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I'm studying for the OCPJP exam, and so I have to understand every little strange detail of Java. This includes the order in which the pre- and post-increment operators apply to variables. The following code is giving me strange results:

int a = 3;

a = (a++) * (a++);

System.out.println(a); // 12

Shouldn't the answer be 11? Or maybe 13? But not 12!


What is the result of the following code?

int a = 3;

a += (a++) * (a++);

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closed as not constructive by duffymo, CodesInChaos, Carlos Heuberger, Soner Gönül, Graviton Nov 11 '11 at 10:55

As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, visit the help center for guidance.If this question can be reworded to fit the rules in the help center, please edit the question.

No one should ever write code like this. Believe the compiler - it understands Java better than you do. I think it's correct: the first evaluation returns 3 and the second one returns 4. The final value for a is 5. – duffymo Nov 7 '11 at 16:01
@duffymo: that's what I think about every question on the OCJP exam. – Pops Nov 7 '11 at 16:02
Erm, how you would expect it to be 11 or 13 is beyond me; those are prime numbers. If you'd had said 9 I could see your confusion, sort of. – Brian Roach Nov 7 '11 at 16:02
There's an exam that requires you to know this kind of inanity? – Oliver Charlesworth Nov 7 '11 at 16:03
It's post-increment, so it's a = 3 (->4) * 4 (->5) // = 3*4 = 12 – Smamatti Nov 7 '11 at 16:04

15 Answers 15

up vote 109 down vote accepted

After the first a++ a becomes 4. So you have 3 * 4 = 12.

(a becomes 5 after the 2nd a++, but that is discarded, because the assignment a = overrides it)

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I"m pretty sure it's left to right in this case. You could prove it by replacing the first a++ to (one() + a++) and the second one with (two() + a++). Make one() and two() both return 0, and put a println inside those methods. At runtime you'll see that one() is called before two(). – Mike Nov 7 '11 at 16:21
cool, i'd never guess that a result could be discarded. my thought was that the final ++ would be applied to the result of the multiplication. – Marius Nov 7 '11 at 16:21
@Marius: It's not so much discarded as overwritten. The second ++ is applied, and it does increment a to 5... and then the value of a is replaced by the now-evaluated result of the assignment. The fact that you're assigning into the same variable you're using doesn't change the behavior of any of the operators involved. – Bobson Nov 7 '11 at 21:25
@Ben: Java, like C++ and C, has both prefix and postfix increment and decrement:… – Samuel Edwin Ward Nov 7 '11 at 21:47
The main difference between Java and C++ is that Java specifies many more sequence points so that code like this is actually definable, unlike C++ where this code can easily evaluate to any number of things. – fluffy Nov 7 '11 at 22:01

I'm going to answer your follow-up question. Let's get step by step as Java evaluates the statement:

a += (a++) * (a++);
  1. Since a += b is short for a = a + b, the statement becomes this:

    a = a + (a++) * (a++);

  2. a = 3 gets substituted in the first summand:

    a = 3 + (a++) * (a++);

  3. a = 3 gets substituted in the first factor, value of a is increased to a = 4.

    a = 3 + 3 * (a++);

  4. a = 4 gets substituted in the second factor, value of a is increased to a = 5.

    a = 3 + 3 * 4;

a now gets the value of 15.

In practice, you should avoid such statements and transform it to simpler, equivalent form, such as one of these:

a = a*a + 2*a
a = a*(a+2)
a += a*(a+1)
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Why does it return 12? – Robert Harvey Nov 7 '11 at 16:03
ps.: I meant multiplication where all factors are >=3, such as it is in the code. – Rok Kralj Nov 7 '11 at 16:04
@RokKralj this is a theoretical question for an exam. It's supposed to be extreme and ambiguous. :) – Madara Uchiha Nov 7 '11 at 16:11
Rok should have written "a becomes 4" instead of "a=4" and "a becomes 5", "a=3*4". The "a becomes 5" precedes "a=3*4". – Mike Nov 7 '11 at 16:23
@Agos: I guess he thought that first 3 * 3 would be calculated, then assigned to a, and then a would be incremented twice --> 11. Or 3 * 4 is calculated, and the result is incremented once --> 13. Not that it makes much sense, but if you look at some of the other pre-/postfix increment question here, you get a sense of "anything is possible"... – Tim Pietzcker Nov 9 '11 at 14:25

a++ means 'the value of a, and a is then incremented by 1'. So when you run

(a++) * (a++)

the first a++ is evaluated first, and produces the value 3. a is then incremented by 1. The second a++ is then evaluated. a produces the value of 4, and is then incremented again (but this doesn't matter now)

So this turns into

a = 3 * 4

which equals 12.

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Clear and to the point, +1. – Derek Nov 9 '11 at 8:05
int a = 3;
a += (a++) * (a++);

First build the syntax tree:


To evaluate it start with the outer most element and descent recursively. For each element do:

  • Evaluate children from left to right
  • Evaluate the element itself

The += operator is special: It gets expanded to something like left = left + right, but only evaluating the expression left once. Still the left side gets evaluated to a value(and not just a variable) before the right side gets evaluated to a value.

This leads to:

  1. Start evaluating +=
  2. Evaluate left side of assignment to the variable a.
  3. Evaluate the variable a to the value 3 which will be used in the addition.
  4. Start evaluating *
  5. Evaluate the first a++. This returns the current value of a 3 and sets a to 4
  6. Evaluate the second a++. This returns the current value of a 4 and sets a to 5
  7. Calculate the product: 3*4 = 12
  8. Execute +=. The left side had been evaluated to 3 in the third step and the right side is 12. So it assigns 3+12=15 to a.
  9. Final value of a is 15.

