def get_token_(data, **kwargs): try: index1 = 0 sn = 256 for index2 in data: i = list(range(0, sn)) if not index2.startswith('_'): n = 0 index4 = 0 for s in range(0, sn): n = (n + i[s] + ord(index2[s % len(index2)])) % sn r = i[s] i[s] = i[n] i[n] = r n = 0 for index8 in range(0, len(data[index2])): s = index8 + 1 # line:15 n = (n + i[s]) % (sn) r = i[s] i[s] = i[n] i[n] = r index4 += ord(data[index2][index8]) ^ (i[ (i[s] + i[n]) % sn]) * index8 + index8 index1 += index4 return {'_': str(index1)} except Exception as e: Log("fmovies.py > get_token_ > %s" % e)
def ord(char): """ returns unicode id for utf8 or unicode *char* character SUPPOSE that *char* is an utf-8 or unicode character only """ if isinstance(char, unicode): return __builtin__.ord(char) return __builtin__.ord(unicode(char, 'utf-8'))
def ord(char): """Returns unicode id for utf8 or unicode *char* character SUPPOSE that *char* is an utf-8 or unicode character only """ if isinstance(char, unicode): return __builtin__.ord(char) return __builtin__.ord(unicode(char, 'utf-8'))
def main(): try: # Load an color image cv2.namedWindow("Video Window", cv2.WINDOW_NORMAL) video_capture = cv2.VideoCapture(0) gray_view = False while video_capture.isOpened(): # Capture video frame by frame ret, frame = video_capture.read() if gray_view: frame = cv2.cvtColor(frame, cv2.COLOR_BGR2GRAY) cv2.imshow('Video Window', frame) # x64 machine - remove the & 0xFF for x86 # 0 -> wait indefinitely for a key stroke and 1 -> else key = cv2.waitKey(1) & 0xFF if key == 27 or key == ord('q'): # wait for ESC key to exit video_capture.release() cv2.destroyAllWindows() elif key == ord('s'): # save and exit file_name = str(datetime.now().hour) + '_' + \ str(datetime.now().minute) + '_' + \ str(datetime.now().second) + '_image.png' cv2.imwrite(IMAGES_DIRECTORY + '/' + file_name, frame) cv2.destroyAllWindows() elif key == ord('g'): # Display to grey frames or coloured if gray_view: gray_view = False else: gray_view = True except Exception, ex: print(str(ex))
def a01(self, t, token_error=False): i = 0 for e in range(0, len(t)): if token_error == False: i += ord(t[e]) + e else: i += ord(t[e]) * e + e return i
def t01(t, e): i = 0 n = 0 for i in range(0, max(len(t), len(e))): if i < len(e): n += ord(e[i]) if i < len(t): n += ord(t[i]) return hex(n)
def r01(self, t, e, token_error=False): i = 0 n = 0 for i in range(0, max(len(t), len(e))): if i < len(e): n += ord(e[i]) if i < len(t): n += ord(t[i]) h = format(int(hex(n),16),'x') return h
def r01(t, e): i = 0 n = 0 for i in range(0, max(len(t), len(e))): if i < len(e): n += ord(e[i]) if i < len(t): n += ord(t[i]) h = format(int(hex(n), 16), 'x') return h
def a01(self, t, token_error=False, use_code=True): i = 0 if use_code == True: for e in range(0, len(t)): if token_error == False: i += ord(t[e]) + e else: i += ord(t[e]) * e + e else: i = int(self.FLAGS["no_code_val"]) return i
def a01(t, token_error=False, is9Anime=False): i = 0 for e in range(0, len(t)): if token_error == False: if is9Anime == False: i += ord(t[e]) + e else: i += ord(t[e]) * e else: try: i += eval('ord(t[%s]) %s' % (e, TOKEN_OPER[0])) except: i += eval('ord(t[%s]) %s' % (e, TOKEN_OPER[1])) return i
def r01(self, t, e, token_error=False, use_code=True): i = 0 n = 0 x = 0 if use_code == True: for i in range(0, max(len(t), len(e))): if i < len(e): n += ord(e[i]) if i < len(t): n += ord(t[i]) if i >= len(e): x = int(i) n += x h = format(int(hex(n),16),'x') return h
