# How to use a bitwise operator to pass multiple Integer values into a function for Java?

In application frameworks I keep seeing frameworks that allow you to pass in multiple Int values (generally used in place of an enum) into a function.

For example:

``````public class Example
{
public class Values
{
public static final int ONE = 0x7f020000;
public static final int TWO = 0x7f020001;
public static final int THREE = 0x7f020002;
public static final int FOUR = 0x7f020003;
public static final int FIVE = 0x7f020004;
}

public static void main(String [] args)
{
// should evaluate just Values.ONE
Example.multiValueExample(Values.ONE);

// should evalueate just values Values.ONE,  Values.THREE, Values.FIVE
Example.multiValueExample(Values.ONE | Values.THREE | Values.FIVE);

// should evalueate just values Values.TWO , Values.FIVE
Example.multiValueExample(Values.TWO | Values.FIVE);
}

public static void multiValueExample(int values){
// Logic that properly evaluates bitwise values
...
}
}
``````

So what logic should exist in multiValueExample for me to properly evaluate multiple int values being passed in using the bitwise operator?

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Please clarify. I don't understand. Those are not multiple values. Values.ONE | Values.THREE | Values.FIVE = 0x7f020006, right? And what's the purpose of the unnamed bits? –  John Saunders Mar 15 '09 at 15:58
Is there a specific reason why you want to use bitwise operations? The enum/EnumSet solutions are clearner and more Java-like. –  Joachim Sauer Mar 15 '09 at 19:42
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## 8 Answers

Your values should be powers of 2.

That way, you don't lose any information when you bitwise-OR them.

``````public static final int ONE   = 0x01;
public static final int TWO   = 0x02;
public static final int THREE = 0x04;
public static final int FOUR  = 0x08;
public static final int FIVE  = 0x10;
``````

etc.

Then you can do this:

``````public static void main(String [] args) {
Example.multiValueExample(Values.ONE | Values.THREE | Values.FIVE);
}

public static void multiValueExample(int values){
if ((values & Values.ONE) == Values.ONE) {
}

if ((values & Values.TWO) == Values.TWO) {
}

// etc.
}
``````
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Shouldn't that be a Bitwise AND (single &)? –  Hamid Mar 15 '09 at 16:01
I believe you mean powers of 2, not multiples of 2. You can't distinguish 2 | 4 from 6. Also, && is logical AND, not binary AND, so it will always evaluate to true. –  Joao da Silva Mar 15 '09 at 16:01
@Hamid and Joao: thanks for the corrections. –  Can Berk Güder Mar 15 '09 at 16:03
i found the best way to set up the numbers was int ONE = 0x1; int TWO = 0x1 << 1; int THREE = 0x1 <<2; etc –  schwiz Oct 15 '10 at 8:42
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As was already mentioned, consider use of enums instead of bit values.

According to Effective Java 2: "Item 32: Use EnumSet instead of bit fields"

Usage of EnumSet is quite effective for memory usage and very convenient.

Here is an example:

``````package enums;

import java.util.EnumSet;
import java.util.Set;

public class Example {
public enum Values {
ONE, TWO, THREE, FOUR, FIVE
}

public static void main(String[] args) {
// should evaluate just Values.ONE
Example.multiValueExample(EnumSet.of(Values.ONE));

// should evalueate just values Values.ONE, Values.THREE, Values.FIVE
Example.multiValueExample(EnumSet.of(Values.ONE, Values.THREE, Values.FIVE));

// should evalueate just values Values.TWO , Values.FIVE
Example.multiValueExample(EnumSet.of(Values.TWO, Values.FIVE));
}

public static void multiValueExample(Set<Values> values) {
if (values.contains(Values.ONE)) {
System.out.println("One");
}

// Other checks here...

if (values.contains(Values.FIVE)) {
System.out.println("Five");
}
}
}
``````
-
+1 the most Java-like solution –  Joachim Sauer Mar 15 '09 at 19:39
Yes, thanks for this solution. Unfortunately I'm working with mobile technology where enums take quite a hit in terms of memory management. As such, I'm using bitwise operation to improve preformance. –  AtariPete Mar 16 '09 at 15:23
Agree, in a mobile application it makes sense. –  Andrey Vityuk Mar 16 '09 at 17:13
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First, you can't define the Values that way to do bitwise comparisons. Instead, set different bits:

``````public static final int ONE   = 0x1;  // First bit is set
public static final int TWO   = 0x2;  // Second bit is set
public static final int THREE = 0x4;  // Third bit is set
public static final int FOUR  = 0x8;  // Fourth bit is set
public static final int FIVE  = 0x10; // Fifth bit is set
``````

