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I am reading some Java text and got the following code:

int[] a = {4,4};
int b = 1;
a[b] = b = 0;

In the text, the author did not give a clear explanation and the effect of the last line is: a[1] = 0;

I am not so sure that I understand: how did the evaluation happen?

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12  
The confusion below on why this happens means by the way, that you should never do this, as many people will have to think about what it actually does, instead of it beeing obvious. –  Martijn Jul 23 '11 at 19:32

3 Answers 3

up vote 109 down vote accepted

The accepted answer -- stating that this is because of precedence -- and the highed upvoted answer -- stating that this is because of a combination of associativity and precedence -- are both wrong. (These answers are both deleted now). Fortunately they are wrong in a way that presents a teachable moment!

Let me say this very clearly, because people misunderstand this all the time:

Order of evaluation of subexpressions is independent of both associativity and precedence. Associativity and precedence determine in what order the operators are executed but do not determine in what order the subexpressions are evaluated. Your question is about the order in which subexpressions are evaluated.

Consider A() + B() + C() * D(). Multiplication is higher precedence than addition, and addition is left-associative, so this is equivalent to (A() + B()) + (C() * D()) But knowing that only tells you that the first addition will happen before the second addition, and that the multiplication will happen before the second addition. It does not tell you in what order A(), B(), C() and D() will be called! (It also does not tell you whether the multiplication happens before or after the first addition.) It would be perfectly possible to obey the rules of precedence and associativity by compiling this as:

d = D()          // these four computations can happen in any order
b = B()
c = C()
a = A()
sum = a + b      // these two computations can happen in any order
product = c * d
result = sum + product // this has to happen last

All the rules of precedence and associativity are followed there -- the first addition happens before the second addition, and the multiplication happens before the second addition. Clearly we can do the calls to A(), B(), C() and D() in any order and still obey the rules of precedence and associativity!

We need a rule unrelated to the rules of precedence and associativity to explain the order in which the subexpressions are evaluated. The relevant rule in Java (and C#) is "subexpressions are evaluated left to right". Since A() appears to the left of C(), A() is evaluated first, regardless of the fact that C() is involved in a multiplication and A() is involved only in an addition.

So now you have enough information to answer your question. In a[b] = b = 0 the rules of associativity say that this is a[b] = (b = 0); but that does not mean that the b=0 runs first! The rules of precedence say that indexing is higher precedence than assignment, but that does not mean that the indexer runs before the rightmost assignment.

The rules of precedence and associativity impose the restrictions that:

  • The indexer operation must run before the operation associated with the left-hand assignment operation
  • The operation associated with the right-hand assignment operation must run before that associated with the left-hand assignment operation.

Precedence and associativity only tell us that the assignment of zero to b must happen before the assignment to a[b]. Precedence and associativity says nothing about whether the a[b] is evaluated before or after the b=0.

Again, this is just the same as: A()[B()] = C() -- All we know is that the indexing has to happen before the assignment. We don't know whether A(), B(), or C() runs first based on precedence and associativity. We need another rule to tell us that.

The rule is, again, "when you have a choice about what to do first, always go left to right": the a[b] is to the left of the b=0, so the a[b] runs first, resulting in a[1]. Then the b=0 happens, and then the assignment of the value to a[1] happens last.

Things to the left happen before things to the right. That's the rule you're looking for. Talk of precedence and associativity is both confusing and irrelevant.

People get this stuff wrong all the time, even people who should know better. I have edited far too many programming books that stated the rules incorrectly, so it is no surprise that lots of people have completely incorrect beliefs about the relationship between precedence/associativity, and evaluation order -- namely, that in reality there is no such relationship; they are independent.

If this topic interests you, see my articles on the subject for further reading:

http://blogs.msdn.com/b/ericlippert/archive/tags/precedence/

They are about C#, but most of this stuff applies equally well to Java.

