# What does the ^ operator do in Java?

What function does the `^` (caret) operator serve in Java?

When I try this:

``````int a = 5^n;
``````

...it gives me:

for n = 5, returns 0
for n = 4, returns 1
for n = 6, returns 3

...so I guess it doesn't perform exponentiation. But what is it then?

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Can you post the actual code you are using? – Anthony Forloney Apr 20 '10 at 2:44
I'm using eclipse and this returns 11. public class SimpleParser { public static void main(String[] args) { System.out.println((10^1)); } } – user320927 Apr 20 '10 at 2:48
In Java, `^` operator is not meant for power set. You would need `Math.pow` instead. See polygenelubricant's answer. – Anthony Forloney Apr 20 '10 at 2:50
@Simon: +1 to the newcomer. Why how why ten votes to the (very good) answer and zero upvote to the question asker? Why do people keep consider answers are any worthy if the question isn't? I decidedly don't get SO... – SyntaxT3rr0r Apr 20 '10 at 2:53
+1, nice question. The answer is trivial but the question made me smile. – heijp06 Apr 20 '10 at 6:42

## The ^ operator in Java

`^` in Java is the exclusive-or ("xor") operator.

Let's take `5^6` as example:

``````(decimal)    (binary)
5     =  101
6     =  110
------------------ xor
3     =  011
``````

This the truth table for bitwise (JLS 15.22.1) and logical (JLS 15.22.2) xor:

``````^ | 0 1      ^ | F T
--+-----     --+-----
0 | 0 1      F | F T
1 | 1 0      T | T F
``````

More simply, you can also think of xor as "this or that, but not both!".

## Exponentiation in Java

As for integer exponentiation, unfortunately Java does not have such an operator. You can use `double Math.pow(double, double)` (casting the result to `int` if necessary).

You can also use the traditional bit-shifting trick to compute some powers of two. That is, `(1L << k)` is two to the k-th power for `k=0..63`.

Merge note: this answer was merged from another question where the intention was to use exponentiation to convert a string `"8675309"` to `int` without using `Integer.parseInt` as a programming exercise (`^` denotes exponentiation from now on). The OP's intention was to compute `8*10^6 + 6*10^5 + 7*10^4 + 5*10^3 + 3*10^2 + 0*10^1 + 9*10^0 = 8675309`; the next part of this answer addresses that exponentiation is not necessary for this task.

## Horner's scheme

Addressing your specific need, you actually don't need to compute various powers of 10. You can use what is called the Horner's scheme, which is not only simple but also efficient.

Since you're doing this as a personal exercise, I won't give the Java code, but here's the main idea:

``````8675309 = 8*10^6 + 6*10^5 + 7*10^4 + 5*10^3 + 3*10^2 + 0*10^1 + 9*10^0
= (((((8*10 + 6)*10 + 7)*10 + 5)*10 + 3)*10 + 0)*10 + 9
``````

It may look complicated at first, but it really isn't. You basically read the digits left to right, and you multiply your result so far by 10 before adding the next digit.

In table form:

``````step   result  digit  result*10+digit
1   init=0      8                8
2        8      6               86
3       86      7              867
4      867      5             8675
5     8675      3            86753
6    86753      0           867530
7   867530      9          8675309=final
``````
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just to add to this answer, the function the OP is looking for is probably Math.pow(10, 1) – tjohns20 Apr 20 '10 at 2:54
Oops didn't realize that, thanks for answering. – user320927 Apr 20 '10 at 2:55

As many people have already pointed out, it's the XOR operator. Many people have also already pointed out that if you want exponentiation then you need to use Math.pow.

But I think it's also useful to note that `^` is just one of a family of operators that are collectively known as bitwise operators:

``````Operator    Name         Example     Result  Description
a & b       and          3 & 5       1       1 if both bits are 1.
a | b       or           3 | 5       7       1 if either bit is 1.
a ^ b       xor          3 ^ 5       6       1 if both bits are different.
~a          not          ~3          -4      Inverts the bits.
n << p      left shift   3 << 2      12      Shifts the bits of n left p positions. Zero bits are shifted into the low-order positions.
n >> p      right shift  5 >> 2      1       Shifts the bits of n right p positions. If n is a 2's complement signed number, the sign bit is shifted into the high-order positions.
n >>> p     right shift  -4 >>> 28   15      Shifts the bits of n right p positions. Zeros are shifted into the high-order positions.
``````

From here.

These operators can come in handy when you need to read and write to integers where the individual bits should be interpreted as flags, or when a specific range of bits in an integer have a special meaning and you want to extract only those. You can do a lot of every day programming without ever needing to use these operators, but if you ever have to work with data at the bit level, a good knowledge of these operators is invaluable.

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The last link throws 404. – sxnamit Mar 19 at 13:40

It's bitwise XOR, Java does not have an exponentiation operator, you would have to use `Math.pow()` instead.

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It is the `XOR` bitwise operator.

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As others have said, it's bitwise XOR. If you want to raise a number to a given power, use `Math.pow(a , b)`, where `a` is a number and `b` is the power.

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That is because you are using the xor operator.

In java, or just about any other language, ^ is bitwise xor, so of course,

It's interesting how Java and C# don't have a power operator.

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It is the Bitwise xor operator in java which results 1 for different value of bit (ie 1 ^ 0 = 1) and 0 for same value of bit (ie 0 ^ 0 = 0) when a number is written in binary form.

ex :-

The binary representation of 5 is 0101. The binary representation of 4 is 0100.

A simple way to define Bitwise XOR is to say the result has a 1 in every place where the two input numbers differ.

0101 ^ 0100 = 0001 (5 ^ 4 = 1) .

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Lot many people have already explained about what it is and how it can be used but apart from the obvious you can use this operator to do a lot of programming tricks like

• XORing of all the elements in a boolean array would tell you if the array has odd number of true elements
• If you have an array with all numbers repeating even number of times except one which repeats odd number of times you can find that by XORing all elements.
• Swapping values without using temporary variable
• Finding missing number in the range 1 to n
• Basic validation of data sent over the network.

Lot many such tricks can be done using bit wise operators, interesting topic to explore.

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AraK's link points to the definition of exclusive-or, which explains how this function works for two boolean values.

The missing piece of information is how this applies to two integers (or integer-type values). Bitwise exclusive-or is applied to pairs of corresponding binary digits in two numbers, and the results are re-assembled into an integer result.

• The binary representation of 5 is 0101.
• The binary representation of 4 is 0100.

A simple way to define bitwise XOR is to say the result has a 1 in every place where the two input numbers differ.

With 4 and 5, the only difference is in the last place; so

0101 ^ 0100 = 0001 (5 ^ 4 = 1) .

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It is the bitwise xor operator in java which results 1 for different value (ie 1 ^ 0 = 1) and 0 for same value (ie 0 ^ 0 = 0).

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In other languages like Python you can do 10**2=100, try it.

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^ is binary (as in base-2) xor, not exponentiation (which is not available as a Java operator). For exponentiation, see java.lang.Math.pow().

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Meanwhile, in Groovy:

``````def x = 89
def y = 92
print "x ^ y  = \${x ^ y}\n"
print "x ** y = \${x ** y}\n"
print "Math.pow(x,y) = \${Math.pow(x,y)}\n"
``````

Running the above using `groovyShell`for example gives:

``````x ^ y  = 5
x ** y = 220739783027264538664507899981652263884030030210130685655986852988723754592147271358302675499604456885393671329478799379899078505327879299542726514661188445083298962617396644428321
Math.pow(x,y) = 2.2073978302726454E179
``````
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