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I have been programming in C and C++ for a few years and now I'm just now taking a college course in it and our book had a function like this for an example:

int foo(){
  int x=0;
  int y=20;
  return x,y; //y is always returned

I have never seen such syntax. In fact, I have never seen the , operator used outside of parameter lists. If y is always returned though, then what is the point? Is there a case where a return statement would need to be created like this?

(Also, I tagged C as well because it applies to both, though my book specifically is C++)

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What book is this from? I can't imagine any legitimate reason for doing this. –  Stephen Mar 29 '10 at 16:16
"D. Malik, C++ Programming: Program Design Including Data Structures, Fourth Edition. Course Technology Incorporated, 2007, ISBN 1-4188-3640-0" I do not recommend it for anyone because the writer does not appear to have a firm grasp of C++ mentioning things like "variable declarations always go to the top of the function no matter what." –  Earlz Mar 29 '10 at 16:19
Throw the book away. –  Daniel Daranas Mar 29 '10 at 16:20
@Daniel, I really wish I could but it's required to get my college credits –  Earlz Mar 29 '10 at 16:22
@Frank V: Even that wouldn't make sense - the variables are going out of scope. @Earlz: is it at all possible that this is merely intended to demonstrate that this does not return two values? Giving an example of what not to do? –  Jefromi Mar 29 '10 at 16:29

16 Answers 16

up vote 20 down vote accepted

The comma operator is primarily used in for statements like so:

for( int i=0, j=10; i<10; i++, j++ )
    a[i] = b[j];

The first comma is not a comma operator, it's part of the declaration syntax. The second is a comma operator.

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I don't think this really answers the OP's question... –  Chris Cooper Jul 21 '10 at 22:13
This makes no sense. Why is this answer upvoted, and why is this picked as the right one! Its completely irrelevant to the question asked. –  vivekian2 Aug 4 '11 at 22:49
In that case, use of the comma is required to increment both i and j. There are other instances where you might use the comma instead of a semicolon if you want to emphasize that both statements are really tightly linked and shouldn't be split. For instance std::memcpy(data, moredata, moresize), datasize+=size;. I like to kep the statements together to avoid someone accidentally moving or erasing the second part. –  André Caron Aug 5 '11 at 14:23
@Joel: There are badges to earn if you take back upvoted/accepted answers. –  phresnel Mar 6 '12 at 10:46
I took the question behind the question to be "Why have a comma operator?" rather than "Why have one in a return statement?" Apparently the OP agreed that was his real question. –  Joel Mar 6 '12 at 18:01

According to the C FAQ:

Precisely stated, the meaning of the comma operator in the general expression

e1 , e2

is "evaluate the subexpression e1, then evaluate e2; the value of the expression is the value of e2." Therefore, e1 had better involve an assignment or an increment ++ or decrement -- or function call or some other kind of side effect, because otherwise it would calculate a value which would be discarded.

So I agree with you, there is no point other than to illustrate that this is valid syntax, if that.

If you wanted to return both values in C or C++ you could create a struct containing x and y members, and return the struct instead:

struct point {int x; int y;};

You can then define a type and helper function to allow you to easily return both values within the struct:

typedef struct point Point;

Point point(int xx, int yy){
  Point p;
  p.x = xx;
  p.y = yy;
  return p;

And then change your original code to use the helper function:

Point foo(){
  int x=0;
  int y=20;
  return point(x,y); // x and y are both returned

And finally, you can try it out:

Point p = foo();
printf("%d, %d\n", p.x, p.y);

This example compiles in both C and C++. Although, as Mark suggests below, in C++ you can define a constructor for the point structure which affords a more elegant solution.

On a side note, the ability to return multiple values directly is wonderful in languages such as Python that support it:

def foo():
  x = 0
  y = 20
  return x,y # Returns a tuple containing both x and y

>>> foo()
(0, 20)
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Thank you for explaining the operator. –  Jeff Davis Jun 24 '10 at 19:31
Your point struct needs a constructor taking two int parameters. –  Mark Ransom Jun 24 '10 at 19:49
@Mark - The struct is just an example - that said, would you care to elaborate? Strictly speaking, there are no constructors in C. Regardless, the code compiles just fine in C and C++, and the x and y members may be directly accessed by code. –  Justin Ethier Aug 5 '11 at 1:00
In C you're right, no constructor is possible. In C++ a constructor lets you do return point(x,y);. Sorry for being so cryptic. –  Mark Ransom Aug 5 '11 at 2:01
I wanted to point out that your point to make a point when there was no point amused me. –  Jason Rice Jan 2 at 4:08

The comma in parameter lists is just there to separate the parameters, and is not the same as the comma operator. The comma operator, as in your example, evaluates both x and y, and then throws away x.

