self.king = {"white" : None, "black" : None} # We need to keep track of the king, because he is important
self.max_moves = None
self.moves = 0
+ self.move_stack = []
for c in ["black", "white"]:
del self.unrevealed_types[c]["unknown"]
# Update the board when a piece has been selected
# "type" is apparently reserved, so I'll use "state"
- def update_select(self, x, y, type_index, state):
+ def update_select(self, x, y, type_index, state, sanity=True):
piece = self.grid[x][y]
if piece.types[type_index] == "unknown":
- if not state in self.unrevealed_types[piece.colour].keys():
+ if not state in self.unrevealed_types[piece.colour].keys() and sanity == True:
raise Exception("SANITY: Too many " + piece.colour + " " + state + "s")
self.unrevealed_types[piece.colour][state] -= 1
if self.unrevealed_types[piece.colour][state] <= 0:
if len(self.possible_moves(piece)) <= 0:
piece.deselect() # Piece can't move; deselect it
+
+ # Piece needs to recalculate moves
+ piece.possible_moves = None
# Update the board when a piece has been moved
- def update_move(self, x, y, x2, y2):
+ def update_move(self, x, y, x2, y2, sanity=True):
+
piece = self.grid[x][y]
+ #print "Moving " + str(x) + "," + str(y) + " to " + str(x2) + "," + str(y2) + "; possible_moves are " + str(self.possible_moves(piece))
+
+ if not [x2,y2] in self.possible_moves(piece) and sanity == True:
+ raise Exception("ILLEGAL move " + str(x2)+","+str(y2))
+
self.grid[x][y] = None
taken = self.grid[x2][y2]
if taken != None:
piece.deselect() # Uncollapse (?) the wavefunction!
self.moves += 1
+
+ # All other pieces need to recalculate moves
+ for p in self.pieces["white"] + self.pieces["black"]:
+ p.possible_moves = None
+
#self.verify()
# Update the board from a string
# Guesses what to do based on the format of the string
- def update(self, result):
+ def update(self, result, sanity=True):
#print "Update called with \"" + str(result) + "\""
# String always starts with 'x y'
try:
raise Exception("GIBBERISH \""+ str(result) + "\"") # Raise expectations
piece = self.grid[x][y]
- if piece == None:
+ if piece == None and sanity == True:
raise Exception("EMPTY")
# If a piece is being moved, the third token is '->'
raise Exception("GIBBERISH \"" + str(result) + "\"") # Raise the alarm
# Move the piece (take opponent if possible)
- self.update_move(x, y, x2, y2)
+ self.update_move(x, y, x2, y2, sanity)
else:
# Otherwise we will just assume a piece has been selected
except:
raise Exception("GIBBERISH \"" + result + "\"") # Throw a hissy fit
+
# Select the piece
- self.update_select(x, y, type_index, state)
+ self.update_select(x, y, type_index, state, sanity)
return result
if prob > 0:
result.update({p : prob})
- self.verify()
+ #self.verify()
return result
for i in range(len(p.types)):
t = p.types[i]
- prob = 0.5
+ prob = 1.0 / float(len(p.types))
if t == "unknown" or p.types[i][0] == '?':
total_types = 0
for t2 in self.unrevealed_types[p.colour].keys():
for t2 in self.unrevealed_types[p.colour].keys():
prob2 = float(self.unrevealed_types[p.colour][t2]) / float(total_types)
- p.current_type = t2
- for point in self.possible_moves(p, reject_allied):
+ #p.current_type = t2
+ for point in self.possible_moves(p, reject_allied, state=t2):
result[point[0]][point[1]] += prob2 * prob
else:
- p.current_type = t
- for point in self.possible_moves(p, reject_allied):
- result[point[0]][point[1]] += prob
+ #p.current_type = t
+ for point in self.possible_moves(p, reject_allied, state=t):
+ result[point[0]][point[1]] += prob
- self.verify()
- p.current_type = "unknown"
+ #self.verify()
+ #p.current_type = "unknown"
return result
def prob_is_type(self, p, state):
# This is probably inefficient, but I looked at some sample chess games and they seem to actually do things this way
# reject_allied indicates whether squares occupied by allied pieces will be removed
# (set to false to check for defense)
- def possible_moves(self, p, reject_allied = True):
- result = []
+ def possible_moves(self, p, reject_allied = True, state=None):
if p == None:
+ raise Exception("SANITY: No piece")
+
+
+
+ if state != None and state != p.current_type:
+ old_type = p.current_type
+ p.current_type = state
+ result = self.possible_moves(p, reject_allied, state=None)
+ p.current_type = old_type
return result
+
+
+
+
+ result = []
+
if p.current_type == "unknown":
if g != None and (g.colour == p.colour and reject_allied == True):
result.remove(point) # Remove allied pieces
- self.verify()
+ #self.verify()
+
+ p.possible_moves = result
return result
# I typed the full statement about 30 times before writing this function...
def on_board(self, x, y):
return (x >= 0 and x < w) and (y >= 0 and y < h)
+
+ # Pushes a move temporarily
+ def push_move(self, piece, x, y):
+ target = self.grid[x][y]
+ self.move_stack.append([piece, target, piece.x, piece.y, x, y])
+ [piece.x, piece.y] = [x, y]
+ self.grid[x][y] = piece
+ self.grid[piece.x][piece.y] = None
+
+ for p in self.pieces["white"] + self.pieces["black"]:
+ p.possible_moves = None
+
+ # Restore move
+ def pop_move(self):
+ #print str(self.move_stack)
+ [piece, target, x1, y1, x2, y2] = self.move_stack[len(self.move_stack)-1]
+ self.move_stack = self.move_stack[:-1]
+ piece.x = x1
+ piece.y = y1
+ self.grid[x1][y1] = piece
+ if target != None:
+ target.x = x2
+ target.y = y2
+ self.grid[x2][y2] = target
+
+ for p in self.pieces["white"] + self.pieces["black"]:
+ p.possible_moves = None
+