def temp():
pyautogui.alert('This displays some text with an OK button.')
pyautogui.position() # current mouse x and y
pyautogui.onScreen(x, y) # True if x & y are within the screen.
pyautogui.PAUSE = 2.5 # Pause 2.5 s
pyautogui.dragTo(x, y, duration=num_seconds) # drag mouse to XY
pyautogui.dragRel(xOffset, yOffset, duration=num_seconds) # drag mouse relative to its current position
pyautogui.click(x=moveToX, y=moveToY, clicks=num_of_clicks, interval=secs_between_clicks, button='left') # The button keyword argument can be 'left', 'middle', or 'right'.
pyautogui.scroll(amount_to_scroll, x=moveToX, y=moveToY)
pyautogui.mouseDown(x=moveToX, y=moveToY, button='left')
pyautogui.mouseUp(x=moveToX, y=moveToY, button='left')
pyautogui.typewrite('Hello world!\n', interval=secs_between_keys) # useful for entering text, newline is Enter
pyautogui.typewrite(['a', 'b', 'c', 'left', 'backspace', 'enter', 'f1'], interval=secs_between_keys)
pyautogui.hotkey('ctrl', 'c') # ctrl-c to copy
pyautogui.hotkey('ctrl', 'v') # ctrl-v to paste
pyautogui.alert('This displays some text with an OK button.')
pyautogui.confirm('This displays text and has an OK and Cancel button.')
pyautogui.prompt('This lets the user type in a string and press OK.')
pyautogui.screenshot('foo.png') # returns a Pillow/PIL Image object, and saves it to a file
pyautogui.locateOnScreen('looksLikeThis.png')
pyautogui.locateCenterOnScreen('looksLikeThis.png') # returns center x and y
def logout(): pyautogui.click(820,730) time.sleep(0.5) pyautogui.click(830,50) time.sleep(0.5) pyautogui.moveTo(820,600) for i in range(15): pyautogui.scroll(-10) pyautogui.click(820,680) time.sleep(0.5) pyautogui.click(700,420) time.sleep(5)
def scrollPage (**options):
displayMagnification = 2 if sysvar_ratina == True else 1
pyautogui.moveTo((options.get('top')/displayMagnification) + (options.get('width')/(displayMagnification*2)),
(options.get('left')/displayMagnification) + (options.get('height')/(displayMagnification*2)),
2)
pyautogui.click()
pyautogui.scroll(options.get('scroll'))
def test_scroll(self):
# TODO - currently this just checks that scrolling doesn't result in an error.
pyautogui.scroll(1)
pyautogui.scroll(-1)
pyautogui.hscroll(1)
pyautogui.hscroll(-1)
pyautogui.vscroll(1)
pyautogui.vscroll(-1)
def web_control():
x,y=1628, 546
time.sleep(3)
n=0
print(pag.position())
while n <30:
for _ in range(15):
pag.scroll(-500)
time.sleep(1.1)
time.sleep(1.5)
pag.click(x,y)
time.sleep(3)
def onClick(self, mouse_button): if mouse_button == 4: #scroll up prev = pyautogui.position() pyautogui.moveTo(0, pyautogui.size()[1], pause=False) pyautogui.scroll(1) pyautogui.moveTo(*prev, pause=False) elif mouse_button == 5: #scroll dn prev = pyautogui.position() pyautogui.moveTo(0, pyautogui.size()[1], pause=False) pyautogui.scroll(-1) pyautogui.moveTo(*prev, pause=False) else: #do nothing pass
def on_imu(data):
"""
Process the IMU data to move the mouse around the screen.
:param data: a dictionary containing information from the IMU sensor
:return: Nothing
"""
# Declare some variables for ease of reading
pitch = float(data['IMU_PITCH_FILTERED']) # Translate in a displacement on Y axis
roll = float(data['IMU_ROLL_FILTERED']) # Translate in a displacement on X axis
x = 60 * (roll / 180)
y = 60 * (pitch / 180)
# Move the mouse on the screen
pyautogui.scroll(x)
pyautogui.hscroll(y)
def do_it(self):
while True:
try:
try:
body = self.INPUT_Q.get_nowait()
except:
body = None
if body != None:
head = body[:4]
body = body[4:]
if head == 'MOUS' and self.mous_press == False:
mxy = body.split('|')
self.mous.move(int(mxy[0]),int(mxy[1]))
#pyautogui.moveTo(int(mxy[0]),int(mxy[1]))
elif head == 'MCLK' or self.mous_press == True:
mxy = body.split('|')
if mxy[2] == 'DOWN':
if mxy[3] == '1':
pyautogui.mouseDown(int(mxy[0]),int(mxy[1]),button='left')
elif mxy[3] == '3':
pyautogui.mouseDown(int(mxy[0]),int(mxy[1]),button='right')
else:
pyautogui.scroll(5,x=int(mxy[0]),y=int(mxy[1]))
else:
self.mous_press = False
if mxy[3] == '1':
pyautogui.mouseUp(int(mxy[0]),int(mxy[1]),button='left')
elif mxy[3] == '3':
pyautogui.mouseUp(int(mxy[0]),int(mxy[1]),button='right')
else:
pyautogui.scroll(-5,x=int(mxy[0]),y=int(mxy[1]))
elif head == "KCLK":
key_ev = body.split('|')
if key_ev[0] == 'DOWN':
pyautogui.keyDown(key_ev[1])
elif key_ev[0] == "UP":
pyautogui.keyUp(key_ev[1])
except Exception as e:
print "INPUT CONTROL ERROR",e
def main():
# For interrupting
pyautogui.PAUSE = 1
pyautogui.FAILSAFE = True
# Parse cl arguments
parser=argparse.ArgumentParser()
parser.add_argument('entries', type=int, help="Number of entries to delete")
args = parser.parse_args()
pyautogui.scroll(3000)
pyautogui.click(POSITION)
for i in range(args.entries):
pyautogui.typewrite('\n', 0.1)
pyautogui.hotkey('alt','8')
time.sleep(0.1)
print("Saving...")
pyautogui.click(SAVEPOSITION)
time.sleep(2)
print("All done!")
return 0
def test_auto_gui(self):
if self.cmd_switch:
# Drag mouse to control some object on screen (such as google map at webpage)
distance = 100.
while distance > 0:
pyautogui.dragRel(distance, 0, duration=2, button='left') # move right
distance -= 25
pyautogui.dragRel(0, distance, duration=2, button='left') # move down
distance -= 25
pyautogui.dragRel(-distance, 0, duration=2, button='left') # move right
distance -= 25
pyautogui.dragRel(0, -distance, duration=2, button='left') # move down
distance -= 25
# scroll mouse wheel (zoom in and zoom out google map)
pyautogui.scroll(10, pause=1.)
pyautogui.scroll(-10, pause=1)
pyautogui.scroll(10, pause=1.)