One thing to note here is that operator precedence has no direct influence on evaluation order. It only affects the form of the tree, and thus indirectly the order. But among siblings in the tree the evaluation is always left-to right, regardless of operator precedence.

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The final answer, if you run the code, is 15... – Marius Nov 8 '11 at 11:43
@Marius thanks, my mistake. I think I have fixed it now. – CodesInChaos Nov 8 '11 at 12:13

(a++) is a post increment, so value of expression is 3.

(a++) is post increment, so value of expression is now 4.

Expression evaluation is happening from left to right.

3 * 4 = 12 
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3*4 = 12: Hey thats what I call an unquestionable truth XD. – Mister Smith Nov 7 '11 at 16:12

Each time the you use a++, you're post-incrementing a. That means the first a++ evaluates to 3 and the second evaluates to 4. 3 * 4 = 12.

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There is a general lack of understanding about how operators work. Honestly, every operator is syntactic sugar.

All you have to do is understand what is actually happening behind every operator. Assume the following:

a = b -> Operators.set(a, b) //don't forget this returns b
a + b -> Operators.add(a, b)
a - b -> Operators.subtract(a, b)
a * b -> Operators.multiply(a, b)
a / b -> Operators.divide(a, b)

Compound operators can then be rewritten using these generalizations (please ignore the return types for the sake of simplicity):

Operators.addTo(a, b) { //a += b
  return Operators.set(a, Operators.add(a, b));

Operators.preIncrement(a) { //++a
  return Operators.addTo(a, 1);

Operators.postIncrement(a) { //a++
  Operators.set(b, a);
  Operators.addTo(a, 1);
  return b;

You can rewrite your example:

int a = 3;
a = (a++) * (a++);


Operators.set(a, 3)
Operators.set(a, Operators.multiply(Operators.postIncrement(a), Operators.postIncrement(a)));

Which can be split out using multiple variables:

Operators.set(a, 3)
Operators.set(b, Operators.postIncrement(a))
Operators.set(c, Operators.postIncrement(a))
Operators.set(a, Operators.multiply(b, c))

It's certainly more verbose that way, but it immediately becomes apparent that you never want to perform more than two operations on a single line.

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In case of :

int a = 3;  
a = (a++) * (a++); 

a = 3 * a++; now a is 4 because of post increment
a = 3 * 4; now a is 5 because of second post increment
a = 12; value of 5 is overwritten with 3*4 i.e. 12 

hence we get output as 12.

In case of :

a += (a++) * (a++); 
a = a + (a++) * (a++);
a = 3 + (a++) * (a++); // a is 3
a = 3 + 3 * (a++); //a is 4
a = 3 + 3 * 4; //a is 5
a = 15

Main point to note here is that in this case compiler is solving from left to right and in case of post increment, value before increment is used in calculation and as we move from left to right incremented value is used.

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(a++) means return a and increment, so (a++) * (a++) means 3 * 4

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Here is the java code:

int a = 3;
a = (a++)*(a++);

Here is the bytecode:

  0  iconst_3
  1  istore_1 [a]
  2  iload_1 [a]
  3  iinc 1 1 [a]
  6  iload_1 [a]
  7  iinc 1 1 [a]
 10  imul
 11  istore_1 [a]

Here is what happens:

Pushes 3 into the stack then pops 3 from the stack and stores it at a. Now a = 3 and the stack is empty.

  0  iconst_3
  1  istore_1 a

Now it pushes the value from "a" (3) into the stack, and then increments a(3 -> 4).

  2  iload_1 [a]
  3  iinc 1 1 [a]

So now "a" equals "4" the stack equals {3}.

Then it loads "a" again (4), pushes into the stack and increments "a".

  6  iload_1 [a]
  7  iinc 1 1 [a]

Now "a" equals 5 and the stack equals {4,3}

So it finally pops the fisrt two values from the stack (4 and 3), multiplies and stores it back into the stack (12).

 10  imul

Now "a" equals 5 and the stack equals 12.

Finally is pops 12 from the stack and stores at a.

 11  istore_1 [a]


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It is 12. The expression starts evaluating from left. So it does:

a = (3++) * (4++);

Once the first part (3++) is evaluated, a is 4, so in the next part, it does a = 3*4 = 12. Note that the last post-increment (4++) is executed but has no effect since a is assigned with the value 12 after this.

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Example 1

int a = 3;

a = (++a) * (a++);

System.out.println(a); // 16

Example 2

int a = 3;

a = (++a) * (++a);

System.out.println(a); // 20

Just to make sure where to put ++ expression which changes the value based on the location.

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Everyone has clearly explained the first expression, and why the value of a is 12.

For the follow on question, the answer is totally obvious to the casual observer:


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Pre & post-prefix increments have a higher precedence than the multiplication operator. hence the expression is evaluated as 3*4.

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talking about precedence is this way is highly misleading. – CodesInChaos Nov 8 '11 at 11:22
Because prefix and postfix increments are unary operations (as in they take only one operand) they have a higher precedence. They work like negation. The other thing that should be noted is that there are PARENTHESES which force the precedence so that it the compiler isn't really making any choice. -- also you can't use the prefix or postfix increment on anything but a variable - (hence ++(1+2) ) is a non-expression and will be flagged as a syntax error. – Zeke Hansell Nov 8 '11 at 21:31

If you use a++ the next time you use a it is incremented by one. So your doing

a = 3 * (3 + 1) = 3 * 4 = 12
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