What does the , operator do in C?

  • possible duplicate of What is the proper use of the comma operator? – Sergey K. Aug 28 '13 at 8:00
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    As I note in my answer, there is a sequence point after the evaluation of the left operand. This is unlike the comma in a function call which is just grammatical. – Shafik Yaghmour Jun 25 '14 at 11:46
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    @SergeyK. — Given that this was asked and answered years before the other, it is more likely that the other is a duplicate of this question. However, the other is also dual-tagged with both c and c++, which is a nuisance. This is a C-only Q&A, with decent answers. – Jonathan Leffler May 18 at 0:18

The expression:

(expression1,  expression2)

First expression1 is evaluated, then expression2 is evaluated, and the value of expression2 is returned for the whole expression.

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    then if I write i = (5,4,3,2,1,0) then ideally it should return 0, correct? but i is being assigned a value of 5? Can you please help me understand where am I going wrong? – Jayesh Nov 13 '10 at 6:55
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    @James: The value of a comma operation will always be the value of the last expression. At no point will i have the values 5, 4, 3, 2 or 1. It is simply 0. It's practically useless unless the expressions have side effects. – Jeff Mercado Nov 13 '10 at 7:06
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    Note that there is a full sequence point between the evaluation of the LHS of the comma expression and the evaluation of the RHS (see Shafik Yaghmour's answer for a quote from the C99 standard). This is an important property of the comma operator. – Jonathan Leffler Jun 20 '14 at 20:47
  • Looking at docs.microsoft.com/en-us/cpp/cpp/comma-operator, there seems to be a difference if parenthesis is not used. In case of i = b, c; b gets assigned to i. How this is happening? In case of function parameter, parenthesis usage is a must and Microsoft clearly explains this. – Rajesh Apr 26 '18 at 4:25
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    i = b, c; is equivalent to (i = b), c because because assignment = has higher precedence than the comma operator ,. The comma operator has the lowest precedence of all. – cyclaminist Feb 2 at 6:10

I've seen used most in while loops:

string s;
while(read_string(s), s.len() > 5)
   //do something

It will do the operation, then do a test based on a side-effect. The other way would be to do it like this:

string s;
while(s.len() > 5)
   //do something
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    Hey, that's nifty! I've often had to do unorthodox things in a loop to fix that problem. – staticsan Sep 4 '09 at 1:47
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    Although it'd probably be less obscure and more readable if you did something like: while (read_string(s) && s.len() > 5). Obviously that wouldn't work if read_string doesn't have a return value (or doesn't have a meaningful one). (Edit: Sorry, didn't notice how old this post was.) – jamesdlin Mar 25 '10 at 8:05
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    @staticsan Don't be afraid to use while (1) with a break; statement in the body. Trying to force the break-out part of the code up into the while test or down into the do-while test, is often a waste of energy and makes the code harder to understand. – potrzebie Sep 27 '12 at 6:20
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    @jamesdlin ... and people still read it. If you have something useful to say, then say it. Forums have problems with resurrected threads because threads are usually sorted by date of last post. StackOverflow doesn't have such problems. – Dimitar Slavchev Nov 29 '12 at 13:36
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    @potrzebie I like the comma approach much better than while(1) and break; – Michael Mar 11 '16 at 14:19

The comma operator will evaluate the left operand, discard the result and then evaluate the right operand and that will be the result. The idiomatic use as noted in the link is when initializing the variables used in a for loop, and it gives the following example:

void rev(char *s, size_t len)
  char *first;
  for ( first = s, s += len - 1; s >= first; --s)

Otherwise there are not many great uses of the comma operator, although it is easy to abuse to generate code that is hard to read and maintain.

From the draft C99 standard the grammar is as follows:

  expression , assignment-expression

and paragraph 2 says:

The left operand of a comma operator is evaluated as a void expression; there is a sequence point after its evaluation. Then the right operand is evaluated; the result has its type and value. 97) If an attempt is made to modify the result of a comma operator or to access it after the next sequence point, the behavior is undefined.

Footnote 97 says:

A comma operator does not yield an lvalue.

which means you can not assign to the result of the comma operator.

