def workout():
directkeys.PressKey(target)
time.sleep(.05)
directkeys.ReleaseKey(target)
directkeys.PressKey(auto_operate)
time.sleep(.05)
directkeys.ReleaseKey(auto_operate)
def make_something(word_command):
# обращение к боту
for i in range(len(patternCommand.bot)):
if word_command.find(patternCommand.bot[i]) > -1:
print("Шо надо\n-=-=-=-=-=-=-=-=-=-")
playsound("voice/sho.mp3")
word_command = command(True)
# активация варп-двигателя
for counter in range(len(patternCommand.warp_drive)):
if word_command.find(patternCommand.warp_drive[counter]) > -1:
print(patternCommand.warp_drive[counter])
print('Готово\n-=-=-=-=-=-=-=-=-=-')
directkeys.PressKey(hexDirKey.C)
directkeys.ReleaseKey(hexDirKey.C)
playsound("voice/varp_aktivirovan.mp3")
return
# убрать/выпустить шасси
for counter in range(len(patternCommand.landing_gear)):
if word_command.find(
patternCommand.landing_gear[counter]) > -1:
print(patternCommand.landing_gear[counter])
print("шасси активированы\n-=-=-=-=-=-=-=-=-=-")
directkeys.PressKey(hexDirKey.G)
directkeys.ReleaseKey(hexDirKey.G)
playsound("voice/shassi.mp3")
return
# запросить стыковку
for counter in range(len(patternCommand.docking)):
if word_command.find(patternCommand.docking[counter]) > -1:
return
# ночное зрение
for counter in range(len(patternCommand.night_vision)):
if word_command.find(
patternCommand.night_vision[counter]) > -1:
directkeys.PressKey(hexDirKey.I)
directkeys.ReleaseKey(hexDirKey.I)
playsound("voice/nochnoe.mp3")
return
# рассказать сказку
for counter in range(len(patternCommand.story)):
if word_command.find(patternCommand.story[counter]) > -1:
print(patternCommand.story[counter])
print("Как дед насрал в каляску\n-=-=-=-=-=-=-=-=-=-")
playsound("voice/skazka.mp3")
return
def track(distance_threshold, degree_threshold):
key = None
screen = pyautogui.screenshot(region=(0, 80, 1024, 716))
radar = screen.crop((876, 537, 1023, 684))
mobs = find_mob(radar)
if closest_mob(mobs) == None:
return False
deg, distance = mob_to_parallel(closest_mob(mobs))
#print(deg, distance)
while distance > distance_threshold or abs(deg) > degree_threshold:
print("searching")
screen = pyautogui.screenshot(region=(0, 80, 1024, 716))
radar = screen.crop((876, 537, 1023, 684))
mobs = find_mob(radar)
deg, distance = mob_to_parallel(closest_mob(mobs))
#print(deg, distance)
if deg > degree_threshold:
if key != None:
directkeys.ReleaseKey(key)
key = c
directkeys.PressKey(c)
elif deg < -degree_threshold:
if key != None:
directkeys.ReleaseKey(key)
key = z
directkeys.PressKey(z)
else:
if key == None:
pass
else:
directkeys.ReleaseKey(key)
directkeys.PressKey(w)
#time.sleep(.05)
if key != None: directkeys.ReleaseKey(key)
directkeys.ReleaseKey(w)
return distance < distance_threshold and abs(deg) < degree_threshold
def test_movement(self):
print("Testing movement now.")
directkeys.PressKey('up')
sleep(5)
directkeys.ReleaseKey('up')
print("Done testing movement.")
def pause_game():
global game_paused
if game_paused:
# Resume actions
dk.PressKey(dk.SCANCODES["ESC"])
time.sleep(0.2)
dk.ReleaseKey(dk.SCANCODES["ESC"])
for key in action_stack:
dk.PressKey(key)
print("Resuming Game.")
else:
# Release keys while paused
for key in action_stack:
dk.ReleaseKey(key)
dk.PressKey(dk.SCANCODES["ESC"])
time.sleep(0.2)
dk.ReleaseKey(dk.SCANCODES["ESC"])
print("Pausing Game.")
game_paused = not game_paused
def press(key, time=0):
"""Presses the key :key for :time seconds. :time 0 is infinite"""
if key is None:
return
if DEBUG and DEBUG_CONTROL:
print("press", key)
if key not in action_stack:
action_stack.append(key)
dk.PressKey(key)
if time:
Timer(time, release, key)
def pause(*param):
global active
if not active:
# Resume actions
for key in action_stack:
dk.PressKey(key)
print("Resuming.")
