def roundgap():
num = 0
is_return = False
while not is_return:
num+=1
if num%10==0:
uts.start_mission() # end mission
is_return = uts.is_returnbattlemeun()
print("ending_screen")
uts.end_click()
sleep(0.3)
sleep(1.5)
def roundgap():
num = 0
is_return = uts.is_returnbattlemeun()
sleep(abs(random.normalvariate(0, 1)))
while not is_return:
num += 1
if num % 10 == 0:
uts.start_mission() # end mission
is_return = uts.is_returnbattlemeun()
print("ending_screen")
uts.end_click()
sleep(abs(random.normalvariate(0.5, 0.2)))
sleep(1.5 + abs(random.normalvariate(2, 5)))
def battle(start, battle_num, fairy_state, nodelay):
entry02()
sleep(5 + random.random())
start = change_battler(battle_num, start)
sleep(1 + random.random())
uts.start_mission()
sleep(5 + random.random() + random.random())
uts.supply(clickairport)
sleep(0.431 + abs(random.normalvariate(0.2, 0.1)))
isload = False
while not isload:
isload = uts.checkisload()
print("supplying")
sleep(0.3)
print("round 1")
"""
if (battle_num ==0 or fairy_state == 0) or (battle_num ==1 or fairy_state == 1):
fairy_state = (fairy_state+1)%2
uts.fairy(locoal_commd)
sleep(0.656+abs(random.normalvariate(0.2, 0.1)))
"""
sleep(0.631 + abs(random.normalvariate(0.2, 0.1)))
uts.plainTask()
sleep(0.583 + abs(random.normalvariate(0.2, 0.1)))
clicklocoal_commd()
sleep(0.583 + abs(random.normalvariate(0.2, 0.1)))
mistake(round1_error[0], round1_aim[0])
sleep(0.583 + abs(random.normalvariate(0.2, 0.1)))
issroll = 0
for step, aim in enumerate(round1_aim):
sleep(0.5 + random.random() / 2)
if step == 3:
mistake(round1_error[1], aim)
sleep(0.5 + random.random() / 2)
uts.click_aim(aim)
sleep(0.5 + random.random() / 2)
if step == 0:
sroll_y = 800
while sroll_y > 0:
x = random.normalvariate(1300, 100)
y = random.normalvariate(300, 30)
pyautogui.moveTo(x, y, duration=0.25)
dx = random.normalvariate(50, 20)
dy = random.normalvariate(400, 50)
pyautogui.dragRel(-dx, dy, duration=1 + random.random())
sroll_y -= dy
sleep(0.5 + random.random() / 2)
uts.start_plain()
basic_delay = 110 + random.normalvariate(5, 10)
print("basic_delay", basic_delay)
sleep(basic_delay)
print("judge round1end...")
while 1:
if round1end():
print("Yes")
break
else:
print("No")
sleep(random.randint(1, 3) + random.random())
radnum = random.random()
print("radnum_round1", radnum)
delaytime = 0
if nodelay:
radnum = 0
if radnum > 0.999:
delaytime = 180 + abs(random.normalvariate(20, 80))
elif radnum > 0.9848:
delaytime = 60 + abs(random.normalvariate(20, 40))
elif radnum > 0.91354:
delaytime = 40 + abs(random.normalvariate(15, 20))
elif radnum > 0.85:
delaytime = 20 + abs(random.normalvariate(10, 10))
print("sleep ", delaytime)
sleep(delaytime)
uts.start_mission() # end mission
print("emeary turn")
sleep(15 + abs(random.normalvariate(0, 2)))
while 1:
if round1end():
break
else:
sleep(random.randint(1, 3) + random.random())
# round 2
print("round 2")
sleep(random.randint(1, 3) + random.random())
sleep(0.583 + abs(random.normalvariate(0.2, 0.1)))
uts.plainTask()
sleep(0.583 + abs(random.normalvariate(0.2, 0.1)))
for aim in round2_aim:
sleep(0.5 + random.random() / 2)
uts.click_aim(aim)
uts.start_plain()
print("start plain")
basic_delay = 60 + abs(random.normalvariate(5, 2))
print("basic_delay", basic_delay)
sleep(basic_delay)
print("judge round2end...")