pyautogui.scroll(-10, pause=1)
# message box
pyautogui.alert(text='pyautogui testing over, click ok to end', title='Alert', button='OK')
self.cmd_switch = not self.cmd_switch # turn off
def scrollToNextBubble(buttonLocation):
logging.info("Scrolling to next button")
scroll = int(-(buttonLocation[0] + buttonLocation[1] - 150))
logging.debug("Bubble scroll = " + str(scroll))
pyautogui.scroll(scroll, x=1000, y=1000)
# ch28_16.py
import pyautogui
import time
for i in range(1,10):
pyautogui.scroll(30) # 往上捲動
time.sleep(1)
pyautogui.scroll(-30) # 往下捲動
time.sleep(1)
def performAction(yp, rc, bc, action, drag, perform):
if perform:
cursor[0] = 4 * (yp[0] - 110)
cursor[1] = 4 * (yp[1] - 120)
if action == 'move':
if yp[0] > 110 and yp[0] < 590 and yp[1] > 120 and yp[1] < 390:
pyautogui.moveTo(cursor[0], cursor[1])
elif yp[0] < 110 and yp[1] > 120 and yp[1] < 390:
pyautogui.moveTo(8, cursor[1])
elif yp[0] > 590 and yp[1] > 120 and yp[1] < 390:
pyautogui.moveTo(1912, cursor[1])
elif yp[0] > 110 and yp[0] < 590 and yp[1] < 120:
pyautogui.moveTo(cursor[0], 8)
elif yp[0] > 110 and yp[0] < 590 and yp[1] > 390:
pyautogui.moveTo(cursor[0], 1072)
elif yp[0] < 110 and yp[1] < 120:
pyautogui.moveTo(8, 8)
elif yp[0] < 110 and yp[1] > 390:
pyautogui.moveTo(8, 1072)
elif yp[0] > 590 and yp[1] > 390:
pyautogui.moveTo(1912, 1072)
else:
pyautogui.moveTo(1912, 8)
elif action == 'left':
pyautogui.click(button='left')
elif action == 'right':
pyautogui.click(button='right')
time.sleep(0.3)
elif action == 'up':
pyautogui.scroll(5)
# time.sleep(0.3)
elif action == 'down':
pyautogui.scroll(-5)
# time.sleep(0.3)
elif action == 'drag' and drag == 'true':
global y_pos
drag = 'false'
pyautogui.mouseDown()
while (1):
k = cv2.waitKey(10) & 0xFF
changeStatus(k)
_, frameinv = cap.read()
# flip horizontaly to get mirror image in camera
frame = cv2.flip(frameinv, 1)
hsv = cv2.cvtColor(frame, cv2.COLOR_BGR2HSV)
b_mask = makeMask(hsv, blue_range)
r_mask = makeMask(hsv, red_range)
y_mask = makeMask(hsv, yellow_range)
py_pos = y_pos
b_cen = drawCentroid(frame, b_area, b_mask, showCentroid)
r_cen = drawCentroid(frame, r_area, r_mask, showCentroid)
y_cen = drawCentroid(frame, y_area, y_mask, showCentroid)
if py_pos[0] != -1 and y_cen[0] != -1:
y_pos = setCursorPos(y_cen, py_pos)
performAction(y_pos, r_cen, b_cen, 'move', drag, perform)
cv2.imshow('Frame', frame)
if distance(y_pos, r_cen) > 60 or distance(
y_pos, b_cen) > 60 or distance(r_cen, b_cen) > 60:
break
pyautogui.mouseUp()
""" Author: Kristian Saure Knotten Student ID: 8284 E-mail: [email protected] """ import pyautogui pyautogui.scroll(200)
import pyperclip
import pyautogui, time
numbers = ''
for index in range(200):
numbers += str(index) + '\n'
print(pyperclip.copy(numbers))
time.sleep(2);
print(pyautogui.scroll(200))
else:
print('Click Invoked')
#if len(pointsClicked) <= cursorDoubleClick:
pyautogui.click()
pointsClicked.append(pyautogui.position())
spaceCount = 0
#If the cursor is near a scroll bar, then scroll, up or down
scrollUpLoc = pyautogui.locateOnScreen('scrollUp.png')
print('scrollUpLoc' + str(scrollUpLoc))
scrollDownLoc = pyautogui.locateOnScreen('scrollDown.png')
print('scrollDownLoc' + str(scrollDownLoc))
x, y = pyautogui.position()
if (scrollUpLoc != None):
if (x > (scrollUpLoc[0] - 5) and x < (scrollUpLoc[0] + scrollUpLoc[2] + 5) and y > (scrollUpLoc[1] - 5) and y < (scrollUpLoc[1] + scrollUpLoc [3] + 5)):
print ("Implement scroll up")
pyautogui.scroll(5)
print("Scrolled up")
if (scrollDownLoc != None):
if (x > (scrollDownLoc[0] - 5) and x < (scrollDownLoc[0] + scrollDownLoc[2] + 5) and y > (scrollDownLoc[1] - 5) and y < (scrollDownLoc[1] + scrollDownLoc [3] + 5)):
print ("Implement scroll down")
pyautogui.scroll(5)
print("Scrolled down")
# print 'Point Clicked'
# print pointsClicked[0][0]
# print pointsClicked[0][1]
# else:
# prevClickPos = len(pointsClicked) - 1
# #print prevClickPos
# for k in range ((prevClickPos - cursorDoubleClick), prevClickPos):
# lowClickBound1 = (pointsClicked[prevClickPos - cursorDoubleClick][0])-maxClickMovement
# lowClickBound2 = (pointsClicked[prevClickPos - cursorDoubleClick][1])-maxClickMovement
def checkStore(self):
""" Takes ss of all possible 16 items in a shop.
If there are less, redudant screenshots will be created,
which will have to be thrown away later."""
img = self.checkItem(300, 230)
self.saveImgToUniqueFilename(img)
img = self.checkItem(300, 270)
self.saveImgToUniqueFilename(img)
img = self.checkItem(300, 310)
self.saveImgToUniqueFilename(img)
img = self.checkItem(300, 350)
self.saveImgToUniqueFilename(img)
img = self.checkItem(300, 390)
self.saveImgToUniqueFilename(img)
pyautogui.scroll(-1)
img = self.checkItem(300, 390)
self.saveImgToUniqueFilename(img)
pyautogui.scroll(-1)
img = self.checkItem(300, 390)
self.saveImgToUniqueFilename(img)
pyautogui.scroll(-1)
img = self.checkItem(300, 390)
self.saveImgToUniqueFilename(img)
pyautogui.scroll(-1)
img = self.checkItem(300, 390)
self.saveImgToUniqueFilename(img)
pyautogui.scroll(-1)
img = self.checkItem(300, 390)
self.saveImgToUniqueFilename(img)
pyautogui.scroll(-1)
img = self.checkItem(300, 390)
self.saveImgToUniqueFilename(img)
pyautogui.scroll(-1)
img = self.checkItem(300, 390)
self.saveImgToUniqueFilename(img)
pyautogui.scroll(-1)
img = self.checkItem(300, 390)
self.saveImgToUniqueFilename(img)
pyautogui.scroll(-1)
img = self.checkItem(300, 390)
self.saveImgToUniqueFilename(img)
pyautogui.scroll(-1)
img = self.checkItem(300, 390)
self.saveImgToUniqueFilename(img)
pyautogui.scroll(-1)
img = self.checkItem(300, 390)
self.saveImgToUniqueFilename(img)
time.sleep(0.5)
pyautogui.click(330, 180)
pyautogui.click()
time.sleep(2)
try:
sendNow_pos = pyautogui.locateCenterOnScreen('sendNow_image.PNG')
except TypeError:
print("send button not found!!")
else:
print(sendNow_pos)
x1, y1 = sendNow_pos
pyautogui.moveTo(x1, y1, 2)
pyautogui.click()
time.sleep(2)
time.sleep(3)
pyautogui.scroll(-300)
time.sleep(3)
for pos in pyautogui.locateAllOnScreen('connect_button_image.PNG'):
print(pos)
x, y, w, h = pos
pyautogui.moveTo(x, y, 2)
pyautogui.click()
time.sleep(2)
try:
sendNow_pos = pyautogui.locateCenterOnScreen('sendNow_image.PNG')
except TypeError:
print("send button not found!!")
