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As we all know that Associativity of assignment operator is from right to left but in the given code output should be zero if we go from right to left but output is 1 .

 int a=3,b=2;

How output is coming out to be 1 if we go by right to letf??

If we go by right to left then (b==0) should be Evaluated first and gives result 0 and then expression (a==0) is Evaluated also gives 0 and at last a's value will be 0.

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Understanding the assignment operator doesn't save you if you don't also understand the comparison operator that you're using in the same statement. – Kerrek SB Aug 5 '11 at 10:05
Thanks Kerrek i got your point – Amit Singh Tomar Aug 5 '11 at 10:13
a == b == c is the same as (a == b) == c ... – SheetJS Jul 7 '13 at 23:45
This is not related to Xcode. Any standards-conformant C compiler within any reasonable IDE (and without any IDE at all) would produce the same (correct) result. Also, no, it isn't, but read the Wikipedia article on C operators. – user529758 Jul 8 '13 at 0:10
What @H2CO3 was trying to say is that it's not undefined so the compiler can't do anything it wants. It's evaluated as an (equality_expression == equality_expression) == equality_expression as states in section 6.5.9 in the specification, (and 6.5.8 for the relational_expression which forms the left part). I think my answer shows a simple counter example. – Benjamin Gruenbaum Jul 8 '13 at 0:32
up vote 7 down vote accepted

Assignment is done RTL, but equality (==) isn't.

The statement is actually:

a = ((a == b) == 0)

The right hand side of the assignment is evaluated from left to right. In steps, this is what's happening:

  1. a == b is 0
  2. 0 == 0 is 1
  3. 1 is assigned to a
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how it be RTL ?? – Amit Singh Tomar Aug 5 '11 at 10:09
I think it has do with the Associativity of comparison operator rather other way around. – Amit Singh Tomar Aug 5 '11 at 10:12
@Amit: The comparison operator goes from left to right! For a good example of an assignment operator you should consider a = b = c = 1;. – Kerrek SB Aug 5 '11 at 10:18

Your code is equivalent to :

a = ((a == b) == 0);
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Note, this is phrased this way as it was merged from this question. OP asked why a==b==c is equivalent to a==b && b==c in Objective C (which is a strict superset of C). I asked this answer to be migrated since it cites the specificatio where other answers here do not.

No, it is not, it's like (a==b) == c.

Let's look at a simple counter example to your rule:

(0 == 0 == 0);// evaluates to 0


(0 == 0) && (0 == 0) // evaluates to 1

The logic is problematic since:

(0 == 0 == 0) reads out as ((0 == 0) == 0) which is similar to 1 == 0 which is false (0).

For the ambitious student

A little dive on how this is evaluated. Programming languages include grammar which specifies how you read a statement in the language. Siance Objective-C does not have an actual specification I'll use the C specificification since objective-c is a strict superset of c.

The standard states that an equality expression (6.5.9) is evaluated as the following:

Equality Expression:


equality-expression == relational-expression

equality-expression != relational-expression

Our case is the second one, since in a == b == c is read as equality_expression == relational_expression where the first equality expression is a == b.

(Now, the actual result number follow quite a way back to a number literal, equality->relational->shift->additive->multiplicative->cast->unary->postfix->primary->constant , but that's not the point)

So the specification clearly states that a==b==c does not evaluate the same way as a==b && b==c

It's worth mentioning that some languages do support expressions in the form a<b<c however, C is not one such language.

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It's worth mentioning that results of C comparisons evaluate to int and not BOOL. – android Jul 7 '13 at 23:50
Xcode evaluates (1 == 1 == 1) as true, but (2 == 1 == 1) as false. – Dan Wesnor Jul 8 '13 at 0:14
@DanWesnor Right, because the value for 'truth' is 1 and 'false' is 0. So 1 == 1 == 1 evaluates as (1 == 1) == 1 which evaluates as 1==1 which evaluates as 1 which is true. On the other hand (2 == 1 == 1 evaluates as (2 == 1) == 1) which is 0 == 1 which evaluates as 0 which is false. – Benjamin Gruenbaum Jul 8 '13 at 0:24
@DanWesnor Get rid of that "Xcode" word. Xcode does nothing to your code, at best it passes it to the compiler. The parser pass in the compiler is what evaluates the expression. And now go read how booleans are represented in C, and you will see why 1 == 1 == 1 is true, so is 1 == 1 == 1 == 1, etc. – user529758 Jul 8 '13 at 0:34
@DanWesnor it's worth to mention that generally to provide a logical claim like the equivalence of two predicates (expressions) you must show that they produce the same result for all possible inputs and not for a specific assignment (so 1==1==1 does not indicate that a==b==c <==> a==b && b==c in any way. – Benjamin Gruenbaum Jul 8 '13 at 0:49

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