How does the following code work and what do the variables mean:
y = (x << shift)  (x >> (sizeof(x)*CHAR_BIT  shift));
I found in a circular shift article but with no explanation on how this works.
How does the following code work and what do the variables mean:
I found in a circular shift article but with no explanation on how this works. 


code for the example:



Shifts it 'shift' number of bits to the left, returns the shifted out bits
Makes space for accommodating those bits
In general,
Example with 8 bits:
That is the circular shifted value by 2 bits 


This is a method of doing a circular shift. Suppose that +++++++++  x1 x2 x3 x4 x5 x6 x7 x8  +++++++++ Then, shifting it left by 3 gives us: +++++++++  x4 x5 x6 x7 x8 0 0 0  +++++++++ Now, +++++++++  0 0 0 0 0 x1 x2 x3  +++++++++ And taking the OR you get: +++++++++  x4 x5 x6 x7 x8 x1 x2 x3  +++++++++ This is technically nonportable because it is nonportable to shift by an amount equal to the width of the type  so if shift is 8, then the left shift is wrong, and if the shift is 0, then the right shift is wrong. However, this works in practice on all three common behaviors when shifting by the type width. (In practice, the shift amount is reduced by some modulo  either the bit width of the type or some larger number.) It is called a circular shift or "rotation" because the bits that get shifted out on the left get shifted back in on the right. Sophisticated compilers will actually compile the code down to a hardware rotation instruction. 


This works with unsigned types only. In the case with a signed negative number most left bits will be substituted by the value of most significant bit (with 1s) by the rightshift operator (">>") I'd write it like this:
In here before "" operator we do confirm that first n bits ( n = sizeof(x)*CHAR_BIT  shift) are zeroed. We also assume, that x is short (2bytes long). So, it's also typedependent. 

