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Gwendolyn/gwendolyn/funcs/games/hex.py
Nikolaj 573d081734 🧹 More refactoring
2021-08-17 18:05:41 +02:00

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import random
import copy
import math
import discord
import math
from PIL import Image, ImageDraw, ImageFont
class HexGame():
def __init__(self, bot):
self.bot = bot
self.draw = DrawHex(bot)
self.BOARDWIDTH = 11
self.ALLPOSITIONS = [(i,j) for i in range(11) for j in range(11)]
self.ALLSET = set(self.ALLPOSITIONS)
self.EMPTYDIJKSTRA = {}
for position in self.ALLPOSITIONS:
self.EMPTYDIJKSTRA[position] = math.inf # an impossibly high number
self.HEXDIRECTIONS = [(0,1),(-1,1),(-1,0),(0,-1),(1,-1),(1,0)]
async def surrender(self, ctx):
channel = str(ctx.channel_id)
game = self.bot.database["hex games"].find_one({"_id":channel})
user = f"#{ctx.author.id}"
players = game["players"]
if user not in players:
await ctx.send("You can't surrender when you're not a player.")
else:
opponent = (players.index(user) + 1) % 2
opponent_name = self.bot.database_funcs.get_name(players[opponent])
self.bot.database["hex games"].update_one({"_id":channel},{"$set":{"winner":opponent + 1}})
await ctx.send(f"{ctx.author.display_name} surrendered")
with open(f"gwendolyn/resources/games/old_images/hex{channel}", "r") as f:
old_image = await ctx.channel.fetch_message(int(f.read()))
if old_image is not None:
await old_image.delete()
else:
self.bot.log("The old image was already deleted")
self.bot.log("Sending the image")
file_path = f"gwendolyn/resources/games/hex_boards/board{channel}.png"
old_image = await ctx.channel.send(file = discord.File(file_path))
with open(f"gwendolyn/resources/games/old_images/hex{channel}", "w") as f:
f.write(str(old_image.id))
self.bot.database["hex games"].delete_one({"_id":channel})
# Swap
async def swap(self, ctx):
channel = str(ctx.channel_id)
game = self.bot.database["hex games"].find_one({"_id":channel})
user = f"#{ctx.author.id}"
if game is None:
await ctx.send("You can't swap nothing")
elif user not in game["players"]:
await ctx.send("You're not in the game")
elif len(game["gameHistory"]) != 1: # Only after the first move
await ctx.send("You can only swap as the second player after the very first move.")
elif user != game["players"][game["turn"]-1]:
await ctx.send("You can only swap after your opponent has placed their piece")
else:
self.bot.database["hex games"].update_one({"_id":channel},
{"$set":{"players":game["players"][::-1]}}) # Swaps their player-number
# Swaps the color of the hexes on the board drawing:
self.draw.drawSwap(channel)
opponent = game["players"][::-1][game["turn"]-1]
gwendolyn_turn = (opponent == f"#{self.bot.user.id}")
opponent_name = self.bot.database_funcs.get_name(opponent)
await ctx.send(f"The color of the players were swapped. It is now {opponent_name}'s turn")
with open(f"gwendolyn/resources/games/old_images/hex{channel}", "r") as f:
old_image = await ctx.channel.fetch_message(int(f.read()))
if old_image is not None:
await old_image.delete()
else:
self.bot.log("The old image was already deleted")
self.bot.log("Sending the image")
file_path = f"gwendolyn/resources/games/hex_boards/board{channel}.png"
old_image = await ctx.channel.send(file = discord.File(file_path))
with open(f"gwendolyn/resources/games/old_images/hex{channel}", "w") as f:
f.write(str(old_image.id))
if gwendolyn_turn:
await self.hexAI(ctx)
# Starts the game
async def start(self, ctx, opponent):
await self.bot.defer(ctx)
user = f"#{ctx.author.id}"
channel = str(ctx.channel_id)
game = self.bot.database["hex games"].find_one({"_id":channel})
started_game = False
can_start = True
if game != None:
send_message = "There's already a hex game going on in this channel"
log_message = "There was already a game going on"
can_start = False
else:
if type(opponent) == int:
# Opponent is Gwendolyn
if opponent in range(1, 6):
opponent_name = "Gwendolyn"
difficulty = int(opponent)
difficulty_text = f" with difficulty {difficulty}"
opponent = f"#{self.bot.user.id}"
else:
send_message = "Difficulty doesn't exist"
log_message = "They tried to play against a difficulty that doesn't exist"
can_start = False
elif type(opponent) == discord.member.Member:
if opponent.bot:
# User has challenged a bot
if opponent == self.bot.user:
# It was Gwendolyn
opponent_name = "Gwendolyn"
difficulty = 2
difficulty_text = f" with difficulty {difficulty}"
opponent = f"#{self.bot.user.id}"
else:
send_message = "You can't challenge a bot!"
