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scouting_visuals.py
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import sc2
from sc2 import run_game, maps, Race, Difficulty, position
from sc2.player import Bot, Computer
from sc2.constants import NEXUS, PROBE, PYLON, ASSIMILATOR, GATEWAY, \
CYBERNETICSCORE, STALKER, STARGATE, VOIDRAY, OBSERVER, ROBOTICSFACILITY
import random
import cv2
import numpy as np
class SentdeBot(sc2.BotAI):
def __init__(self):
self.ITERATIONS_PER_MINUTE = 165
self.MAX_WORKERS = 50
async def on_step(self, iteration):
self.iteration = iteration
await self.scout()
await self.distribute_workers()
await self.build_workers()
await self.build_pylons()
await self.build_assimilators()
await self.expand()
await self.offensive_force_buildings()
await self.build_offensive_force()
await self.intel()
await self.attack()
def random_location_variance(self, enemy_start_location):
x = enemy_start_location[0]
y = enemy_start_location[1]
x += ((random.randrange(-20, 20))/100) * enemy_start_location[0]
y += ((random.randrange(-20, 20))/100) * enemy_start_location[1]
if x < 0:
x = 0
if y < 0:
y = 0
if x > self.game_info.map_size[0]:
x = self.game_info.map_size[0]
if y > self.game_info.map_size[1]:
y = self.game_info.map_size[1]
go_to = position.Point2(position.Pointlike((x,y)))
return go_to
async def scout(self):
if len(self.units(OBSERVER)) > 0:
scout = self.units(OBSERVER)[0]
if scout.is_idle:
enemy_location = self.enemy_start_locations[0]
move_to = self.random_location_variance(enemy_location)
print(move_to)
await self.do(scout.move(move_to))
else:
for rf in self.units(ROBOTICSFACILITY).ready.noqueue:
if self.can_afford(OBSERVER) and self.supply_left > 0:
await self.do(rf.train(OBSERVER))
async def intel(self):
game_data = np.zeros((self.game_info.map_size[1], self.game_info.map_size[0], 3), np.uint8)
# UNIT: [SIZE, (BGR COLOR)]
'''from sc2.constants import NEXUS, PROBE, PYLON, ASSIMILATOR, GATEWAY, \
CYBERNETICSCORE, STARGATE, VOIDRAY'''
draw_dict = {
NEXUS: [15, (0, 255, 0)],
PYLON: [3, (20, 235, 0)],
PROBE: [1, (55, 200, 0)],
ASSIMILATOR: [2, (55, 200, 0)],
GATEWAY: [3, (200, 100, 0)],
CYBERNETICSCORE: [3, (150, 150, 0)],
STARGATE: [5, (255, 0, 0)],
ROBOTICSFACILITY: [5, (215, 155, 0)],
VOIDRAY: [3, (255, 100, 0)],
#OBSERVER: [3, (255, 255, 255)],
}
for unit_type in draw_dict:
for unit in self.units(unit_type).ready:
pos = unit.position
cv2.circle(game_data, (int(pos[0]), int(pos[1])), draw_dict[unit_type][0], draw_dict[unit_type][1], -1)
main_base_names = ["nexus", "supplydepot", "hatchery"]
for enemy_building in self.known_enemy_structures:
pos = enemy_building.position
if enemy_building.name.lower() not in main_base_names:
cv2.circle(game_data, (int(pos[0]), int(pos[1])), 5, (200, 50, 212), -1)
for enemy_building in self.known_enemy_structures:
pos = enemy_building.position
if enemy_building.name.lower() in main_base_names:
cv2.circle(game_data, (int(pos[0]), int(pos[1])), 15, (0, 0, 255), -1)
for enemy_unit in self.known_enemy_units:
if not enemy_unit.is_structure:
worker_names = ["probe",
"scv",
"drone"]
# if that unit is a PROBE, SCV, or DRONE... it's a worker
pos = enemy_unit.position
if enemy_unit.name.lower() in worker_names:
cv2.circle(game_data, (int(pos[0]), int(pos[1])), 1, (55, 0, 155), -1)
else:
cv2.circle(game_data, (int(pos[0]), int(pos[1])), 3, (50, 0, 215), -1)