It is important to note that the comma operator has the lowest precedence and therefore there are cases where using () can make a big difference, for example:

#include <stdio.h>

int main()
    int x, y ;

    x = 1, 2 ;
    y = (3,4) ;

    printf( "%d %d\n", x, y ) ;

will have the following output:

1 4

The comma operator combines the two expressions either side of it into one, evaluating them both in left-to-right order. The value of the right-hand side is returned as the value of the whole expression. (expr1, expr2) is like { expr1; expr2; } but you can use the result of expr2 in a function call or assignment.

It is often seen in for loops to initialise or maintain multiple variables like this:

for (low = 0, high = MAXSIZE; low < high; low = newlow, high = newhigh)
    /* do something with low and high and put new values
       in newlow and newhigh */

Apart from this, I've only used it "in anger" in one other case, when wrapping up two operations that should always go together in a macro. We had code that copied various binary values into a byte buffer for sending on a network, and a pointer maintained where we had got up to:

unsigned char outbuff[BUFFSIZE];
unsigned char *ptr = outbuff;

*ptr++ = first_byte_value;
*ptr++ = second_byte_value;

send_buff(outbuff, (int)(ptr - outbuff));

Where the values were shorts or ints we did this:

*((short *)ptr)++ = short_value;
*((int *)ptr)++ = int_value;

Later we read that this was not really valid C, because (short *)ptr is no longer an l-value and can't be incremented, although our compiler at the time didn't mind. To fix this, we split the expression in two:

*(short *)ptr = short_value;
ptr += sizeof(short);

However, this approach relied on all developers remembering to put both statements in all the time. We wanted a function where you could pass in the output pointer, the value and and the value's type. This being C, not C++ with templates, we couldn't have a function take an arbitrary type, so we settled on a macro:

#define ASSIGN_INCR(p, val, type)  ((*((type) *)(p) = (val)), (p) += sizeof(type))

By using the comma operator we were able to use this in expressions or as statements as we wished:

if (need_to_output_short)
    ASSIGN_INCR(ptr, short_value, short);

latest_pos = ASSIGN_INCR(ptr, int_value, int);

send_buff(outbuff, (int)(ASSIGN_INCR(ptr, last_value, int) - outbuff));

I'm not suggesting any of these examples are good style! Indeed, I seem to remember Steve McConnell's Code Complete advising against even using comma operators in a for loop: for readability and maintainability, the loop should be controlled by only one variable, and the expressions in the for line itself should only contain loop-control code, not other extra bits of initialisation or loop maintenance.

  • Thanks! It was my first answer on StackOverflow: since then I've perhaps learned that conciseness is to be valued :-) . – Paul Stephenson Jul 16 '09 at 17:36
  • Sometimes I value a bit of verbosity as is the case here where you describe the evolution of a solution (how you got there). – green diod Dec 6 '16 at 10:19

It causes the evaluation of multiple statements, but uses only the last one as a resulting value (rvalue, I think).


int f() { return 7; }
int g() { return 8; }

int x = (printf("assigning x"), f(), g() );

should result in x being set to 8.


The comma operator does nothing meaningful, it is a 100% superfluous feature. The main use of it is "people trying to be smart" and therefore use it to (unintentionally) obfuscate readable code. The main area of use is to obfuscate for loops, for example:

for(int i=0, count=0; i<x; i++, count++)

Where int i=0, count=0 is actually not the comma operator, but a declaration list (we're already confused here). i++, count++ is the comma operator, which evaluates the left operand first and then the right operand. The result of the comma operator is the result of the right operand. The result of the left operand is discarded.

But the above code could be written in a much more readable way without the comma operator:

int count = 0;
for(int i=0; i<x; i++) // readable for loop, no nonsense anywhere

The only real use of the comma operator I have seen, is artificial discussions about sequence points, since the comma operator comes with a sequence point between the evaluation of the left and right operands.

