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 == 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.