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X = 712360810625491574981234007851998 is represented using a linked list.

Each node is an unsigned int

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Is there a fast way to do X << 8 X << 591 other than X * 2^8 X * 2^591 ?

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If you split your numbers into a list of single bytes, a shift left by eight would be equivalent to adding one more element to the end of your linked list. –  dasblinkenlight May 10 '12 at 2:45
Right, or along the same lines, if each element in the list is a 4 or 8 byte int, just shift the each element << 8 and use the element's previous high byte as the new low byte of the next list item. –  M Katz May 10 '12 at 3:15
I don't know if it'll work if you shift with a large number?! I think X << 8 was a bad example –  Jonas May 10 '12 at 3:30
It doesn't seem to change things so much to shift by a large amount. If your list element is a 4-byte int, then adding 0x00000000 to the head of your list is a shift by 32. So do that until you are down to a shift less than 32, and then you need to treat the remaining shift amount byte-wise. –  M Katz May 26 '12 at 4:03

1 Answer 1

Bit shifting is very easy in any arbitrary number of bits. Just remember to shift the overflow bits to the next element. Thats all. Below is a shift left 3 bit example

unsigned __int64 i1, i2, i3, o1, o2, o3; // {o3, o2, o1} = {i3, i2, i1} << 3;

o3 = i3 << 3 | i2 >> (32 - 3);
o2 = i2 << 3 | i1 >> (32 - 3);
o1 = i1 << 3;

Similar for shift right

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