How to check if value has even parity of bits or odd?

A value has even parity if it has an even number of 1 bits. A value has an odd parity if it has an odd number of 1 bits. Well For example, 0110 has even parity, and 1110 has odd parity. I have to return 1 iff x has even parity. Got stuck....Any ideas???Any help will appreciated. Thanks. Also if it very simple question the sorry..Very beginner here

``````int has_even_parity(unsigned int x) {
return
}
``````
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@OldProgrammer Is that called for? It's not clear to me that the OP should be expected to know to search for that. It's a fair and clear question. –  TypeIA Feb 7 at 2:16

Try:

``````int has_even_parity(unsigned int x){
unsigned int count = 0, i, b = 1;

for(i = 0; i < 32; i++){
if( x & (b << i) ){count++;}
}

if( (count % 2) ){return 0;}

return 1;
}
``````

valter

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``````x ^= x >> 16;
x ^= x >> 8;
x ^= x >> 4;
x ^= x >> 2;
x ^= x >> 1;
return (~x) & 1;
``````

Assuming you know ints are 32 bits.

Let's see how this works. To keep it simple, let's use an 8 bit integer, for which we can skip the first two shift/XORs. Let's label the bits a through h. If we look at our number we see:

( a b c d e f g h )

The first operation is `x ^= x >> 4` (remember we're skipping the first two operations since we're only dealing with an 8-bit integer in this example). Let's write the new values of each bit by combining the letters that are XOR'd together (for example, ab means the bit has the value a xor b).

( a b c d e f g h ) xor ( 0 0 0 0 a b c d )

The result is the following bits:

( a b c d ae bf cg dh )

The next operation is `x ^= x >> 2`:

( a b c d ae bf cg dh ) xor ( 0 0 a b c d ae bf )

The result is the following bits:

( a b ac bd ace bdf aceg bdfh )

Notice how we are beginning to accumulate all the bits on the right-hand side.

The next operation is `x ^= x >> 1`:

( a b ac bd ace bdf aceg bdfh ) xor ( 0 a b ac bd ace bdf aceg )

The result is the following bits:

( a ab abc abcd abcde abcdef abcdefgh abcdefgh )

We have accumulated all the bits in the original word, XOR'd together, in the least-significant bit. So this bit is now zero if and only if there were an even number of 1 bits in the input word (even parity). The same process works on 32-bit integers (but requires those two additional shifts that we skipped in this demonstration).

The final line of code simply strips off all but the least-significant bit (`& 1`) and then flips it (`~x`). The result, then, is 1 if the parity of the input word was odd, or zero otherwise.

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Can you explain why this works? –  cguedel Feb 25 at 14:11
@cguedel Added a pretty lengthy demonstration/walkthrough above. Hope it helps. –  TypeIA Feb 25 at 14:48
thank you very much! :) –  cguedel Feb 25 at 18:01
A great answer & explanation! Needs more upvotes. –  undefined Oct 19 at 12:15