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Considition-2020/main.py

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# import api
import time
import sys
from sys import exit
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from game_layer import GameLayer
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import game_state
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import traceback
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api_key = "74e3998d-ed3d-4d46-9ea8-6aab2efd8ae3"
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# The different map names can be found on considition.com/rules
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map_name = "training1" # TODO: You map choice here. If left empty, the map "training1" will be selected.
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game_layer = GameLayer(api_key)
#settings
use_prebuilt_strategy = False
time_until_run_ends = 70
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utilities = 3
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def main():
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global EMA_temp, rounds_between_energy, building_under_construction, available_tiles, state, queue_timeout
#global vars
rounds_between_energy = 5
EMA_temp = None
building_under_construction = None
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available_tiles = []
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queue_timeout = 0
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game_layer.new_game(map_name)
print("Starting game: " + game_layer.game_state.game_id)
game_layer.start_game()
# start timeout timer
start_time = time.time()
state = game_layer.game_state
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chartMap()
while state.turn < state.max_turns:
state = game_layer.game_state
try:
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if EMA_temp is None:
EMA_temp = state.current_temp
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ema_k_value = (2/(rounds_between_energy+1))
EMA_temp = state.current_temp * ema_k_value + EMA_temp*(1-ema_k_value)
take_turn()
except:
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print(traceback.format_exc())
game_layer.end_game()
exit()
time_diff = time.time() - start_time
if time_diff > time_until_run_ends:
game_layer.end_game()
exit()
print("Done with game: " + state.game_id)
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print("Final score was: " + str(game_layer.get_score()["finalScore"]))
return (state.game_id, game_layer.get_score()["finalScore"])
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def take_turn():
global state
if not use_prebuilt_strategy:
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# TODO Implement your artificial intelligence here.
# TODO Take one action per turn until the game ends.
# TODO The following is a short example of how to use the StarterKit
if something_needs_attention():
pass
else:
develop_society()
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# messages and errors for console log
for message in state.messages:
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print(message)
for error in state.errors:
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print("Error: " + error)
# pre-made test strategy which came with starter kit
if use_prebuilt_strategy:
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state = game_layer.game_state
if len(state.residences) < 1:
for i in range(len(state.map)):
for j in range(len(state.map)):
if state.map[i][j] == 0:
x = i
y = j
break
game_layer.place_foundation((x, y), game_layer.game_state.available_residence_buildings[0].building_name)
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else:
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the_only_residence = state.residences[0]
if the_only_residence.build_progress < 100:
game_layer.build((the_only_residence.X, the_only_residence.Y))
elif the_only_residence.health < 50:
game_layer.maintenance((the_only_residence.X, the_only_residence.Y))
elif the_only_residence.temperature < 18:
blueprint = game_layer.get_residence_blueprint(the_only_residence.building_name)
energy = blueprint.base_energy_need + 0.5 \
+ (the_only_residence.temperature - state.current_temp) * blueprint.emissivity / 1 \
- the_only_residence.current_pop * 0.04
game_layer.adjust_energy_level((the_only_residence.X, the_only_residence.Y), energy)
elif the_only_residence.temperature > 24:
blueprint = game_layer.get_residence_blueprint(the_only_residence.building_name)
energy = blueprint.base_energy_need - 0.5 \
+ (the_only_residence.temperature - state.current_temp) * blueprint.emissivity / 1 \
- the_only_residence.current_pop * 0.04
game_layer.adjust_energy_level((the_only_residence.X, the_only_residence.Y), energy)
elif state.available_upgrades[0].name not in the_only_residence.effects:
game_layer.buy_upgrade((the_only_residence.X, the_only_residence.Y), state.available_upgrades[0].name)
else:
game_layer.wait()
for message in game_layer.game_state.messages:
print(message)
for error in game_layer.game_state.errors:
print("Error: " + error)
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def develop_society():
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global state, queue_timeout, available_tiles
#check if queue is full
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if (state.housing_queue > 10 + len(state.utilities) * 0.15) and queue_timeout >= 5:
queue_is_full = True
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queue_timeout = 0
else:
queue_is_full = False
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queue_timeout += 1
build_residence_score = 0
upgrade_residence_score = 0
build_utility_score = 0
build_upgrade_score = 0
decision_engine = None
if len(state.residences) < 2:
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build("Apartments")
