def player_discard(player,app):
"""Prompts player for how many of each resource they would like to
discard. They need to get down to new_resource_count"""
starting_resource_count = player.resource_count()
clear_resource_panel(app)
draw_resource_panel(player,app)
app.button_chosen.set(-1)
while app.button_chosen.get()!=0:
total_discard_count = app.displays.get_wood_discard() + \
app.displays.get_brick_discard() + app.displays.get_sheep_discard() + \
app.displays.get_wheat_discard() + app.displays.get_stone_discard()
total_string = "Total: " + str(total_discard_count)
if total_discard_count>player.rob_count():
total_string_color = "red"
elif total_discard_count==player.rob_count():
total_string_color = "#309540" #green
else:
total_string_color = "black"
app.board_canvas.itemconfig(app.displays.total_text,
text=total_string, fill=total_string_color)
app.board_canvas.wait_variable(app.button_chosen)
app.button_chosen.set(-1)
player.wood -= app.displays.get_wood_discard()
player.brick -= app.displays.get_brick_discard()
player.sheep -= app.displays.get_sheep_discard()
player.wheat -= app.displays.get_wheat_discard()
player.stone -= app.displays.get_stone_discard()
discard_count = starting_resource_count - player.resource_count()
return discard_count
def trade_menu(player,app):
"""Runs trading screen for player"""
from catan_logic import perform_trade, evaluate_port_trade
app.pieces.turn_phase = "trade"
app.button_chosen.set(-1)
while app.button_chosen.get()!=0:
clear_resource_panel(app)
draw_resource_panel(player,app)
app.board_canvas.wait_variable(app.button_chosen)
if app.button_chosen.get()==1:
given_resource = app.displays.port_give_text.get()
gotten_resource = app.displays.port_get_text.get()
sell_resource_type = given_resource.split()[1]
sell_resource_copies = int(given_resource.split()[0])
buy_resource_type = gotten_resource.split()[1]
buy_resource_copies = int(gotten_resource.split()[0])
trade_successful, mul, trade_ratio = evaluate_port_trade(player,sell_resource_copies,
sell_resource_type,buy_resource_copies,buy_resource_type)
if trade_successful:
perform_trade(player,sell_resource_type,buy_resource_type,
app,mul,False,trade_ratio)
app.button_chosen.set(-1)
def player_steal_resource(player,robber_tile,app):
"""Prompts player for which player they would like to steal from"""
from catan_logic import get_stealable_players
clear_resource_panel(app)
draw_resource_panel(player,app)
# Skip this step if there is nobody to steal from
stealable_players = get_stealable_players(player,robber_tile,app)
if len(stealable_players)==0:
return
app.button_chosen.set(-1)
while app.button_chosen.get()!=0 or \
app.displays.steal_choice.get()=="Choose a player to steal from":
app.board_canvas.wait_variable(app.button_chosen)
app.button_chosen.set(-1)
target_player_name = app.displays.steal_choice.get()
for guy in app.pieces.players:
if guy.name==target_player_name:
target_player = guy
break
target_resources = []
for i in range(target_player.wood):
target_resources.append("wood")
for i in range(target_player.brick):
target_resources.append("brick")
for i in range(target_player.sheep):
target_resources.append("sheep")
for i in range(target_player.wheat):
target_resources.append("wheat")
for i in range(target_player.stone):
target_resources.append("stone")
stolen_resource = choice(target_resources)
if stolen_resource=="wood":
target_player.wood -= 1
player.wood += 1
if stolen_resource=="brick":
target_player.brick -= 1
player.brick += 1
if stolen_resource=="sheep":
target_player.sheep -= 1
player.sheep += 1
if stolen_resource=="wheat":
target_player.wheat -= 1
player.wheat += 1
if stolen_resource=="stone":
target_player.stone -= 1
player.stone += 1
write_log(app,player.name,"stole a resource from",target_player.name)
def player_place_robber(player,app):
"""Gets click of where player would like to place the robber"""
clear_resource_panel(app)
draw_resource_panel(player,app)
app.click_x.set(int(app.style.hex_x_off-app.style.water_width)+1)
app.click_y.set(int(app.style.hex_y_off-app.style.water_width)+1)
available_tiles = []
for tile in app.pieces.tiles:
if tile.visible and not(tile.has_robber):
available_tiles.append(tile)
robber_tile = Tile(0)
# Wait for the player to click a valid tile for the robber
while(not(robber_tile in available_tiles)):
# coordinate = 0
# Draw the circles for the valid plays
# (after clearing any existing circles)
app.board_canvas.delete("circle")
# Draw circles on available tiles
for tile in available_tiles:
# Get position of center of tile
pos_x = (tile.vertices[0]+tile.vertices[6])/2
pos_y = (tile.vertices[1]+tile.vertices[7])/2
# Set the radius of the circle based on a third the side length
r = (tile.vertices[3]-tile.vertices[1])/3
# Draw the circle
app.board_canvas.create_oval(pos_x-r,pos_y-r, pos_x+r,pos_y+r,
width=3, tags="circle")
# Find which tile was clicked
for tile in available_tiles:
# Get position of center of tile
pos_x = (tile.vertices[0]+tile.vertices[6])/2
pos_y = (tile.vertices[1]+tile.vertices[7])/2
# Set the radius of the circle based on a third the side length
r = (tile.vertices[3]-tile.vertices[1])/3
if app.click_x.get()>pos_x-r and app.click_x.get()<pos_x+r and \
app.click_y.get()>pos_y-r and app.click_y.get()<pos_y+r:
robber_tile = tile
break
# If the point clicked is not a legal vertex, try again
if not(robber_tile in available_tiles):
app.board_canvas.wait_variable(app.click_x)
app.board_canvas.delete("circle")
return robber_tile
def player_choose_city(player,available_points,app):
"""Asks player to click hex point on board to place city.
