Java: sum of two integers being printed as concatenation of the two

``````  class giri{
public static void main(String args[])
{
int x = 17;
int y = 013;
System.out.println("x+y = " + x+y);
}
}
``````

When I run the program I get the output 1711. Can anybody tell me How do I get 1711

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Wow, seven answers in a minute... –  David Johnstone Mar 12 '10 at 0:27
LOL impressed that so many people still know about Octal :-). Given that here's a joke... why to programmers confuse Halloween and Christmas? Because Dec 25 = Oct 31 –  Eric J. Mar 12 '10 at 0:28
@Eric, haha thanks, I'd never heard of that one before! –  Peter Mar 12 '10 at 0:34
Octal constants... I wish the Java language designers took the opportunity to get rid of them (thank you C# designers!), or at least come up with a different notation. –  Michael Burr Mar 12 '10 at 0:35
Autoboxing....nice when Java introduced it, now `int x` automatically is a assigned `Integer.toString(x);`. –  Buhake Sindi Mar 12 '10 at 0:37
show 1 more comment

`013` is an octal constant.

``````013 = 1*8 + 3*1 = 8 + 3 = 11
``````

That's where your `11` comes from. The 17 is there directly. I think what you want is:

``````int x = 17;
int y = 013;
int z = x + y;

System.out.println("x+y = " + z);
``````

Which will be a better result.

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+1, Yep, the order of operations is from left to right so if you want to sum x and y you can either do as you've done, or put brackets around them. –  Peter Mar 12 '10 at 0:27
instead of defining new variable, you can just use (x+y) –  medopal Mar 12 '10 at 0:32

There are two issues here: octal literal, and order of evaluation.

`int y = 013` is equivalent to `int y = 11`, because 13 in base 8 is 11 in base 10.

For order of evaluation, the `+` operator is evaluated left to right, so `"x+y = " + x+y` is equivalent to `("x+y = " + x)+y`, not `"x+y = " + (x+y)`. Whitespaces are insignificant in Java.

Look at the following diagram (`s.c.` is string concatenation, `a.a.` is arithmetic addition):

``````("x+y = " + x)+y
|   |
(1) s.c  |
|
s.c. (2)

"x+y = " + (x+y)
|   |
|  a.a. (1)
|
s.c. (2)
``````

In both diagrams, `(1)` happens before `(2)`.

Without the parantheses, the compiler evaluates left-to-right (according to precedence rules).

`````` "x+y = " + x+y
|  |
(1) |
|
(2)
``````
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You're doing string concatenation in the final print, since you're adding to a string. Since `"x+y = "` is a string, when you add x to it, it's giving you `"17"`, making `"x+y = 17"`.

THe 013 is in octal, so treated as a decimal, you get 11. When you concatenate this, you end up with `"x+y = 17"` + `"11"`, or `1711`

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how does it concatenate 11? –  giri Mar 12 '10 at 0:27
11 is concatenated because of the order of operations is from left to right. Java first looks at "x+y = " + x, which causes x to be promoted to a String and concatenated onto the first String. The result is then concatenated onto y, which is also promoted to a String during the operation. –  Peter Mar 12 '10 at 0:32
Yeah - sorry that wasn't so clear from the post... –  Reed Copsey Mar 12 '10 at 0:46
``````"x+y = " + x+y
equals
("x+y = " + x) + y
which equals
("x+y = " + x.ToString()) + y
which equals
("x+y = " + x.ToString()) + y.ToString()

( 013 is octal = 11 in decimal)
``````
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You can't call toString() on an int. –  Peter Mar 12 '10 at 0:27
Perhaps, I'm a bit rusty in Java, too much C#. –  Danny Varod Mar 12 '10 at 0:28
could become Java if you made them `Integer` not `int` :) –  medopal Mar 12 '10 at 0:31
@Peter and @medopal: You get the same effect in Java 5 because the `int` s are autoboxed to `Integer` s. –  Daniel Pryden Mar 12 '10 at 0:49

Numbers prefixed with 0 are octal. 13 Octal is 11 decimal.

The x + y call treats both paramters as strings, so you are combining the string "17" and "11".

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013 is ocatal ... convert it to decimal and you will get 11. Have a look here for an explanation of the octal system.

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It's string concatenation of decimal 17 and octal 13 (equivalent to decimal 11).

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It appears to be interpreting y as using octal notation (which evaluates to 11). Also, you're concatenating the string representations of x and y in System.out.printLn.

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everyone mentioned `0` makes the number octal.
I just want to add that `0x` makes it hexadecimal