else:
print(sendNow_pos)
import pyautogui
from time import sleep
sleep(5)
for i in range(10):
sleep(0.5)
pyautogui.scroll(-2000)
def main(day, order):
six = 70
seven = six + 80
eight = seven + 80
nine = eight + 80
ten = nine + 80
eleven = ten + 80
twelve = eleven + 100
thirteen = twelve + 80
fourteen = thirteen + 80
i = 0
for classes in order:
if i >= 1:
index = order.index(classes)
sub = index - 1
total = index - sub
if total == -2:
print('3333')
time.sleep(3)
elif total == -3:
print('666666')
time.sleep(6)
elif total == -4:
print('999999')
time.sleep(9)
time.sleep(5)
x, y = gui.locateCenterOnScreen(day + '.png')
gui.click(x, y)
gui.move(300, 500)
gui.scroll(20)
gui.scroll(-9)
if classes == 6:
gui.move(x, y + six)
gui.click(x, y + six, button='right')
time.sleep(1)
elif classes == 7:
gui.move(x, y + six)
gui.click(x, y + seven, button='right')
time.sleep(1)
elif classes == 8:
gui.move(x, y + six)
gui.click(x, y + eight, button='right')
time.sleep(1)
elif classes == 9:
gui.move(x, y + six)
gui.click(x, y + nine, button='right')
time.sleep(1)
elif classes == 10:
gui.move(x, y + six)
gui.click(x, y + ten, button='right')
time.sleep(1)
elif classes == 11:
gui.move(x, y + six)
gui.click(x, y + eleven, button='right')
time.sleep(1)
elif classes == 12:
gui.move(x, y + six)
gui.click(x, y + twelve, button='right')
time.sleep(1)
elif classes == 13:
gui.move(x, y + six)
gui.click(x, y + thirteen, button='right')
time.sleep(1)
elif classes == 14:
gui.move(x, y + six)
gui.click(x, y + fourteen, button='right')
time.sleep(1)
x, y = gui.locateCenterOnScreen('view.png')
gui.click(x, y)
time.sleep(5)
x, y = gui.locateCenterOnScreen('join.png')
gui.click(x, y)
i += 1
#50 minute sleep in the session
time.sleep(10)
#leaving the seesion
x, y = gui.locateCenterOnScreen('leave.png')
gui.click(x, y)
x, y = gui.locateCenterOnScreen('calender.png')
gui.click(x, y)
def Coletar_Linkedin():
global curtidas, output, Tudo
def alt_tab_to_chrome(a, b, c, extra, alttab):
if alttab:
pyautogui.keyDown('alt')
pyautogui.press('tab')
c_x, c_y = dar_coordenadas_cor_print(a, b, c, 0)
pyautogui.click(c_x, c_y + extra, duration=0.2)
pyautogui.keyUp('alt')
def facebooktoexcel(letra):
global curtidas, output
prefix = "\\r\\n"
if prefix + "Ana Beatriz Farias" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "Beatriz Mendon\\xc3\\xa" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "Bianca Souza" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "Taynara Ramalho" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "Ernane Matheus" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "Giovanny Oliveira" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "Jo\\xc3\\xa3o Vinicius Santiago" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "Pedro Paulo Pinheiro Moura" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "J\\xc3\\xbalia Caroline" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "Luiz Andr\\xc3\\xa9 Fialho Oliveira" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "Emanuelle Paiva" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "Izabele Vit\\xc3\\xb3ria Oliveira Leite" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "Julia Vieira" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "Tuiza Galgani" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
if prefix + "Victor Duarte" in curtidas:
output = output + letra + " \t \t \t"
else:
output = output + "\t \t \t"
output = output + '\n'
def double_key(a, b):
pyautogui.keyDown(a)
pyautogui.press(b)
pyautogui.keyUp(a)
def multiple_alttab(a):
pyautogui.keyDown('alt')
for i in range(a):
pyautogui.press('tab')
time.sleep(0.5)
pyautogui.keyUp('alt')
alt_tab_to_chrome(220, 76, 64, 40, True)
alt_tab_to_chrome(0, 114, 177, 0, False)
# Clickar na caixa de likes
c_x, c_y = dar_coordenadas_cor_print(27, 132, 187, 0)
pyautogui.click(c_x, c_y, duration=0.2)
# Selecionar curtidas
pyautogui.moveTo(536, 205, 0.5)
pyautogui.mouseDown(button='left')
pyautogui.moveTo(1050, 750, 0.2)
time.sleep(5)
pyautogui.mouseUp(button='left')
double_key('ctrl', 'c')
time.sleep(0.2)
win32clipboard.OpenClipboard()
novo = win32clipboard.GetClipboardData(win32con.CF_UNICODETEXT)
Tudo = Tudo + ' ComecouCurtidas: ' + novo
win32clipboard.CloseClipboard()
# Fechar caixa de curtidas
pyautogui.click(1240, 600, duration=0.2)
# Abrir comentarios
pyautogui.click(c_x + 90, c_y, duration=0.2)
time.sleep(0.5)
pyautogui.click(c_x + 90, c_y, duration=0.2)
# Selecionar comentarios
pyautogui.moveTo(c_x - 190, c_y, 0.2)
pyautogui.mouseDown(button='left')
pyautogui.moveTo(GetSystemMetrics(0) - 500, c_y, 0.2)
novo = ''
# Vai scrollando até o final dos comentários
while not 'Exibir estat' in novo:
pyautogui.scroll(-50)
double_key('ctrl', 'c')
win32clipboard.OpenClipboard()
novo = win32clipboard.GetClipboardData(win32con.CF_UNICODETEXT)
win32clipboard.CloseClipboard()
Tudo = Tudo + "ComecouComentarios" + novo
pyautogui.mouseUp(button='left')
### PARTE 2
### EXTRAÇÃO DE INFORMAÇÕES DA STRING
Tudo = str(Tudo.encode('utf-8'))
curtidas = Tudo[:Tudo.index('ComecouComentarios')]
output = ''
facebooktoexcel('A')
curtidas = Tudo[Tudo.index('ComecouComentarios'):]
facebooktoexcel('B')
win32clipboard.OpenClipboard()
win32clipboard.EmptyClipboard()
win32clipboard.SetClipboardData(win32con.CF_UNICODETEXT, output)
win32clipboard.CloseClipboard()
print(Tudo)
print(output)
double_key('alt', 'tab')
import pyautogui as pag
import time
if __name__ == '__main__':
# while True:
# x, y = pag.position()
# print("x : {} y : {}".format(x, y), end = "\r")
# pag.moveTo(725, 57)
# pag.move(100, 200, duration=2)
# pag.click()
# pag.click()
# pag.doubleClick()
# pag.drag(0, 200, duration=1)
# pag.rightClick()
# pag.click(518, 183, duration=2)
# pag.scroll(0, 100)
# pag.moveTo(725, 57, duration=2)
# pag.click()
# time.sleep(1)
# pag.typewrite("http://ticket.interpark.com/")
# pag.press("enter")
#TODO: scroll
time.sleep(2)
pag.hotkey("alt", "tab")
pag.scroll(clicks=-2000, x=798, y=185)
for i in range(10):
pa.click(x=960, y=119)
time.sleep(0.05)
# time.sleep(7)
pos = imagesearch_loop_timeout(folder+"tag_duel.png", 0.1, 2)
# pos = imagesearch(folder+"tag_duel.png")
if pos[0] > -1:
search = False
click_image(folder+"tag_duel.png", pos, "left", 0.1)
else:
pos2 = imagesearch_loop_timeout(folder+"event_flow.png", 0.1, 2)
if pos2[0] > -1:
# Scroll to DM cup
pa.moveTo(x=1126, y=746)
for i in range(7):
pa.scroll(-10)
pos2 = imagesearch_loop(folder+"DM_cup.png", 0.1)
if (pos2[0] > -1):
click_image(folder+"DM_cup.png", pos2, "left", 0.1)
print('Search hard level')
# Click hard level
search = True
while search:
pos = imagesearch(folder+"hard_level.png")
if pos[0] > -1:
search = False
for i in range(3):
pa.click(x=960, y=119)
time.sleep(0.1)
time.sleep(0.1)
def scrollTest():
pyautogui.click()
pyautogui.scroll(200)
time.sleep(1)
#Fim do mapa
time.sleep(1)
pyautogui.click(143, 868)
time.sleep(1)
#Titulo
titulo = trim(gerarFrase(randint(5, 20)))
pyautogui.write(titulo, interval=0.01)
time.sleep(1)
pyautogui.click(143, 947)
time.sleep(1)
#Descrição
descricao = trim(gerarFrase(randint(50, 200)))
pyautogui.write(descricao, interval=0.01)
time.sleep(1)
pyautogui.scroll(-700)
time.sleep(1)
pyautogui.click(143, 684)
time.sleep(1)
#Nome
pyautogui.write("Luiza Andaluz", interval=0.01)
time.sleep(1)
pyautogui.click(143, 770)
time.sleep(1)
#Idade
pyautogui.write(str(randint(15, 80)), interval=0.01)
time.sleep(1)
pyautogui.click(143, 855)
time.sleep(1)
#email
pyautogui.write(gerarFrase(randint(30, 50)), interval=0.01)
def performAction( yp, rc, bc, action, drag, perform):
if action == 'ONOFF':
perform = not perform
if perform:
print 'Mouse simulation ON...'