In this case, I would guess that it is a mistake by someone who tries to return two values, and didn't know how to do it.

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This doesn't really answer the original question at all but might be of interest to some people, but if you wanted to it to return both in C++ you'd need to write it like this (and would need a c++0x compiler)

tuple<int, int> foo()
    int x = 0;
    int y = 20;
    return make_tuple(x, y);

The access it like this -

tuple<int, int> data = foo();
int a = get<0>(data);
int b = get<1>(data);
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+1, was about to post this :-) –  missingfaktor Mar 29 '10 at 17:19
Personally, I'd prefer: int a = 0, b = 0; tie(a,b) = foo(); –  Crazy Eddie Mar 29 '10 at 19:07
I didn't know about tie, I'll have to try that out. –  jcoder Mar 30 '10 at 8:43
In a C++03 compiler, just return a pair. This doesn't directly generalize to more than two values, of course. –  David Thornley Jun 24 '10 at 19:52
 struct Point {
   int x, y;
   Point(int x_) : x(x_), y(0) {}
   Point(const Point& p) : x(p.x), y(p.y) {}
   Point operator, (int y_) const { Point p=*this; p.y = y_; return p; }

 Point get_the_point () {
    int x = 0;
    int y = 20;
    return (Point)x, y;


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That's so not C++. I mean, it'll compile, but that's so unreadable. Ick. –  clahey Mar 29 '10 at 16:42
@clahey: Then you will hate this: boost.org/doc/libs/1_42_0/libs/assign/doc/index.html –  kennytm Mar 29 '10 at 16:50
I think the boost stuff is definitely questionable, but there's something worse about what you have there. For example: "return (Point)1, 2, 3;" returns (1,3). "return (Point)1" returns (1,0). Neither of those feels like intuitive behavior. Also, your notation doesn't save anything. If you just declare a proper constructor that takes two ints, you can just write "return Point(x, y);" It doesn't save even a single character of typing and is more readable. The boost stuff at least saves a lot of typing. –  clahey Mar 29 '10 at 17:14
@clahey: Note that I'm not advocating this style (see the ":p"?), I'm just showing there maybe a "point" that a comma operator is abused (I can't place a multi-line comment). –  kennytm Mar 29 '10 at 17:48
That is so wonderfully evil. Is there an equivalent of the IOCCC for C++? –  John Bode Mar 29 '10 at 20:25

Much like everyone commenting here thinks it is pointless and I don't disagree, just looking at the example, I'm going to make a guess that's not much better:

The writer was getting a compiler warning about x not being used within the function, and this was an easy way to get the warning to go away.

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I just tried this with g++, and there is a warning if you use -Wall. I'm not sure whether to praise the author for compiling code before putting it in the book or condemn the author for coming up with this solution. Although, it might have been interesting if the author had actually used this as an opportunity to talk about compiler warnings and such. –  clahey Mar 29 '10 at 16:46
I take it back. I just tried the code as given and that still gives a warning. Maybe he's on a different compiler. –  clahey Mar 29 '10 at 16:48
He also has a book on Java(a red flag right there) so probably using MVC++ –  Earlz Mar 29 '10 at 17:22
Seemed VS6.0 would be the likely candidate and it does give a warning C4189 : local variable is initialized but not referenced if the "x," is removed, provided warnings are set to level 4 (highest). –  Joel Rondeau Mar 29 '10 at 18:29
If that was the author's intent, it was a bad idea... writing code that looks like it returns two values when it fact it only returns one is going to do more harm than good. –  Jeremy Friesner Sep 26 '10 at 3:56

This is the comma operator (,).

Both expressions x and y are evaluated. The result of the overall expression is y, i.e., the latter value.

