaning up local variables.
    – Niki
    Apr 12, 2009 at 8:00
  • 5
    Actually, I used it in COM/VB6 just because I had no alternative, not because it was an alternative. How happy I am nowadays with try / catch / finally. Jun 9, 2009 at 11:01
  • 12
    @user4891 The idiomatic C++ way is not try {} catch() { cleanup; }, but rather, RAII, where resources that need to be cleaned up are done so in destructors. Every constructor / destructor manages exactly one resource. Jul 10, 2012 at 1:59
  • 6
    There are two ways of writing this in C without goto; and both are much shorter. Either: if(f())if(g())if(h()) return success; cleanup(); return failure; or: if(f() && g() && h()) return success; cleanup(); return failure;
    – LHP
    Mar 5, 2014 at 11:00

I can only recall using a goto once. I had a series of five nested counted loops and I needed to be able to break out of the entire structure from the inside early based on certain conditions:

                GOTO ENDOFLOOPS;

I could just have easily declared a boolean break variable and used it as part of the conditional for each loop, but in this instance I decided a GOTO was just as practical and just as readable.

No velociraptors attacked me.

  • 95
    "Refactor it into a function and replace goto with return :)", and the difference is? really what's the difference? isn't return a go to also? Returns also brakes the structured flow of like goto does, and in this case they do it the same way (even if goto can be used for meaner things) Nov 28, 2008 at 4:04
  • 46
    Nesting lots of loops is usually a code smell all it's own. Unless you are doing, like, 5-dimensional array multiplication, it's hard to picture a situation where some of the inner loops couldn't be usefully extracted into smaller functions. Like all rules of thumb, there are a handful of exceptions I suppose. Jul 17, 2009 at 5:29
  • 6
    Replacing it with a return only works if you are using a language that supports returns. Oct 24, 2009 at 3:31
  • 38
    @leppie: The generation that rebelled against goto and gave us structured programming also rejected early returns, for the same reason. It comes down to how readable the code is, how clearly it expressed the programmer's intent. Creating a function for no other purpose than to avoid using an maligned keyword results in bad cohesion: the cure is worse than the disease.
    – Mud
    Jan 30, 2012 at 21:58
  • 25
    @ButtleButkus: Frankly, that's just as bad, if not worse. At least with a goto, one can explicitly specify the target. With break 5;, (1) i have to count loop closings to find the destination; and (2) if the loop structure ever changes, it may well require changing that number in order to keep the destination correct. If i'm going to avoid goto, then the gain should be in not having to manually track stuff like that.
    – cHao
    May 26, 2013 at 12:43

Goto is extremely low on my list of things to include in a program just for the sake of it. That doesn't mean it's unacceptable.

Goto can be nice for state machines. A switch statement in a loop is (in order of typical importance): (a) not actually representative of the control flow, (b) ugly, (c) potentially inefficient depending on language and compiler. So you end up writing one function per state, and doing things like "return NEXT_STATE;" which even look like goto.

Granted, it is difficult to code state machines in a way which make them easy to understand. However, none of that difficulty is to do with using goto, and none of it can be reduced by using alternative control structures. Unless your language has a 'state machine' construct. Mine doesn't.

On those rare occasions when your algorithm really is most comprehensible in terms of a path through a sequence of nodes (states) connected by a limited set of permissible transitions (gotos), rather than by any more specific control flow (loops, conditionals, whatnot), then that should be explicit in the code. And you ought to draw a pretty diagram.

setjmp/longjmp can be nice for implementing exceptions or exception-like behaviour. While not universally praised, exceptions are generally considered a "valid" control structure.

setjmp/longjmp are 'more dangerous' than goto in the sense that they're harder to use correctly, never mind comprehensibly.

There never has been, nor will there ever be, any language in which it is the least bit difficult to write bad code. -- Donald Knuth.

Taking goto out of C would not make it any easier to write good code in C. In fact, it would rather miss the point that C is supposed to be capable of acting as a glorified assembler language.

Next it'll be "pointers considered harmful", then "duck typing considered harmful". Then who will be left to defend you when they come to take away your unsafe programming construct? Eh?

  • 17
    Personaly, this is the comment I would have given the check to. One thing I'd like to point out to readers is that the esoteric term "state machines" includes such everyday things as lexical analysers. Check out the output of lex somtime. Full of gotos.
    – T.E.D.
    Dec 10, 2008 at 18:39
  • 2
    You can use a switch statement inside of a loop (or event handler) to do state machines just fine. I've done lots of state machines without ever having to use a jmp or goto. Mar 2, 2009 at 17:49
  • 14
    +1 Those arrows on state machines map to 'goto' more closely than to any other control structure. Sure, you can use a switch inside a loop -- just like you can use a bunch of gotos instead of a while for other problems, but it's usually a idea; which is the whole point of this discussion.
    – Edmund
    Apr 6, 2009 at 23:35
  • 3
    Can I quote you on that last paragraph?
    – Chris Lutz
    Apr 23, 2009 at 3:33
  • 3
    And, here in 2013, we've already hit (and kinda gotten past) the "pointers considered harmful" phase.
    – Claudia
    Jul 5, 2014 at 4:25

We already had this discussion and I stand by my point.