log_message = "They tried to challenge a bot"
can_start = False
else:
# Opponent is another player
if ctx.author != opponent:
opponent_name = opponent.display_name
opponent = f"#{opponent.id}"
difficulty = 5
difficulty_text = ""
else:
send_message = "You can't play against yourself"
log_message = "They tried to play against themself"
can_start = False
else:
can_start = False
log_message = f"Opponent was neither int or member. It was {type(opponent)}"
send_message = "Something went wrong"
if can_start:
# board is 11x11
board = [[0 for i in range(self.BOARDWIDTH)] for j in range(self.BOARDWIDTH)]
players = [user, opponent]
random.shuffle(players) # random starting player
gameHistory = []
new_game = {"_id":channel,"board":board, "winner":0,
"players":players, "turn":1, "difficulty":difficulty, "gameHistory":gameHistory}
self.bot.database["hex games"].insert_one(new_game)
# draw the board
self.draw.drawBoard(channel)
gwendolyn_turn = (players[0] == f"#{self.bot.user.id}")
started_game = True
turn_name = self.bot.database_funcs.get_name(players[0])
send_message = f"Started Hex game against {opponent_name}{difficulty_text}. It's {turn_name}'s turn"
log_message = "Game started"
await ctx.send(send_message)
self.bot.log(log_message)
if started_game:
file_path = f"gwendolyn/resources/games/hex_boards/board{ctx.channel_id}.png"
new_image = await ctx.channel.send(file = discord.File(file_path))
with open(f"gwendolyn/resources/games/old_images/hex{ctx.channel_id}", "w") as f:
f.write(str(new_image.id))
if gwendolyn_turn:
await self.hexAI(ctx)
# Places a piece at the given location and checks things afterwards
async def placeHex(self, ctx, position : str, user):
channel = str(ctx.channel_id)
game = self.bot.database["hex games"].find_one({"_id":channel})
placed_piece = False
if game == None:
send_message = "There's no game in this channel"
self.bot.log("There was no game going on")
elif not (position[0].isalpha() and position[1:].isnumeric() and len(position) in [2, 3]):
send_message = "The position must be a letter followed by a number."
self.bot.log(f"The position was not valid, {position}")
else:
players = game["players"]
if user not in players:
send_message = f"You can't place when you're not in the game. The game's players are: {self.bot.database_funcs.get_name(game['players'][0])} and {self.bot.database_funcs.get_name(game['players'][1])}."
self.bot.log("They aren't in the game")
elif players[game["turn"]-1] != user:
send_message = "It's not your turn"
self.bot.log("It wasn't their turn")
else:
player = game["turn"]
turn = game["turn"]
board = game["board"]
self.bot.log("Placing a piece on the board with placeHex()")
# Places on board
board = self.placeOnHexBoard(board,player,position)
if board is None:
self.bot.log("It was an invalid position")
send_message = ("That's an invalid position. You must place your piece on an empty field.")
else:
# If the move is valid:
self.bot.database["hex games"].update_one({"_id":channel},{"$set":{"board":board}})
turn = (turn % 2) + 1
self.bot.database["hex games"].update_one({"_id":channel},{"$set":{"turn":turn}})
# Checking for a win
self.bot.log("Checking for win")
winner = self.evaluateBoard(game["board"])[1]
if winner == 0: # Continue with the game.
game_won = False
send_message = self.bot.database_funcs.get_name(game["players"][player-1])+" placed at "+position.upper()+". It's now "+self.bot.database_funcs.get_name(game["players"][turn-1])+"'s turn."# The score is "+str(score)
else: # Congratulations!
game_won = True
self.bot.database["hex games"].update_one({"_id":channel},{"$set":{"winner":winner}})
send_message = self.bot.database_funcs.get_name(game["players"][player-1])+" placed at "+position.upper()+" and won!"