else:
print 'Mouse simulation OFF...'
if perform:
if not leftHand:
cursor[0] = 4*(yp[0]-110)
else:
cursor[0] = 4*(yp[0]-50)
cursor[1] = 4*(yp[1]-120)
if action == 'move':
if not leftHand:
if yp[0]>110 and yp[0]<590 and yp[1]>120 and yp[1]<390:
pyautogui.moveTo(cursor[0],cursor[1])
elif yp[0]<110 and yp[1]>120 and yp[1]<390:
pyautogui.moveTo( 8 , cursor[1])
elif yp[0]>590 and yp[1]>120 and yp[1]<390:
pyautogui.moveTo(1912, cursor[1])
elif yp[0]>110 and yp[0]<590 and yp[1]<120:
pyautogui.moveTo(cursor[0] , 8)
elif yp[0]>110 and yp[0]<590 and yp[1]>390:
pyautogui.moveTo(cursor[0] , 1072)
elif yp[0]<110 and yp[1]<120:
pyautogui.moveTo(8, 8)
elif yp[0]<110 and yp[1]>390:
pyautogui.moveTo(8, 1072)
elif yp[0]>590 and yp[1]>390:
pyautogui.moveTo(1912, 1072)
else:
pyautogui.moveTo(1912, 8)
else:
if yp[0]>50 and yp[0]<530 and yp[1]>120 and yp[1]<390:
pyautogui.moveTo(cursor[0],cursor[1])
elif yp[0]<50 and yp[1]>120 and yp[1]<390:
pyautogui.moveTo( 8 , cursor[1])
elif yp[0]>530 and yp[1]>120 and yp[1]<390:
pyautogui.moveTo(1912, cursor[1])
elif yp[0]>50 and yp[0]<530 and yp[1]<120:
pyautogui.moveTo(cursor[0] , 8)
elif yp[0]>50 and yp[0]<530 and yp[1]>390:
pyautogui.moveTo(cursor[0] , 1072)
elif yp[0]<50 and yp[1]<120:
pyautogui.moveTo(8, 8)
elif yp[0]<50 and yp[1]>390:
pyautogui.moveTo(8, 1072)
elif yp[0]>530 and yp[1]>390:
pyautogui.moveTo(1912, 1072)
else:
pyautogui.moveTo(1912, 8)
elif action == 'left':
pyautogui.click(button = 'left')
elif action == 'right':
pyautogui.click(button = 'right')
time.sleep(0.3)
elif action == 'up':
pyautogui.scroll(5)
# time.sleep(0.3)
elif action == 'down':
pyautogui.scroll(-5)
# time.sleep(0.3)
elif action == 'drag' and drag == 'true':
global y_pos
drag = 'false'
pyautogui.mouseDown()
while(1):
k = cv2.waitKey(10) & 0xFF
changeStatus(k)
_, frameinv = cap.read()
# flip horizontaly to get mirror image in camera
frame = cv2.flip( frameinv, 1)
hsv = cv2.cvtColor( frame, cv2.COLOR_BGR2HSV)
b_mask = makeMask( hsv, blue_range)
r_mask = makeMask( hsv, red_range)
y_mask = makeMask( hsv, yellow_range)
py_pos = y_pos
b_cen = drawCentroid( frame, b_area, b_mask, showCentroid)
r_cen = drawCentroid( frame, r_area, r_mask, showCentroid)
y_cen = drawCentroid( frame, y_area, y_mask, showCentroid)
if py_pos[0]!=-1 and y_cen[0]!=-1:
y_pos = setCursorPos(y_cen, py_pos)
performAction(y_pos, r_cen, b_cen, 'move', drag, perform)
cv2.imshow('Frame', frame)
if distance(y_pos,r_cen)>60 or distance(y_pos,b_cen)>60 or distance(r_cen,b_cen)>60:
break
pyautogui.mouseUp()
return perform
def space(sppp):
for k in range(0, sppp):
pyautogui.scroll(-100)
def scroll(nclick): for i in range(nclick): pyautogui.scroll(-10)
def control_pc(self, pre_gesture, now_gesture, head):
if pre_gesture == now_gesture:
pass
else:
if now_gesture == 'Thumb Up':
# browser open
# if self.my_tab_num == -1:
# self.browser = webdriver.Chrome(chrome_options=self.options, executable_path = './chromedriver')
# self.browser.set_window_position(self.screenW//2, 0)
# self.browser.set_window_size(self.screenW//2, self.screenH)
# self.browser.get('http://google.com')
# self.tabs = self.browser.window_handles
# self.my_tab_num += 1
# else:
# self.browser.execute_script('window.open("http://google.com", "_blank");')
# self.tabs = self.browser.window_handles
# self.my_tab_num =len(self.browser.window_handles) + 1
# click
pg.click()
pass
elif now_gesture == 'Sliding Two Fingers Up':
# mouse up
cur_x, cur_y = pg.position()
pg.moveTo(cur_x, cur_y - 100, 1)
if not pg.onScreen(cur_x, cur_y - 100):
pg.moveTo(cur_x, 0)
elif now_gesture == 'Stop Sign':
# exit
# self.tabs = self.browser.window_handles
# for i in range(self.my_tab_num, -1, -1):
# self.browser.switch_to_window(self.tabs[i])
# self.browser.close()
# self.browser = None
# self.tabs = None
# self.my_tab_num = 0
pass
elif now_gesture == 'Swiping Right':
# mouse righr fast
cur_x, cur_y = pg.position()
pg.moveTo(cur_x + 250, cur_y, 1)
if not pg.onScreen(cur_x + 250, cur_y):
pg.moveTo(self.screenW, cur_y)
elif now_gesture == 'Swiping Left':
# mouse left fast
cur_x, cur_y = pg.position()
pg.moveTo(cur_x - 250, cur_y, 1)
if not pg.onScreen(cur_x - 250, cur_y):
pg.moveTo(0, cur_y)
elif now_gesture == 'Sliding Two Fingers Right':
# mouse right
cur_x, cur_y = pg.position()
pg.moveTo(cur_x + 100, cur_y, 1)
if not pg.onScreen(cur_x + 100, cur_y):
pg.moveTo(self.screenW, cur_y)
elif now_gesture == 'Sliding Two Fingers Left':
# mouse left
cur_x, cur_y = pg.position()
pg.moveTo(cur_x - 100, cur_y, 1)
if not pg.onScreen(cur_x - 100, cur_y):
pg.moveTo(0, cur_y)
elif now_gesture == 'Sliding Two Fingers Down':
# mouse down
cur_x, cur_y = pg.position()
pg.moveTo(cur_x, cur_y + 100, 1)
if not pg.onScreen(cur_x, cur_y + 100):
pg.moveTo(cur_x, self.screenH)
elif now_gesture == 'Swiping Up':
# close tab
# self.browser.switch_to_window(self.tabs[self.my_tab_num])
# self.browser.close()
# self.my_tab_num += -1
# if self.my_tab_num<0:
# self.my_tab_num = 0
# scroll Down
pg.scroll(10)
elif now_gesture == 'Swiping Down':
# scroll Up
pg.scroll(-10)
elif now_gesture == 'Rolling Hand Backward':
# go back
#self.browser.back()
pass
else:
#
pass
def __init__(self, active: bool, offsetX: int, offsetY: int):
self.active = active
self.offsetX = offsetX
self.offsetY = offsetY
backupButtonDetectionData = BackupButtonDetectionData(
False, constants.BUTTON_DETECTION_SCREENSHOT_AREA[0], 0)
while True:
pyautogui.moveTo(100, 100)
if animation.hasAnimation():
numSinceLastEvent = 0
animation.clickSpeedTextbox()
animation.clickStart()
animation.runAnimation()
pyautogui.scroll(-10, x=1000, y=1000)
elif backupButtonDetectionData.active and backupButtonDetection.hasButton(
backupButtonDetectionData):
backupButtonDetection.clickButton(backupButtonDetectionData)
backupButtonDetection.shiftScreenshot(backupButtonDetectionData)
elif multipleChoice.hasBubble() and not backupButtonDetectionData.active:
numSinceLastEvent = 0
bubbleLocation = multipleChoice.getBubbleLoc()
multipleChoice.clickBubble()
multipleChoice.scrollToNextBubble(bubbleLocation)
elif bigBoiStart.hasBigBoiButton():
loc = bigBoiStart.getBigBoiButton()
bigBoiStart.clickBigBoiButton()
bigBoiStart.scrollToNextBubble(loc)
elif nextLesson.hasEnding():