Furthermore, I'm fed up with people describing higher-level language structures as “goto in disguise” because they clearly haven't got the point at all. For example:

Even the advanced continuation control structure in Scheme can be described as a sophisticated goto.

That is complete nonsense. Every control structure can be implemented in terms of goto but this observation is utterly trivial and useless. goto isn't considered harmful because of its positive effects but because of its negative consequences and these have been eliminated by structured programming.

Similarly, saying “GOTO is a tool, and as all tools, it can be used and abused” is completely off the mark. No modern construction worker would use a rock and claim it “is a tool.” Rocks have been replaced by hammers. goto has been replaced by control structures. If the construction worker were stranded in the wild without a hammer, of course he would use a rock instead. If a programmer has to use an inferior programming language that doesn't have feature X, well, of course she may have to use goto instead. But if she uses it anywhere else instead of the appropriate language feature she clearly hasn't understood the language properly and uses it wrongly. It's really as simple as that.

  • 88
    Of course, the proper use of a rock isn't as a hammer. One of its proper uses is a grinding stone, or for sharpening other tools. Even the lowly rock, when used properly is a good tool. You just have to find the proper usage. Same goes for goto.
    – Kibbee
    Nov 27, 2008 at 14:00
  • 10
    So what is the proper use of Goto? For every case imaginable there's another tool better suited. And even your grinding stone is actually replaced by high-tech tools nowadays, even if they are still made of rock. There's a big difference between a raw material and a tool. Nov 27, 2008 at 17:56
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    @jalf: Goto most certainly does exist in C#. See stackoverflow.com/questions/359436/…
    – Jon Skeet
    Dec 11, 2008 at 15:30
  • 55
    I am dismayed so many people approve of this post. Your post only seemed effective because you never bothered to question what logic you were actually performing, thus you failed to notice your fallacy. Allow me to paraphrase your entire post: "There is a superior tool for a goto in every situation, so gotos should never be used." This is a logical biconditional, and as such your entire post is essentially begging the question "How do you know there is a superior tool for a goto in every situation?" Feb 3, 2010 at 22:00
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    @Coding: No, you completely missed the gist of the posting. It was a riposte rather than an isolated, complete argument. I merely pointed out the fallacy in the main argument “for” goto. You are right in so far as I don’t offer an argument against goto per se – I didn’t intend to – so there’s no question-begging. Feb 4, 2010 at 9:34

In Linux: Using goto In Kernel Code on Kernel Trap, there's a discussion with Linus Torvalds and a "new guy" about the use of GOTOs in Linux code. There are some very good points there and Linus dressed in that usual arrogance :)

Some passages:

Linus: "No, you've been brainwashed by CS people who thought that Niklaus Wirth actually knew what he was talking about. He didn't. He doesn't have a frigging clue."


Linus: "I think goto's are fine, and they are often more readable than large amounts of indentation."


Linus: "Of course, in stupid languages like Pascal, where labels cannot be descriptive, goto's can be bad."

  • 9
    That's a good point how? They are discussing its use in a language which has nothing else. When you're programming in assembly, all branches and jumps are goto's. And C is, and was, a "portable assembly language". Moreover, the passages you quote say nothing about why he thinks goto is good.
    – jalf
    Dec 10, 2008 at 18:37
  • 6
    Wow. That's disappointing to read. You'd think a big OS guy like Linus Torvalds would know better than to say that. Pascal (old-school pascal, not the modern Object version) was what Mac OS Classic was written in during the 68k period, and it was the most advanced operating system of its time. Dec 15, 2008 at 22:51
  • 6
    @mason Classic Mac OS had some Pascal libraries (eventually -- the Pascal runtime took up too much memory in the early Macs) but the majority of the core code was written in Assembler, particularly the graphics and UI routines.
    – Jim Dovey
    May 18, 2009 at 22:27
  • 33
    Linus only argues (explicitly, like Rik van Riel in that discussion) for goto for handling exit status, and he does so on the basis of the complexity that C's alternative constructs would bring if they were used instead. Jan 12, 2010 at 13:40
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    IMHO Linus is right on this issue. His point is that kernel code, written in C, that needs to implement something similar to exception handling, is most clearly and simply written by using a goto. The idiom goto cleanup_and_exit is one of the few "good" uses of goto left now that we have for, while, and if to manage our control flow. See also: programmers.stackexchange.com/a/154980
    – steveha
    Oct 18, 2013 at 5:55

Today, it's hard to see the big deal about the GOTO statement because the "structured programming" people mostly won the debate and today's languages have sufficient control flow structures to avoid GOTO.