elif len(state.utilities) < 1:
build("WindTurbine")
elif state.funds > 30000 and len(state.residences) < 4:
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build("HighRise")
elif queue_is_full: #build if queue full and can afford housing
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build("ModernApartments")
elif build_upgrade_score:
#if state.available_upgrades[0].name not in the_only_residence.effects:
# game_layer.buy_upgrade((the_only_residence.X, the_only_residence.Y), state.available_upgrades[0].name)
pass
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else:
game_layer.wait()
def something_needs_attention():
global building_under_construction, edit_temp, maintain, state
#check if temp needs adjusting
edit_temp = (False, 0)
for i in range(len(state.residences)):
if (state.turn % rounds_between_energy == i) and not state.residences[i].build_progress < 100:
edit_temp = (True, i)
#check if need for maintainance
maintain = (False, 0)
for i in range(len(state.residences)):
if state.residences[i].health < 41+rounds_between_energy*game_layer.get_residence_blueprint(state.residences[i].building_name).decay_rate:
maintain = (True, i)
if maintain[0]: #check maintainance
game_layer.maintenance((state.residences[maintain[1]].X, state.residences[maintain[1]].Y))
return True
elif edit_temp[0]: #adjust temp of buildings
adjustEnergy(state.residences[edit_temp[1]])
return True
elif building_under_construction is not None: #finish construction
if (len(state.residences)-1 >= building_under_construction[2]) and (state.residences[building_under_construction[2]].build_progress < 100):
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game_layer.build((building_under_construction[0], building_under_construction[1]))
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if not state.residences[building_under_construction[2]].build_progress < 100:
building_under_construction = None
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return True
elif (len(state.utilities)-1 >= building_under_construction[2]) and (state.utilities[building_under_construction[2]].build_progress < 100):
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game_layer.build((building_under_construction[0], building_under_construction[1]))
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if not state.residences[building_under_construction[2]].build_progress < 100:
building_under_construction = None
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return True
else:
building_under_construction = None
return False
else:
return False
def chartMap():
global state
for x in range(len(state.map) - 1):
for y in range(len(state.map) - 1):
if state.map[x][y] == 0:
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available_tiles.append((x, y))
optimize_available_tiles()
def adjustEnergy(currentBuilding):
global rounds_between_energy, EMA_temp, state
blueprint = game_layer.get_residence_blueprint(currentBuilding.building_name)
outDoorTemp = state.current_temp * 2 - EMA_temp
temp_acceleration = (2*(21 - currentBuilding.temperature)/(rounds_between_energy))
effectiveEnergyIn = ((temp_acceleration - 0.04 * currentBuilding.current_pop + (currentBuilding.temperature - outDoorTemp) * blueprint.emissivity) / 0.75) + blueprint.base_energy_need
if effectiveEnergyIn > blueprint.base_energy_need:
game_layer.adjust_energy_level((currentBuilding.X, currentBuilding.Y), effectiveEnergyIn)
elif effectiveEnergyIn < blueprint.base_energy_need:
game_layer.adjust_energy_level((currentBuilding.X, currentBuilding.Y), blueprint.base_energy_need + 0.01)
else:
print("you did it!")
game_layer.wait()
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def optimize_available_tiles():
global average_x, average_y, score_list
average_x = 0
average_y = 0
score_list = []
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for tile in available_tiles: #calc average coords
average_x += tile[0]
average_y += tile[1]
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average_x /= len(available_tiles)
average_y /= len(available_tiles)
print("Assign scores")
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for tile in available_tiles:
tile_score = abs(tile[0] - average_x) + abs(tile[1] - average_y)
score_list.append((tile_score, tile))
def sort_key(e):
return e[0]
print("Sorting tile list")
score_list.sort(key=sort_key)
for i in range(len(score_list)):
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available_tiles[i] = score_list[i][1]
print("average x,y: " + str(average_x) + ", " + str(average_y))
def build(structure):
global building_under_construction, rounds_between_energy, state
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print("Building " + structure)
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for i in range(len(available_tiles)):
if isinstance(available_tiles[i], tuple):
game_layer.place_foundation(available_tiles[i], structure)
for building in state.available_residence_buildings:
if structure in building.building_name:
for j in range(len(state.residences)):
building = state.residences[j]
coords_to_check = (building.X, building.Y)
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if coords_to_check == available_tiles[i]:
available_tiles[i] = building
building_under_construction = (building.X, building.Y, j)
rounds_between_energy = len(state.residences)+2
return True
for building in state.available_utility_buildings:
if structure in building.building_name:
for j in range(len(state.utilities)):
building = state.utilities[j]
coords_to_check = (building.X, building.Y)
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if coords_to_check == available_tiles[i]:
available_tiles[i] = building
building_under_construction = (building.X, building.Y, j)
rounds_between_energy = len(state.residences)+2
return True
return False
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if __name__ == "__main__":
main()