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Alright, so I have 4 integers I want to wrap in a long. The 4 integers all contains 3 values, positioned in the first 2 bytes:


{pppppp} represents one value, {hdcs} represents the second and {rrrr} the last.

I want to pack 4 of these integers, in a long. I've tried the following:

ordinal = (c1.ordinal() << (14*3) | c2.ordinal() << (14*2) | c3.ordinal() << 14 | c4.ordinal());

where c1.ordinal()...c4.ordinal() is the integers to wrap.

This does not seem to work if I run a test. Lets say I want to look up the values of the last integer in the long, c4.ordinal(), where {pppppp} = 41, {hdcs} = 8 and {rrrr} = 14, I get the following results:

System.out.println(c4.ordinal() & 0xf); //Prints 14
System.out.println(hand.ordinal() & 0xf); // Prints 14 - correct

System.out.println(c4.ordinal() >> 4 & 0xf); // Prints 8
System.out.println(hand.ordinal() >> 4 & 0xf); // Prints 8 - correct

System.out.println(c4.ordinal() >> 8 & 0x3f); // Prints 41
System.out.println(hand.ordinal() >> 8 & 0x3f); // Prints 61 - NOT correct!

Now, the following is weird to me. If I remove the first two integers, and only wrap the last two, like this:

ordinal = (c3.ordinal() << 14 | c4.ordinal());

And run the same test, I get the correct result:

System.out.println(c4.ordinal() >> 8 & 0x3f); // Prints 41
System.out.println(hand.ordinal() >> 8 & 0x3f); // Prints 41 - correct!

I have no idea whats wrong. And it does not make any sense to me, that I get the correct answer if I remove the first two integers. I'm starting to thing this might have to do with the long datatype, but I've not found anything yet, that supports this theory.

share|improve this question
@Frederik: Why are you shifting up by multiples of 14, and shifting down by multiples of 4? –  Welbog Feb 25 '10 at 15:02
Because the last two bits of the 16 bit values, always will be 0, so they doesnt matter. 2 of the 3 values are 4-bits long, so I shift by 4 each time. (The last is 6-bits long, so I need to use another mask for this value). –  Frederik Wordenskjold Feb 25 '10 at 15:15

1 Answer 1

up vote 6 down vote accepted

Even though you are assigning the result to a long, all of the operations are performed with int values, and so the high-order bits are lost. Force "promotion" to a long by explicitly widening the values to a long.

long ordinal = (long) c1.ordinal() << (14*3) | 
               (long) c2.ordinal() << (14*2) | 
               (long) c3.ordinal() <<    14  | 
               (long) c4.ordinal();

Also, unless you are positive that the top two bits of each value are zero, you could run into other problems. You may wish to mask these off for safety's sake:

long ordinal = (c1.ordinal() & 0x3FFFL) << (14*3) | 
               (c2.ordinal() & 0x3FFFL) << (14*2) | 
               (c3.ordinal() & 0x3FFFL) <<    14  | 
               (c4.ordinal() & 0x3FFFL);
share|improve this answer
You are brilliant! Thank you :) –  Frederik Wordenskjold Feb 25 '10 at 15:05
Is this common knowledge!? Sun doesnt really state this anywhere I've come across... –  Frederik Wordenskjold Feb 25 '10 at 15:07
Pretty much -- and its not java-specific. When working on operators with one type and assigning to a different type, you usually need to convert the source type before any calculations... This makes more sense as a simple example, which could be java, C or C++: int x1=1; int x2=2; float y = x1/x2; y==0 float z = ((float)x1)/((float)x2); z==0.5f (ack, comments don't have newlines) –  CuriousPanda Feb 25 '10 at 15:11
Yes, it is stated in the Java Language Specification. –  erickson Feb 25 '10 at 15:12

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