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consider this code snippet

int j = 7;
j = ~j++;



what i am expecting to see


first i thought it might be the precedence of ~ and ++

if the ~ is evaluated before ++ the answer will be


else if the ++ is evaluated before ~


I searched Oracle tutorials but I couldn't find the answer. Can anyone explain this behavior?

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No one should write code this way. –  duffymo May 10 '13 at 15:04
Have you tried j = ~(++j) and compared? –  BlackVegetable May 10 '13 at 15:06
Hm... is this defined behaviour at all in Java? You are changing j on both sides of the assignment. I think even if you tried j=j++ you might get unexpected results. So this isn't really a question of precedence. –  Axel May 10 '13 at 15:08
@Axel This is perfectly well-defined behaviour in Java. Somewhat pointless and generally confusing, but definitely well-defined. Java is not really in the business of undefined behaviour. –  Dukeling May 10 '13 at 15:14
@Axel, @Dukeling: I looked it up to be certain, and Dukeling is correct. This ambiguity is resolved by the specification, which provides a specific order of evaluation for assignment operations. The following link shows the order of operations for the outer, j = ... assignment operation: Java Spec section 15.26.1 What I didn't see a clear specification of would be the behaviour of something like: j = ++j + j--; In this case, is the ++j evaluated before or after the j++? And is it the same in every VM? –  Jonathan Gilbert May 10 '13 at 15:25

5 Answers 5

up vote 6 down vote accepted

Don't forget that the '++' post-increment operator returns the value of j before the increment happened. That is, if 'j' is 7, then 'j++' sets j to 8, but returns 7. ~7 is then the output that you saw, the number ending in three 0 bits.

The '++' post-increment operator can only operate on so-called "L-values". An L-value is a value that actually exists somewhere that code can logically reference -- a variable, or an array element, a parameter or a class field. As soon as you take the value of of an L-value and you apply some numerical operation to it, you get an R-value. R-values are just the value, and they don't refer to any persistent storage where a result could be put. You can assign to L-values but not to R-values -- and so if you tried to '++' an R-value, you would get a compile error.

If the '~' operator went first, then you'd be ++-ing an R-value, as in (~j)++. This would not compile. The fact that the code compiles at all means that the precedence is the other way: ~(j++).

Parentheses like this is the simplest way I know of that you can sort out precedence whenever there is any confusion: Just write three test cases:

  1. The original way that you're uncertain about.
  2. With parentheses forcing one order of operations.
  3. With parentheses forcing the other order of operations.

Run it and see whether #2 or #3 produces the same result as #1. :-)

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as u mentioned j = (~j)++ gives compile error ~(j++) is equivalent to ~j++ since the ++ has higher precedence –  leonardo_aly May 10 '13 at 15:16
+1 Very nice answer, especially the r-value / l-value mention. –  Dukeling May 10 '13 at 15:36

The code seems very brittle. I think that what is happening is that when the expression "~i++" is evaluated the value "~i" is extracted, "i++" is performed and then finally the assignment (overriding the previous value from "i++").

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~8 is 11111111111111111111111111110111, not 11111111111111111111111111111000. Edit: I see your edit :-) However, you still have the order backwards. The ++ happens first, but the result of the ++ is 7 not 8. –  Jonathan Gilbert May 10 '13 at 15:11
Easily confused with -8. I was confused for a moment and thought this answer was correct. –  BlackVegetable May 10 '13 at 15:12
Yeah, got confused initially. Should put a little more thought before answering. –  ctn May 10 '13 at 15:19
This answer may be somewhat accurate, but, if it is, it is unlikely to be understood correctly. Please read Jonathan's answer for more information. –  Dukeling May 10 '13 at 15:34

Unary operators (++1, --, +, -, ~, !) are evaluated from right to left. Hence ++ is evaluated before ~.

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Both operators are right associative second degree operators, but a simple test reveals that it is the ++ executed first and the BITWISE NOT operation the latter.

int j = 7, z = 7, k = 7;
z = z++;
z = ~z;
k = ~k++;
j = ~j;
// 11111111111111111111111111111000
// 11111111111111111111111111111001
// 11111111111111111111111111111000
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First, don't do that. There is no reason to bunch up operators like that into one statement, but I realize you weren't really planning to put this into live code and were just experimenting. Try this page for Java operator precedence: http://bmanolov.free.fr/javaoperators.php

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as mentioned in the link the postfix increment is evaluated before ~ then the answer should be increment first : 00.....01000 then complement : 11.....10111 –  leonardo_aly May 10 '13 at 15:10
This should've been a comment, unless you actually extract the information required from the link and post it in the answer with an explanation. –  Dukeling May 10 '13 at 15:11
please explain if there is something i didn't notice in the link i could extract the the ++ (pre- or postfix increment) has higher precedence than ~ and both of them have right Associativity –  leonardo_aly May 10 '13 at 15:19

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