My Questions are:
- Is is possible to implement a bitboard in vb.net?
- Any Tutorial/Reference to do bitboard in VB?
C# answers are acceptable because it's not that hard to translate.
From the Wikipedia article, a bitboard seems to be a simple array of bits. There is a class in .NET called BitArray, with methods to perform bitwise operations.
For example, a bitboard for white rook positions could be declared like this:
To implement a bitboard in VB (or C#), use System.UInt64. This can hold 64 bits, 1 for each square of the chess board. This value type lends itself to many fast bitwise operations. I don't advise using BitArray as recommended by another poster, as it is simply too slow. One of the basic requirements for any decent chess engine is speed.
To answer your second question, this is a good bitboard tutorial.
Here are some examples from my own C# chess engine. As you can see from the code, it can take a while to wrap your head around using bitboards, but they are typically very fast, especially for position evaluation.
Example 1 - Bitboard definition:
Example 2 - Bitboard initialisation:
Example 3 - Move generation:
Example 4 - Calculate material score:
Example 5 - Calculating piece mobility:
There have been a few other posts on here about this that have some useful information in the answers, hope they help.
How about ...
Another option, if you don't want to use arrays, is to simply create a class/struct that contains the board or state in however many "sectors" you want to specify. For example, you can specify 4 longs to represent a 128x128 board, with each long representing one "sector" (assuming 32 bit processor). Then, all you have to do is override the Equals method (or == operator) to run a straight comparison to check for equality of each "section", IE
Ultimately, the whole concept of a bitboard is that you're using the bits of the datatype itself to represent position/state of your environment (int = 32bits = 32 positions, long = 64bits = 64 positions, etc). For numeric value types, that means you can easily do a straight equality comparison (
Pawns, for example, can move one space "up" (relative to their board), two if they haven't moved yet, or can capture. So to check for valid moves, you would shift the pawns position 8 (one space), 16 (two spaces, check if hasn't moved yet first), or 7/9 (capture). For one or two space moves, you must do a bitwise & on both your board and the opponents board for the new "position" and check if it's greater than 0 (indicating someone occupies the space, so invalid move). For the capture move, you only check your opponents board and allow the move only if the resulting & is greater than 0. For two spaces, you'd first have to do a bitwise comparison on the initial pawn "row" (255 << 8 for white, 255 << 48 for black) with the pawn in question to see if it is possible. If you're creating objects for every chess piece, you can simply check a boolean on the Pawn object itself indicating whether it has already moved or not.
One last thing to consider when using the bitboard is whether or not you are using signed values (at least in .NET). This is important because if the negative bit is set on a signed value, this negative bit will propogate on a right shift (meaning it will introduce as many 1's in the value as the number you shift by). Definitely consider using unsigned value types in this situation, or else you will get some funky results.