Count the number of gotos in a modern C program. Now add the number of break, continue, and return statements. Furthermore, add the number of times you use if, else, while, switch or case. That's about how many GOTOs your program would have had if you were writing in FORTRAN or BASIC in 1968 when Dijkstra wrote his letter.

Programming languages at the time were lacking in control flow. For example, in the original Dartmouth BASIC:

  • IF statements had no ELSE. If you wanted one, you had to write:

    100 IF NOT condition THEN GOTO 200
    ...stuff to do if condition is true...
    190 GOTO 300
    200 REM else
    ...stuff to do if condition is false...
    300 REM end if
  • Even if your IF statement didn't need an ELSE, it was still limited to a single line, which usually consisted of a GOTO.

  • There was no DO...LOOP statement. For non-FOR loops, you had to end the loop with an explicit GOTO or IF...GOTO back to the beginning.

  • There was no SELECT CASE. You had to use ON...GOTO.

So, you ended up with a lot of GOTOs in your program. And you couldn't depend on the restriction of GOTOs to within a single subroutine (because GOSUB...RETURN was such a weak concept of subroutines), so these GOTOs could go anywhere. Obviously, this made control flow hard to follow.

This is where the anti-GOTO movement came from.

  • Another thing to note is that the preferred way of writing code if one had some code in a loop which would have to execute rarely would be 420 if (rare_condition) then 3000 // 430 and onward: rest of loop and other main-line code // 3000 [code for rare condition] // 3230 goto 430. Writing code that way avoids any taken branches or jumps in the common main-line case, but it does make things hard to follow. Branch avoidance in assembly code can be worse, if some branches are limited to e.g. +/- 128 bytes and sometimes don't have complementary pairs (e.g. "cjne" exists but not "cje").
    – supercat
    May 13, 2012 at 15:58
  • I once wrote some code for the 8x51 which had an interrupt that ran once every 128 cycles. Every extra cycle spent in that ISR's common case would reduce the execution speed of mainline code by more than 1% (I think about 90 cycles out of 128 were usually available to the main-line), and any branching instruction would take two cycles (in both branching and fall-through cases). The code had two comparisons--one which would usually report equal; the other, not-equal. In both cases, the rare-case code was more than 128 bytes away. So...
    – supercat
    May 13, 2012 at 16:05
  • cjne r0,expected_value,first_comp_springboard /.../ cjne r1,unexpected_value,second_comp_fallthrough // ` ajmp second_comp_target` // first_comp_springboard: ajmp first_comp_target // second_comp_fallthrough: .... Not a very nice coding pattern, but when individual cycles count, one does such things. Of course, in the 1960's, such levels of optimization were more important than today, especially since modern CPUs often require weird optimizations, and just-in-time compile systems may be able to apply optimize code for CPUs that didn't exist when the code in question was written.
    – supercat
    May 13, 2012 at 16:09

In C, goto only works within the scope of the current function, which tends to localise any potential bugs. setjmp and longjmp are far more dangerous, being non-local, complicated and implementation-dependent. In practice however, they're too obscure and uncommon to cause many problems.

I believe that the danger of goto in C is greatly exaggerated. Remember that the original goto arguments took place back in the days of languages like old-fashioned BASIC, where beginners would write spaghetti code like this:

3420 IF A > 2 THEN GOTO 1430

Here Linus describes an appropriate use of goto: http://www.kernel.org/doc/Documentation/CodingStyle (chapter 7).

  • 7
    When BASIC was first available, there wasn't any alternative to GOTO nnnn and GOSUB mmmm as ways to jump around. Structured constructs were added later. Oct 24, 2009 at 6:13
  • 7
    You're missing the point... even then you didn't have to write spaghetti... your GOTOs could always be used in a disciplined manner
    – JoelFan
    Jan 11, 2010 at 19:01
  • It's also worth noting that the behavior of setjmp/longjmp was only specified when they were used as a means of jumping to a spot within a scope from other places within that same scope. Once control leaves the scope where setjmp is executed, any attempt to use longjmp on the structure created by setjmp will result in undefined behavior.
    – supercat
    May 13, 2012 at 20:28
  • 9
    Some versions of BASIC would let you do GOTO A * 40 + B * 200 + 30. It's not hard to see how this was very handy, and very dangerous.
    – Jon Hanna
    Aug 13, 2012 at 10:13
  • 1
    @Hjulle it would compute the expression and then go to the line of code with that number (explicit line numbers was a requirement of most earlier dialects). ZX Spectrum Basic was one that would accept that
    – Jon Hanna
    May 9, 2017 at 23:44

Go To can provide a sort of stand-in for "real" exception handling in certain cases. Consider:

ptr = malloc(size);
if (!ptr) goto label_fail;
bytes_in = read(f_in,ptr,size);
if (bytes_in=<0) goto label_fail;
bytes_out = write(f_out,ptr,bytes_in);
if (bytes_out != bytes_in) goto label_fail;