Returns tuple of the placed settlement"""
clear_resource_panel(app)
draw_resource_panel(player,app)
coordinate = placement_loop(player,available_points,app)
# If the placement loop was exited early, exit this loop early too
if not(coordinate):
return False
# Get rid of all circles
app.board_canvas.delete("circle")
return Point(coordinate[0],coordinate[1],coordinate[2])
def turn_loop(player,app):
from catan_logic import build_settlement, build_road, build_city
from catan_logic import buy_development_card
from catan_logic import legal_settlement_placements, legal_road_placements
from catan_AI import computer_take_turn
app.pieces.turn_phase = "make decisions"
draw_stats(app)
clear_resource_panel(app)
draw_resource_panel(app.pieces.players[app.pieces.turn_index],app)
# For human players, draw buttons and get button clicks
if player.AI_code<0:
app.button_chosen.set(-1)
while app.button_chosen.get()!=0:
app.pieces.turn_phase = "make decisions"
draw_stats(app)
clear_resource_panel(app)
draw_resource_panel(app.pieces.players[app.pieces.turn_index],app)
app.board_canvas.wait_variable(app.button_chosen)
if app.button_chosen.get()==1:
build_settlement(player,app)
elif app.button_chosen.get()==2:
build_road(player,app)
elif app.button_chosen.get()==3:
build_city(player,app)
elif app.button_chosen.get()==4:
buy_development_card(player,app)
elif app.button_chosen.get()==5:
trade_menu(player,app)
elif app.button_chosen.get()==6:
development_menu(player,app)
# For computer players, reference AI file
else:
computer_action = "none"
while not(computer_action=="ended turn"):
available_settlement_points = legal_settlement_placements(player,
app.pieces.players,app.pieces.all_points)
available_roads = legal_road_placements(player,app.pieces.players,
app.pieces.all_roads)
computer_action = computer_take_turn(player,
available_settlement_points,available_roads,app)
def development_menu(player,app):
"""Runs development card screen for player"""
from catan_logic import move_robber, build_road, largest_army
app.button_chosen.set(-1)
while app.button_chosen.get()!=0:
app.pieces.turn_phase = "development"
clear_resource_panel(app)
draw_resource_panel(player,app)
app.board_canvas.wait_variable(app.button_chosen)
# Implement use of development cards here
if app.button_chosen.get()==1 and player.development_cards["victory point"]!=0:
player.revealed_vp += player.development_cards["victory point"]
player.development_cards["victory point"] = 0
elif app.button_chosen.get()==2 and player.development_cards["knight"]!=0:
move_robber(player,app)
player.development_cards["knight"]-=1
player.knight_count += 1
for guy in app.pieces.players:
largest_army(guy,app)
elif app.button_chosen.get()==3 and player.development_cards["road building"]!=0:
build_road(player,app)
build_road(player,app)
player.development_cards["road building"]-=1
elif app.button_chosen.get()==4 and player.development_cards["year of plenty"]!=0:
player.development_cards["year of plenty"]-=1
pass
elif app.button_chosen.get()==5 and player.development_cards["monopoly"]!=0:
player.development_cards["monopoly"]-=1
pass
for guy in app.pieces.players:
guy.calculate_score()
draw_stats(app)
app.button_chosen.set(-1)
def player_choose_road(player,available_roads,app):
"""Asks player to click two hex points on board to place road between them.
Returns tuples of the placed road"""
clear_resource_panel(app)
draw_resource_panel(player,app)
road_coordinates = []
valid_road = False
# Loop until player picks a valid road pair
while(not(valid_road)):
# Determine the places a player can legally play
available_points = []
for road in available_roads:
available_points.append(road.point1)
available_points.append(road.point2)
# Just draw points where player can connect to first point in the second
# loop. Let player click on the initial point to cancel
if len(road_coordinates)==1:
points_to_remove = []
for point in available_points:
if road_coordinates[0].adjacent_point(point) or \
road_coordinates[0]==point:
continue
else:
points_to_remove.append(point)
for point in points_to_remove:
while point in available_points:
available_points.remove(point)
points_to_remove = []
for point in available_points:
for guy in app.pieces.players:
if Road(road_coordinates[0],point) in guy.roads:
points_to_remove.append(point)
for point in points_to_remove:
available_points.remove(point)
# Wait for the player to click a valid vertex
coordinate = placement_loop(player,available_points,app)
# If the placement loop was exited early, exit this loop early too
if not(coordinate):
return False
# Add selected vertex to the road coordinates
road_coordinates.append(Point(coordinate[0],coordinate[1],
coordinate[2]))
# Set variables to loop again
app.click_x.set(0)
app.click_y.set(0)
# If there are two road coordinates, check if they make a valid road
if len(road_coordinates)==2:
road = Road(road_coordinates[0],road_coordinates[1])
if road.valid:
for match in available_roads:
if road==match:
valid_road = True
# If the road is not legal after all, try two new vertices
if not(valid_road):
road_coordinates = []
# Get rid of all circles
app.board_canvas.delete("circle")
return road