if game["players"][winner-1] != f"#{self.bot.user.id}":
win_amount = game["difficulty"]*10
send_message += " Adding "+str(win_amount)+" GwendoBucks to their account."
self.bot.database["hex games"].update_one({"_id":channel},
{"$push":{"gameHistory":(int(position[1])-1, ord(position[0])-97)}})
# Is it now Gwendolyn's turn?
gwendolyn_turn = False
if game["players"][turn-1] == f"#{self.bot.user.id}":
self.bot.log("It's Gwendolyn's turn")
gwendolyn_turn = True
placed_piece = True
if user == f"#{self.bot.user.id}":
await ctx.channel.send(send_message)
else:
await ctx.send(send_message)
if placed_piece:
# Update the board
self.draw.drawHexPlacement(channel,player, position)
with open(f"gwendolyn/resources/games/old_images/hex{channel}", "r") as f:
old_image = await ctx.channel.fetch_message(int(f.read()))
if old_image is not None:
await old_image.delete()
else:
self.bot.log("The old image was already deleted")
self.bot.log("Sending the image")
file_path = f"gwendolyn/resources/games/hex_boards/board{channel}.png"
old_image = await ctx.channel.send(file = discord.File(file_path))
if game_won:
self.bot.log("Dealing with the winning player")
game = self.bot.database["hex games"].find_one({"_id":channel})
winner = game["winner"]
if game["players"][winner-1] != f"#{self.bot.user.id}":
winnings = game["difficulty"]*10
self.bot.money.addMoney(game["players"][winner-1].lower(),winnings)
self.bot.database["hex games"].delete_one({"_id":channel})
else:
with open(f"gwendolyn/resources/games/old_images/hex{channel}", "w") as f:
f.write(str(old_image.id))
if gwendolyn_turn:
await self.hexAI(ctx)
# Returns a board where the placement has ocurred
def placeOnHexBoard(self, board,player,position):
# Translates the position
position = position.lower()
# Error handling
column = ord(position[0]) - 97 # ord() translates from letter to number
row = int(position[1:]) - 1
if column not in range(self.BOARDWIDTH) or row not in range(self.BOARDWIDTH):
self.bot.log("Position out of bounds")
return None
# Place at the position
if board[row][column] == 0:
board[row][column] = player
return board
else:
self.bot.log("Cannot place on existing piece (error code 1532)")
return None
# After your move, you have the option to undo get your turn back #TimeTravel
async def undo(self, ctx):
channel = str(ctx.channel_id)
user = f"#{ctx.author.id}"
undid = False
game = self.bot.database["hex games"].find_one({"_id":channel})
if user not in game["players"]:
send_message = "You're not a player in the game"
elif len(game["gameHistory"]) == 0:
send_message = "You can't undo nothing"
elif user != game["players"][(game["turn"] % 2)]: # If it's not your turn
send_message = "It's not your turn"
else:
turn = game["turn"]
self.bot.log("Undoing {}'s last move".format(self.bot.database_funcs.get_name(user)))
lastMove = game["gameHistory"].pop()
game["board"][lastMove[0]][lastMove[1]] = 0
self.bot.database["hex games"].update_one({"_id":channel},
{"$set":{"board":game["board"]}})
self.bot.database["hex games"].update_one({"_id":channel},
{"$set":{"turn":turn%2 + 1}})
# Update the board
self.draw.drawHexPlacement(channel,0,"abcdefghijk"[lastMove[1]]+str(lastMove[0]+1)) # The zero makes the hex disappear
send_message = f"You undid your last move at {lastMove}"
undid = True
await ctx.send(send_message)
if undid:
with open(f"gwendolyn/resources/games/old_images/hex{channel}", "r") as f:
old_image = await ctx.channel.fetch_message(int(f.read()))
if old_image is not None:
await old_image.delete()
else:
self.bot.log("The old image was already deleted")
self.bot.log("Sending the image")
file_path = f"gwendolyn/resources/games/hex_boards/board{channel}.png"
old_image = await ctx.channel.send(file = discord.File(file_path))
with open(f"gwendolyn/resources/games/old_images/hex{channel}", "w") as f:
f.write(str(old_image.id))
# Plays as the AI
async def hexAI(self, ctx):
channel = str(ctx.channel_id)
self.bot.log("Figuring out best move")
game = self.bot.database["hex games"].find_one({"_id":channel})
board = game["board"]
if len(game["gameHistory"]):
lastMove = game["gameHistory"][-1]
else:
lastMove = (5,5)
