I have been struggling with a very simple problem... I am working with a 4 dimensional cube using AVL trees... now the problem is a performance related one... basically I have to compare billions of 64 bit numbers... (because my key is 64bit comprising the 4 dimensions of 16bits each)...

The problem is not that I can't compare 2 64-bit numbers, but rather I need to do it in as few as possible clock cycles.

Unfortunately my AVL Tree template has a signature of "int CompareKeyNode(key k, handle h)"

Under the hood I have two __int64 numbers lhs & rhs, unfortunately the contract of this method is: 1. lhs==rhs return 0 2. lhs > rhs return 1 3. lhs < rhs return -1

Now if the above method expected an __int64 number I could simply do a (**METHOD A**) return lhs - rhs;

Unfortunately it only needs a 32 bit integer, so I have to resort to something akin to ((**METHOD B**)) ie. return lhs == rhs ? 0 : (lhs < rhs ? -1 : 1)

The problem to me is that to load my data using (**METHOD A**) takes **60** secs whilst (**METHOD B**) takes **117** seconds.

Unfortunately (METHOD A) is incorrect as it loses precision on the return for casting the lhs-rhs statement.

The processing time is crucial to me and I am sure there must be a simple efficient answer which is eluding me right now...

Does anybody have an idea on how to solve this? Or perhaps any suggestions?

I am working in VC++ (un-managed) but surely .NET/Java must have solved this problem in there JITing/VM stage... otherwise they would be taking a huge performance hit.

PS: Have tried memcmp() but not good enough...