Question

Are there good reasons why it's better practice to have only one return statement in a function ?

Or is it OK to return from a function as soon as it is logically correct to do so, meaning there may be many return statements in the function ?

Answer 1

I often have several statements at the start of a method to return for "easy" situations. For example, this:

public void DoStuff(Foo foo)
{
    if (foo != null)
    {
        ...
    }
}

... can be made more readable (IMHO) like this:

public void DoStuff(Foo foo)
{
    if (foo == null) return;

    ...
}

So yes, I think it's fine to have multiple "exit points" from a function/method.

Answer 2

I would say you should have as many as required, or any that make the code cleaner (such as guard clauses).

I have personally never heard/seen any "best practices" say that you should have only one return statement.

For the most part, I tend to exit a function as soon as possible based on a logic path (guard clauses are an excellent example of this).

Answer 3

One good reason I can think of is for code maintenance: you have a single point of exit. If you want to change the format of the result,..., it's just much simpler to implement. Also, for debugging, you can just stick a breakpoint there :)

Having said that, I once had to work in a library where the coding standards imposed 'one return statement per function', and I found it pretty tough. I write lots of numerical computations code, and there often are 'special cases', so the code ended up being quite hard to follow...

Answer 4

Structured programming says you should only ever have one return statement per function. This is to limit the complexity. Many people such as Martin Fowler argue that it is simpler to write functions with multiple return statements. He presents this argument in the classic refactoring book he wrote. This works well if you follow his other advice and write small functions. I agree with this point of view and only strict structured programming purists adhere to single return statements per function.

Answer 5

I've worked with terrible coding standards that forced a single exit path on you and the result is nearly always unstructured spaghetti if the function is anything but trivial -- you end up with lots of breaks and continues that just get in the way.

Answer 6

I would say it would be incredibly unwise to decide arbitrarily against multiple exit points as I have found the technique to be useful in practice over and over again, in fact I have often refactored existing code to multiple exit points for clarity. We can compare the two approaches thus:-

void string fooBar(string s, int? i) {
  string ret;
  if(!string.IsNullOrEmpty(s) && i != null) {
    var res = someFunction(s, i);

    bool passed = true;
    foreach(var r in res) {
      if(!r.Passed) {
        passed = false;
        break;
      }
    }

    if(passed) {
      // Rest of code...
    }
  }

  return ret;
}

Compare this to the code where multiple exit points are permitted:-

void string fooBar(string s, int? i) {

  if(string.IsNullOrEmpty(s) || i == null) return null;

  var res = someFunction(s, i);

  foreach(var r in res) {
      if(!r.Passed) return null;
  }

  // Rest of code...

  return ret;
}

I think the latter is considerably clearer. As far as I can tell the criticism of multiple exit points is a rather archiac point of view these days.

Answer 7

I've seen it in coding standards for C++ that were a hang-over from C, as if you don't have RAII or other automatic memory management then you have to clean up for each return, which either means cut-and-paste of the clean-up or a goto (logically the same as 'finally' in managed languages), both of which are considered bad form. If your practices are to use smart pointers and collections in C++ or another automatic memory system, then there isn't a strong reason for it, and it become all about readability, and more of a judgement call.

Answer 8

As Kent Beck notes when discussing guard clauses in Implementation Patterns making a routine have a single entry and exit point ...

"was to prevent the confusion possible when jumping into and out of many locations in the same routine. It made good sense when applied to FORTRAN or assembly language programs written with lots of global data where even understanding which statements were executed was hard work ... with small methods and mostly local data, it is needlessly conservative."

I find a function written with guard clauses much easier to follow than one long nested bunch of if then else statements.

Answer 9

In general I try to have only a single exit point from a function. There are times, however, that doing so actually ends up creating a more complex function body than is necessary, in which case it's better to have multiple exit points. It really has to be a "judgement call" based on the resulting complexity, but the goal should be as few exit points as possible without sacrificing complexity and understanability.

Answer 10

I currently am working on a codebase where two of the people working on it blindly subscribe to the "single point of exit" theory and I can tell you that from experience, it's a horrible horrible practice. It makes code extremely difficult to maintain and I'll show you why.