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3  
Personally I prefer the mental model where in the first step you build an expression tree using precedence and associativity. And in the second step recursively evaluate that tree starting with the root. With the evaluation of a node being: Evaluate the immediate child nodes left to right and then the note itself. | One advantage of this model is it trivially handles the case where binary operators have a side-effect. But the main advantage is that it simply fits my brain better. –  CodesInChaos Jul 23 '11 at 19:56
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@Neil: C++ does not guarantee anything about the order of evaluation, and never did. (Nor does C.) Python guarantees it strictly by precedence order; unlike everything else, assignment is R2L. –  Donal Fellows Jul 23 '11 at 23:00
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@aroth: You're telling that to the guy that writes the books and the compilers. –  danielkza Jul 24 '11 at 5:45
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@aroth to me you sound just confused. And the precedence rules only imply that children need to be evaluated before parents. But they say nothing about the order in which children are evaluated. Java and C# chose left to right, C and C++ chose undefined behavior. –  CodesInChaos Jul 24 '11 at 16:12
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@noober: OK, consider: M(A() + B(), C() * D(), E() + F()). Your wish is for the subexpressions to be evaluated in what order? Should C() and D() be evaluated before A(), B(), E() and F() because multiplication is higher precedence than addition? It's easy to say that "obviously" the order should be different. Coming up with an actual rule that covers all cases is rather more difficult. The designers of C# and Java chose a simple, easy-to-explain rule: "go left-to-right". What is your proposed replacement for it, and why do you believe your rule is better? –  Eric Lippert Aug 18 '11 at 15:12

Your code is equivalent to:

int[] a = {4,4};
int b = 1;
c = b;
b = 0;
a[c] = b;

which explains the result.

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4  
The question is why that is the case. –  Mat Jul 23 '11 at 13:20
    
@Mat The answer is because this is what happens under the hood considering the code provided in the question. That's how the evaluation happens. –  JVerstry Jul 23 '11 at 13:35
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Yes, I know. Still not answering the question though IMO, which is why this is how the evaluation happens. –  Mat Jul 23 '11 at 13:38
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@Mat 'Why this is how the evaluation happens?' is not the asked question. 'how the evaluation happened?' is the asked question. –  JVerstry Jul 23 '11 at 13:44
    
My code is just explaining the application of Java evaluation rules. Lippert's approved answer is not correct and Fellows' answer (or mine) should be the approved instead. "When you have a choice about what to do first, always go left to right" is not equivalent to "First, the array reference subexpression of the left-hand operand array access expression is evaluated". With all due respect, there is no choice in this case. –  JVerstry Aug 4 '11 at 0:09

Eric Lippert's masterful answer is nonetheless not properly helpful because it is talking about a different language. This is Java, where the Java Language Specification is the definitive description of the semantics. In particular, §15.26.1 is relevant because that describes the evaluation order for the = operator (we all know that it is right-associative, yes?). Cutting it down a little to the bits that we care about in this question:

If the left-hand operand expression is an array access expression (§15.13), then many steps are required:

  • First, the array reference subexpression of the left-hand operand array access expression is evaluated. If this evaluation completes abruptly, then the assignment expression completes abruptly for the same reason; the index subexpression (of the left-hand operand array access expression) and the right-hand operand are not evaluated and no assignment occurs.
  • Otherwise, the index subexpression of the left-hand operand array access expression is evaluated. If this evaluation completes abruptly, then the assignment expression completes abruptly for the same reason and the right-hand operand is not evaluated and no assignment occurs.
  • Otherwise, the right-hand operand is evaluated. If this evaluation completes abruptly, then the assignment expression completes abruptly for the same reason and no assignment occurs.

[… it then goes on to describe the actual meaning of the assignment itself, which we can ignore here for brevity …]

In short, Java has a very closely defined evaluation order that is pretty much exactly left-to-right within the arguments to any operator or method call. Array assignments are one of the more complex cases, but even there it's still L2R. (The JLS does recommend that you don't write code that needs these sorts of complex semantic constraints, and so do I: you can get into more than enough trouble with just one assignment per statement!)

C and C++ are definitely different to Java in this area: their language definitions leave evaluation order undefined deliberately to enable more optimizations. C# is like Java apparently, but I don't know its literature well enough to be able to point to the formal definition. (This really varies by language though, Ruby is strictly L2R, as is Tcl — though that lacks an assignment operator per se for reasons not relevant here — and Python is L2R but R2L in respect of assignment, which I find odd but there you go.)

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Rereading that bit I quoted, I just realized that it means that array assignment is really a concealed ternary operator (at the logical level; syntactically it's a composition of several operators). –  Donal Fellows Jul 24 '11 at 16:30
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So what you're saying is Eric's answer is wrong because Java defines it specifically to be exactly what he said? –  configurator Aug 7 '11 at 10:29
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The relevant rule in Java (and C#) is "subexpressions are evaluated left to right" - Sounds to me like he's talking about both. –  configurator Aug 7 '11 at 16:22
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A little confused here - does this make the above answer by Eric Lippert any less true, or is it just citing a specific reference as to why it is true? –  GreenieMeanie Aug 16 '11 at 17:59
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@Greenie: Eric's answer is true, but as I stated you cannot take an insight from one language in this area and apply it to another without being careful. So I cited the definitive source. –  Donal Fellows Aug 16 '11 at 18:53

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