A friend and I are going back and forth with brainteasers and I have no idea how to solve this one. My assumption is that it's possible with some bitwise operators, but not sure.

In C, with bitwise operators:



Why not just incremet the first number as often, as the second number? 


Cheat. You could negate the number and subract it from the first :) Failing that, look up how a binary adder works. :) EDIT: Ah, saw your comment after I posted. Details of binary addition are here. 


The reason ADD is implememted in assembler as a single instruction, rather than as some combination of bitwise operations, is that it is hard to do. You have to worry about the carries from a given low order bit to the next higher order bit. This is stuff that the machines do in hardware fast, but that even with C, you can't do in software fast. 


Define "best". Here's a python version:
The 


Adding two integers is not that difficult; there are many examples of binary addition online. A more challenging problem is floating point numbers! There's an example at http://pages.cs.wisc.edu/~smoler/x86text/lect.notes/arith.flpt.html 


Note, this would be for an adder known as a ripplecarry adder, which works, but does not perform optimally. Most binary adders built into hardware are a form of fast adder such as a carrylookahead adder. My ripplecarry adder works for both unsigned and 2's complement integers if you set carry_in to 0, and 1's complement integers if carry_in is set to 1. I also added flags to show underflow or overflow on the addition.



No + right?



an abacus will do this quite well, and it doesn't use any electricity! 





CMS's add() function is beautiful. It should not be sullied by unary negation (a nonbitwise operation, tantamount to using addition: y==(~y)+1). So here's a subtraction function using the same bitwiseonly design:



You can do it using bitshifting and the AND operation.



Implemented in same way as we might do binary addition on paper.
Improved for speed would be below::