else:
# Release keys while paused
for key in action_stack:
dk.ReleaseKey(key)
print("Pausing.")
active = not active
def main():
# So it does arrow keys, not numbers
directkeys.PressKey(SHIFT)
while True:
# set up the game
setup()
# a var so we know how long we've held the up key
prevJumpTime = 0
# declare globality of variables
global lost
global sensor
# repeat as long as the game is not yet lost
while True:
# update the sensor
sensor.update()
# iterate through each frame of a certain area
for i in range(sensor.rangeOfSensor):
# lower sensor higher sensor
if sensor.currentLowPixel(i) != sensor.lowBackground(
) or sensor.currentHighPixel(i) != sensor.highBackground():
prevJumpTime = millis()
directkeys.PressKey(UP)
else:
curTime = millis()
if curTime - prevJumpTime >= 100:
directkeys.ReleaseKey(UP)
# Restart after losing
directkeys.PressKey(UP)
directkeys.ReleaseKey(UP)
def play(self):
sleep(1)
print("Playing. Press 1 to stop.")
while not keyboard.is_pressed('1'):
movement = AI.query()
for i, key in enumerate(KEY_LIST):
if movement[i] > self.KEYPRESS_THRESHOLD:
directkeys.PressKey(key)
else:
directkeys.ReleaseKey(key)
print("Done playing.")
for key in KEY_LIST:
directkeys.ReleaseKey(key)
def close_shop():
dk.PressKey('esc')
def buy_selected_item():
dk.PressKey("enter")
time.sleep(0.1 + random.random())
dk.PressKey("enter")
time.sleep(0.1 + random.random())
def select_search_bar():
dk.MaintainKey('ctrl')
dk.PressKey('l')
dk.ReleaseKey('ctrl')
def open_shop():
dk.PressKey(self.shortcut["toggle shop"])
def main():
for i in list(range(3))[::-1]:
print(i + 1)
time.sleep(1)
window_name = r'MapleStory2 - A New Beginning'
hwnd = win32gui.FindWindow(None, window_name)
last_time = time.time()
paused = False
print('STARTING!!!')
while (True):
if not paused:
#grabbed_image = cv2.resize(grabbed_image, (640, 360))
#cv2.imwrite('image.png',grabbed_image)
#cv2.imshow('window', grabbed_image)
# resize to something a bit more acceptable for a CNN
#cv2_image = np.array(grabbed_image.convert('RGB'))
#grabbed_image.show()
# screen = grab_screen(window_dimensions)
# cv2.imshow('MS2', image)
last_time = time.time()
# if active window is our application...
if win32gui.GetWindowText(
win32gui.GetForegroundWindow()) == window_name:
RGB_image = _get_window_image(hwnd)
img_HP_bar = _get_HP_bar_image_from_image(RGB_image)
cv2.imshow("HP Bar", img_HP_bar)
hp = _get_HP_from_image(img_HP_bar)
if hp != None:
if hp <= 1200:
directkeys.PressKey(0x02)
time.sleep(.5)
directkeys.ReleaseKey(0x02)
print("Used potion!")
# print(hp)
else:
print("MS2 is not active window. Doing nothing.")
# Press 'T' to pause
keys = key_check()
if 'T' in keys:
if paused:
paused = False
print('unpaused!')
time.sleep(1)
else:
print('Pausing!')