# These moves are the last move +- 2.
moves = [[(lastMove[0]+j-2,lastMove[1]+i-2) for i in range(5) if lastMove[1]+i-2 in range(11)] for j in range(5) if lastMove[0]+j-2 in range(11)]
moves = sum(moves,[])
movesCopy = moves.copy()
for move in movesCopy:
if board[move[0]][move[1]] != 0:
moves.remove(move)
chosenMove = random.choice(moves)
placement = "abcdefghijk"[chosenMove[1]]+str(chosenMove[0]+1)
self.bot.log(f"ChosenMove is {chosenMove} at {placement}")
await self.placeHex(ctx, placement, f"#{self.bot.user.id}")
def evaluateBoard(self, board):
scores = {1:0, 2:0}
winner = 0
# Here, I use Dijkstra's algorithm to evaluate the board, as proposed by this article: https://towardsdatascience.com/hex-creating-intelligent-adversaries-part-2-heuristics-dijkstras-algorithm-597e4dcacf93
for player in [1,2]:
Distance = copy.deepcopy(self.EMPTYDIJKSTRA)
# Initialize the starting hexes. For the blue player, this is the leftmost column. For the red player, this is the tom row.
for start in (self.ALLPOSITIONS[::11] if player == 2 else self.ALLPOSITIONS[:11]):
# An empty hex adds a of distance of 1. A hex of own color add distance 0. Opposite color adds infinite distance.
Distance[start] = 1 if (board[start[0]][start[1]] == 0) else 0 if (board[start[0]][start[1]] == player) else math.inf
visited = set() # Also called sptSet, short for "shortest path tree Set"
for _ in range(self.BOARDWIDTH**2): # We can at most check every 121 hexes
# Find the next un-visited hex, that has the lowest distance
remainingHexes = self.ALLSET.difference(visited)
A = [Distance[k] for k in remainingHexes] # Find the distance to each un-visited hex
u = list(remainingHexes)[A.index(min(A))] # Chooses the one with the lowest distance
# Find neighbors of the hex u
for di in self.HEXDIRECTIONS:
v = (u[0] + di[0] , u[1] + di[1]) # v is a neighbor of u
if v[0] in range(11) and v[1] in range(11) and v not in visited:
new_dist = Distance[u] + (1 if (board[v[0]][v[1]] == 0) else 0 if (board[v[0]][v[1]] == player) else math.inf)
Distance[v] = min(Distance[v], new_dist)
# After a hex has been visited, this is noted
visited.add(u)
#self.bot.log("Distance from player {}'s start to {} is {}".format(player,u,Distance[u]))
if u[player-1] == 10: # if the right coordinate of v is 10, it means we're at the goal
scores[player] = Distance[u] # A player's score is the shortest distance to goal. Which equals the number of remaining moves they need to win if unblocked by the opponent.
break
else:
self.bot.log("For some reason, no path to the goal was found. ")
if scores[player] == 0:
winner = player
break # We don't need to check the other player's score, if player1 won.
return scores[2]-scores[1], winner
def minimaxHex(self, board, depth, alpha, beta, maximizing_player):
# The depth is how many moves ahead the computer checks. This value is the difficulty.
if depth == 0 or 0 not in sum(board,[]):
score = self.evaluateBoard(board)[0]
return score
# if final depth is not reached, look another move ahead:
if maximizing_player: # red player predicts next move
maxEval = -math.inf
possiblePlaces = [i for i,v in enumerate(sum(board,[])) if v == 0]
#self.bot.log("Judging a red move at depth {}".format(depth))
for i in possiblePlaces:
test_board = copy.deepcopy(board)
test_board[i // self.BOARDWIDTH][i % self.BOARDWIDTH] = 1 # because maximizing_player is Red which is number 1
evaluation = self.minimaxHex(test_board,depth-1,alpha,beta,False)
maxEval = max(maxEval, evaluation)
alpha = max(alpha, evaluation)
if beta <= alpha:
#self.bot.log("Just pruned something!")
