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# Optimising bitwise operations in C

I had a problem in hand as this : "Exercise 2-6. Write a function setbits(x,p,n,y) that returns x with the n bits that begin at position p set to the rightmost n bits of y, leaving the other bits unchanged."

I've written a function for this as below. This is working as expected.

int func_setx(int x,int p,int n,int y)
{
int a_t= ~0 << (p+n);
int b_t= ~a_t >> n;
int x_t= x& (a_t | b_t);    // a temporary x which has the bits to be changed as 0 , rest of the bits unchanged.

int mask= (y << p) & (~(~0 << (p+n)));     // a mask which has required bits from y in positions to be set , rest all bits 0.

return result;
}


But I somehow feel the logic is long and can be optimized, but can't think of any other way yet. Can anyone suggest any optimization to this please?

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You'll probably find an answer at Bit Twiddling Hacks — and you should bookmark the page even if you don't find the answer there. – Jonathan Leffler Jun 27 '13 at 5:14
– Paul R Jun 27 '13 at 8:32

To make an n bit mask:

mask_y = (1U << n) - 1;


To start it at bit p:

mask_x = mask_y << p;


Clear the appropriate bits in x:

x &= ~mask_x;


Extract the bits from y:

y &= mask_y;


Upshift them to position p:

y <<= p;


Put it all together:

result = x | y;


Or in a more compact form:

mask = (1U << n) - 1;
result = x & ~(mask << p);
result |= (y & mask) << p;

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Assuming 32-bit integers, if n == 32, this solution causes undefined behaviour. That case is just return y, though, so it's easy to special-case. Alternately, use 1ULL (or however you want to get a 64-bit type) instead of 1U. – Carl Norum Jun 27 '13 at 4:43
+1 for not just giving the code but also explaining what it does step-by-step – legends2k Jun 27 '13 at 4:58
Carl, your comment should properly be part of your answer. – Jim Balter Jun 27 '13 at 5:33
It's more of an aside than part of the answer, really, which is why I left it a comment. NBD. – Carl Norum Jun 27 '13 at 16:50