for obs in self.units(OBSERVER).ready:
pos = obs.position
cv2.circle(game_data, (int(pos[0]), int(pos[1])), 1, (255, 255, 255), -1)
# flip horizontally to make our final fix in visual representation:
flipped = cv2.flip(game_data, 0)
resized = cv2.resize(flipped, dsize=None, fx=2, fy=2)
cv2.imshow('Intel', resized)
cv2.waitKey(1)
async def build_workers(self):
if (len(self.units(NEXUS)) * 16) > len(self.units(PROBE)) and len(self.units(PROBE)) < self.MAX_WORKERS:
for nexus in self.units(NEXUS).ready.noqueue:
if self.can_afford(PROBE):
await self.do(nexus.train(PROBE))
async def build_pylons(self):
if self.supply_left < 5 and not self.already_pending(PYLON):
nexuses = self.units(NEXUS).ready
if nexuses.exists:
if self.can_afford(PYLON):
await self.build(PYLON, near=nexuses.first)
async def build_assimilators(self):
for nexus in self.units(NEXUS).ready:
vaspenes = self.state.vespene_geyser.closer_than(15.0, nexus)
for vaspene in vaspenes:
if not self.can_afford(ASSIMILATOR):
break
worker = self.select_build_worker(vaspene.position)
if worker is None:
break
if not self.units(ASSIMILATOR).closer_than(1.0, vaspene).exists:
await self.do(worker.build(ASSIMILATOR, vaspene))
async def expand(self):
if self.units(NEXUS).amount < (self.iteration / self.ITERATIONS_PER_MINUTE) and self.can_afford(NEXUS):
await self.expand_now()
async def offensive_force_buildings(self):
#print(self.iteration / self.ITERATIONS_PER_MINUTE)
if self.units(PYLON).ready.exists:
pylon = self.units(PYLON).ready.random
if self.units(GATEWAY).ready.exists and not self.units(CYBERNETICSCORE):
if self.can_afford(CYBERNETICSCORE) and not self.already_pending(CYBERNETICSCORE):
await self.build(CYBERNETICSCORE, near=pylon)
elif len(self.units(GATEWAY)) < 1:
if self.can_afford(GATEWAY) and not self.already_pending(GATEWAY):
await self.build(GATEWAY, near=pylon)
if self.units(CYBERNETICSCORE).ready.exists:
if len(self.units(ROBOTICSFACILITY)) < 1:
if self.can_afford(ROBOTICSFACILITY) and not self.already_pending(ROBOTICSFACILITY):
await self.build(ROBOTICSFACILITY, near=pylon)
if self.units(CYBERNETICSCORE).ready.exists:
if len(self.units(STARGATE)) < (self.iteration / self.ITERATIONS_PER_MINUTE):
if self.can_afford(STARGATE) and not self.already_pending(STARGATE):
await self.build(STARGATE, near=pylon)
async def build_offensive_force(self):
for sg in self.units(STARGATE).ready.noqueue:
if self.can_afford(VOIDRAY) and self.supply_left > 0:
await self.do(sg.train(VOIDRAY))
def find_target(self, state):
if len(self.known_enemy_units) > 0:
return random.choice(self.known_enemy_units)
elif len(self.known_enemy_structures) > 0:
return random.choice(self.known_enemy_structures)
else:
return self.enemy_start_locations[0]
async def attack(self):
# {UNIT: [n to fight, n to defend]}
aggressive_units = {VOIDRAY: [8, 3]}
for UNIT in aggressive_units:
if self.units(UNIT).amount > aggressive_units[UNIT][0] and self.units(UNIT).amount > aggressive_units[UNIT][1]:
for s in self.units(UNIT).idle:
await self.do(s.attack(self.find_target(self.state)))
elif self.units(UNIT).amount > aggressive_units[UNIT][1]:
if len(self.known_enemy_units) > 0:
for s in self.units(UNIT).idle:
await self.do(s.attack(random.choice(self.known_enemy_units)))
run_game(maps.get("AbyssalReefLE"), [
Bot(Race.Protoss, SentdeBot()),
Computer(Race.Terran, Difficulty.Hard)
], realtime=False)