# What is the fastest way for bit operations to calculate a parity?

My solution: (for every bit of the input block, there is such a line)

``````*parity ^= (((x[0] >> 30) & 0x00000001) * 0xc3e0d69f);
``````

All types are uint32. This line takes the second bit of the input x, shifts it to the LSB and sets all other bits to zero. Then, the 32bit parity is XORed with the corresponding parity set for this bit.

I found that this multiplication solution is the fastest way to do this conditional XOR. Is there a faster way?

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What language/processor are you talking about? –  Oded Nov 17 '10 at 20:07
How big is the block you're trying to calculate the parity for? Wat's the point of multiplying by 0xc3e0d69f? –  Paul Nov 17 '10 at 20:08
I'm talking about C++. The data block is 256 bit (so uint32 x[0..7]. The parity is 32bit (stored in a uint32). For every set bit of the input, a specific XOR-Mask is applied to the parity field (parallel implementation of a LFSR). –  vls Nov 17 '10 at 21:23

## 4 Answers

I do not completely understand what kind of parity you mean, but if this line of code is doing that you want, it may be improved.

General rule: for x in {0, 1} x * N == -x & N

this because -x for 0 is all bits reset and for 1 is -1 in which all bits set.

So original line of code may be rewritten as:

``````*parity ^= (-((x[0] >> 30) & 0x00000001) & 0xc3e0d69f);
``````

What two operations computed in less time than multiplication on many microprocessors, but you should check this.

Also code may take advantage of signed shift right

``````*parity ^= (((int32_t)x[0] << 1 >> 31) & 0xc3e0d69f);
``````

First shift rshifts 30th bit into 31st, which is sign bit, and then second extend sign bit on all others as shift right on most machines act as floor(x / 2N), thus fill shifted in bits with sign bit (`abc...yz>>3 == aaaabc...yz`).

But these tricks are stated as undefined behaviour in C standard and thus not portable. Use them carefully.

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That sounds good - thank you very much, I'll try that tomorrow! –  vls Nov 17 '10 at 22:42

See here for some neat hacks for calculating parity of a word, byte etc

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Thanks - I already tried out the hints on the page. But especially the "Conditionally set or clear bits without branching" is slower than the multiplication solution. –  vls Nov 17 '10 at 21:49

Some processors will do this for you. See x86's parity flag.

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It's not just a even/odd parity, it has 32 bits. –  vls Nov 17 '10 at 21:19

If I understand the question correctly, you are doing

``````for (i = 0; i < 32; i++)
*parity ^= (((x[0] >> i) & 1) * SOME_CONST[i]);
``````

If so, it's better to use lookup tables:

``````for (i = 0; i < 4; i++)
*parity ^= PARITY_LUT[i][ (x[0] >> (i*8)) & 0xFF];
``````

It would cost 256kb, but will be much faster.

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