With the "single point of exit" theory, you inevitably wind up with code that looks like this:

function()
{
    HRESULT error = S_OK;

    if(SUCCEEDED(Operation1()))
    {
        if(SUCCEEDED(Operation2()))
        {
            if(SUCCEEDED(Operation3()))
            {
                if(SUCCEEDED(Operation4()))
                {
                }
                else
                {
                    error = OPERATION4FAILED;
                }
            }
            else
            {
                error = OPERATION3FAILED;
            }
        }
        else
        {
            error = OPERATION2FAILED;
        }
    }
    else
    {
        error = OPERATION1FAILED;
    }

    return error;
}

Not only does this make the code very hard to follow, but now say later on you need to go back and add an operation in between 1 and 2. You have to indent just about the entire freaking function, and good luck making sure all of your if/else conditions and braces are matched up properly.

This method makes code maintenance extremely difficult and error prone.

Answer 11

Multiple exit points are fine for small enough functions -- that is, a function that can be viewed on one screen length on its entirety. If a lengthy function likewise includes multiple exit points, it's a sign that the function can be chopped up further.

That said I avoid multiple-exit functions unless absolutely necessary. I have felt pain of bugs that are due to some stray return in some obscure line in more complex functions.

Answer 12

There are good things to say about having a single exit-point, just as there are bad things to say about the inevitable "arrow" programming that results.

If using multiple exit points during input validation or resource allocation, I try to put all the 'error-exits' very visibly at the top of the function.

Both the Spartan Programming article of the "SSDSLPedia" and the single function exit point article of the "Portland Pattern Repository's Wiki" have some insightful arguments around this. Also, of course, there is this post to consider.

If you really want a single exit-point (in any non-exception-enabled language) for example in order to release resources in one single place, I find the careful application of goto to be good; see for example this rather contrived example (compressed to save screen real-estate):

int f(int y) {
    int value = -1;
    void *data = NULL;

    if (y < 0)
        goto clean;

    if ((data = malloc(123)) == NULL)
        goto clean;

    /* More code */

    value = 1;
clean:
   free(data);
   return value;
}

Personally I, in general, dislike arrow programming more than I dislike multiple exit-points, although both are useful when applied correctly. The best, of course, is to structure your program to require neither. Breaking down your function into multiple chunks usually help :)

Although when doing so, I find I end up with multiple exit points anyway as in this example, where some larger function has been broken down into several smaller functions:

int g(int y) {
  value = 0;

  if ((value = g0(y, value)) == -1)
    return -1;

  if ((value = g1(y, value)) == -1)
    return -1;

  return g2(y, value);
}

Depending on the project or coding guidelines, most of the boiler-plate code could be replaced by macros. As a side note, breaking it down this way makes the functions g0, g1 ,g2 very easy to test individually.

Obviously, in an OO and exception-enabled language, I wouldn't use if-statements like that (or at all, if I could get away with it with little enough effort), and the code would be much more plain. And non-arrowy. And most of the non-final returns would probably be exceptions.

In short;

• Few returns are better than many returns
• More than one return is better than huge arrows, and guard clauses are generally ok.
• Exceptions could/should probably replace most 'guard clauses' when possible.

Answer 13

Having a single exit point reduces Cyclomatic Complexity and therefore, in theory, reduces the probability that you will introduce bugs into your code when you change it. Practice however, tends to suggest that a more pragmatic approach is needed. I therefore tend to aim to have a single exit point, but allow my code to have several if that is more readable.

Answer 14

I'm usually in favor of multiple return statements. They are easiest to read.

There are situations where it isn't good. Sometimes returning from a function can be very complicated. I recall one case where all functions had to link into multiple different libraries. One library expected return values to be error/status codes and others didn't. Having a single return statement can save time there.

I'm surprised that no one mentioned goto. Goto is not the bane of programming that everyone would have you believe. If you must have just a single return in each function, put it at the end and use gotos to jump to that return statement as needed. Definitely avoid flags and arrow programming which are both ugly and run slowly.

Answer 15

In a function that has no side-effects, there's no good reason to have more than a single return and you should write them in a functional style. In a method with side-effects, things are more sequential (time-indexed), so you write in an imperative style, using the return statement as a command to stop executing.

