# Java - TypeCasting Question

``````long a = (long)Math.pow(2, 32);
// a = 4294967296 :)

long a = (int)(long)Math.pow(2, 32);
//a = 0 ?!

long a = (int)Math.pow(2, 32);
//a = 2147483647 WTF??!!!
``````

The first expression is obvious. a is printed as it is.

The second expression is a bit confusing. The large value is

100000000000000000000000000000000 // 1 followed by 32 ZEROs, 33 bits in all

When it is forced into an int, how is it taken as ZERO? Shouldn't it take the most significant 1 as sign bit and think that the number is -2147483648 ? [DOUBT CLEARED]

Also, when the double returned from Math.pow (4.294967296E9) is directly cast into int, why is it 2147483647?

I am reading up type casting and data types from a book but the text doesn't explain much. I am confused. Please explain why the second and third expression produce those results.

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No, since it truncates everything past the first 32 bits as far as I know -- so it has no idea about the `1` at the beginning (or rather, at the end).

4294967296 = 0x100000000 (in hexadecimal), and taking only the first 32 bits gives you zero.

Edit: I actually think the other one has to do with a special cast from floating-point to int, that's not the same as going through a long and then an int, since it's a completely different kind of cast to the processor.

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You are saying it truncates everything past the first 32 bits. But the 1 is inside the "first 32 bits" when written as a binary number. What you are saying will be true if there were 32 ZEROs and then there was a 1. But there are 31 ZEROs and then a 1. If it truncates past 32 bits, 1 shouldn't be truncated! –  user529141 Dec 15 '10 at 18:02
`2^32` is a 1 followed by 32 zeroes in binary. Same way `10^10` is a one followed by 10 zeros in decimal. coppervinesoftware.com/2to32.png –  jdmichal Dec 15 '10 at 18:11
Oops! My bad. Sorry :) Now I get it.. :D +1 –  user529141 Dec 15 '10 at 18:15
0x100000000 has eight zeros, so that's `8*4=32` zero bits. The `1` is the 33rd bit, which is thrown away. –  Mehrdad Dec 15 '10 at 18:15

Section 5.1.3 of the Java spec covers this.

http://java.sun.com/docs/books/jls/second_edition/html/conversions.doc.html#25363

Integer narrowing simply takes the lowest n bits, meaning that sign is not taken into consideration. And, in fact, negative numbers may become positive. Widening does not have this property, and will sign-extend the number into the wider type.

``````int value = (int)(long)(Math.pow(2, 31)); // double to long to int
System.out.println(value); // Prints -2147483648

long lvalue = value; // int back to long
System.out.println(value); // Prints -2147483648 again
``````

Floating-point narrowing is a much more complicated process, that basically truncates the number to the closest representation possible in the target type, rounding towards zero. In this case, the overflow/underflow rule is triggered, converting the float to the maximum/minimum value representable by the type, respectively.

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+1 for the detailed answer of part 3 of the question, although shouldn't we be linking to the JLS 3e? java.sun.com/docs/books/jls/third_edition/html/… –  RD1 Dec 15 '10 at 18:24