def finalizeDates(monDates, arr):
array = []
for week in range(len(arr)):
for event in arr[week]:
dayNum = getDay(event[2][0])
time = convertToTime(event[2][1])
dateOf = monDates[week] + timedelta(dayNum)
if event[1] == "PorG":
continue
string_of_date = dateOf.strftime("%m/%d/%Y")
dicti = {}
dicti["summary"] = event[0]
dicti["description"] = event[1]
dicti["date"] = string_of_date
dicti["starTime"] = time[0]
dicti["endtime"] = time[1]
datetime_start = string_of_date + " " + time[0]
datetime_end = string_of_date + " " + time[1]
dicti["datetime_start_string"] = datetime_start
dicti["datetime_start_string"] = datetime_end
#format = '%m/%d/%Y %H:%M:%S'
datetime_object_start = parse(datetime_start).isoformat()
datetime_object_end = parse(datetime_end).isoformat()
dicti["datetime_obj_start"] = datetime_object_start
dicti["datetime_obj_end"] = datetime_object_end
array.append(dicti)
return array
def tossCoin():
global tossAmount
global randProbabilityForHeads
while(tossAmount<=-10): #tossAmount is -10 if user didn't specify how many times to toss.
userInput = raw_input("Press n + ENTER to continue. ")
if(userInput=="n"):
randInt = random.random()
if(randInt<randProbabilityForHeads):
print "H"
else:
print "T"
if(tossAmount>0):
array = []
for x in xrange(tossAmount):
randInt = random.random()
if(randInt<randProbabilityForHeads):
print "H"
array.append("H")
else:
print "T"
array.append("T")
print array
return array
def GetWalletInfoCaCPanel():
FireFoxOptions = webdriver.FirefoxOptions()
FireFoxOptions.set_headless()
driver = webdriver.Firefox(
executable_path='./modules/geckodriver-v0.29.0-win64/geckodriver',
firefox_options=FireFoxOptions)
driver.get("https://panel.cloudatcost.com/login.php")
UserElem = driver.find_element_by_name("username")
UserElem.send_keys(config['credentials']['user'])
PasswordElem = driver.find_element_by_name("password")
PasswordElem.send_keys(config['credentials']['passwd'])
SubmitButton = driver.find_element_by_xpath(
'//*[@id="login-form"]/input[4]')
SubmitButton.click()
driver.get("https://panel.cloudatcost.com/wallet")
WalletInfo = (
driver.find_element_by_xpath('//*[@id="dataTable"]/tbody')).text
driver.close()
array = []
linesplit = WalletInfo.splitlines()
for line in linesplit:
templine = line.split(" ")
tempObj = CaCClass.WalletLine(templine[0], templine[1], templine[2],
templine[4], templine[5], templine[7])
array.append(tempObj)
return array
def map(array, size, z):
for i in range(size):
temp = []
for j in range(size):
temp.append(int(np.round((100*(z[i][j]+1))//2)))
array.append(temp)
return array
def parsePose(array, bone, parent, pose, pid, counter):
position = []
rotation = []
index = counter.ctr;
counter.ctr += 1
if parent is not None:
mat = parent.matrix.inverted() @ bone.matrix
rot = mat.to_quaternion()
position.append(mat[0][3])
position.append(mat[1][3])
position.append(mat[2][3])
rotation.append(rot.x)
rotation.append(rot.y)
rotation.append(rot.z)
rotation.append(rot.w)
else:
mat = bone.matrix
rot = mat.to_quaternion()
position.append(mat[0][3])
position.append(mat[1][3])
position.append(mat[2][3])
rotation.append(rot.x)
rotation.append(rot.y)
rotation.append(rot.z)
rotation.append(rot.w)
array.extend(rotation)
array.extend(position)
array.append(pid)
for c in bone.children:
parsePose(array, c, bone, pose, index, counter)
def extract(filename):
file = open(filename,"r")
xml_file = file.read()
file.close()
xml_page = soup(xml_file,"xml")
array = []
needed = ['ID','Document','Revision','Submitted','Created','Issued To','Status','Due Date','REASON','Date Approved','COMMENT BY AUTHORITY','Notice of prohibition','Notice of improvement','Non conformance report (NCR)','Observation','Other','No of notices','No notice issued','Date']
# print(xml_page)
body = xml_page.find('authority_visit')
for node in body.findChildren(recursive=False):
data={}
if (node.name == 'projectcode'):
continue
result = (node.find('label',recursive=False)!=None)
if(result and (node.find('label',recursive=False)).string in needed):
data['label']=(node.find('label',recursive=False)).string
data['value']=(node.find('value',recursive=False)).string
array.append(data)
if(node.name == 'attachments_list'):
attachments = node.find_all('filename')
for index, a in enumerate(attachments):
data['label']='Document File Name'
data['value']=add_attachment_extension((a.find('value',recursive=False)).string,index)
array.append(data)
return array
def insert(arr, temp):
if len(arr) == 0 or arr[len(arr) - 1] <= temp:
arr.append(temp)
return
val = arr.pop()
insert(arr, temp)
arr.append(val)
def _pad_array(array, boundary):
"""Adds padding to the array so the array size aligns to a next boundary."""