backupButtonDetectionData = BackupButtonDetectionData(
height, width = imageToProcess.shape[:2]
datum.cvInputData = imageToProcess
opWrapper.emplaceAndPop([datum])
# Display Image Points
# print("Body keypoints: \n" + str(datum.poseKeypoints))
# print("Left hand keypoints: \n" + str(datum.handKeypoints[0]))
# print("Right hand keypoints: \n" + str(datum.handKeypoints[1]))
if (mode == 1):
# scroll content
if (datum.poseKeypoints[0][4][1] == 0):
pass
else:
pyautogui.scroll(
-(datum.poseKeypoints[0][4][1] - datum.poseKeypoints[0][3][1])
/ 80)
# change tabs
if (datum.poseKeypoints[0][6][0] - datum.poseKeypoints[0][7][0] > 100
and datum.poseKeypoints[0][7][0] != 0):
if (flag2 == 1):
flag2 = 0
pyautogui.hotkey('ctrl', 'pageup')
elif (datum.poseKeypoints[0][6][0] - datum.poseKeypoints[0][7][0] < -60
and datum.poseKeypoints[0][7][0] != 0):
if (flag2 == 1):
flag2 = 0
pyautogui.hotkey('ctrl', 'pagedown')
cont = 0
#OBS: TODAS AS COORDENADAS PASSADAS SÃO DE ACORDO COM MINHA RESOLUÇÃO, QUE É 1440x900
#A variavel "quant" é o tempo que o programa ficara em cada vídeo
quant = int(
input(
'Quanto tempo deseja esperar para passar os videos? (EM SEGUNDOS): '))
while True:
time.sleep(3) # Tempo para iniciar o programa.
print(cursor.position())
cursor.click(
x=2856,
y=1202) # Caso o programa esteja minimizado ele o abre novamente
cursor.click(
x=2856,
y=1202) # Caso o programa esteja minimizado ele o abre novamente
cursor.moveTo(
x=2869,
y=292) # Cursor do mouse se move nas coordenadas x=2869 e y=292.
cursor.scroll(-100) #Scroll do mouse passa para o próximo vídeo.
time.sleep(
quant
) # O Programa espera o tempo máximo do vídeo que é 1 minuto e continua.
cont += 1
print(f'Você ja viu {cont} vídeos')
pyautogui.moveRel(xOffset=600)
pyautogui.click()
one_img()
pyautogui.moveRel(yOffset=800)
pyautogui.click()
one_img()
pyautogui.moveRel(yOffset=800)
pyautogui.moveRel(xOffset=300)
pyautogui.click()
one_img()
pyautogui.moveRel(yOffset=800)
pyautogui.moveRel(xOffset=600)
pyautogui.click()
one_img()
pyautogui.moveRel(yOffset=800)
pyautogui.scroll(-195)
#first two rows:
u = 0
while u != final_url:
for m in range(20):
if u != final_url:
for i in range(100):
if u != final_url:
for shift in [0, 300, 600]:
if u != final_url:
pyautogui.moveRel(xOffset=shift)
pyautogui.click()
print(i)
u = one_img()
#alt:
pyautogui.click(100, 150, button='left')
pyautogui.click(100, 150, button='right')
#alt
#pyautogui.mousedown to click mouse down (held) then .mouseup to release.
#also .middleclick(), .rightclick(), .doubleClick()
#draw test
import pyautogui, time
time.sleep(5)
pyautogui.click()
distance = 200
while distance > 0:
pyautogui.dragRel(distance, 0, duration=0.2) #move right
distance = distance - 5
pyautogui.dragRel(0, distance, duration=0.2) #down
pyautogui.dragRel(-distance, 0, duration=0.2) #left
distance = distance - 5
pyautogui.dragRel(0, -distance, duration=0.2) #up
#satisfying as f**k
#also
pyautogui.scroll()
#Keyboard stuff:
pyautogui.click(100, 100)
pyautogui.typewrite('Hello world!')
#dang thats fast
#inputing non-text characters:
pyautogui.typewrite(['a', 'b', 'left', 'right', 'ctrlleft', 'tab']) #etc.
#form filling program if I am ever interested
# Thats the book gone through, WOO~!
MOUTH_COUNTER = 0
if INPUT_MODE:
cv2.putText(frame, "READING INPUT!", (10, 30),
cv2.FONT_HERSHEY_SIMPLEX, 0.7, RED_COLOR, 2)
x, y = ANCHOR_POINT
nx, ny = nose_point
w, h = 60, 35
multiple = 1
cv2.rectangle(frame, (x - w, y - h), (x + w, y + h), GREEN_COLOR, 2)
cv2.line(frame, ANCHOR_POINT, nose_point, BLUE_COLOR, 2)
direct = direction(nose_point, ANCHOR_POINT, w, h)
direct = direct * .5
if SCROLL_MODE:
pag.scroll(int(direct[1] * 2))
else:
pag.moveRel(*direct)
if SCROLL_MODE:
cv2.putText(frame, 'SCROLL MODE IS ON!', (10, 60),
cv2.FONT_HERSHEY_SIMPLEX, 0.7, RED_COLOR, 2)
# cv2.putText(frame, "MAR: {:.2f}".format(mar), (500, 30),
# cv2.FONT_HERSHEY_SIMPLEX, 0.7, YELLOW_COLOR, 2)
# cv2.putText(frame, "Right EAR: {:.2f}".format(rightEAR), (460, 80),
# cv2.FONT_HERSHEY_SIMPLEX, 0.7, YELLOW_COLOR, 2)
# cv2.putText(frame, "Left EAR: {:.2f}".format(leftEAR), (460, 130),
# cv2.FONT_HERSHEY_SIMPLEX, 0.7, YELLOW_COLOR, 2)
# cv2.putText(frame, "Diff EAR: {:.2f}".format(np.abs(leftEAR - rightEAR)), (460, 80),
# cv2.FONT_HERSHEY_SIMPLEX, 0.7, (0, 0, 255), 2)
incoming_data = str(
Arduino_Serial.readline()) # read the serial data and print it as line
print incoming_data # print the incoming Serial data
if 'next' in incoming_data: # if incoming data is 'next'
pyautogui.hotkey(
'ctrl', 'pgdn'
) # perform "ctrl+pgdn" operation which moves to the next tab
if 'previous' in incoming_data: # if incoming data is 'previous'
pyautogui.hotkey(
'ctrl', 'pgup'
) # perform "ctrl+pgup" operation which moves to the previous tab
if 'down' in incoming_data: # if incoming data is 'down'
pyautogui.scroll(-100)
if 'up' in incoming_data: # if incoming data is 'up'
pyautogui.scroll(100)
if 'change' in incoming_data: # if incoming data is 'change'
pyautogui.keyDown(
'alt') # performs "alt+tab" operation which switches the tab
pyautogui.press('tab')
pyautogui.keyUp('alt')
incoming_data = ""
# clears the data
def scroll(clicks):
pyautogui.scroll(clicks)
if warningYN.lower() == "y":
warningLength = int(input("Seconds warning before change: "))
scrollFactor = 0
scrollYN = input("Autoscroll? (y/n) ")
if scrollYN.lower() == "y":
calibrated = "n"
scrollFactor = input('Okay, let\'s test your scroll. Open your editor to the destination file. If you have done this before and already know your scroll factor, enter it here. Otherwise, just hit ENTER, then click in the editor window of the destination file.') or 100
while calibrated == "n":
time.sleep(5)
for i in range(len(blocks)):
time.sleep(1)
pyautogui.scroll(-len(blocks[i])//scrollFactor)
destination = open(dPath, 'a')
destination.write(blocks[i])
destination.close()
calibrated = input('Did that scroll correctly? (y/n) ')
if calibrated == 'n':
scrollFactor = int(input('Ok. That test was with a scroll factor of %d. The lower the number, the greater the scrolling. What number would you like to try now? ' % scrollFactor))
input('Great. We\'re all set. When you\'re ready, just hit ENTER and click inside the editor window of your destination file.')