Obviously this code was simplified to take up less space, so don't get too hung up on the details. But consider an alternative I've seen all too many times in production code by coders going to absurd lengths to avoid using goto:

do {
    ptr = malloc(size);
    if (!ptr) break;
    bytes_in = read(f_in,ptr,size);
    if (count=<0) break;
    bytes_out = write(f_out,ptr,bytes_in);
    if (bytes_out != bytes_in) break;
    success = true;
} while (false);

Now functionally this code does the exact same thing. In fact, the code generated by the compiler is nearly identical. However, in the programmer's zeal to appease Nogoto (the dreaded god of academic rebuke), this programmer has completely broken the underlying idiom that the while loop represents, and did a real number on the readability of the code. This is not better.

So, the moral of the story is, if you find yourself resorting to something really stupid in order to avoid using goto, then don't.

  • 1
    Although I tend to agree with what you're saying here, the fact that the break statements are inside a control structure makes clear exactly what they do. With the goto example, the person reading the code has to look over the code to find the label, which in theory, could actually be before the control structure. I'm not experienced enough with old-style C to make a judgement that one is definitely better than the other, but there are trade-offs either way. Jul 5, 2012 at 18:51
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    @DanielAllenLangdon: The fact that the breaks are inside a loop makes clear exactly that they exit the loop. That's not "exactly what they do", since in reality, there's not a loop at all! Nothing in it ever has a chance of repeating, but that's not clear til the end. The fact that you have a "loop" that never runs more than once, means that control structures are being abused. With the goto example, the programmer can say goto error_handler;. It is more explicit, and even less difficult to follow. (Ctrl+F, "error_handler:" to find the target. Try doing that with "}".)
    – cHao
    May 26, 2013 at 12:05
  • 1
    I once saw code similar to your second example in an air traffic control system - because 'goto is not in our lexicon'.
    – QED
    Aug 1, 2013 at 13:04

Donald E. Knuth answered this question in the book "Literate Programming", 1992 CSLI. On p. 17 there is an essay "Structured Programming with goto Statements" (PDF). I think the article might have been published in other books as well.

The article describes Dijkstra's suggestion and describes the circumstances where this is valid. But he also gives a number of counter examples (problems and algorithms) which cannot be easily reproduced using structured loops only.

The article contains a complete description of the problem, the history, examples and counter examples.


Goto considered helpful.

I started programming in 1975. To 1970s-era programmers, the words "goto considered harmful" said more or less that new programming languages with modern control structures were worth trying. We did try the new languages. We quickly converted. We never went back.

We never went back, but, if you are younger, then you have never been there in the first place.

Now, a background in ancient programming languages may not be very useful except as an indicator of the programmer's age. Notwithstanding, younger programmers lack this background, so they no longer understand the message the slogan "goto considered harmful" conveyed to its intended audience at the time it was introduced.

Slogans one does not understand are not very illuminating. It is probably best to forget such slogans. Such slogans do not help.

This particular slogan however, "Goto considered harmful," has taken on an undead life of its own.

Can goto not be abused? Answer: sure, but so what? Practically every programming element can be abused. The humble bool for example is abused more often than some of us would like to believe.

By contrast, I cannot remember meeting a single, actual instance of goto abuse since 1990.

The biggest problem with goto is probably not technical but social. Programmers who do not know very much sometimes seem to feel that deprecating goto makes them sound smart. You might have to satisfy such programmers from time to time. Such is life.

The worst thing about goto today is that it is not used enough.

  • 1
    I can't wait for "manual memory management considered harmful". but we don't speak against the "church of C" Nov 23, 2020 at 21:09
  • @LuizFelipe The first half of your comment makes sense to me: excessively manual memory management is a big practical problem, indeed. However, I do not understand your quoted remark about the "church of C." As far as I know, the C programming language survives and prospers because it is small and does well that which it was designed to do: to act as a portable assembler. C++ and Rust do it better, of course, but they are not small.
    – thb
    Feb 6, 2021 at 11:25
  • 1
    Did you ever read the C11 standard? C is not small. Feb 22, 2021 at 15:23

Attracted by Jay Ballou adding an answer, I'll add my £0.02. If Bruno Ranschaert had not already done so, I'd have mentioned Knuth's "Structured Programming with GOTO Statements" article.

One thing that I've not seen discussed is the sort of code that, while not exactly common, was taught in Fortran text books. Things like the extended range of a DO loop and open-coded subroutines (remember, this would be Fortran II, or Fortran IV, or Fortran 66 - not Fortran 77 or 90). There's at least a chance that the syntactic details are inexact, but the concepts should be accurate enough. The snippets in each case are inside a single function.

Note that the excellent but dated (and out of print) book 'The Elements of Programming Style, 2nd Edn' by Kernighan & Plauger includes some real-life examples of abuse of GOTO from programming text books of its era (late-70s). The material below is not from that book, however.

