# Left shift of only part of a number

I need to find the fastest equivalence of the following C code.

``````int d = 1 << x; /* d=pow(2,x) */
int j = 2*d*(i / d) + (i % d);
``````

What I thought is to shift left upper 32 - x bits of i.
For example the following i with x=5:
1010 1010 1010 1010
will become:
0101 0101 0100 1010
Is there an assembly command for that? How can I perform this operation fast?

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You should be using `unsigned`, not `int`. Your example has undefined behavior with signed values (overflow). –  R.. Dec 9 '10 at 14:14

divisions are slow:

``````int m = (1 << x) - 1;
int j = (i << 1) - (i & m);
``````

update:

or probably faster:

``````int j = i + (i & (~0 << x));
``````
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That's a really good one. –  FrankH. Dec 9 '10 at 12:23
Very good. I completely missed the mathematical aspect that gives the best optimisation there. –  AlastairG Dec 9 '10 at 13:30

x86 32bit assembly (AT&T syntax):

``````/* int MaskedShiftByOne(int val, int lowest_bit_to_shift) */
mov 8(%esp), %ecx
mov \$1, %eax
shl %ecx, %eax            ; does 1 << lowest_bit_to_shift
mov 4(%esp), %ecx
dec %eax                  ; (1 << ...) - 1 == 0xf..f (lower bitmask)
mov %eax, %edx
not %edx                  ; complement - higher mask
and %ecx, %edx            ; higher bits
and %ecx, %eax            ; lower bits
lea (%eax, %edx, 2), %eax ; low + 2 * high
ret
``````

This should work both on Linux and Windows.

Edit: the `i + (i & (~0 << x))` is shorter:

``````mov 4(%esp), %ecx
mov \$-1, %eax
mov 8(%esp), %edx
shl %edx, %eax
and %ecx, %eax
ret
``````

Morale: Don't ever start with assembly. If you really need it, disassemble highly-optimized compiler output ...

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+1 for the morale –  Artium Dec 9 '10 at 12:46
+1 for `lea` :) –  ruslik Dec 9 '10 at 12:53
thx & thx to you ;-) –  FrankH. Dec 9 '10 at 13:49

Shift left by one upper `x` bits.

``````unsigned i = 0xAAAAu;
int x = 5;
i = (i & ((1 << x) - 1)) | ((i & ~((1 << x) - 1)) << 1); // 0x1554A;
``````

Some explanations:

`(1 << x) - 1` makes a mask to zero upper `32 - x` bits.

`~((1 << x) - 1)` makes a mask to zero lower `x` bits.

After bits a zeroed we shift the upper part and `or` them together.

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Thanks for showing me Codepad –  Robert Dec 9 '10 at 12:06
``````int m = (1 << x) - 1;
int j = ((i & ~m) << 1) | (i & m);
``````

There is no assembly command to do what you want, but the solution I give is quicker since it avoids the division.

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Beaten to it by a few seconds :) I think mine is slightly quicker though as it avoids calculating `((1<<x)-1)` twice. –  AlastairG Dec 9 '10 at 12:03
I think the optimizer would take care of that. Yours is cleaner though =) –  detunized Dec 9 '10 at 12:06
Yeah, you're right about the optimizer. Even though I know compilers can optimise code like crazy, I've been programming for long enough that I still keep hand optimising code here and there. Not all bad though as it does generally tend to cleaner code. –  AlastairG Dec 9 '10 at 13:31

Intel syntax:

``````mov ecx,[esp+4]      ;ecx = x
mov eax,[esp+8]      ;eax = i

ror eax,cl
inc cl
clc
rcl eax,cl
ret
``````

Moral: Highly-optimized compiler output... isn't.

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