time.sleep(5)
def warn():
if platform == 'win32':
duration = 500 # millisecond
a = 440 # Hz
s.save('screenshot1.jpg')
print 'The resolution of your screen: ', pyautogui.size()
print 'Current position of mouse: ', pyautogui.position()
# Drag mouse to control some object on screen (such as googlemap at webpage)
distance = 100.
while distance > 0:
pyautogui.dragRel(distance, 0, duration=2 , button='left') # move right
distance -= 25
pyautogui.dragRel(0, distance, duration=2 , button='left') # move down
distance -= 25
pyautogui.dragRel(-distance, 0, duration=2 , button='left') # move right
distance -= 25
pyautogui.dragRel(0, -distance, duration=2 , button='left') # move down
distance -= 25
# scroll mouse wheel (zoon in and zoom out googlemap)
pyautogui.scroll(10, pause=1.)
pyautogui.scroll(-10, pause=1)
pyautogui.scroll(10, pause=1.)
pyautogui.scroll(-10, pause=1)
# message box
pyautogui.alert(text='pyautogui testing over, click ok to end', title='Alert', button='OK')
pyautogui.PAUSE = 0.50
pyautogui.hotkey('tab')
pyautogui.hotkey('space')
#To the robot
pyautogui.hotkey('tab')
pyautogui.PAUSE = 1
pyautogui.hotkey('space')
#Human Interaction
pyautogui.PAUSE = 20.0
pyautogui.hotkey('tab')
pyautogui.PAUSE = 0.25
pyautogui.hotkey('tab')
pyautogui.PAUSE = 0.25
pyautogui.hotkey('tab')
pyautogui.PAUSE = 0.25
pyautogui.hotkey('tab')
pyautogui.PAUSE = 0.25
pyautogui.hotkey('tab')
pyautogui.PAUSE = 0.25
pyautogui.hotkey('tab')
pyautogui.PAUSE = 0.25
pyautogui.hotkey('enter')
pyautogui.scroll(+10)
pyautogui.scroll(-10)
pyautogui.PAUSE = 3
pyautogui.scroll(+10)
pyautogui.scroll(-10)
pyautogui.hotkey('tab')
pyautogui.PAUSE = 12.0
pyautogui.hotkey('ctrl', 'w')
pyautogui.PAUSE = 1
def run_algorithm():
skip_state = False
pyautogui.moveTo(500, 400, duration=0.5)
pyautogui.rightClick()
pyautogui.moveTo(571, 575, duration=0.5)
pyautogui.click()
time.sleep(1.5)
# name image
pyautogui.typewrite(str(image_num))
time.sleep(1)
pyautogui.press('enter')
# click on large image
pyautogui.moveRel(-150, -250, duration=0.5)
pyautogui.rightClick()
pyautogui.moveRel(10, 5, duration=0.5)
pyautogui.click()
time.sleep(4)
pyautogui.moveTo(283, 13, duration=1)
pyautogui.click()
time.sleep(4)
# Grab affiliate link text
pyautogui.moveTo(186, 90, duration=1)
time.sleep(3)
pyautogui.doubleClick()
time.sleep(3)
pyautogui.keyDown('ctrl')
pyautogui.press('c')
pyautogui.keyUp('ctrl')
#copy from clipboard to variable
clip.OpenClipboard()
afl_link = clip.GetClipboardData()
clip.CloseClipboard()
if "http" not in afl_link:
afl_link = "www.kiitri.com"
#copy part link
pyautogui.moveTo(361, 45)
pyautogui.dragTo(443, 45, duration=1)
pyautogui.keyDown('ctrl')
pyautogui.press('c')
pyautogui.keyUp('ctrl')
#copy from clipboard to variable
clip.OpenClipboard()
part_link = clip.GetClipboardData()
clip.CloseClipboard()
#check if part of link is one of last 3 used links
if part_link in link_list:
renew_state()
pyautogui.scroll(-318) # scroll down 318 pixels
skip_state = True
return skip_state
else:
link_list[0] = link_list[1]
link_list[1] = link_list[2]
link_list[2] = part_link
print(link_list)
#Get text desciption of this item
description = run_bs4(afl_link)
# close tab
pyautogui.keyDown('ctrl')
pyautogui.press('w')
pyautogui.keyUp('ctrl')
#go to pinterest tab
pyautogui.moveTo(283, 13, duration=0.5)
pyautogui.click()
# hover over plus sign
pyautogui.moveTo(1192, 90, duration=1)
# move to hover over "upload image"
pyautogui.moveTo(1192, 156, duration=0.5)
pyautogui.click()
time.sleep(0.5)
# hover over "destination url"
pyautogui.moveTo(567, 446, duration=0.5)
pyautogui.click()
time.sleep(0.5)
# paste affiliate link
pyautogui.typewrite(afl_link)
# upload image I just created
pyautogui.moveTo(866, 359)
time.sleep(1)
pyautogui.click()
time.sleep(1)
pyautogui.typewrite(str(image_num) + ".jpg")
pyautogui.press('enter')
time.sleep(1)
# post item (Pinterest)
pyautogui.moveTo(891, 510, duration=0.2)
time.sleep(2)
pyautogui.click()
time.sleep(2)
# add caption (Pinterest)
pyautogui.moveTo(432, 525, duration=0.2)
pyautogui.click()
time.sleep(0.4)
pyautogui.typewrite(description)
# choose board (Pinterest)
pyautogui.moveTo(764, 170)
pyautogui.doubleClick()
pyautogui.typewrite('Best Amazon Finds')
time.sleep(2)
pyautogui.moveTo(773, 235, duration=0.5)
pyautogui.click()
time.sleep(3)
pyautogui.moveTo(484, 640, duration=0.5)
pyautogui.click()
time.sleep(3)
# jump back to amazon page
pyautogui.keyDown('ctrl')
pyautogui.press('pgup')
pyautogui.keyUp('ctrl')
time.sleep(1)
# close big image of previous item
pyautogui.press('esc')
pyautogui.moveTo(773, 235, duration=0.5)
return skip_state
import pyautogui pyautogui.moveTo(100, 200) # moves mouse to X of 100, Y of 200. pyautogui.moveTo(None, 500) # moves mouse to X of 100, Y of 500. pyautogui.moveTo(600, None) # moves mouse to X of 600, Y of 500. pyautogui.moveTo(100, 200, 2) # moves mouse to X of 100, Y of 200 over 2 seconds pyautogui.moveRel(0, 50) # move the mouse down 50 pixels. pyautogui.moveRel(-30, 0) # move the mouse left 30 pixels. pyautogui.click() # Left button click on current position pyautogui.click(clicks=2) pyautogui.click(clicks=2, interval=0.25) # with a quarter second pause in between clicks pyautogui.click(10, 5) # Mouse left button click, x=10, y=5 pyautogui.click(200, 250, button='right') # Mouse right button click, x=200, y=250 pyautogui.scroll(10) # scroll up 10 "clicks" pyautogui.scroll(10, x=100, y=100) # move mouse cursor to 100, 200, then scroll up 10 "clicks"
