In JavaScript and Java, the equals operator (== or ===) has a higher precedence than the OR operator (||). Yet both languages (JS, Java) support short-circuiting in if statements:

When we have if(true || anything()), anything() isn't evaluated.

You can also have the following expression: true || foo == getValue()) - for example in an output statement such as console.log(...);, or in an assignment.

Now, according to operator precedence, short-circuiting shouldn't happen, as === = == > || in terms of precedence. (In other words, the comparison should happen first, for which getValue() ought to be called, as the equality check has a higher precedence that the OR comparison.) But it does. getValue() isn't called (as can easily be checked by putting an output statement into its body).

Why (does short circuiting work when the operator precedence says it shouldn't)?
Or am I confusing matters?

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    Related: What are the rules for evaluation order in Java? – Pshemo Sep 30 '17 at 19:07
  • You have a contradiction in your question. You said "...the comparison should happen first... getValue() ought to be called... But it does." So part of your question implies that getValue() is not called, but this statement says that is is called. Which is it? – Chloe Sep 30 '17 at 19:44
  • @Chloe: His "but it does" is referring to "short circuiting shouldn't happen", which balances with his concern that "getValue() ought to be called..." and his observation that "getValue() isn't called". – llama Sep 30 '17 at 19:49

Or am I confusing matters?

You are. I think it's much simpler to think about precedence as grouping than ordering. It affects the order of evaluation, but only because it changes the grouping.

I don't know about Javascript for sure, but in Java operands are always evaluated in left-to-right order. The fact that == has higher precedence than || just means that

true || foo == getValue()

is evaluated as

true || (foo == getValue())

rather than

(true || foo) == getValue()

If you just think about precedence in that way, and then consider that evaluation is always left-to-right (so the left operand of || is always evaluated before the right operand, for example) then everything's simple - and getValue() is never evaluated due to short-circuiting.

To remove short-circuiting from the equation, consider this example instead:

A + B * C

... where A, B and C could just be variables, or they could be other expressions such as method calls. In Java, this is guaranteed to be evaluated as:

  • Evaluate A (and remember it for later)
  • Evaluate B
  • Evaluate C
  • Multiply the results of evaluating B and C
  • Add the result of evaluating A with the result of the multiplication

Note how even though * has higher precedence than +, A is still evaluated before either B or C. If you want to think of precedence in terms of ordering, note how the multiplication still happens before the addition - but it still fulfills the left-to-right evaluation order too.

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  • While I totally get short-circuiting, I still fail to see why it works with the rules. Essentially, we have operand1 operatorA operand2 operatorB operand3 with operatorA's preceence being lower that operatorB's, so operator precedence should cause o2 oB o3 to be evaluated first. Instead (due to short circuiting) the interpreter sees operatorA is an OR and thus only evaluates operand1. That evaluates to true, so nothing else gets evaluated. Despite operator precedence stating it should be the other way round; the o2 oB o3 should run first. – Christian Sep 30 '17 at 20:37
  • @Christian: "so operator precedence should cause o2 oB o3 to be evaluated first" - no, it really doesn't. Operator precedence means it's grouped such that the operands of operatorA are "operand1" and "the result of evaluating operatorB". But operand1 is still evaluated first. That what I mean about it being more about grouping. – Jon Skeet Sep 30 '17 at 20:40
  • In fact, the left-to-right rule only applies to operands of the same order: 1 + 2 + 3 => 3 + 3 => 6 whereas 1 + 2 * 3 => 1 + 6 => 7, not 3 * 3 => 9, right? If so, we're back at square one, because the || has a lower order than the ==, yet evaluates first (i.e. we get 9, instead of 6)... – Christian Sep 30 '17 at 20:41
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    @Christian: No, that's associativity you're thinking of. See docs.oracle.com/javase/specs/jls/se8/html/jls-15.html#jls-15.7: "The left-hand operand of a binary operator appears to be fully evaluated before any part of the right-hand operand is evaluated." So the left-hand operand of || is evaluated before the right-hand operand is evaluated. – Jon Skeet Sep 30 '17 at 20:42
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    @Christian: You might find this blog post I wrote about the topic a while ago useful: codeblog.jonskeet.uk/2015/04/21/precedence-ordering-or-grouping – Jon Skeet Sep 30 '17 at 20:47

According to the language specification, https://docs.oracle.com/javase/specs/jls/se7/html/jls-15.html#jls-15.24

At run time, the left-hand operand expression is evaluated first; if the result has type Boolean, it is subjected to unboxing conversion (§5.1.8).

If the resulting value is true, the value of the conditional-or expression is true and the right-hand operand expression is not evaluated.

So if you have a || b==c, it is not interpreted as (a || b) == c, because || has lower precedence, as you found in the tutorial. Instead, it is interpreted as a || (b==c). Now since a is the left side of ||, it is evaluated first.

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There is no operator precedence in this case. What you are questioning is like in f(callback) statement the callback function being evaluated even before f. This can not happen.

On the other hand, in JS the || is one of the few places where you can watch laziness at show. The == operand (think as if it is an infix function like in fully functional languages) takes two arguments and the one on the left gets evaluated first. If it resolves to true the second argument doesn't even get evaluated.

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