Extended range for a DO loop

       do 10 i = 1,30
           if (k.gt.4) goto 37
91         ...blah...
10     continue
37     ...some computation...
       goto 91

One reason for such nonsense was the good old-fashioned punch-card. You might notice that the labels (nicely out of sequence because that was canonical style!) are in column 1 (actually, they had to be in columns 1-5) and the code is in columns 7-72 (column 6 was the continuation marker column). Columns 73-80 would be given a sequence number, and there were machines that would sort punch card decks into sequence number order. If you had your program on sequenced cards and needed to add a few cards (lines) into the middle of a loop, you'd have to repunch everything after those extra lines. However, if you replaced one card with the GOTO stuff, you could avoid resequencing all the cards - you just tucked the new cards at the end of the routine with new sequence numbers. Consider it to be the first attempt at 'green computing' - a saving of punch cards (or, more specifically, a saving of retyping labour - and a saving of consequential rekeying errors).

Oh, you might also note that I'm cheating and not shouting - Fortran IV was written in all upper-case normally.

Open-coded subroutine

       i = 1
       goto 76
123    ...blah...
       i = 2
       goto 76
79     ...blah...
       goto 54
12     continue
76     ...calculate something...
       goto (123, 79) i
54     ...more calculation...
       goto 12

The GOTO between labels 76 and 54 is a version of computed goto. If the variable i has the value 1, goto the first label in the list (123); if it has the value 2, goto the second, and so on. The fragment from 76 to the computed goto is the open-coded subroutine. It was a piece of code executed rather like a subroutine, but written out in the body of a function. (Fortran also had statement functions - which were embedded functions that fitted on a single line.)

There were worse constructs than the computed goto - you could assign labels to variables and then use an assigned goto. Googling assigned goto tells me it was deleted from Fortran 95. Chalk one up for the structured programming revolution which could fairly be said to have started in public with Dijkstra's "GOTO Considered Harmful" letter or article.

Without some knowledge of the sorts of things that were done in Fortran (and in other languages, most of which have rightly fallen by the wayside), it is hard for us newcomers to understand the scope of the problem which Dijkstra was dealing with. Heck, I didn't start programming until ten years after that letter was published (but I did have the misfortune to program in Fortran IV for a while).

  • 2
    If you want to see an example of some code using goto 'in the wild', the question Wanted: Working Bose-Hibbard Sort Algorithm shows some (Algol 60) code published in 1963. The original layout doesn't compare to modern coding standards. The clarified (indented) code is still fairly inscrutable. The goto statements there do make it (very) hard to understand what the algorithm is up to. Mar 16, 2013 at 23:14
  • 1
    Being too young to have experienced anything close to punch cards, it was enlightening to read about the re-punching problem. +1 Dec 1, 2014 at 3:53

There is no such things as GOTO considered harmful.

GOTO is a tool, and as all tools, it can be used and abused.

There are, however, many tools in the programming world that have a tendency to be abused more than being used, and GOTO is one of them. the WITH statement of Delphi is another.

Personally I don't use either in typical code, but I've had the odd usage of both GOTO and WITH that were warranted, and an alternative solution would've contained more code.

The best solution would be for the compiler to just warn you that the keyword was tainted, and you'd have to stuff a couple of pragma directives around the statement to get rid of the warnings.

It's like telling your kids to not run with scissors. Scissors are not bad, but some usage of them are perhaps not the best way to keep your health.

  • The problem with GOTO is that it breaks important invariants that we take for granted with modern programming languages. To take one example, if I call a function, we assume that when the function completes, it will return control to the caller, either normally, or via exceptional stack unwinding. If that function mis-uses GOTO, then of course this is no longer true. This makes it very hard to reason about our code. It is not sufficient to carefully avoid the mis-use of GOTO. The problem still occurs if GOTO is misused by our dependencies... Sep 9, 2019 at 2:17
  • ... So in order to know whether we can reason about our function calls, we need to examine every line of the source code of every one of our transitive dependencies, checking that they do not misuse GOTO. So just the existence of GOTO in the language has broken our ability to confidently reason about our own code, even if we use it perfectly (or never use it) ourselves. For this reason, GOTO is not just a tool to be used carefully. It is systemically broken and its existence in a language is unilaterally considered harmful. Sep 9, 2019 at 2:17
  • Even if the goto keyword was scrubbed from C#, the concept of "jump here" still exists in IL. An infinite loop can easily be constructed without the goto keyword. If this lack of guarantee that the called code will return, in your opinion, means "unable to reason about the code", then I'd say we never had that ability. Sep 9, 2019 at 7:45
  • Ah, you have insightfuly found the source of our miscommunication. The goto in C# is not a real "goto" in the original sense of the word. It is a much weaker version that only allows for jumping within a function. The sense in which I'm using "goto" allows for jumping anywhere in process. So although C# has a "goto" keyword, it arguably has never had, a real goto. Yes, a real goto is available at IL level, in the same way that it is when any language is compiled down to assembly. But the programmer is shielded from that, unable to use it under normal circumstances, so it doesn't count. Sep 9, 2019 at 13:46
  • Incidentally, the opinion I'm describing here is not originally mine, but is the core of Dijkstra's original paper from 1967 I think, re-titled by his editor "Goto considered harmful", which has become such an oft-quoted meme for 50 years precisely because it was so revolutionary, insightful, and universally accepted. Sep 9, 2019 at 13:47

