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There is some obvious stuff I feel I should understand here, but I don:t:

void main()
    long first = 0xffffffc1;
    long second = 0x92009019;

    __int64 correct = (((__int64)first << 32) | 0x00000000ffffffff) & (0xffffffff00000000 | second); //output is 0xffffffc192009019;

    __int64 wrong = (double)(((__int64)first << 32) + second); //output is 0xffffffc092009019;

why does the add operation affect the upper 4 bytes, and how?

(compiler is VC++ 2003)

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The cast to double shouldn't be there, right? –  Lindydancer Apr 18 '11 at 13:54
Note that main must never return void! Its return type is always int. Other compilers correctly flag this as an error. –  Konrad Rudolph Apr 18 '11 at 14:06
the cast to double from __int64 wrong = (double)... can be removed, it does not affect the outcome –  user581243 Apr 18 '11 at 15:29

2 Answers 2

up vote 4 down vote accepted

Probably because second is signed, which mean that 0x92009019 is negative.

EDIT: The quesiton actually contains two questions.

1) How do you join two 32 bit numbers to a 64 bit value?


(((uint64_t)first) << 32) | (uint32_t)second

2) Is it wise to do bit operations using the floating-point type double?

Answer: No, it's not. Please use the right tool for the job. If you want to do bit operations, use integers. If you want (almost) continuous values, use floating-point values.

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thanks, this clears this out. –  user581243 Apr 18 '11 at 13:51
Actually, they both are negative, no? –  T.E.D. Apr 18 '11 at 13:55
that's right, now I'm even more confused! –  user581243 Apr 18 '11 at 14:00
Yes, they are both negative. However, when you cast first to the 64 bit type, and left-shift it you will get the same underlying bit pattern as though it would have been unsigned. Later, when you add the signed second it will affect the upper part if it is negative. If you would add it as an unsigned value, it would always fit nicely into the 32 lower bits that was cleared by the left shift of first. In fact, I would have written | instead of an + to indicate that I'm joining bit patterns rather than doing normal arithmetics. –  Lindydancer Apr 18 '11 at 14:29
(unsigned __int64)first << 32 | (unsigned __int64)second; gives me 0xffffffff92009019...uint64_t fails to compile on VC++ 2003 –  user581243 Apr 18 '11 at 15:35

A long has 53 bits of precision. I'm quite surprised you got the last digits right. (The first wrong digit is explained by Lindydancer).

Edit: I'm no more surprised: as the result is negative you don't need only 38 bit of precision with your data. If you use

first = 0xffdfffc1;

you are loosing the lsb with the double solution.

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I don;t think I understand...I'm using __int64 to store the result, not long... –  user581243 Apr 18 '11 at 13:51
you're on 54-bit machine? ;-) –  vartec Apr 18 '11 at 13:52
yeah that too, long is 32-bits –  user581243 Apr 18 '11 at 14:01
The significant (aka mantissa) of the most common double format has 53 bits of precision. –  AProgrammer Apr 18 '11 at 14:03
ok, so double is not enough! –  user581243 Apr 18 '11 at 14:08

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