In other words, when possible, favor this style

return a > 0 ?
  positively(a):
  negatively(a);

over this

if (a > 0)
  return positively(a);
else
  return negatively(a);

If you find yourself writing several layers of nested conditions, there's probably a way you can refactor that, using predicate list for example. If you find that your ifs and elses are far apart syntactically, you might want to break that down into smaller functions. A conditional block that spans more than a screenful of text is hard to read.

There's no hard and fast rule that applies to every language. Something like having a single return statement won't make your code good. But good code will tend to allow you to write your functions that way.

Answer 16

The more return statements you have in a function, the higher complexity in that one method. If you find yourself wondering if you have too many return statements, you might want to ask yourself if you have too many lines of code in that function.

But, not, there is nothing wrong with one/many return statements. In some languages, it is a better practice (C++) than in others (C).

Answer 17

You already implicitly have multiple implicit return statements, caused by error handling, so deal with it.

As is typical with programming, though, there are examples both for and against the multiple return practice. If it makes the code clearer, do it one way or the other. Use of many control structures can help (the case statement, for example).

Answer 18

Single exit point - all other things equal - makes code significantly more readable. But there's a catch: popular construction

resulttype res;
if if if...
return res;

is a fake, "res=" is not much better than "return". It has single return statement, but multiple points where function actually ends.

If you have function with multiple returns (or "res="s), it's often a good idea to break it into several smaller functions with single exit point.

Answer 19

My usual policy is to have only one return statement at the end of a function unless the complexity of the code is greatly reduced by adding more. In fact, I'm rather a fan of Eiffel, which enforces the only one return rule by having no return statement (there's just a auto-created 'result' variable to put your result in).

There certainly are cases where code can be made clearer with multiple returns than the obvious version without them would be. One could argue that more rework is needed if you have a function that is too complex to be understandable without multiple return statements, but sometimes it's good to be pragmatic about such things.

Answer 20

I use multiple exit points for having error-case + handling + return value as close in proximity as possible.

So having to test for conditions a, b, c that have to be true and you need to handle each of them differently:

if (a is false) {
    handle this situation (eg. report, log, message, etc.)
    return some-err-code
}
if (b is false) {
    handle this situation
    return other-err-code
}
if (c is false) {
    handle this situation
    return yet-another-err-code
}

perform any action assured that a, b and c are ok.

The a, b and c might be different things, like a is input parameter check, b is pointer check to newly allocated memory and c is check for a value in 'a' parameter.

Answer 21

If you end up with more than a few returns there may be something wrong with your code. Otherwise I would agree that sometimes it is nice to be able to return from multiple places in a subroutine, especially when it make the code cleaner.

Perl 6: Bad Example

sub Int_to_String( Int i ){
  given( i ){
    when 0 { return "zero" }
    when 1 { return "one" }
    when 2 { return "two" }
    when 3 { return "three" }
    when 4 { return "four" }
    ...
    default { return undef }
  }
}

would be better written like this

Perl 6: Good Example

@Int_to_String = qw{
  zero
  one
  two
  three
  four
  ...
}
sub Int_to_String( Int i ){
  return undef if i < 0;
  return undef unless i < @Int_to_String.length;
  return @Int_to_String[i]
}

Note this is was just a quick example

Answer 22

My preference would be for single exit unless it really complicates things. I have found that in some cases, multiple exist points can mask other more significant design problems:

public void DoStuff(Foo foo)
{
    if (foo == null) return;
}

On seeing this code, I would immediately ask:

• Is 'foo' ever null?
• If so, how many clients of 'DoStuff' ever call the function with a null 'foo'?

Depending on the answers to these questions it might be that

1. the check is pointless as it never is true (ie. it should be an assertion)
2. the check is very rarely true and so it may be better to change those specific caller functions as they should probably take some other action anyway.

In both of the above cases the code can probably be reworked with an assertion to ensure that 'foo' is never null and the relevant callers changed.

There are two other reasons (specific I think to C++ code) where multiple exists can actually have a negative affect. They are code size, and compiler optimizations.

A non-POD C++ object in scope at the exit of a function will have its destructor called. Where there are several return statements, it may be the case that there are different objects in scope and so the list of destructors to call will be different. The compiler therefore needs to generate code for each return statement:

void foo (int i, int j) {
  A a;
  if (i > 0) {
     B b;
     return ;   // Call dtor for 'b' followed by 'a'
  }
  if (i == j) {
     C c;
     B b;
     return ;   // Call dtor for 'b', 'c' and then 'a'
  }
  return 'a'    // Call dtor for 'a'
}

If code size is an issue - then this may be something worth avoiding.