paused = True
time.sleep(1)
# buffer to avoid crashing
cv2.waitKey(1)
cv2.destroyAllWindows()
print("Ended")
def tap(self, key):
dx_scan_code = self.key_options[key.lower()]
directkeys.PressKey(dx_scan_code)
time.sleep(self.time)
directkeys.ReleaseKey(dx_scan_code)
def autoFishing():
window = gw.getWindowsWithTitle('BlueStacks')[0]
window.resizeTo(600, 400)
window.moveTo(0, 0) # move window to 10, 10
print('Start Capture')
#window.focus() does not work
mc.click(600, 400)
# 500loops = 1fish
for i in range(500 * 5000):
screen = grapscreen.grab_screen(region=(0, 0, 800, 500))
######################################################################
# 1. Ad
m = np.mean(screen[80:120, 50:750])
cv2.rectangle(screen, (50, 80), (750, 120), 255, 2)
print('Ad: {:.1f}'.format(m))
# 106.7
if m > 104 and m < 107:
print('Skip Ad')
mc.click(scale(740), scale(100))
######################################################################
# 2. Cast button (168.0)
m = np.mean(screen[450:480, 700:750])
cv2.rectangle(screen, (700, 450), (750, 480), 255, 2)
#print('Cast: {:.1f}'.format(m))
if m > 160 and m < 171:
print('Cast')
#mc.click(scale(725),scale(465))
kb.TypeKey(kb.SPACE)
######################################################################
# 3. Line broken (52.6)
m = np.mean(screen[100:130, 500:630])
cv2.rectangle(screen, (500, 100), (630, 130), 255, 2)
#print('Broken: {:.1f}'.format(m))
if m > 51 and m < 54:
print('Broken')
mc.click(scale(615), scale(115))
######################################################################
# 4. Strike (148.8-149)
m = np.mean(screen[430:450, 670:720])
cv2.rectangle(screen, (670, 430), (720, 450), 255, 2) # strike button
#print('Strike: {:.1f}'.format(m))
if m > 146 and m < 152:
kb.TypeKey(kb.SPACE) # Strike
##################################################################
# 5.1 gauge
m = np.mean(screen[90:110, 380:440])
cv2.rectangle(screen, (380, 90), (440, 110), 255, 2) # gauge bar
print('Gauge: {:.1f}'.format(m))
if m > 104 and m < 114:
# Press Short (111~113)
print('Press Short')
kb.PressKey(kb.SPACE)
time.sleep(0.2)
kb.ReleaseKey(kb.SPACE)
elif m > 61 and m < 64:
# Press Harder (62~63)
print('Press Long')
kb.PressKey(kb.SPACE)
time.sleep(1.0)
kb.ReleaseKey(kb.SPACE)
else:
##################################################################
# Claim appears only when no strike button
# 5.2 Claim button (174.9)
m = np.mean(screen[425:460, 120:230])
cv2.rectangle(screen, (120, 425), (230, 460), 255, 2)
#print('Claim: {:.1f}'.format(m))
if m > 174 and m < 176:
print('Claim')
# Use mouse to slow down
#mc.click(scale(140), scale(440))
kb.TypeKey(kb.SPACE)
######################################################################
# 6. Boss Defeated (166.5)
bossEnabled = False
m = np.mean(screen[400:440, 350:450])
cv2.rectangle(screen, (350, 400), (450, 440), 255, 2)
#print('Boss: {:.1f}'.format(m))
if m > 164 and m < 169 and bossEnabled:
print('Boss Defeated')
mc.click(scale(400), scale(400))
######################################################################
# 7. Threshold Achieved (32.6, 34.9)
m = np.mean(screen[60:470, 20:200])
if m > 30 and m < 37:
cv2.rectangle(screen, (20, 60), (200, 470), 255, cv2.FILLED)
# 8. Threshold Achieved Exit (51.9)
m = np.mean(screen[60:100, 740:790])
cv2.rectangle(screen, (740, 60), (790, 100), 255, cv2.FILLED)
if m > 50 and m < 54:
print('Achievement Exit: {:.1f}'.format(m))
mc.click(scale(770), scale(77))
else:
print('Threshold Acheived: {:.1f}'.format(m))
mc.click(scale(400), scale(400))
time.sleep(0.5)
######################################################################
######################################################################
cv2.imshow('test window', screen)
if cv2.waitKey(25) & 0xFF == ord('q'):
cv2.destroyAllWindows()
print('Stop Capture')
break
if write_out:
cv2.imwrite('res.png', img_rgb)
return matched
def workout():
directkeys.PressKey(target)
time.sleep(.05)
directkeys.ReleaseKey(target)
directkeys.PressKey(auto_operate)
time.sleep(.05)
directkeys.ReleaseKey(auto_operate)
if __name__ == '__main__':
working = False
while True:
#screenshot = pyautogui.screenshot('game.png', region=(0, 80, 1024, 716))
while template_match('dead.jpg'):
working = False
directkeys.PressKey(loot)
time.sleep(.05)
directkeys.ReleaseKey(loot)
if not in_range(8):
track(6, 10)
elif not working:
workout()
working = True
import socket
import directkeys
ip = "192.168.11.128"
port = 6969
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
s.bind((ip, port))
keys = [
directkeys.D, directkeys.S, directkeys.W, directkeys.A, directkeys.SPACE,
directkeys.ESC
]
while True:
data, addr = s.recvfrom(1024)
x = data.decode()
for i in range(len(x)):
if (x[i] == "1"):
directkeys.PressKey(keys[i])
else:
directkeys.ReleaseKey(keys[i])
#print(x)
def win_press(self, x): directkeys.PressKey(x)