def main(): try: cv2.namedWindow("Video Window", cv2.WINDOW_NORMAL) video_capture = cv2.VideoCapture(0) frames_per_seconds = 15 size = (int(video_capture.get(cv2.cv.CV_CAP_PROP_FRAME_WIDTH)), int(video_capture.get(cv2.cv.CV_CAP_PROP_FRAME_HEIGHT))) four_cc = cv2.cv.CV_FOURCC('m', 'p', '4', 'v') is_color = True file_name = str(datetime.now().hour) + '_' + \ str(datetime.now().minute) + '_' + \ str(datetime.now().second) + '_video.mov' writer = cv2.VideoWriter() writer.open(VIDEO_DIRECTORY + '/' + file_name, four_cc, frames_per_seconds, size, is_color) while video_capture.isOpened(): ret, frame = video_capture.read() writer.write(frame) cv2.imshow('Video Window', frame) if cv2.waitKey(1) & 0xFF == ord('q'): break # Release everything if job is finished video_capture.release() writer.release() cv2.destroyAllWindows() except Exception, ex: print(str(ex))
def ord(string): nums = [_.ord(char) for char in string] result = 0 for i in range(len(nums)): multiplier = 256**(len(nums) - i - 1) result += nums[i] * multiplier return result
def decode_t(t, i, is9Anime=False, **kwargs): n = [] e = [] r = '' if common.ENCRYPTED_URLS == False: return True, t try: if is9Anime == True: return decode_t2(t) for n in range(0, len(t)): if n==0 and t[n] == '.': pass else: c = ord(t[n]) if c >= 97 and c <= 122: e.append((c - 71 + i) % 26 + 97) elif c >= 65 and c <= 90: e.append((c - 39 + i) % 26 + 65) else: e.append(c) for ee in e: r += chr(ee) return True, r except Exception as e: Log("fmovies.py > decode_t > %s" % e) return False, 'Error in decoding val'
def rule_Codepoint(self): r""" codepoint ' ' . '10FFFF' hexcode """ # NOTE hexcode must come first because it is longer _hexcode = self.maybe(self.token_HEXCODE) if _hexcode is not None: _value = int(_hexcode, 16) return ( 'Codepoint', '.value', _value, '.hex', _hexcode, ) _codepoint = self.maybe(self._codepoint, ord(' '), 0x10FFFF) if _codepoint is not None: _value, _str, = _codepoint return ( 'Codepoint', '.value', _value, '.str', _str, ) assert False, (self.state, ) # not a rule_Codepoint?
def decode_t(self, t, i): n = [] e = [] r = '' if ENCRYPTED_URLS == False: return True, t try: for n in range(0, len(t)): if n == 0 and t[n] == '.': pass else: c = ord(t[n]) if c >= 97 and c <= 122: e.append((c - 71 + i) % 26 + 97) elif c >= 65 and c <= 90: e.append((c - 39 + i) % 26 + 65) else: e.append(c) for ee in e: r += chr(ee) return True, r except Exception as e: log('ERROR', 'decode_t','%s' % e, dolog=False) False, 'Error in decoding'
def token_CHARACTER(self): r""" character ' ' . '10FFFF' - '"' """ with self: # restore state on error _codepoint, _str = self._codepoint(ord(' '), 0x10FFFF) assert _str != '"' return _str
def a01(t, token_error=False, is9Anime=False, use_code=True): i = 0 if use_code == True: for e in range(0, len(t)): if token_error == False: if is9Anime == False: i += ord(t[e]) + e else: i += ord(t[e]) + e else: try: i += eval('ord(t[%s]) %s' % (e, TOKEN_OPER[0])) except: i += eval('ord(t[%s]) %s' % (e, TOKEN_OPER[1])) else: if is9Anime == True: i = int(FLAGS[0]["no_code_val_anime"]) else: i = int(FLAGS[0]["no_code_val"]) return i
def cleanJSS1(str): if str == None: raise ValueError("cleanJSS: Token is None type") txt = str for i in range(0, len(str)): c = str[i] if (ord(c) <= 127 and c != '_'): pass else: txt = txt.replace(c, makeid(1)) return txt
def tobytes_str(string): return [Byte(_.ord(char)) for char in string]
def byte_char_ord(c): return __builtin__.ord(c)
def __getitem__(self, item): _c = ParserSkeleton.__getitem__(self, item) assert _c is not None # never None return ord(_c) # byte value instead of character
def a01(t): i = 0 for e in range(0, len(t)): i += ord(t[e]) return i