while 1:
if round2end():
print("Yes")
break
else:
print("No")
sleep(random.randint(1, 3) + random.random())
radnum = random.random()
print("radnum_round2", radnum)
delaytime = 0
if nodelay:
radnum = 0
if radnum > 0.99:
delaytime = 180 + abs(random.normalvariate(20, 80))
elif radnum > 0.9648:
delaytime = 60 + abs(random.normalvariate(20, 40))
elif radnum > 0.88354:
delaytime = 40 + abs(random.normalvariate(15, 20))
elif radnum > 0.85:
delaytime = 20 + abs(random.normalvariate(10, 10))
print("sleep ", delaytime)
sleep(delaytime)
print("end mission")
uts.start_mission() # end mission
sleep(12 + random.normalvariate(3, 1))
print("end mission click")
for i in range(4):
uts.end_click()
sleep(0.5 + abs(random.normalvariate(2, 2) / 5))
return start, battle_num, fairy_state
def battle():
entry01()
sleep(3+2*random.random())
sroll_y = 300
while sroll_y > 0:
x = random.normalvariate(1300, 100)
y = random.normalvariate(300, 30)
pyautogui.moveTo(x, y, duration=0.25)
dx = random.normalvariate(50, 20)
dy = abs(random.normalvariate(sroll_y+50, 50))
pyautogui.dragRel(-dx,dy,duration=1+random.random())
sroll_y -= dy
sleep(1.68+random.random()/2)
clicklocoal_commd()
sleep(0.431+abs(random.normalvariate(0.2, 0.1)))
uts.checkamry()
sleep(1.331+abs(random.normalvariate(0.2, 0.1)))
uts.start_mission()
#uts.supply(clickairport)
sleep(1.431+abs(random.normalvariate(0.2, 0.1)))
isload = False
print("supplying")
while not isload:
isload = uts.checkisload()
sleep(0.5)
else:
print("supplied")
print("round 1")
sleep(2.431+abs(random.normalvariate(0.2, 0.1)))
uts.plainTask()
sleep(0.583+abs(random.normalvariate(0.2, 0.1)))
clicklocoal_commd()
sleep(0.583+abs(random.normalvariate(0.2, 0.1)))
uts.click_aim(round1_aim[0])
sleep(0.583+abs(random.normalvariate(0.2, 0.1)))
uts.start_plain()
sleep(10)
while 1:
print("check_out_plan")
if planend((1350, 150)) :
print("yes")
break
sleep(1)
sleep(2+random.random()/2)
uts.addamry(locoal_commd)
print("supplying")
while not isload:
isload = uts.checkisload()
sleep(0.5)
else:
print("supplied")
sleep(3+random.random()/2)
uts.start_mission() # end mission
print("emeary turn")
sleep(5)
while 1:
if emeryroundend():
print("Yes")
break
if uts.checkinbattle():
sleep(0.3)
while uts.checkinbattle():
sleep(0.3)
else:
sleep(2)
for i in range(4):
sleep(0.5)
x = random.normalvariate(900, 300)
y = random.normalvariate(550, 200)
pyautogui.moveTo(x, y, duration=0.25)
pyautogui.click()
sleep((0.383+abs(random.normalvariate(0.2, 0.1))))
sleep(0.3)
sleep(3.5)
print("round 2")
sleep(2.5)
isload = False
print("supplying")
while not isload:
isload = uts.checkisload()
sleep(0.5)
else:
print("supplied")
uts.plainTask()
sleep(0.583+abs(random.normalvariate(0.2, 0.1)))
uts.click_aim(round1_aim[0])
sleep(0.583+abs(random.normalvariate(0.2, 0.1)))
uts.click_aim(round2_aim[0])
sleep(0.583+abs(random.normalvariate(0.2, 0.1)))
uts.click_aim(round2_aim[1])
sleep(0.583+abs(random.normalvariate(0.2, 0.1)))
uts.click_aim(round2_aim[2])
sleep(0.583+abs(random.normalvariate(0.2, 0.1)))
uts.start_plain()
sleep(25)
while 1:
sleep(1)
print("check_out_plan")
if planend((450, 298)) :
print("yes")
break
uts.start_mission() # end mission
sleep(12+random.normalvariate(3, 1))
print("end mission click")
for i in range(4):
uts.end_click()
sleep(0.6+abs(random.normalvariate(2, 2)/5))
def battle():
entry24()
sleep(5+random.random())
sroll_y = 250
while sroll_y > 0:
x = random.normalvariate(1300, 100)
y = random.normalvariate(600, 30)
pyautogui.moveTo(x, y, duration=0.25)
dx = random.normalvariate(50, 20)
dy = random.normalvariate(300, 50)
pyautogui.dragRel(-dx,dy,duration=1+random.random())
sroll_y -= dy
clicklocoal_commd()
sleep(1+random.random())
uts.checkamry()
sleep(1+random.random())
uts.start_mission()
sleep(3+2*random.random())
isload = False
while not isload:
isload = uts.checkisload()
print("supplying")
sleep(0.3)
print("round 1")
clicklocoal_commd()
uts.plainTask()
sleep(0.5+random.random()/2)
uts.click_aim(round_aim[0])
sleep(0.5+random.random()/2)
uts.click_aim(round_aim[1])
sleep(0.5+random.random()/2)
uts.start_plain()
sleep(40+abs(random.normalvariate(2, 1)))
uts.start_mission() # end mission
print("emeary turn")
sleep(50+abs(random.normalvariate(2, 1)))
x = random.normalvariate(1300, 100)
y = random.normalvariate(600, 30)
pyautogui.moveTo(x, y, duration=0.25)
pyautogui.click()
sleep(10+abs(random.normalvariate(5, 3)))
# round 2
print("round 3")
uts.fairy(round_aim[1])
uts.plainTask()
uts.click_aim(round_aim[1])
sleep(0.5+random.random()/2)
uts.click_aim(round_aim[2],maxr=40)
sleep(0.5+random.random()/2)
uts.click_aim(round_aim[3],maxr=50)
sleep(1+random.random()/2)
uts.start_plain()
radnum = abs(random.normalvariate(0,1))
print("radnum",radnum)
if radnum>3.5:
sleep(180+abs(random.normalvariate(10, 5)))
elif radnum>2:
sleep(70+abs(random.normalvariate(10, 5)))
elif radnum>1:
sleep(45+abs(random.normalvariate(10, 5)))
else:
sleep(35+abs(random.normalvariate(5, 2)))
print("end mission")
uts.start_mission() # end mission
sleep(12+random.normalvariate(3, 1))
print("end mission click")
for i in range(4):
uts.end_click()
sleep(1.5+random.normalvariate(5, 2)/5)