How can I implement division using bitwise operators (not just division by powers of 2)?
Describe it in detail.
How can I implement division using bitwise operators (not just division by powers of 2)? Describe it in detail. 


The standard way to do division is by implementing binary longdivision. This involves subtraction, so as long as you don't discount this as not a bitwise operation, then this is what you should do. (Note that you can of course implement subtraction, very tediously, using bitwise logical operations.) In essence, if you're doing
Loop for as many output bits (including fractional) as you require, then apply a final shift to undo what you did in Step 1. 


Division of two numbers using bitwise operators.






This solution works perfectly.



I assume we are discussing division of integers. Consider that I got two number 1502 and 30, and I wanted to calculate 1502/30. This is how we do this: First we align 30 with 1501 at its most significant figure; 30 becomes 3000. And compare 1501 with 3000, 1501 contains 0 of 3000. Then we compare 1501 with 300, it contains 5 of 300, then compare (15015*300) with 30. At so at last we got 5*(10^1) = 50 as the result of this division. Now convert both 1501 and 30 into binary digits. Then instead of multiplying 30 with (10^x) to align it with 1501, we multiplying (30) in 2 base with 2^n to align. And 2^n can be converted into left shift n positions. Here is the code:
Didn't test it, but you get the idea. 


The below method is the implementation of binary divide considering both numbers are positive. If subtraction is a concern we can implement that as well using binary operators. Code



All these solutions are too long. The base idea is to write the quotient (for example, 5=101) as 100 + 00 + 1 = 101.



For integers:



Since bit wise operations work on bits that are either 0 or 1, each bit represents a power of 2, so if I have the bits 1010 that value is 10. Each bit is a power of two, so if we shift the bits to the right, we divide by 2 1010 > 0101 0101 is 5 so, in general if you want to divide by some power of 2, you need to shift right by the exponent you raise two to, to get that value so for instance, to divide by 16, you would shift by 4, as 2^^4 = 16. 

