I can understand why the assignment operator is right associative. It makes sense that when

x = 4 + 3

is evaluated, that 4 and 3 are added before being assigned to x.

I am unclear as to how ?: would benefit from being right associative. Does it only matter when two ?:s were used like this

z = (a == b ? a : b ? c : d);

Then it is evaluated like this:

z = (a == b ? a : (b ? c : d));

Surely it would make more sense to evaluate from left to right?

  • 1
    In x = 4 + 3, the only restriction on order of evaluation is that the operands of any operator must be evaluated before the operator itself is applied. Neither = nor + imposes any ordering on the evaluation of its operands. For x = 4 + 3, the left operand x and the right operand 4 + 3 must both be evaluated before the assignment takes place, but that can happen in either order. Note that evaluating the left operand x refers to determining the object to be assigned to. In a more complex example, arr[func1()] = func2();, the two functions can be called in either order. Sep 13, 2011 at 19:43
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    Yes, I think I was unclear/incorrect there. Being right associative means you can do x = y = 4; and 4 will be correctly assigned to both y and x Sep 13, 2011 at 19:53
  • 2
    Just for completeness: If assignment was left associative x = y = 4 would fail. First, y would be assigned to x and "return" an rvalue with the value of y. This rvalue would then be assigned to 4 which is illegal.
    – Oscar Korz
    Sep 13, 2011 at 20:08
  • 4
    php is left associative, and causes all sorts of issues. phpsadness.com/sad/30 Nov 21, 2012 at 7:26

3 Answers 3


If it evaluated from left to right, it'd look like this:

z = ((a == b ? a : b) ? c : d);

That is, it would use the result of the first conditional (a or b) as the boolean condition of the second conditional. That doesn't make much sense: that's like saying:

int z, tmp;
/* first conditional */
if(a == b) tmp = a;
else       tmp = b;
/* second conditional */
if(tmp) z = c;
else    z = d;

While perhaps one day you'll want to do exactly this, it's far more likely that each ?: that follows is meant to add more conditions, like if / else if / else if / else, which is what the right-associative binding yields:

int z;
/* first conditional */
if(a == b)                          z = a;
else /* second conditional */ if(b) z = c;
else                                z = d;
  • Does right associativity affect the following construction? Or does it not matter in this case? a ? a ? b : c : c Feb 13, 2023 at 15:06

In any language with a right associative ternary operator, you can stack them and build an if-elseif-elseif-else expression, like this:

val = a == 0 ? 1:
      a == 1 ? 2:

On the contrary, in languages with a left associative ternary operator (such as PHP, thanks @user786653) you need to explicitly enforce the aforementioned intent with parentheses:

// This will output 't', not 'true'.
echo (true ? 'true' : false ? 't' : 'f');

// the following is a more obvious version of the same code as above
echo ((true ? 'true' : false) ? 't' : 'f');

// here, you can see that the first expression is evaluated to 'true', which
// in turn evaluates to (bool)true, thus returning the true branch of the
// second ternary expression.
  • 14
    Off-topic, but I can't resist linking to the PHP manual for an example of left associative ternary operator.
    – user786653
    Sep 13, 2011 at 19:31
  • 9
    I'd say it's perfectly on-topic. The question was why the conditional operator is right-associative (though the OP may not have quite understood what that means). The PHP example shows the drawbacks of defining the conditional operator to be left-associative. Sep 13, 2011 at 19:58
  • I tied to edit your answer to fix the typo, "will output 't" should be "will output 'f'". My edit was held for peer review. Oct 6, 2012 at 15:39
  • 1
    Why do you think there's a typo? Run the example. Oct 7, 2012 at 2:21
  • 1
    Can also do a nested if too; like for eg : a > b ? a > c : a : c : b > c ? b : c; is like (a > b ? (a > c : a : c) : (b > c ? b : c));
    – Zaid Khan
    Mar 8, 2017 at 10:42

You got the concept of associativity wrong.

When operator + is said to be left-associative, this means that a + b + c is equivalent to (a + b) + c, as opposed to a + (b + c).

The operator = is right-associative, which means that a = b = c is equivalent to a = (b = c), as opposed to (a = b) = c.

Associativity has nothing to do with the order of evaluation.

  • 5
    "Associativity has nothing to do with the order of evaluation." Well, unless all the operators have the same precedence.
    – Chris Lutz
    Sep 13, 2011 at 19:34
  • 4
    I was referring to 4 and 3 are added before being assigned to x. Whether the right hand side or the left hand side of the operator is evaluated first, has nothing to do with the associativity. And no matter if the operator is right associative or left associative, the operands must always be evaluated before doing the actual operation. Sep 13, 2011 at 19:39
  • 1
    You're correct about the addition/assignment thing, and it's good to clarify that bit, but that's not really what the OP's after, and his statement can easily be amended to "I understand why x = 4 - 2 - 1 returns 1 instead of 3." Nothing you've said so far has anything to do with his question on why ?: is right associative.
    – Chris Lutz
    Sep 13, 2011 at 19:41
  • 1
    @Chris: How so? In a + b + c, associativity specifies which operands are associated with which operators, but a, b, and c can be evaluated in any of 6 possible orders. This doesn't make much difference for evaluating a variable, but consider func1() + func2() + func3(); the functions can be called in any order. Sep 13, 2011 at 19:45
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    @Keith - My brain is somewhere else. I still don't undetstand why this answer starts discussing order of evaluation, but when I read that I was clearly not thinking about what "order of evaluation" actually was.
    – Chris Lutz
    Sep 13, 2011 at 19:55

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