From e58a60ed18bde5db28ba96910df518a61b3999b2 Mon Sep 17 00:00:00 2001
From: Matt Strapp <strap012@umn.edu>
Date: Mon, 26 Apr 2021 17:06:13 -0500
Subject: Refactor jsut about everything

---
 dotsandboxes/board.py | 110 ++++++++++++++++++++++++++++++++++++++++++++++++++
 1 file changed, 110 insertions(+)
 create mode 100644 dotsandboxes/board.py

(limited to 'dotsandboxes/board.py')

diff --git a/dotsandboxes/board.py b/dotsandboxes/board.py
new file mode 100644
index 0000000..36cfe8c
--- /dev/null
+++ b/dotsandboxes/board.py
@@ -0,0 +1,110 @@
+from GameState import GameState
+
+class Board(GameState):
+	
+	# Interface methods
+	
+	def __init__(self, nb_rows, nb_cols, player):
+		
+		# Basic initialization
+		self.nb_rows = nb_rows
+		self.nb_cols = nb_cols
+		self.player = player # 1 or 2
+		self.scores = [0, 0, 0]
+		self.max_score = nb_rows*nb_cols
+		
+		# Construct edges and nodes matrix
+		self.edges = [] # Boolean, true means uncut
+		self.nodes = [] # Represents valence of nodes from strings-and-coins
+		for x in range(self.nb_cols):
+			self.edges.append([True]*self.nb_rows)
+			self.edges.append([True]*(self.nb_rows + 1))
+			self.nodes.append([4]*self.nb_rows)
+		self.edges.append([True]*self.nb_rows)
+		
+		# Construct all possible moves
+		self.moves_left = set() # Moves are represented as ints
+		for x in range(len(self.edges)):
+			for y in range(len(self.edges[x])):
+				self.moves_left.add(self.coords_to_edge(x, y))
+		
+		# TODO: chain updating
+		# Initialize chains
+		# Chains are represented as lists of nodes
+		self.closed_chains = [] # Chains which start and end in nodes of valence
+
+	@property
+	def game_result(self):
+		
+		own_score = self.scores[self.player]
+		opponent_score = self.scores[self.player % 2 + 1]
+		if len(self.moves_left) == 0:
+			diff = own_score - opponent_score
+			if diff > 0:
+				return 1
+			elif diff < 0:
+				return 0
+			else:
+				return 0.5
+		else:
+			# Check if one player already has at least half of all points
+			if own_score > self.max_score//2:
+				return 1
+			elif opponent_score > self.max_score//2:
+				return 0
+			else:
+				return None
+
+	def get_moves(self):
+		return self.moves_left
+
+	def get_random_move(self):
+		moves = self.get_moves()
+		return choice(tuple(moves)) if moves != set() else None
+
+	def play_move(self, move):
+		x, y = self.edge_to_coords(move)
+		self.edges[x][y] = False
+		self.moves_left.remove(move)
+		
+		# Update valence
+		if x%2 == 0:
+			# Horizontal edge, decrease valence of left and right nodes
+			for node_x in x//2 - 1, x//2:
+				if node_x >= 0 and node_x < nb_cols:
+					self.nodes[node_x][y] -= 1
+		else:
+			# Vertical edge, decrease valence of top and bottom nodes
+			for node_y in y - 1, y:
+				if node_y >= 0 and node_y < nb_rows:
+					self.nodes[x//2][node_y] -= 1
+		
+		# TODO: chain updating
+	
+	# Own methods
+	
+	def undo_move(self, move):
+		x, y = self.edge_to_coords(move)
+		self.edges[x][y] = True
+		self.moves_left.add(move)
+		
+		# Update valence
+		if x%2 == 0:
+			# Horizontal edge, decrease valence of left and right nodes
+			for node_x in x//2 - 1, x//2:
+				if node_x >= 0 and node_x < nb_cols:
+					self.nodes[node_x][y] += 1
+		else:
+			# Vertical edge, decrease valence of top and bottom nodes
+			for node_y in y - 1, y:
+				if node_y >= 0 and node_y < nb_rows:
+					self.nodes[x//2][node_y] += 1
+		
+		# TODO: chain updating
+	
+	def coords_to_edge(self, x, y):
+		return x*(self.nb_cols + 1) + y
+	
+	def edge_to_coords(self, move):
+		return move//(self.nb_cols + 1), move%(self.nb_cols + 1)
+	
-- 
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