# Why is the result not 1? [duplicate]

``````int m = 0;

m += m++;

System.out.println(m);
``````

prints to `0` but i thought `m` will be post incremented and finally be `1`. Would someone please explain.

Note: i know how post increment works (atleast i think i do :P). But what i am trying to figure out is that when i say `m + = m++` lets assume it means `m = m + m++` which will evaluate `m++` after sending the value of `m`, `0` in this case, and evaluate to `m = 0 + 0` then increment the value of `m` because of the post increment. now if post increment has occured, why is `m` not `1`

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## marked as duplicate by devnull, EJP, christopher, Marko Topolnik, madth3Sep 30 '13 at 5:37

@kark "i thought m will be post incremented and finally be 1" –  eis Sep 26 '13 at 11:15

``````int m = 0
``````

At this point m is `0`

``````m += m++;
``````

Expands to `m=m+(m++)`

`m` returns `0`

`m++` returns the value of m which is `0` and then increments it to `1`

transforming `m+(m++)` into `0+0` (m is `1` a this point)

This is then assigned to `m` resulting in the final value of `m`.

Tip: avoid post-increment when you're touching the value otherwise

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`m++` returns `m` then increments it.

Change it to `++m` and you'll see `1`.

For clarity, this question explains it too: What is x after "x = x++"?

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OP says prints to `0`; –  TheKojuEffect Sep 26 '13 at 11:15
@TheKojuEffect And so it does, and if it is changed as stated here it will print 1. Your point? –  EJP Sep 26 '13 at 11:16
This doesn't explain what happens with the incremented m in the OP example. –  eis Sep 26 '13 at 11:17
@EJP And that doesn't explain anything about the question. –  TheKojuEffect Sep 26 '13 at 11:18
While this answer is not incorrect. It does not explain the underlying reasons behind why m == 0 after it 'should' have been incremented according to someone who doesn't know about evaluation order. –  Serdalis Sep 26 '13 at 11:41

Consider the following rules:

• `a += b` is equivalent to `a = a + b`. Therefore `m += m++` is equivalent to `m = m + m++`.
You can see that the first occurence of `m` at the right sight is evaluated before the increment and produces `0`

• `m++` increments `m` and returns original value of `m` before the increment.
So, in your case `m++` sets `m` to `1` and returns `0`

• Assignment happens after evaluation of the right side, whereas post-increment happens during evaluation of the right side.

Now you can see that your expression is evaluated as follows:

• Evaluation of the right side produces `0` and sets `m` to `1`

• Assignment sets `m` to value of the right side (`0`)

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The sequence of events is:

1. The RHS is evaluated (0)
2. The post increment is done (m++).
3. The evaluated result is assigned (m=0 again).

i.e. this is equivalent to:

``````tmp = m;
m++;
m = tmp;
``````

If you did m = ++m, the sequence would be:

1. The pre increment is done (++m).
2. The RHS is evaluated (1)
3. The evaluated result is assigned (m=1).
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+1 since your submission came in before mine. –  Kevin A. Naudé Sep 26 '13 at 11:26

ANSWER: An assignment evaluates side effects before performing the assignment.

``````m += m++;
``````

is equivalent to

``````temp = m + m++;    ; m is now 1, but temp is 0
m = temp;          ; m is now 0 again
``````
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Well m++ return the value of m before to increment it, contrary to ++m that increment then return, like:

`````` int m++(int m){
int tmp = m;
m = m+1;
return tmp;
}

int ++m(int m){
m = m+1;
return m;
}
``````
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uh... wat is `m++(int m)` by the way..? –  Black Panther Sep 26 '13 at 11:18
just a barbarism to represent the function behavior. –  Antoine Sep 26 '13 at 11:21

`m+ =m++;` Results -- >> M value + (post incremented m value(m++))

Initially

m value= 0

post incremented(m++) m value = 0 (pre increment(++m) = 1)

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`f` is your code. `g` is an expanded version showing why they both print `0`.

``````class Test {
private static void f() {
int x = 0;
x += x++;
System.out.println(x);
}

private static void g() {
int x = 0;
int preInc = x; // preInc = 0
x += 1;         // x = 1
x = preInc;     // x = 0
System.out.println(x);
}

public static void main(String[] args) {
f();
g();
}
}
``````
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