break
return maxEval
else: # blue player predicts next move
minEval = math.inf
possiblePlaces = [i for i,v in enumerate(sum(board,[])) if v == 0]
#self.bot.log("Judging a blue move at depth {}".format(depth))
for i in possiblePlaces:
test_board = copy.deepcopy(board)
test_board[i // self.BOARDWIDTH][i % self.BOARDWIDTH] = 2 # because minimizingPlayer is Blue which is number 2
evaluation = self.minimaxHex(test_board,depth-1,alpha,beta,True)
minEval = min(minEval, evaluation)
beta = min(beta, evaluation)
if beta <= alpha:
#self.bot.log("Just pruned something!")
break
return minEval
class DrawHex():
def __init__(self,bot):
self.bot = bot
# Defining all the variables
self.CANVASWIDTH = 2400
self.CANVASHEIGHT = 1800
self.SIDELENGTH = 75
# The offsets centers the board in the picture
self.XOFFSET = self.CANVASWIDTH/2 - 8*math.sqrt(3)*self.SIDELENGTH
# The offsets are the coordinates of the upperleft point in the
# upperleftmost hexagon
self.YOFFSET = self.CANVASHEIGHT/2 - 8*self.SIDELENGTH
# The whole width of one hexagon
self.HEXAGONWIDTH = math.sqrt(3) * self.SIDELENGTH
# The height difference between two layers
self.HEXAGONHEIGHT = 1.5 * self.SIDELENGTH
self.FONTSIZE = 45
self.TEXTCOLOR = (0,0,0)
self.FONT = ImageFont.truetype('gwendolyn/resources/fonts/futura-bold.ttf', self.FONTSIZE)
self.LINETHICKNESS = 15
self.HEXTHICKNESS = 6 # This is half the width of the background lining between every hex
self.XTHICKNESS = self.HEXTHICKNESS * math.cos(math.pi/6)
self.YTHICKNESS = self.HEXTHICKNESS * math.sin(math.pi/6)
self.BACKGROUNDCOLOR = (230,230,230)
self.BETWEENCOLOR = (231,231,231)
self.BLANKCOLOR = "lightgrey"
self.PIECECOLOR = {1:(237,41,57),2:(0,165,255),0:self.BLANKCOLOR} # player1 is red, player2 is blue
self.BOARDCOORDINATES = [ [(self.XOFFSET + self.HEXAGONWIDTH*(column + row/2),self.YOFFSET + self.HEXAGONHEIGHT*row) for column in range(11)] for row in range(11)] # These are the coordinates for the upperleft corner of every hex
self.COLHEXTHICKNESS = 4 # When placing a hex, it is a little bigger than the underlying hex in the background (4 < 6)
self.COLXTHICKNESS = self.COLHEXTHICKNESS * math.cos(math.pi/6)
self.COLYTHICKNESS = self.COLHEXTHICKNESS * math.sin(math.pi/6)
# The Name display things:
self.NAMESIZE = 60
self.NAMEFONT = ImageFont.truetype('gwendolyn/resources/fonts/futura-bold.ttf', self.NAMESIZE)
self.XNAME = {1:175, 2:self.CANVASWIDTH-100}
self.YNAME = {1:self.CANVASHEIGHT-150, 2:150}
self.NAMEHEXPADDING = 90
self.SMALLWIDTH = self.HEXAGONWIDTH * 0.6
self.SMALLSIDELENGTH = self.SIDELENGTH * 0.6
def drawBoard(self, channel):
self.bot.log("Drawing empty Hex board")
# Creates the empty image
im = Image.new('RGB', size=(self.CANVASWIDTH, self.CANVASHEIGHT),color = self.BACKGROUNDCOLOR)
# 'd' is a shortcut to drawing on the image
d = ImageDraw.Draw(im,"RGBA")
# Drawing all the hexagons
for column in self.BOARDCOORDINATES:
for startingPoint in column:
x = startingPoint[0]
y = startingPoint[1]
d.polygon([
(x, y),
(x+self.HEXAGONWIDTH/2, y-0.5*self.SIDELENGTH),
(x+self.HEXAGONWIDTH, y),
