dino_three = Dinosaur("Velociraptor")
dino_three.attack_power = 85
# weapons.choose_attack(dino_three)
#Fleet
robot_fleet = Fleet()
robot_fleet.add_to_fleet([robot_megaman, robot_marvin, robot_wally])
#print(robot_fleet.fleet)
#Herd
dino_herd = Herd()
dino_herd.add_to_herd([dino_one, dino_two, dino_three])
# print(dino_herd.herd)
for robot in robot_fleet.fleet[0]:
weapons.choose_weapon(robot)
for dinosaur in dino_herd.herd[0]:
weapons.choose_attack(dinosaur)
#Actions
def battle(fleet, herd):
counter = 0
for element in fleet:
fleet_health = 0
for i in range(0, len(element)):
fleet_health += element[i].health
for obj in herd:
herd_health = 0
for a in range(0, len(obj)):
herd_health += obj[a].health
while counter <= 100 or fleet_health <= 0 or herd_health <= 0:
def initialize_battle():
#Weapons List
weapons = Weapons()
#Fighters
marvin = Robot('Marvin')
megaman = Robot('Megaman')
wall_E = Robot('Wall-e')
stegosaurus = Dinosaur('Stegosaurus')
velociraptor = Dinosaur('Velociraptor')
tyrannosaurus = Dinosaur('Tyrannosaurus')
#Select Weapon/Attack
weapons.choose_weapon(marvin)
weapons.choose_weapon(megaman)
weapons.choose_weapon(wall_E)
weapons.choose_attack(stegosaurus)
weapons.choose_attack(velociraptor)
weapons.choose_attack(tyrannosaurus)
#Robots
marvin.power_level = 120
marvin.attack_power = 70
megaman.power_level = 110
megaman.attack_power = 100
wall_E.power_level = 100
wall_E.attack_power = 60
#Dinos
stegosaurus.attack_power = 60
velociraptor.attack_power = 80
tyrannosaurus.attack_power = 100
#Fleet
robot_fleet = Fleet()
robot_fleet.add_to_fleet([marvin, megaman, wall_E])
# print(robot_fleet.fleet)
#Herd
dino_herd = Herd()
dino_herd.add_to_herd([stegosaurus, velociraptor, tyrannosaurus])
# print(dino_herd.herd)
#Display fighters and battlefield
display(battlefield)
# --- Fighters will attack each other randomly, last fighter standing wins!---
def battle(fleet, herd):
counter = 0
for element in fleet:
fleet_health = 0
for i in range(0, len(element)):
fleet_health += element[i].health
for obj in herd:
herd_health = 0
for a in range(0, len(obj)):
herd_health += obj[a].health
while counter <= 100 or fleet_health <= 0 or herd_health <= 0:
n = random.randint(0, 2)
i = random.randint(0, 2)
obj[n].attack_robo(element[n])
element[n].attack_dino(obj[i])
counter += 1
battle(robot_fleet.fleet, dino_herd.herd)
#Stats
print(wall_E)
print(megaman)
print(marvin)
print(stegosaurus)
print(velociraptor)
print(tyrannosaurus)
def conclude_battle(robot_fleet, dino_herd):
for element in robot_fleet.fleet:
count = 0
while count <= len(element):
for robot in element:
if robot.status == 'Defeated' or robot.status == 'Resting':
element.remove(robot)
count += 1
if len(element) == 0:
return ctypes.windll.user32.MessageBoxW(
0, 'Battle concluded: Dinos have won!',
'Robots vs Dinosaurs', 64)
for element in dino_herd.herd:
count = 0
while count <= len(element):
for dino in element:
if dino.health <= 0 or dino.status == 'Resting':
element.remove(dino)
count += 1
if len(element) == 0:
return ctypes.windll.user32.MessageBoxW(
0, 'Battle concluded: Robos have won!',
'Robots vs Dinosaurs', 64)
return ctypes.windll.user32.MessageBoxW(0, 'Battle is Ongoing!',
'Robots vs Dinosaurs', 64)
conclude_battle(robot_fleet, dino_herd)