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# Java floating-point numbers representation as a hexadecimal numbers

Why does `0x1p3` equal `8.0`? Why does `0x1e3` equal `483`, whereas `0x1e3d` equals `7741`? It is confusing since `1e3d` equals `1000.0`.

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Why the `p` in `0x1p3`? – marcog Dec 28 '10 at 13:51
@marcog this is part of a way to express floating point numbers, see the JLS: java.sun.com/docs/books/jls/third_edition/html/… – Jesper Dec 28 '10 at 13:53
@marcog: that's the exponent marker for a hexadecimal floating point literal, as defined in the Java and C99 standards. – Stephen Canon Dec 29 '10 at 23:20

`0x1e3` and `0x1e3d` are hexadecimal integer literals. Note that `e` and `d` are hexadecimal digits, not the exponent indicator or `double` type indicator in this case.

`1e3d` is a decimal floating-point literal. The `e` is the exponent indicator, the `d` says that this is a `double` rather than a `float`.

The notation `0x1p3` is a way to express a floating-point literal in hexadecimal, as you can read in section 3.10.2 of the Java Language Specification. It means 1 times 2 to the power 3; the exponent is binary (so, it's 2-to-the-power instead of 10-to-the-power).

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But 0x1p3 should be as same as 1e3 in this case, right? But they are not. – serious Dec 28 '10 at 14:02
@serious No, because the exponent is binary, not decimal. Its 2^3 not 10^3. – Jesper Dec 28 '10 at 14:02
Oh, got it, thanks. – serious Dec 28 '10 at 14:03
Btw, is there any reason why it is binary? I mean, why it is not base of 16? – serious Dec 28 '10 at 14:05
Base 16 (hex) is a human construction to help us manage long strings of bits without going mad. In a computer, it's all binary - there's no hex. Note that one binary nybble (4 bits) maps directly to 1 hex digit. So the byte 11010111 becomes (1101)(0111) = 0xD7. – Tony Ennis Dec 28 '10 at 14:24

0x1e3 is hex for 483, as is 0x1e3d hex for 7741. The `e` is being read as a hex digit with value 14.

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Ah, 0x1e3 is a hex number, so "e" doesn't mean an exponent here. – serious Dec 28 '10 at 13:58
But 0x1p3 is still unclear. – serious Dec 28 '10 at 13:59
@serious, the difference is that 0x1e3 is an integer, not a floating point number. The 'e' in that integer is just an unfortunate coincidence that confuses. 0x1p3 is a floating point number. It is interpreted very differently. The interpretation includes a mantissa and an exponent. The former is the 1.0 part (note the assumed decimal point.) The latter is the 'p3' part which which reads 'to the 3rd power.' Since we're in binary, taking a number to to the 3rd power is the same as shifting it 3 bits to the left, so the 0b1 becomes 0b1000. That's 8 in decimal. – Tony Ennis Dec 28 '10 at 14:38