Since I began doing a few things in the linux kernel, gotos don't bother me so much as they once did. At first I was sort of horrified to see they (kernel guys) added gotos into my code. I've since become accustomed to the use of gotos, in some limited contexts, and will now occasionally use them myself. Typically, it's a goto that jumps to the end of a function to do some kind of cleanup and bail out, rather than duplicating that same cleanup and bailout in several places in the function. And typically, it's not something large enough to hand off to another function -- e.g. freeing some locally (k)malloc'ed variables is a typical case.

I've written code that used setjmp/longjmp only once. It was in a MIDI drum sequencer program. Playback happened in a separate process from all user interaction, and the playback process used shared memory with the UI process to get the limited info it needed to do the playback. When the user wanted to stop playback, the playback process just did a longjmp "back to the beginning" to start over, rather than some complicated unwinding of wherever it happened to be executing when the user wanted it to stop. It worked great, was simple, and I never had any problems or bugs related to it in that instance.

setjmp/longjmp have their place -- but that place is one you'll not likely visit but once in a very long while.

Edit: I just looked at the code. It was actually siglongjmp() that I used, not longjmp (not that it's a big deal, but I had forgotten that siglongjmp even existed.)


It never was, as long as you were able to think for yourself.


Because goto can be used for confusing metaprogramming

Goto is both a high-level and a low-level control expression, and as a result it just doesn't have a appropriate design pattern suitable for most problems.

It's low-level in the sense that a goto is a primitive operation that implements something higher like while or foreach or something.

It's high-level in the sense that when used in certain ways it takes code that executes in a clear sequence, in an uninterrupted fashion, except for structured loops, and it changes it into pieces of logic that are, with enough gotos, a grab-bag of logic being dynamically reassembled.

So, there is a prosaic and an evil side to goto.

The prosaic side is that an upward pointing goto can implement a perfectly reasonable loop and a downward-pointing goto can do a perfectly reasonable break or return. Of course, an actual while, break, or return would be a lot more readable, as the poor human wouldn't have to simulate the effect of the goto in order to get the big picture. So, a bad idea in general.

The evil side involves a routine not using goto for while, break, or return, but using it for what's called spaghetti logic. In this case the goto-happy developer is constructing pieces of code out of a maze of goto's, and the only way to understand it is to simulate it mentally as a whole, a terribly tiring task when there are many goto's. I mean, imagine the trouble of evaluating code where the else is not precisely an inverse of the if, where nested ifs might allow in some things that were rejected by the outer if, etc, etc.

Finally, to really cover the subject, we should note that essentially all early languages except Algol initially made only single statements subject to their versions of if-then-else. So, the only way to do a conditional block was to goto around it using an inverse conditional. Insane, I know, but I've read some old specs. Remember that the first computers were programmed in binary machine code so I suppose any kind of an HLL was a lifesaver; I guess they weren't too picky about exactly what HLL features they got.

Having said all that I used to stick one goto into every program I wrote "just to annoy the purists".

  • 5
    +1 for annoying the purists! :-)
    – Lumi
    Jun 19, 2011 at 15:56

If you're writing a VM in C, it turns out that using (gcc's) computed gotos like this:

char run(char *pc) {
    void *opcodes[3] = {&&op_inc, &&op_lda_direct, &&op_hlt};
    #define NEXT_INSTR(stride) goto *(opcodes[*(pc += stride)])
    acc = ram[++pc];
    return acc;

works much faster than the conventional switch inside a loop.

  • Only problem, that it's not standard, is it?
    – Calmarius
    Oct 19, 2011 at 9:15
  • &&op_inc certainly does not compile, because (the left) & expects an lvalue, but (the right) & yields an rvalue. Nov 13, 2011 at 8:37
  • 8
    @FredO: It's a special GCC operator. However, I'd reject this code in all but the direst of circumstances, because I most assuredly cannot understand wtf's going on.
    – Puppy
    Nov 13, 2011 at 9:00
  • While this is one example (max. optimization for speed) that justifies both the use of goto's and the cryptic code, it should still be highly commented to explain the need for optimization, roughly how it works, and the best line-by-line comments that can be made. So, it still fails, but because it leaves maintenance programmers in the dark. But I DO like the VM example. Thanks. Nov 17, 2019 at 0:48

Denying the use of the GOTO statement to programmers is like telling a carpenter not to use a hammer as it Might damage the wall while he is hammering in a nail. A real programmer Knows How and When to use a GOTO. I’ve followed behind some of these so-called ‘Structured Programs’ I’ve see such Horrid code just to avoid using a GOTO, that I could shoot the programmer. Ok, In defense of the other side, I’ve seen some real spaghetti code too and again, those programmers should be shot too.