Second, you should probably be using java.util.BitSet for these sorts of operations:

``````BitSet bits = new BitSet(5);
bits.set(2);
bits.set(4);

System.out.println("these bits are set: " + bits);
// Prints "these bits are set: {2, 4}"

BitSet otherBits = new BitSet(5);
otherBits.set(3);
otherBits.set(4);

System.out.println("these bits are set: " + bits.or(otherBits));
// Prints "these bits are set: {2, 3, 4}"
``````
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Is there anything Java doesn't have a class for? =) –  Can Berk Güder Mar 15 '09 at 16:07
–  John Feminella Mar 15 '09 at 16:14
haha, that function only exists in Python (xkcd.com/353). =) –  Can Berk Güder Mar 15 '09 at 23:36
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Well if they are powers of 2 you would do something like the "display" method in the code below.

Here is a link in wikipedia on the topic as well which should explain why you want powers of 2.

``````public class Main
{
private static final int A = 0x01;
private static final int B = 0x02;
private static final int C = 0x04;

public static void main(final String[] argv)
{
display(A);
display(B);
display(C);
display(A | A);
display(A | B);
display(A | C);
display(B | A);
display(B | B);
display(B | C);
display(C | A);
display(C | B);
display(C | C);
display(A | A | A);
display(A | A | B);
display(A | A | C);
display(A | B | A);
display(A | B | B);
display(A | B | C);
display(A | C | A);
display(A | C | B);
display(A | C | C);
display(B | A | A);
display(B | A | B);
display(B | A | C);
display(B | B | A);
display(B | B | B);
display(B | B | C);
display(B | C | A);
display(B | C | B);
display(B | C | C);
display(C | A | A);
display(C | A | B);
display(C | A | C);
display(C | B | A);
display(C | B | B);
display(C | B | C);
display(C | C | A);
display(C | C | B);
display(C | C | C);
}

private static void display(final int val)
{
if((val & A) != 0)
{
System.out.print("A");
}

if((val & B) != 0)
{
System.out.print("B");
}

if((val & C) != 0)
{
System.out.print("C");
}

System.out.println();
}
}
``````
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You setup the integer values to be powers of two so that each enumerated value is a single bit in the binary representation.

``````int ONE = 0x1;    //0001
int TWO = 0x2;    //0010
int THREE = 0x4;  //0100
int FOUR = 0x8;   //1000
``````

Then you use bit-wise OR to combine values and bitwise AND to test set values.

``````int test_value = (ONE | FOUR);   //-> 1001
bool has_one = (test_value & ONE) != 0;  //-> 1001 & 0001 -> 0001 -> true
``````
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The values you combine with | (binary OR, not logical OR [which is ||]) must not have overlapping "1"s in their bit representation. For example,

``````ONE = 0x1 =   0000 0001
TWO = 0x2 =   0000 0010
THREE = 0x3 = 0000 0011
FOUR = 0x4 =  0000 0100
``````

Then you can combine ONE and TWO, for example:

``````ONE | TWO = 0000 0011
``````

But you can't distinguish ONE | TWO from THREE, because there are overlapping bits. The numbers you combine should thus be powers of two, such that they don't overlap when OR'ed together. To test if a number was passed in "values", do:

``````if (values & ONE) {
// ... then ONE was set
}
``````

To better understand why and how this works, I recommend you read a bit on binary representation and logic. A good place is Chapter 3 of the Art of Assembly.

-
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Using bit masks were popular when every bit counted. Another way to do this today is to use enums with are simpler to manipulate and extend.

``````import static Example.Values.*;
import java.util.Arrays;

public class Example {
public enum Values { ONE, TWO, THREE, FOUR, FIVE }

public static void main(String [] args) {
// should evaluate just Values.ONE
multiValueExample(ONE);

// should evaluate just values Values.ONE,  Values.THREE, Values.FIVE
multiValueExample(ONE, THREE, FIVE);

// should evaluate just values Values.TWO , Values.FIVE
multiValueExample(TWO, FIVE);
}

public static void multiValueExample(Values... values){
// Logic that properly evaluates
System.out.println(Arrays.asList(values));
for (Values value : values) {
// do something.
}
}
}
``````
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The Java Tutorial chapter on bitwise operations are at

http://java.sun.com/docs/books/tutorial/java/nutsandbolts/op3.html

It is very concise but good for reference.

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