multiple = 1
cv2.rectangle(frame, (x - w, y - h), (x + w, y + h), GREEN_COLOR, 2)
cv2.line(frame, ANCHOR_POINT, nose_point, BLUE_COLOR, 2)
dir = direction(nose_point, ANCHOR_POINT, w, h)
cv2.putText(frame, dir.upper(), (10, 90), cv2.FONT_HERSHEY_SIMPLEX,
0.7, RED_COLOR, 2)
drag = 18
if dir == 'right':
pag.moveRel(drag, 0)
elif dir == 'left':
pag.moveRel(-drag, 0)
elif dir == 'up':
if SCROLL_MODE:
pag.scroll(40)
else:
pag.moveRel(0, -drag)
elif dir == 'down':
if SCROLL_MODE:
pag.scroll(-40)
else:
pag.moveRel(0, drag)
if SCROLL_MODE:
cv2.putText(frame, 'SCROLLING', (10, 60), cv2.FONT_HERSHEY_SIMPLEX,
0.7, RED_COLOR, 2)
cv2.imshow("Frame", frame)
key = cv2.waitKey(1) & 0xFF
ltFrame = frame[:, 0:int(cap.get(3)/4)-50]
rtFrame = frame[:, int(3*cap.get(3)/4)+50:]
_, uCount, _, _, upFrame = upDetector.getMotion(upFrame)
_, dCount, _, _, dnFrame = dnDetector.getMotion(dnFrame)
_, lCount, _, lArea, ltFrame = ltDetector.getMotion(ltFrame)
s, rCount, _, rArea, rtFrame = rtDetector.getMotion(rtFrame)
if not s:
continue
if "-v" in sys.argv:
cv2.imshow("up", upFrame)
cv2.imshow("dn", dnFrame)
cv2.imshow("lt", ltFrame)
cv2.imshow("rt", rtFrame)
if uCount in range(2, 5):
pyautogui.scroll(100)
if "-p" in sys.argv:
print "Up"
elif dCount in range(2, 5):
pyautogui.scroll(-100)
if "-p" in sys.argv:
print "Down"
elif rArea>7000 and not rtimer:
rtimer = True
ltimer = False
orgArea = rArea
stTime = time()
elif lArea>7000 and not ltimer:
ltimer = True
rtimer = False
orgArea = lArea
控制鼠标交互
"""
import pyautogui as pg
import time
"""
###1 点击鼠标 click = mouseDown + mouseUp
pg.click(700,850,button='left')
"""
##pyauotgui.doubleClick() 双击左键
##pyautogui.rightClick() 双击右键
## pyautogui.middleClick() 双击中间
### 2 拖动鼠标 dragTo() dragRel()
time.sleep(5) ###延迟5s 便于切换窗口
pg.click() ###确定画图 软件窗口置前
distance = 200
while distance > 0:
pg.dragRel(distance, 0, duration=0.2)
distance = distance - 5
pg.dragRel(0, distance, duration=0.2)
pg.dragRel(-distance, 0, duration=0.2)
distance = distance - 5
pg.dragRel(0, -distance, duration=0.2)
### 3 窗口滚动
pg.scroll(100) ## + :up - : down
def move_mouse(x1,y1):
spaceCount = 0 #counter for single clicks
cursorClick = 10 #alters how long the user must look at a point before a click
maxMovement = 250 #alters the area the user must look at to invoke a click or double click
cursorDoubleClick = 20 #alters how long the user must look at a point before a double click
doubleCount = 0 #counter for double clicks
scollBox = 50 #how close the gaze point must be to the scroll thumb
#Move to the first location and add the location to the list
if len(pointsVisited) <=0:
pyautogui.moveTo((x1,y1), duration=0)
pointsVisited.append(pyautogui.position())
#For the next locations find the previous location, work out the distance between
#the previous location and the one to move to and set the time this should take
#Move to the current location for the set amount of time, and add the current
#location to the list
else:
prevPos = len(pointsVisited) - 1
point = pointsVisited[prevPos]
oldX = point[0]
oldY = point[1]
#For each set of coordinates in the list, move to the coordinates, at an
#appropriate speed.
distance = math.sqrt(math.pow(x1-oldX, 2) + math.pow(y1 -oldY,2))
dur = distance/speed
pyautogui.moveTo((x1,y1), duration=dur)
pointsVisited.append(pyautogui.position())
# print 'len points visited'
# print (len(pointsVisited))
#If there have been x number of movements set a bounding box around the 'x'th previous
#location. Check each of the locaitons in this range, if all of them are within the
#bounding box, invoke a click
if len(pointsVisited) > cursorClick:
#Set a box, (maxMovement) pixels wide
lowBound1 = (pointsVisited[prevPos-cursorClick][0])-maxMovement
lowBound2 = (pointsVisited[prevPos-cursorClick][1])-maxMovement
highBound1 = (pointsVisited[prevPos-cursorClick][0])+maxMovement
highBound2 = (pointsVisited[prevPos-cursorClick][1])+maxMovement
#spaceCount = 0
#For all the moves between the (cursorClick)th previous move and the current one,
#check if the cursor has stayed within the bounds, if it has for each then add one to
#spaceCount, repeat for doubleCount
for j in range((prevPos-(cursorClick - 1)), (prevPos+1)):
if((lowBound1<= pointsVisited[j][0]) & (pointsVisited[j][0] <= highBound1) &
(lowBound2 <= pointsVisited[j][1]) & (pointsVisited[j][1] <= highBound2)):
spaceCount += 1
else:
spaceCount = 0
if len(pointsVisited) > cursorDoubleClick:
for k in range((prevPos-(cursorDoubleClick - 1)), (prevPos+1)):
if((lowBound1<= pointsVisited[k][0]) & (pointsVisited[k][0] <= highBound1) &
(lowBound2 <= pointsVisited[k][1]) & (pointsVisited[k][1] <= highBound2)):
doubleCount += 1
else:
doubleCount = 0
#print doubleCount
#print spaceCount
#Check doubleCount and spaceCount to see if a double click or click should be invoked,
#if so also check if there should be a scroll
if (doubleCount == cursorDoubleClick):
print ('Double Click')
pyautogui.click(clicks = 2)
doubleCount = 0
spaceCount = 0
if (spaceCount == cursorClick):
print('Click Invoked')
pyautogui.click()
spaceCount = 0
#To ivoke a scroll search for occurances of the scroll thumb on the screen, then
#check each of these locations to see if the cursor is there, if so scroll in the
#correct direction.