It's hard to say why it is used here. I guess, for demonstration purposes. Clearly the function could be refactored to:

int foo()
  return 20;
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@mmyers: and the answer given here is... there doesn't appear to be any point. –  Jefromi Mar 29 '10 at 16:17
@Jefromi: That wasn't there when I commented. –  Michael Myers Mar 29 '10 at 16:32

That looks like a terrible example of code. It might be valid syntax in C/C++, but I can't think of a reason why you'd ever want to do that.

If you want to return both x and y, a better way to do it in C++ would be to define a "Point" class or struct with x and y properties, and return that. Another option would be to pass in x and y by reference, then set the values appropriately in the method.

If the method is going to just return y, I would just "return y;". If x needs to be "evaluated" before the return statement, it should be done on a separate line.

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This syntax can be used to save additional scope brackets of an if- statement. E.g. normally you would write the following:

if (someThing == true)
    a = 1;
    b = 2;
    return true;

This can be replaced by the following:

if (someThing == true)
    return a = 1, b = 2, true;

I think the usage of this coding style is rather motivated by the urge for posing than for writing clean code.

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Heh. that's an... interesting use case –  Earlz Jul 27 '12 at 0:53
I don't think that the motivation for this normally comes from he urge to pose, but rather from the wish to improve the readability of the code by over time saving the reader hours of vertical scrolling work –  Kaiserludi Aug 21 '13 at 17:30

There is no point in that return statement.

If x were declared volatile, it would force an access (since at least in C++ references to volatile variables are considered to be externally observable behavior), but it isn't.

If, instead of x, there was some sort of calculation with side effects, it would do that calculation and then return y. However, a non-volatile x has no side effects. The implementation is not required to execute any code that has no side effects or externally observable behavior. The comma operator executes whatever is on the left side of the comma, disregards the result, and executes and keeps the value of the right side (except that it's free to ignore the left side of the operator in this case).

Therefore, the return x, y; statement is the exact same thing as return y;. If x wasn't just a completely meaningless thing to execute, it would be stylistically better to write it as x; return y;, which is the precise same thing. It wouldn't be nearly as confusing that way.

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And even if x is replaced by some expression with side effects, there's no point in shoving it into the return statement like that. Just make it a separate statement: expr_with_side_effects; return y;. –  Keith Thompson Aug 5 '11 at 19:47

On the one hand, it could be an honest mistake on the part of the writer.

On the other hand, the writer might be explaining syntactically correct correct code, versus compiler warnings.

Either way, the only way to return multiple results would be to define a class and use its instance, or perhaps an array or collection.

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This is the comma operator. Such syntax can be used to disable warning from compiler about unused variable x.

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Outside of for loops the other major user of this comman operator (as apposed to the function call version) is in macros that return a value after doing some stuff. These are other ways to do this now, but I think that the comman operator used to be the cleanest way.

#define next(A, x, y, M) ((x) = (++(y))%(M) , A[(x)])

Please note that this macro is a bad example of macros in general because it repeats x and probably for other reasons. Use of the comma operator in this fashion should be rare. The example from your book was probably an attempt to make a code exampe fit within the number of lines available for that example.

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Is there a case where a return statement would need to be created like this?

IMO, I would never use multiple returns in a function like the book example. It violates structured design. Nevertheless, there are many programmers that do! Debugging someone else's code I have assigned a value to a global variable in each return statement so I could figure out which return executed.

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The example had nothing to do with multiple return statements. –  Keith Thompson Aug 5 '11 at 19:48

I have seen this syntax used in C to do housekeeping when returning midway in an operation. Definitely not maintainable code:

int foo(int y){
  char *x;
  x = (char*)malloc(y+1);
  /** operations */
  if (y>100) return free(x),y;
  /** operations */
  if (y>1000) return free(x),y;

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The book is trying to eliminate potential confusion of people who learned other languages before C++. In many languages, you can return multiple values using similar syntax. In C++, it will compile without warning (unless you specify -Wall or -Wunused-value), but it won't work the way you might expect if you were accustomed to those other languages. It will just return the last value.

However, it seems the author caused more confusion than he prevented, since there's no readable situation to use such syntax in a return statement in C++ except by accidentally using it like another language. He's warning about usage that wouldn't occur to most people to try. If you did, though, it would be super confusing to debug, since the multiple assignment statement int x, y = foo() also compiles just fine.

Bottom line: always use -Wall and fix what it warns you about. C++ syntax allows you to write many things that don't make sense.

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