Comma Operator: ,
Allows grouping two statements where one is expected.
expression , expression
Remarks
The comma operator has left-to-right associativity. Two expressions separated by a comma are evaluated left to right. The left operand is always evaluated, and all side effects are completed before the right operand is evaluated.
Commas can be used as separators in some contexts, such as function argument lists. Do not confuse the use of the comma as a separator with its use as an operator; the two uses are completely different.
Consider the expression
e1 , e2
The type and value of the expression are the type and value of e2; the result of evaluating e1 is discarded. The result is an l-value if the right operand is an l-value.
Where the comma is normally used as a separator (for example in actual arguments to functions or aggregate initializers), the comma operator and its operands must be enclosed in parentheses. For example:
func_one( x, y + 2, z );
func_two( (x--, y + 2), z );
In the function call to func_one
above, three arguments, separated by commas, are passed: x
, y + 2
, and z
. In the function call to func_two
, parentheses force the compiler to interpret the first comma as the sequential-evaluation operator. This function call passes two arguments to func_two
. The first argument is the result of the sequential-evaluation operation (x--, y + 2)
, which has the value and type of the expression y + 2
; the second argument is z
.
Example
// cpp_comma_operator.cpp
#include <stdio.h>
int main () {
int i = 10, b = 20, c= 30;
i = b, c;
printf("%i\n", i);
i = (b, c);
printf("%i\n", i);
}
Output
20 30
See Also
Reference
Expressions with Binary Operators
C++ Operators
Operator Precedence and Associativity