for k in (pyautogui.locateAllOnScreen(scrollUpFileHightlighted, grayscale=True)):
if (x1 > (k[0] - scollBox) and x1 < (k[0] + k[2] + scollBox) and y1 > (k[1] - scollBox) and y1 < (k[1] + k[3] + scollBox)):
pyautogui.scroll(scrollDist)
print("Scrolled Up")
for l in (pyautogui.locateAllOnScreen(scrollDownFileHighlighted, grayscale=True)):
if (x1 > (l[0] - scollBox) and x1 < (l[0] + l[2] + scollBox) and y1 > (l[1] - scollBox) and y1 < (l[1] + l[3] + scollBox)):
pyautogui.scroll(-scrollDist)
print("Scrolled Down")
for m in (pyautogui.locateAllOnScreen(scrollUpFile, grayscale=True)):
if (x1 > (m[0] - scollBox) and x1 < (m[0] + m[2] + scollBox) and y1 > (m[1] - scollBox) and y1 < (m[1] + m[3] + scollBox)):
pyautogui.scroll(scrollDist)
print("Scrolled Up")
for n in (pyautogui.locateAllOnScreen(scrollDownFile, grayscale=True)):
if (x1 > (n[0] - scollBox) and x1 < (n[0] + n[2] + scollBox) and y1 > (n[1] - scollBox) and y1 < (n[1] + n[3] + scollBox)):
pyautogui.scroll(-scrollDist)
print("Scrolled Down")
def scroll(self, clicks=1, direction="DOWN", **kwargs):
if ("force" in kwargs and kwargs["force"] is True) or self.game_is_focused:
clicks = clicks * (1 if direction == "DOWN" else -1)
pyautogui.scroll(clicks)
for num in range(1, 105):
#回退的地方
x, y = pyautogui.center((256, 316, 107, 21)) # 获得中心点
pyautogui.click(x, y)
# pyautogui.click(x=321, y=321, button='left')
pyautogui.click(x=279, y=927, button='left')
pyautogui.click(x=262, y=424, button='left')
hangshu = 1
while hangshu < yeshu:
pyautogui.click(x=581, y=424, button='left')
hangshu += 1
#第35个开始就从最后开始
if 69 > num > 34:
num = num - 35
#-576 刚好下一页 -1500 以上最后
pyautogui.scroll(-576)
elif num > 68:
num = num - 69
pyautogui.scroll(-1600)
pyautogui.click(x=281, y=442 + (16 * num), button='left')
# 默认
pyautogui.click(x=332, y=460 + (16 * num), button='left')
pyautogui.click(x=795, y=595, button='left')
pyautogui.click(x=1399, y=276, button='left')
#huitui --->
pyautogui.alert('这个消息弹窗是文字+OK按钮')
# pyautogui.locateOnScreen( 'huitui.png' )
x, y = pyautogui.center((1864, 215, 24, 16)) # 获得中心点
pyautogui.click(x, y)
time.sleep(3)
spaceCount = 0
#If the cursor is near a scroll bar, then scroll, up or down
#scrollUpLoc = []
# scrollUpLoc.append(pyautogui.locateAllOnScreen('scrollUpWindows.png', grayscale=True))
# scrollUpLoc.append(pyautogui.locateAllOnScreen('scrollUpWindowsHighlighted.png', grayscale=True))
#print('scrollUpLoc' + str(scrollUpLoc[0]))
# print (list(pyautogui.locateAllOnScreen('scrollUpWindowsHighlighted.png', grayscale=True)))
# print (list(pyautogui.locateAllOnScreen('scrollUpWindows.png', grayscale=True)))
# scrollDownLoc = []
# scrollDownLoc.append(pyautogui.locateAllOnScreen('scrollDownWindows.png', grayscale=True))
# scrollDownLoc.append(pyautogui.locateAllOnScreen('scrollDownWindowsHighlighted.png', grayscale=True))
#print('scrollDownLoc' + str(scrollDownLoc[0]))
# list(scrollUpLoc)
x, y = pyautogui.position()
print (x, y)
for k in (pyautogui.locateAllOnScreen(scrollUpFile, grayscale=True)):
if (x > (k[0] - 5) and x < (k[0] + k[2] + 5) and y > (k[1] - 5) and y < (k[1] + k[3] + 5)):
pyautogui.scroll(scrollDist)
print("Scrolled up")
for l in (pyautogui.locateAllOnScreen(scrollDownFile, grayscale=True)):
if (x > (l[0] - 5) and x < (l[0] + l[2] + 5) and y > (l[1] - 5) and y < (l[1] + l[3] + 5)):
pyautogui.scroll(-scrollDist)
print("Scrolled down")
i += 1
def do_it(self,body):
try:
if body != None:
head = body[:4]
body = body[4:]
if head == 'MOUS':
#MOUSE MOVE EVENT
mxy = body.split('|')
self.mous.move(int(mxy[0]),int(mxy[1]))
#pyautogui.moveTo(int(mxy[0]),int(mxy[1]))
elif head == 'MCLK':
#MOUSE CLICK EVENT
mxy = body.split('|')
if mxy[2] == 'DCLK':
# DOUBLE CLICK
if mxy[3] == '1':
pyautogui.doubleClick(int(mxy[0]),int(mxy[1]),button='left')
elif mxy[3] == '2':
pyautogui.doubleClick(int(mxy[0]),int(mxy[1]),button='right')
elif mxy[2] == 'SCLK':
#SINGLE CLICK
if mxy[3] == '1':
pyautogui.click(int(mxy[0]),int(mxy[1]),button='left')
elif mxy[3] == '2':
pyautogui.click(int(mxy[0]),int(mxy[1]),button='right')
elif mxy[2] == 'DOWN':
#MOUSE PRESS
if mxy[3] == '1':
pyautogui.mouseDown(int(mxy[0]),int(mxy[1]),button='left')
elif mxy[3] == '3':
pyautogui.mouseDown(int(mxy[0]),int(mxy[1]),button='right')
elif mxy[3] == '4':
#SCROLL DOWN
pyautogui.scroll(-5,x=int(mxy[0]),y=int(mxy[1]))
elif mxy[2] == 'UP':
#MOUSE RELEASE
if mxy[3] == '1':
pyautogui.mouseUp(int(mxy[0]),int(mxy[1]),button='left')
elif mxy[3] == '3':
pyautogui.mouseUp(int(mxy[0]),int(mxy[1]),button='right')
elif mxy[3] == '4':
#SCROLL UP
pyautogui.scroll(5,x=int(mxy[0]),y=int(mxy[1]))
elif head == "KCLK":
#KEYBOARD EVENT
key_ev = body.split('|')
if key_ev[0] == 'DOWN':
pyautogui.keyDown(key_ev[1])
elif key_ev[0] == "UP":
pyautogui.keyUp(key_ev[1])
elif key_ev[0] == "PRES":
pyautogui.press(key_ev[1])
elif head == 'CLIP':
# CLIP BOARD EVENT
if body[:4] == 'COPY':
#send local clipboard to remote
lclip = pyperclip.paste()
screen_output_q.put_nowait(self.controler+lclip)
elif body[:4] == 'PAST':
#receive remote clipboad
data = body[4:]
pyperclip.copy(data)
return True
except Exception as e:
print "INPUT CONTROL ERROR",e
return False
pyautogui.press('esc')
pyautogui.moveTo(773, 235, duration=0.5)
return skip_state
time.sleep(5)
image_num = 1
while True:
slot = 1
while slot <= 5:
pyautogui.moveTo(150 + (slot - 1) * 255, 250, duration=0.5)
#click image corresponding to this slot.
pyautogui.doubleClick()
time.sleep(0.5)
if check_if_slot_is_link():
slot += 1
#go back to prev page (navagate back from link page)
pyautogui.moveTo(17, 44, duration=0.5)
pyautogui.click()
time.sleep(3.5)
pyautogui.moveTo(773, 235, duration=0.2)
else:
if run_algorithm():
slot = 0
slot += 1
image_num += 1
#Grab scroll bar and move down a row
time.sleep(2)
pyautogui.scroll(-318) # scroll down 318 pixels