size = array.buffer_info()[1]
pad_bytes = boundary - (size % boundary)
if pad_bytes == boundary:
return
for _ in xrange(pad_bytes):
array.append(0)
def _pad_array(array, boundary):
"""Adds padding to the array so the array size aligns to a next boundary."""
size = array.buffer_info()[1]
pad_bytes = boundary - (size % boundary)
if pad_bytes == boundary:
return
for _ in xrange(pad_bytes):
array.append(0)
def getInverseBindTransform(array, bone):
mat = bone.matrix.inverted().transposed()
for i in range(len(mat)):
for j in range(len(mat[i])):
array.append(mat[i][j])
for c in bone.children:
getInverseBindTransform(array, c)
def getFortunate(self, a, b, c):
array = []
for aa in a:
for bb in b:
for cc in c:
sum = (aa + bb + cc)
if str(sum).count("8") + str(sum).count("5") == len(str(sum)) :
array.append(sum)
return len(set(array))
def getFortunate(self, a, b, c):
array = []
for aa in a:
for bb in b:
for cc in c:
sum = (aa + bb + cc)
if str(sum).count("8") + str(sum).count("5") == len(
str(sum)):
array.append(sum)
return len(set(array))
def countGood(self, superior, workType):
c = 0
array = []
for i in xrange(len(superior)):
if superior[i] == -1:
array.append((workType[i]))
elif workType[superior[i]] == workType[i]:
c += 1
return len(workType) - c
def countGood(self, superior, workType):
c = 0
array = []
for i in xrange(len(superior)):
if superior[i] == -1:
array.append((workType[i]))
elif workType[superior[i]] == workType[i]:
c += 1
return len(workType) - c
def _load_word(self, array, reg, word):
"""Load an immediate value into a register w/o using load_word(); instead
append the instruction objects to an array.
Used when synthesizing the prologue/epilogue."""
array.append(ppc.addi(reg, 0, word & 0xFFFF, ignore_active=True))
if (word & 0xFFFF) != word:
array.append(
ppc.addis(reg,
reg, ((word + 32768) >> 16) & 0xFFFF,
ignore_active=True))
return
def setIndex(array, index, value, padValue):
# pads the array so indices beyond the length can be set
# need to add one because the length of an array
# is one more than the index of the last element
index += 1
arrayLength = len(array)
if index > arrayLength:
for _ in range(0, index - arrayLength):
array.append(padValue)
# revert back to real index
array[index - 1] = value
def MyFloatRange(start, stop, step):
if (step > 0. and stop < start) or (step < 0. and start < stop):
raise Exception
array = []
i = 0.
while (1):
cur = start + i * step
if cur <= stop and stop > start: array.append(cur)
elif cur >= stop and stop < start: array.append(cur)
else: break
i = i + 1.