(x+self.HEXAGONWIDTH, y+self.SIDELENGTH),
(x+self.HEXAGONWIDTH/2, y+1.5*self.SIDELENGTH),
(x, y+self.SIDELENGTH),
],fill = self.BETWEENCOLOR)
d.polygon([
(x+self.XTHICKNESS, y + self.YTHICKNESS),
(x+self.HEXAGONWIDTH/2, y-0.5*self.SIDELENGTH + self.HEXTHICKNESS),
(x+self.HEXAGONWIDTH-self.XTHICKNESS, y + self.YTHICKNESS),
(x+self.HEXAGONWIDTH-self.XTHICKNESS, y+self.SIDELENGTH - self.YTHICKNESS),
(x+self.HEXAGONWIDTH/2, y+1.5*self.SIDELENGTH - self.HEXTHICKNESS),
(x+self.XTHICKNESS, y+self.SIDELENGTH - self.YTHICKNESS),
],fill = self.BLANKCOLOR)
# Draw color on the outside of the board
# Top line, red
d.line(sum((sum([(point[0],point[1],point[0]+self.HEXAGONWIDTH/2,point[1]-self.HEXAGONHEIGHT+self.SIDELENGTH) for point in self.BOARDCOORDINATES[0]],()),(self.BOARDCOORDINATES[0][10][0]+self.HEXAGONWIDTH*3/4,self.BOARDCOORDINATES[0][10][1]-self.SIDELENGTH/4)),()),
fill = self.PIECECOLOR[1],width = self.LINETHICKNESS)
# Bottom line, red
d.line(sum(((self.BOARDCOORDINATES[10][0][0]+self.HEXAGONWIDTH/4,self.BOARDCOORDINATES[10][0][1]+self.SIDELENGTH*5/4),sum([(point[0]+self.HEXAGONWIDTH/2,point[1]+self.HEXAGONHEIGHT,point[0]+self.HEXAGONWIDTH,point[1]+self.SIDELENGTH) for point in self.BOARDCOORDINATES[10]],())),()),
fill = self.PIECECOLOR[1],width = self.LINETHICKNESS)
# Left line, blue
d.line(sum((sum([(row[0][0],row[0][1],row[0][0],row[0][1]+self.SIDELENGTH) for row in self.BOARDCOORDINATES],()),(self.BOARDCOORDINATES[10][0][0]+self.HEXAGONWIDTH/4,self.BOARDCOORDINATES[10][0][1]+self.SIDELENGTH*5/4)),()),
fill = self.PIECECOLOR[2],width = self.LINETHICKNESS)
# Right line, blue
d.line(sum(((self.BOARDCOORDINATES[0][10][0]+self.HEXAGONWIDTH*3/4,self.BOARDCOORDINATES[0][10][1]-self.SIDELENGTH/4),sum([(row[10][0]+self.HEXAGONWIDTH,row[10][1],row[10][0]+self.HEXAGONWIDTH,row[10][1]+self.SIDELENGTH) for row in self.BOARDCOORDINATES],())),()),
fill = self.PIECECOLOR[2],width = self.LINETHICKNESS)
# Writes "abc..", "123.." on the columns and rows
for i in range(11):
# Top letters
d.text( (self.XOFFSET + self.HEXAGONWIDTH*i, self.YOFFSET-66) , "ABCDEFGHIJK"[i], font=self.FONT, fill=self.TEXTCOLOR)
# Bottom letters
d.text( (self.XOFFSET + self.HEXAGONWIDTH*(i+11.5/2), self.YOFFSET - 15 + 11*self.HEXAGONHEIGHT) , "ABCDEFGHIJK"[i], font=self.FONT, fill=self.TEXTCOLOR)
# Left numbers
d.multiline_text( (self.XOFFSET + self.HEXAGONWIDTH*i/2 - 72 -4*(i>8), self.YOFFSET + 18 + i*self.HEXAGONHEIGHT) , str(i+1), font=self.FONT, fill=self.TEXTCOLOR, align="right")
# Right numbers
d.text( (self.XOFFSET + self.HEXAGONWIDTH*(i/2+11) + 30 , self.YOFFSET + 6 + i*self.HEXAGONHEIGHT) , str(i+1), font=self.FONT, fill=self.TEXTCOLOR)
# Write player names and color
game = self.bot.database["hex games"].find_one({"_id":channel})
for p in [1,2]:
playername = self.bot.database_funcs.get_name(game["players"][p-1])
# Draw name
x = self.XNAME[p]
x -= self.NAMEFONT.getsize(playername)[0] if p==2 else 0 # player2's name is right-aligned
y = self.YNAME[p]
d.text((x,y),playername, font=self.NAMEFONT, fill = self.TEXTCOLOR)