The other issue relates to "Named Return Value OptimiZation" (aka Copy Elision, ISO C++ '03 12.8/15). C++ allows an implementation to skip calling the copy constructor if it can:

A foo () {
  A a1;
  // do something
  return a1;
}

void bar () {
  A a2 ( foo() );
}

Just taking the code as is, the object 'a1' is constructed in 'foo' and then its copy construct will be called to construct 'a2'. However, copy elision allows the compiler to construct 'a1' in the same place on the stack as 'a2'. There is therefore no need to "copy" the object when the function returns.

Multiple exit points complicates the work of the compiler in trying to detect this, and at least for a relatively recent version of VC++ the optimization did not take place where the function body had multiple returns. See Named Return Value Optimization in Visual C++ 2005 for more details.

Answer 23

Multiple exit is good if you manage it well

The first step is to specify the reasons of exit. Mine is usually something like this:
1. No need to execute the function
2. Error is found
3. Early completion
4. Normal completion
I suppose you can group "1. No need to execute the function" into "3. Early completion" (a very early completion if you will).

The second step is to let the world outside the function know the reason of exit. The pseudo-code looks something like this:

function foo (input, output, exit_status)

  exit_status == UNDEFINED
  if (check_the_need_to_execute == false) then
    exit_status = NO_NEED_TO_EXECUTE  // reason #1 
    exit

  useful_work

  if (error_is_found == true) then
    exit_status = ERROR               // reason #2
    exit
  if (need_to_go_further == false) then
    exit_status = EARLY_COMPLETION    // reason #3
    exit

  more_work

  if (error_is_found == true) then
    exit_status = ERROR
  else
    exit_status = NORMAL_COMPLETION   // reason #4

end function

Obviously, if it's beneficial to move a lump of work in the illustration above into a separate function, you should do so.

If you want to, you can be more specific with the exit status, say, with several error codes and early completion codes to pinpoint the reason (or even the location) of exit.

Even if you force this function into one that has only a single exit, I think you still need to specify exit status anyway. The caller needs to know whether it's OK to use the output, and it helps maintenance.

Answer 24

What if the function is recursive? Huh? Huh?

Answer 25

As an alternative to the nested IFs, theres a way to use do/while(false) to break out anywhere:

function()
{
    HRESULT error = S_OK;

    do 
    {
        if(!SUCCEEDED(Operation1()))
        {
            error = OPERATION1FAILED;
            break;
        }

        if(!SUCCEEDED(Operation2()))
        {
            error = OPERATION2FAILED;
            break;
        }

        if(!SUCCEEDED(Operation3()))
        {
            error = OPERATION3FAILED;
            break;
        }
        if(!SUCCEEDED(Operation4()))
        {
            error = OPERATION4FAILED;
            break;
        }            
    } while (false);

    return error;
}

That gets you one exit point, lets you have other nesting of operations, but still not a real deep structure. if you don't like the !SUCCEEDED you could always do FAILED whatever. This kind of thing also lets you add other code between any two other checks without having to re-indent anything.

If you were really crazy, that whole if block could be macroized too. :D

#define BREAKIFFAILED(x,y) if (!SUCCEEDED((x))) { error = (Y); break; }

    do 
    {
        BREAKIFFAILED(Operation1(), OPERATION1FAILED)
        BREAKIFFAILED(Operation2(), OPERATION2FAILED)
        BREAKIFFAILED(Operation3(), OPERATION3FAILED)
        BREAKIFFAILED(Operation4(), OPERATION4FAILED)
    } while (false);

Answer 26

This is probably an unusual perspective, but I think that anyone who believes that multiple return statements are to be favoured has never had to use a debugger on a microprocessor that supports only 4 hardware breakpoints. ;-)

While the issues of "arrow code" are completely correct, one issue that seems to go away when using multiple return statements is in the situation where you are using a debugger. You have no convenient catch-all position to put a breakpoint to guarantee that you're going to see the exit and hence the return condition.

Answer 27

It doesn't make sense to always require a single return type. I think it is more of a flag that something may need to be simplified. Sometimes it's necessary to have multiple returns, but often you can keep things simpler by at least trying to have a single exit point.

