from typing import Iterable, Callable from itertools import product from copy import deepcopy class Piece: def __init__(self, type, color): self.type = type self.color = color def __str__(self): return self.type.upper() if self.color == 'white' else self.type # Unused code. I'm missing the font for my terminal, but go ahead and use piece.symbol instead of str(symbol) in board.draw if you'd like @property def symbol(self): symbols = [{ 'p': '♙', 'r': '♖', 'n': '♘', 'b': '♗', 'q': '♕', 'k': '♔', }, { 'p': '♟︎', 'r': '♜', 'n': '♞', 'b': '♝', 'q': '♛', 'k': '♚', }] return symbols[0 if self.color == 'white' else 1][self.type] @staticmethod def possibleMoves( x, y, board, legalMoves=None, simulation=False, ) -> Callable[[int, int], Iterable[tuple]]: """ Calculate all possible moves for a piece at (x, y) given a board in a certain state. If there is restrictions for where the piece can go, the legal moves can be set to these. If the function is part of a simulation, simulation needs to be set to True so that it doesn't keep on recursing simulation indefinetely. """ piece = board.getPieceAt(x, y) moves = [] pieceIsEnemyColor = lambda pieceToCheck: pieceToCheck != None and pieceToCheck.color != piece.color pieceIsEmpty = lambda pieceToCheck: pieceToCheck == None pieceIsEmptyOrEnemyColor = lambda pieceToCheck: pieceToCheck == None or pieceToCheck.color != piece.color positionInsideBounds = lambda x, y: x in range(8) and y in range(8) def addMoveIfTrue(xOffset, yOffset, condition: Callable[[Piece], bool]) -> bool: """Tests a condition against a position away from self. Adds move if condition returns true. Returns condition result""" if condition(board.getPieceAt(x + xOffset, y + yOffset)): moves.append((x + xOffset, y + yOffset)) return True return False def assertNotCheck(newX, newY) -> bool: """Simulate a move and return whether or not the move will result in check""" testBoard = deepcopy(board) testBoard.movePiece((x, y), (newX, newY)) return not testBoard.checkCheck(piece.color, simulation=True) def addWhileInsideBoard(direction: tuple): """Adds moves in direction until it either hits a piece or the edge""" localX, localY = x, y while positionInsideBounds(localX, localY): localX += direction[0] localY += direction[1] currentPiece = board.getPieceAt(localX, localY) if pieceIsEmpty(currentPiece): moves.append((localX, localY)) else: if pieceIsEnemyColor(currentPiece): moves.append((localX, localY)) return if piece.type == 'p': localY = 1 if piece.color == 'black' else -1 startPosition = 1 if piece.color == 'black' else 6 pieceAtStartPosition = lambda pieceToCheck: pieceToCheck == None and y == startPosition addMoveIfTrue(1, localY, pieceIsEnemyColor) addMoveIfTrue(-1, localY, pieceIsEnemyColor) if addMoveIfTrue(0, localY, pieceIsEmpty): addMoveIfTrue(0, localY * 2, pieceAtStartPosition) elif piece.type == 'n': positions = [ (-2, -1), (-2, 1), (-1, -2), (-1, 2), (1, -2), (1, 2), (2, -1), (2, 1), ] for position in positions: addMoveIfTrue(*position, pieceIsEmptyOrEnemyColor) elif piece.type == 'k': positions = list(product([-1, 0, 1], repeat=2)) positions.remove((0, 0)) for position in positions: addMoveIfTrue(*position, pieceIsEmptyOrEnemyColor) elif piece.type == 'r': for direction in [(1, 0), (-1, 0), (0, 1), (0, -1)]: addWhileInsideBoard(direction) elif piece.type == 'b': for direction in product([-1, 1], repeat=2): addWhileInsideBoard(direction) elif piece.type == 'q': directions = list(product([-1, 0, 1], repeat=2)) directions.remove((0, 0)) for direction in directions: addWhileInsideBoard(direction) # Remove moves that will lead the piece out of the board moves = [move for move in moves if positionInsideBounds(*move)] # Remove moves that is not included in the legal moves (moves to block check) if legalMoves != None and piece.type != 'k': moves = [move for move in moves if move in legalMoves] # Remove moves that will put the king in check if not simulation: moves = [position for position in moves if assertNotCheck(*position)] return moves