Here is just one small example of code I’ve found.

  YORN = ''
     CRT 'Is this correct? (Y/N) : ':
     CRT 'Aborted!'


10:  CRT 'Is this Correct (Y)es/(N)o ':


        CRT 'Aborted!'
     IF YORN<>'Y' THEN GOTO 10
  • 3
    DO CRT 'Is this correct? (Y/N) : ': INPUT YORN UNTIL YORN = 'Y' OR YORN = 'N'; etc.
    – joel.neely
    Feb 14, 2009 at 22:11
  • 5
    Indeed, but more importantly, a real programmer knows when not to use a goto - and knows why. Avoiding a taboo language construct because $programming_guru said so, that's the very definition of cargo-cult programming. Jun 17, 2010 at 8:26
  • 1
    It's a good analogy. To drive a nail without damaging the substrate, you don't eliminate the hammer. Rather, you use a simple tool known as a nail punch. This is a metallic pin with a tapered end that has a hollow indentation at its tip, to securely couple with the nail head (these tools come in different sizes for different nails). The other, blunt end of the nail punch is struck with a hammer.
    – Kaz
    Feb 17, 2015 at 0:18

"In this link http://kerneltrap.org/node/553/2131"

Ironically, eliminating the goto introduced a bug: the spinlock call was omitted.

  • +1 for 'eliminating the goto introduced a bug'
    – QED
    Aug 1, 2013 at 13:05

About the only place I agree Goto could be used is when you need to deal with errors, and each particular point an error occurs requires special handling.

For instance, if you're grabbing resources and using semaphores or mutexes, you have to grab them in order and you should always release them in the opposite manner.

Some code requires a very odd pattern of grabbing these resources, and you can't just write an easily maintained and understood control structure to correctly handle both the grabbing and releasing of these resources to avoid deadlock.

It's always possible to do it right without goto, but in this case and a few others Goto is actually the better solution primarily for readability and maintainability.



One thing I've not seen from any of the answers here is that a 'goto' solution is often more efficient than one of the structured programming solutions often mentioned.

Consider the many-nested-loops case, where using 'goto' instead of a bunch of if(breakVariable) sections is obviously more efficient. The solution "Put your loops in a function and use return" is often totally unreasonable. In the likely case that the loops are using local variables, you now have to pass them all through function parameters, potentially handling loads of extra headaches that arise from that.

Now consider the cleanup case, which I've used myself quite often, and is so common as to have presumably been responsible for the try{} catch {} structure not available in many languages. The number of checks and extra variables that are required to accomplish the same thing are far worse than the one or two instructions to make the jump, and again, the additional function solution is not a solution at all. You can't tell me that's more manageable or more readable.

Now code space, stack usage, and execution time may not matter enough in many situations to many programmers, but when you're in an embedded environment with only 2KB of code space to work with, 50 bytes of extra instructions to avoid one clearly defined 'goto' is just laughable, and this is not as rare a situation as many high-level programmers believe.

The statement that 'goto is harmful' was very helpful in moving towards structured programming, even if it was always an over-generalization. At this point, we've all heard it enough to be wary of using it (as we should). When it's obviously the right tool for the job, we don't need to be scared of it.


The original paper should be thought of as "Unconditional GOTO Considered Harmful". It was in particular advocating a form of programming based on conditional (if) and iterative (while) constructs, rather than the test-and-jump common to early code. goto is still useful in some languages or circumstances, where no appropriate control structure exists.


I actually found myself forced to use a goto, because I literally couldn't think of a better (faster) way to write this code:

I had a complex object, and I needed to do some operation on it. If the object was in one state, then I could do a quick version of the operation, otherwise I had to do a slow version of the operation. The thing was that in some cases, in the middle of the slow operation, it was possible to realise that this could have been done with the fast operation.

SomeObject someObject;    

if (someObject.IsComplex())    // this test is trivial
    // begin slow calculations here
    if (result of calculations)
        // just discovered that I could use the fast calculation !
        goto Fast_Calculations;
    // do the rest of the slow calculations here

if (someObject.IsmediumComplex())    // this test is slightly less trivial
    // Do fast calculations

// object is simple, no calculations needed.

This was in a speed critical piece of realtime UI code, so I honestly think that a GOTO was justified here.