Answer 28

You should never use a return statement in a method.

I know I will be jumped on for this, but I am serious.

Return statements are basically a hangover from the procedural programming days. They are a form of goto, along with break, continue, if, switch/case, while, for, yield and some other statements and the equivalents in most modern programming languages.

Return statements effectively 'GOTO' the point where the function was called, assigning a variable in that scope.

Return statements are what I call a 'Convenient Nightmare'. They seem to get things done quickly, but cause massive maintenance headaches down the line.

Return statements are diametrically opposed to Encapsulation

This is the most important and fundamental concept of object oriented programming. It is the raison d'etre of OOP.

Whenever you return anything from a method, you are basically 'leaking' state information from the object. It doesn't matter if your state has changed or not, nor whether this information comes from other objects - it makes no difference to the caller. What this does is allow an object's behaviour to be outside of the object - breaking encapsulation. It allows the caller to start manipulating the object in ways that lead to fragile designs.

LoD is your friend

I recommend any developer to read about the Law of Demeter (LoD) on c2.com or wikipedia. LoD is a design philosophy that has been used at places that have real 'mission-critical' software constraints in the literal sense, like the JPL. It has been shown to reduce the amount of bugs in code and improve flexibility.

There has an excellent analogy based on walking a dog. When you walk a dog, you do not physically grab hold of its legs and move them such that the dog walks. You command the dog to walk and it takes care of it's own legs. A return statement in this analogy is equivalent to the dog letting you grab hold of its legs.

Only talk to your immediate friends:

1. arguments of the function you are in,
2. your own attributes,
3. any objects you created within the function

You will notice that none of these require a return statement. You might think the constructor is a return, and you are on to something. Actually the return is from the memory allocator. The constructor just sets what is in the memory. This is ok so long as the encapsulation of that new object is ok, because, as you made it, you have full control over it - no-one else can break it.

Accessing attributes of other objects is right out. Getters are out (but you knew they were bad already, right?). Setters are ok, but it is better to use constructors. Inheritance is bad - when you inherit from another class, any changes in that class can and probably will break you. Type sniffing is bad (Yes - LoD implies that Java/C++ style type based dispatch is incorrect - asking about type, even implicitly, is breaking encapsulation. Type is an implicit attribute of an object. Interfaces are The Right Thing).

So why is this all a problem? Well, unless your universe is very different from mine, you spend a lot of time debugging code. You aren't writing code that you plan never to reuse. Your software requirements are changing, and that causes internal API/interface changes. Every time you have used a return statement you have introduced a very tricky dependency - methods returning anything are required to know about how whatever they return is going to be used - that is each and every case! As soon as the interface changes, on one end or the other, everything can break, and you are faced with a lengthy and tedious bug hunt.

They really are an malignant cancer in your code, because once you start using them, they promote further use elsewhere (which is why you can often find returning method-chains amongst object systems).

So what is the alternative?

Tell, don't ask.

With OOP - the goal is to tell other objects what to do, and let them take care of it. So you have to forget the procedural ways of doing things. It's easy really - just never write return statements. There are much better ways of doing the same things:

There is nothing wrong with the return concept, but return statements are deeply flawed.

If you really need an answer back - use a call back. Pass in a data structure to be filled in, even. That way you keep the interfaces clean and open to change, and your whole system is less fragile and more adaptable. It does not slow your system down, in fact it can speed it up, in the same way as tail call optimisation does - except in this case, there is no tail call so you don't even have to waste time manipulating the stack with return values.

If you follow these arguments, you will find there really is never a need for a return statement. If you follow these practices, I guarantee that pretty soon you will find that you are spending a lot less time hunting bugs, are adapting to requirement changes much more quickly, and having less problems understanding your own code.

Mike Amy

Answer 29

In the interests of good standards and industry best practises, we must establish the correct number of return statements to appear in all functions. Obviously there is consensus against having one return statement. So I propose we set it at two.

I would appreciate it if everyone would look through their code right now, locate any functions with only one exit point, and add another one. It doesn't matter where.

The result of this change will undoubtedly be fewer bugs, greater readability and unimaginable wealth falling from the sky onto our heads.

Answer 30

NO I think that a function can have many return statements.