# Draw a half-size Hexagon to indicate the player's color
x -= self.NAMEHEXPADDING # To the left of both names
d.polygon([
(x, y),
(x+self.SMALLWIDTH/2, y-self.SMALLSIDELENGTH/2),
(x+self.SMALLWIDTH, y),
(x+self.SMALLWIDTH, y+self.SMALLSIDELENGTH),
(x+self.SMALLWIDTH/2, y+self.SMALLSIDELENGTH*3/2),
(x, y+self.SMALLSIDELENGTH),
],fill = self.PIECECOLOR[p])
im.save("gwendolyn/resources/games/hex_boards/board"+channel+".png")
def drawHexPlacement(self, channel,player,position):
FILEPATH = "gwendolyn/resources/games/hex_boards/board"+channel+".png"
self.bot.log(f"Drawing a newly placed hex. Filename: board{channel}.png")
# Translates position
# We don't need to error-check, because the position is already checked in placeOnHexBoard()
position = position.lower()
column = ord(position[0])-97 # ord() translates from letter to number
row = int(position[1:])-1
# Find the coordinates for the filled hex drawing
hex_coords = [
(self.BOARDCOORDINATES[row][column][0]+self.COLXTHICKNESS, self.BOARDCOORDINATES[row][column][1] + self.COLYTHICKNESS),
(self.BOARDCOORDINATES[row][column][0]+self.HEXAGONWIDTH/2, self.BOARDCOORDINATES[row][column][1]-0.5*self.SIDELENGTH + self.COLHEXTHICKNESS),
(self.BOARDCOORDINATES[row][column][0]+self.HEXAGONWIDTH-self.COLXTHICKNESS, self.BOARDCOORDINATES[row][column][1] + self.COLYTHICKNESS),
(self.BOARDCOORDINATES[row][column][0]+self.HEXAGONWIDTH-self.COLXTHICKNESS, self.BOARDCOORDINATES[row][column][1]+self.SIDELENGTH - self.COLYTHICKNESS),
(self.BOARDCOORDINATES[row][column][0]+self.HEXAGONWIDTH/2, self.BOARDCOORDINATES[row][column][1]+1.5*self.SIDELENGTH - self.COLHEXTHICKNESS),
(self.BOARDCOORDINATES[row][column][0]+self.COLXTHICKNESS, self.BOARDCOORDINATES[row][column][1]+self.SIDELENGTH - self.COLYTHICKNESS),
]
# Opens the image
try:
with Image.open(FILEPATH) as im:
d = ImageDraw.Draw(im,"RGBA")
# Draws the hex piece
d.polygon(hex_coords,fill = self.PIECECOLOR[player], outline = self.BETWEENCOLOR)
# Save
im.save(FILEPATH)
except:
self.bot.log("Error drawing new hex on board (error code 1541")
def drawSwap(self, channel):
FILEPATH = "gwendolyn/resources/games/hex_boards/board"+channel+".png"
game = self.bot.database["hex games"].find_one({"_id":channel})
# Opens the image
try:
with Image.open(FILEPATH) as im:
d = ImageDraw.Draw(im,"RGBA")
# Write player names and color
for p in [1,2]:
playername = self.bot.database_funcs.get_name(game["players"][p%2])
x = self.XNAME[p]
x -= self.NAMEFONT.getsize(playername)[0] if p==2 else 0 # player2's name is right-aligned
y = self.YNAME[p]
# Draw a half-size Hexagon to indicate the player's color
x -= self.NAMEHEXPADDING # To the left of both names
d.polygon([
(x, y),
(x+self.SMALLWIDTH/2, y-self.SMALLSIDELENGTH/2),
(x+self.SMALLWIDTH, y),
(x+self.SMALLWIDTH, y+self.SMALLSIDELENGTH),
(x+self.SMALLWIDTH/2, y+self.SMALLSIDELENGTH*3/2),
(x, y+self.SMALLSIDELENGTH),
],fill = self.PIECECOLOR[p % 2 + 1])
# Save
im.save(FILEPATH)
except:
self.bot.log("Error drawing swap (error code 1542)")
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