  • The non-GOTO way would be to use a fast_calculations function, which incurs some overhead. Probably not noticeable in most circumstances, but as you said this was speed-critical. Jan 17, 2009 at 19:01
  • 3
    Well that is hardly surprising. All code that has absolutely insane performance guidelines will always break pretty much all best-practices. Best practices are for reachability, and maintainability, not for squeezing out 10 more milliseconds or saving 5 bytes more ram.
    – Jonathon
    May 31, 2014 at 22:12
  • 3
    @JonathonWisnoski, legitimate uses of goto also eliminate insane amounts of spagetti code meddling with a rat's nests of variables to keep track where we are going.
    – vonbrand
    Oct 11, 2015 at 1:11

Until C and C++ (amongst other culprits) have labelled breaks and continues, goto will continue to have a role.

  • So labeled break or continue would be different from goto how? Mar 17, 2010 at 12:33
  • 3
    They don't permit totally arbitrary jumps in control flow.
    – DrPizza
    Apr 2, 2010 at 21:53

If GOTO itself were evil, compilers would be evil, because they generate JMPs. If jumping into a block of code, especially following a pointer, were inherently evil, the RETurn instruction would be evil. Rather, the evil is in the potential for abuse.

At times I have had to write apps that had to keep track of a number of objects where each object had to follow an intricate sequence of states in response to events, but the whole thing was definitely single-thread. A typical sequence of states, if represented in pseudo-code would be:

request something
wait for it to be done
while some condition
    request something
    wait for it
    if one response
        while another condition
            request something
            wait for it
            do something
        request one more thing
        wait for it
    else if some other response
        ... some other similar sequence ...
    ... etc, etc.

I'm sure this is not new, but the way I handled it in C(++) was to define some macros:

#define WAIT(n) do{state=(n); enque(this); return; L##n:;}while(0)
#define DONE state = -1

#define DISPATCH0 if state < 0) return;
#define DISPATCH1 if(state==1) goto L1; DISPATCH0
#define DISPATCH2 if(state==2) goto L2; DISPATCH1
#define DISPATCH3 if(state==3) goto L3; DISPATCH2
#define DISPATCH4 if(state==4) goto L4; DISPATCH3
... as needed ...

Then (assuming state is initially 0) the structured state machine above turns into the structured code:

    DISPATCH4; // or as high a number as needed
    request something;
    WAIT(1); // each WAIT has a different number
    while (some condition){
        request something;
        if (one response){
            while (another condition){
                request something;
                do something;
            request one more thing;
        else if (some other response){
            ... some other similar sequence ...
        ... etc, etc.

With a variation on this, there can be CALL and RETURN, so some state machines can act like subroutines of other state machines.

Is it unusual? Yes. Does it take some learning on the part of the maintainer? Yes. Does that learning pay off? I think so. Could it be done without GOTOs that jump into blocks? Nope.

  • 1
    Avoiding a language feature out of fear is a sign of brain damage. This is also niftier than hell. Apr 23, 2014 at 22:16

One modern GOTO usage is by the C# compiler to create state machines for enumerators defined by yield return.

GOTO is something that should be used by compilers and not programmers.

  • 5
    Who exactly do you think creates the compilers?
    – tloach
    Sep 23, 2008 at 18:41
  • 10
    Compilers, of course!
    – Seiti
    Nov 28, 2008 at 3:32
  • 3
    I think he means "GOTO is something that should only be used by code emitted by a compiler". Nov 28, 2008 at 4:53
  • This is a case against goto. Where we might use goto in a state-machine coded by hand to implement an enumerator, we can just use yield instead.
    – Jon Hanna
    Aug 13, 2012 at 10:22
  • switch on many string (to prevent compile to if-else) with default case compiles to switch with goto statement. Aug 24, 2015 at 23:12

I avoid it since a coworker/manager will undoubtedly question its use either in a code review or when they stumble across it. While I think it has uses (the error handling case for example) - you'll run afoul of some other developer who will have some type of problem with it.

It’s not worth it.

  • The nice thing about Try...Catch blocks in C# is that they take care of cleaning up the stack and other allocated resources (called unwinding the stack) as the exception bubbles up to an exception handler. This makes a Try...Catch much better than Goto, so if you have Try...Catch, use it. Mar 2, 2009 at 17:54
  • I have a better solution: wrap the chunk of code you want to pop out of in a 'do { ... } while (0);' loop. That way, you can jump out in the same manner as a goto without the overhead of the try/catch loop (I don't know about C#, but in C++ try is low-cost & catch is high-cost, so it seems excessive to throw an exception where a simple jump would suffice).
    – Jim Dovey
    May 18, 2009 at 22:38
  • 11
    Jim, the problem with that is that it's nothing more than a stupidly roundabout way of obtaining a goto. Feb 6, 2010 at 1:13

Almost all situations where a goto can be used, you can do the same using other constructs. Goto is used by the compiler anyway.

I personally never use it explicitly, don't ever need to.


You can use it for breaking from a deeply nested loop, but most of the time your code can be refactored to be cleaner without deeply nested loops.

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