So if you have some undefined behavior code like this:

printf("%d %d", i++, i++);

You can actually turn it into merely unspecified behavior (order of evaluation of function parameters) by writing

printf("%d %d", (0,i++), (0,i++));

There is now a sequence point between each evaluation of i++, so at least the program won't risk to crash and burn any longer, even though the order of evaluation of function parameters remains unspecified.

Of course nobody would write such code in real applications, it is only useful for language-lawyer discussions about sequence points in the C language.

The comma operator is banned by MISRA-C:2004 and MISRA-C:2012 with the rationale that it creates less readable code.

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    Your "unspecified" version is still undefined. The evaluation of the arguments may overlap, so that first the two 0s are evaluated, then there is a sequence point, and finally the two increments are evaluated. This satisfies the requirement that there be a sequence point between the comma LHS and RHS. As for your rewritten for loop, consider continue. What you suggest is equivalent really isn't. As for readability, consider src++, dst++, where keeping both increments together in the code makes it far easier for the reader to verify that both pointers get incremented exactly the same. – user743382 Mar 24 '15 at 17:20
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    @hvd I don't believe a strictly conforming implementation is allowed to remove sequence points, which your comment suggests. Why would anyone consider continue? It is only useful for spaghetti coding (and also banned by MISRA). And the loop is equivalent anyhow, both in terms of result and in terms of C's "abstract machine". And I really don't think that src++, dst++; is more readable than src++; (newline) dst++;. I doubt very few do. – Lundin Mar 25 '15 at 7:16
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    Fine, then evaluate 0, evaluate 0, sequence point, sequence point, evaluate i++, evaluate i++. Same result, so I don't think that distinction matters. As for src++, dst++, I was referring to when that appears in a for, since that's what your answer focuses on. – user743382 Mar 25 '15 at 7:20
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    About continue, non-MISRA code can and does use it, so it cannot immediately be discarded. But my point was that continue would skip the count++ in your rewritten version. – user743382 Mar 25 '15 at 7:23
  • @hvd Well anyway, it is not really important whether the comma operator actially fixes the UB or not in this case, as my example is only there to name discussions about sequence points like this one, as one potential use of the comma operator. – Lundin Mar 25 '15 at 7:29

As earlier answers have stated it evaluates all statements but uses the last one as the value of the expression. Personally I've only found it useful in loop expressions:

for (tmp=0, i = MAX; i > 0; i--)

The only place I've seen it being useful is when you write a funky loop where you want to do multiple things in one of the expressions (probably the init expression or loop expression. Something like:

bool arraysAreMirrored(int a1[], int a2[], size_t size)
  size_t i1, i2;
  for(i1 = 0, i2 = size - 1; i1 < size; i1++, i2--)
    if(a1[i1] != a2[i2])
      return false;

  return true;

Pardon me if there are any syntax errors or if I mixed in anything that's not strict C. I'm not arguing that the , operator is good form, but that's what you could use it for. In the case above I'd probably use a while loop instead so the multiple expressions on init and loop would be more obvious. (And I'd initialize i1 and i2 inline instead of declaring and then initializing.... blah blah blah.)

  • I presume you mean i1=0, i2 = size -1 – frankster Aug 13 '09 at 14:05
  • Indeed! Duly corrected. – Owen Sep 4 '09 at 1:27

I'm reviving this simply to address questions from @Rajesh and @JeffMercado which i think are very important since this is one of the top search engine hits.

Take the following snippet of code for example

int i = (5,4,3,2,1);
int j;
j = 5,4,3,2,1;
printf("%d %d\n", i , j);

It will print

1 5

The i case is handled as explained by most answers. All expressions are evaluated in left-to-right order but only the last one is assigned to i. The result of the ( expression )is1`.

The j case follows different precedence rules since , has the lowest operator precedence. Because of those rules, the compiler sees assignment-expression, constant, constant .... The expressions are again evaluated in left-to-right order and their side-effects stay visible, therefore, j is 5 as a result of j = 5.

Interstingly, int j = 5,4,3,2,1; is not allowed by the language spec. An initializer expects an assignment-expression so a direct , operator is not allowed.

Hope this helps.

protected by talonmies Jan 3 '16 at 10:29

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