given any number, what's the best way to determine it is even? how many methods can you think of, and what is the fastest way and clearest way?

The question said "any number", so one could either discard floats or handle them in another manner, perhaps by first scaling them up to an integral value first  watching out for overflow  i.e. change 2.1 to 21 (multiply by 10 and convert to int) and then test. It may be reasonable to assume, however, that by mentioning "any number" the person who posed the question is actually referring to integral values. 





where ^ is the exponentiation/pow function of your language. I didn't say it was fast or clear, but it has novelty value. 


The answer depends on the position being applied for. If you're applying for an Enterprise Architect position, then the following may be suitable: First, you should create a proper ServiceOriented Architecture, as certainly the evenodd service won't be the only reusable component in your enterprise. An SOA consists of a service, interface, and service consumers. The service is function which can be invoked over the network. It exposes an interface contract and is typically registered with a Directory Service. You can then create a Simple Object Access Protocol (SOAP) HTTP Web Service to expose your service. Next, you should prevent clients from directly calling your Web Service. If you allow this, then you will end up with a mess of pointtopoint communication, which is very hard to maintain. Clients should access the Web Service through an Enterprise Service Bus (ESB). In addition to providing a standard plugable architecture, additional components like service orchestration can occur on the bus. Generally, writing a bespoke even/odd service should be avoided. You should write a Request for proposal (RFP), and get several vendors to show you their even/odd service. The vendor's product should be able to plug into your ESB, and also provide you with an Service level agreement (SLA). 


This is even easier in ruby:



Yes.. The fastest way is to check the 1 bit, because it is set for all odd numbers and unset for all even numbers.. Bitwise ANDs are pretty fast. 


If your type 'a' is an integral type, then we can define,
according to the Haskell Prelude. 


For floating points, of course within a reasonable bound.
With some other random math functions:



If int is 32 bits then you could do this:
With using bit shifts you'll shift the rightmost bit to the leftmost position and then back again, thus making all other bits 0's. Then the number you're left with is either 0 or 1. This method is somewhat similar to "number & 1" method where you again make all bits 0's except the first one. Another approach, similar to this one is this:
or
If the number is even (the rightmost bit is 0), then shifting it 31 positions will make the whole number 0. If the bit is 1, i.e. the number is odd, then the resulting number would be negative (every integer with leftmost bit 1 is negative except if the number is of type unsigned, where it won't work). To fix signed/unsigned bug, you can just test:



Actually I think (n % 2 == 0) is enough, which is easy to understand and most compilers will convert it to bit operations as well. I compiled this program with gcc O2 flag:
and the generated assembly code is
which we can see that % 2 operation is already converted to the andl instruction. 


Similar to DeadHead's comment, but more efficient:
As fast as an array index, which may or may not be faster than bitwise computations (it's difficult to test because I don't want to write the full version of this function). For what it's worth, that function above only has enough filled in to find even numbers up to 442, but would have to go to 4294967295 to work on my system. 


With reservations for limited stack space. ;) (Is this perhaps a candidate for tail calls?)



a % 2.
Everyone who cries "But! But! What if compiler doesn't optimize it" should find normal compiler, shut up and read about premature optimization, read again, read again. 


If it's low level check if the last (LSB) bit is 0 or 1 :) 0 = Even Otherwise, +1 @sipwiz: "bool isEven = number % 2 == 0;" 


Assumming that you are dealing with an integer, the following will work: if ((testnumber & 2)==testnumber) then testnumber is even. basically, 2 in hex will be FFFE (for 16 bits) if the number is even, then anding with with 2 will leave it unchanged. ** Tom ** 


You can either using integer division and divide it by two and inspect the remainder or use a modulus operator and mod it by two and inspect the remainder. The "fastest" way depends on the language, compiler, and other factors but I doubt there are many platforms for which there is a significant difference. 


Recursion!



Continuing the spirit of "how many ways are there...":



In response to Chris Lutz, an array lookup is significantly slower than a BITWISE_AND operation. In an array lookup you're doing a memory lookup which will always be slower than a bitwise operation because of memory latency. This of course doesn't even factor in the problem of putting all possible int values into your array which has a memory complexity of O(2^n) where n is your bus size (8,16,32,64). The odd/even property is only defined in integers. So any answer dealing with floating point is invalid. The abstract representation of this problem is Int > bool (to use Haskell notation). 


Another useless novelty solution:
Only with integers, and it depends on how the langugage handles integer division. n/2 == n/2 if it's even or n/2.5 if it's odd. So 2*(n/2) == n if it's even or n  1 if it's odd. 

