How can I multiply and divide using only bit shifting and adding?

To multiply in terms of adding and shifting you want to decompose one of the numbers by powers of two, like so:
( As you can see, multiplication can be decomposed into adding and shifting and back again. This is also why multiplication takes longer than bit shifts or adding  it's O(n^2) rather than O(n) in the number of bits. Real computer systems (as opposed to theoretical computer systems) have a finite number of bits, so multiplication takes a constant multiple of time compared to addition and shifting. If I recall correctly, modern processors, if pipelined properly, can do multiplication just about as fast as addition, by messing with the utilization of the ALUs (arithmetic units) in the processor. 


X * 2 = 1 bit shift left 





You can use these shifts to do any multiplication operation. For example:
To divide a number by a nonpower of two, I'm not aware of any easy way, unless you want to implement some lowlevel logic, use other binary operations and use some form of iteration. 


Take two numbers, lets say 9 and 10, write them as binary  1001 and 1010. Start with a result, R, of 0. Take one of the numbers, 1010 in this case, we'll call it A, and shift it right by one bit, if you shift out a one, add the first number, we'll call it B, to R. Now shift B left by one bit and repeat until all bits have been shifted out of A. It's easier to see what's going on if you see it written out, this is the example:



The answer by Andrew Toulouse can be extended to division. The division by integer constants is considered in details in the book "Hacker's Delight" by Henry S. Warren (ISBN 9780201914658). The first idea for implementing division is to write the inverse value of the denominator in base two. E.g.,
So,
By combining the terms in an obvious manner we can reduce the number of operations:
There are more exciting ways to calculate division and remainders. EDIT1: If the OP means multiplication and division of arbitrary numbers, not the division by a constant number, then this thread might be of use: http://stackoverflow.com/a/12699549/1182653 EDIT2: One of the fastest ways to divide by integer constants is to exploit the modular arithmetics and Montgomery reduction: What's the fastest way to divide an integer by 3? 


This should work for multiplication:



Try this. https://gist.github.com/swguru/5219592



Translated the pyth9on code to c. The example given had a minor flaw. If the dividend value that took up all the 32 bits the shift would fail. I just used 64 bit variables internally to work around the problem:



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. ======
for multiplication ::


