I want to write a bitboard in common lisp, so I need a 64 bit integer. How do I get a 64 bit integer in common lisp? Also, are there any libraries that could help me accomplish this without writing everything from scratch?
You can declare your variables to be of type
It depends upon your implementation if it is actually clever enough to really stuff this in 8 consecutive bytes or if it will use a bignum for this. Appropriate
Here's a (very simple) example of such type declarations, and handling integers in binary:
Here's a setf-expander definition to get a simple setter for bits in integers, and a corresponding getter:
These can be used like this:
In portable Common Lisp 'Integers' are as large as you like. There is a more efficient subset of integers called 'fixnums'. The exact range of fixnums is implementation depended. But it is typically not the full 64 bit (on a 64bit architecture) which can be used, since most Common Lisp implementations need type tag bits. For the user there is not much of a difference. Fixnums are a subset of integers and one can add two fixnums and get a not-fixnum integer result. The only differences that may be observable is that computation with non-fixnum integers is slower, needs more storage, ... Generally, if you want to do computation with integers, you don't need to declare that you want to calculate with 64bit. You just use Integers and the usual operations for those.
If you want real 64bit large integers (represented in only 64bits, without tags, etc.) and computation with those, you'll leave the portable ANSI CL capabilities. If and how CLISP supports that, is best asked on the CLISP mailing list.
Example usage of bit vectors/arrays to implement a 8x8 bit-board (starting with brutally and prematurely optimized code just to show a way to get tight assembler code):
An example of using
Since there is no
Not sure why the compiler put in all those
Now this is an obvious case of premature optimization. The correct way to start here would be to simply write:
... and then use a profiler when running the game code that uses the bit-board to see where the CPU bottlenecks are. SBCL includes a nice statistical profiler.
Starting with the simpler and slower code, with no declarations for speed, is best. Just compare the size of the code - I started with the code with plenty of declarations to make the simple code at the end look even simpler by comparison :-). The advantage here is that you can treat Common Lisp as a scripting/prototyping language when trying out ideas, then squeeze more performance out of the code that the profiler suggests.
The assembly code is obviously not as tight as loading the whole board in
one 64 bit register and then accessing individual bits. But if you
suddenly decide that you want more than 1 bit per square, it's much
easier to change the CL code than to change assembler code (just
change the array type everywhere from
You want to use bit vectors, which are arbitrary sized arrays of bits, rather than something like a 64 bit integer. The implementation will deal with the internal representations for you.