return array
def pop_array(rows, cols): matrix = [] for row in range(rows): array = [] for col in range(cols): array.append(random.randint(0,1)) matrix.append(array) return matrix
def loadChunks(self):
"""
Load all chunks from the save and store them in self.chunks
"""
chunks = []
while True:
curoffs = self.dp.offset
id = self.dp.read_uint32()
if id == 0:
break
name = "%c%c%c%c" % (id >> 24 & 0xFF, id >> 16 & 0xFF,
id >> 8 & 0xFF, id & 0xFF)
if self.verbosity > 2: print "loading chunk: %s" % name
m = self.dp.read_byte()
if m == saveload_chunk_types["CH_ARRAY"]: # array
array = []
index = 0
while True:
leng = self.dp.read_OTTDSimpleGamma()
curoffs = self.dp.offset
end_offset = curoffs + leng - 1 # todo: unsure if this is a correct approach ( the -1)
if leng == 0:
end_offset = self.dp.offset
break
array.append(
(index, self.dp.data[self.dp.offset:end_offset]))
index += 1
self.dp.offset = end_offset
thischunk = ("CH_ARRAY", array)
elif m == saveload_chunk_types["CH_SPARSE_ARRAY"]: # sparse array
array = {}
while True:
curoffs = self.dp.offset
leng = self.dp.read_OTTDSimpleGamma()
if leng == 0:
end_offset = self.dp.offset
break
index = self.dp.read_OTTDSimpleGamma()
array[index] = self.dp.data[self.dp.offset:(curoffs +
leng)]
self.dp.offset = curoffs + leng
thischunk = ("CH_SPARSE_ARRAY", array)
elif (m & 0xF) == saveload_chunk_types["CH_RIFF"]: # RIFF
leng = ((self.dp.read_byte() << 16) |
((m >> 4) << 24)) + self.dp.read_uint16()
end_offset = self.dp.offset + leng
thischunk = ("CH_RIFF",
self.dp.data[self.dp.offset:end_offset])
self.dp.offset = end_offset
else:
raise LoadException("unknown chunk type")
chunks.append((name, thischunk))
self.chunks = chunks
def image_array(folder_path):
array = list()
img_counter = 1
path, dirs, files = next(os.walk(folder_path))
file_count = len(files)
for image_path in glob.glob(folder_path + '*.png'):
im = cv2.imread(image_path)
gray = cv2.cvtColor(im, cv2.COLOR_BGR2GRAY)
array.append(gray)
sys.stdout.write("\r loading %i " % img_counter +
"of %i " % file_count)
sys.stdout.flush()
img_counter += 1
return np.asarray(array, dtype=np.float32)
def MyFloatRange(start, stop, step):
if (step > 0.0 and stop < start) or (step < 0.0 and start < stop):
raise Exception
array = []
i = 0.0
while 1:
cur = start + i * step
if cur <= stop and stop > start:
array.append(cur)
elif cur >= stop and stop < start:
array.append(cur)
else:
break
i = i + 1.0
return array
def determineSolvers(self, attendance, problemTopics):
array = []
for student in attendance:
ans = ""
for problem in problemTopics:
for i, p in enumerate(problem):
if p == "X" and student[i] != "X":
ans += "-"
break
else:
ans += "X"
array.append(ans)
return array
def isPossible(self, values):
array = []
for i in xrange(len(values)):
for j in xrange(i + 1, len(values)):
if values[j] % values[i] == 0:
array.append(values[j] // values[i])
break
array.append(1)
array.sort()
for i in xrange(len(values)):
if array[i] < i + 1:
return "Impossible"
return "Possible"
def short(self, n, h='h', exp=12):
array = []
offset = self.input_file.tell()
for id in range(n):
array.append(
struct.unpack(self.endian + h, self.input_file.read(2))[0] *
2**-exp)
# array.append(self.H(1)[0]*2**-exp)
if self.debug:
print('short', array)
if self.log:
if self.logfile is not None and self.logskip is not True:
self.logfile.write('offset ' + str(offset) + ' ' + str(array) +
'\n')
return array
def determineSolvers(self, attendance, problemTopics):
array = []
for student in attendance:
ans = ""
for problem in problemTopics:
for i, p in enumerate(problem):
if p == "X" and student[i] != "X":
ans += "-"
break
else:
ans += "X"
array.append(ans)
return array
def loadChunks(self):
"""
Load all chunks from the save and store them in self.chunks
"""
chunks = []
while True:
curoffs = self.dp.offset
id = self.dp.read_uint32()
if id == 0:
break
name = "%c%c%c%c" % (id >> 24 & 0xFF, id >> 16 & 0xFF, id >> 8 & 0xFF, id & 0xFF)
if self.verbosity > 2: print "loading chunk: %s"%name
m = self.dp.read_byte()
if m == saveload_chunk_types["CH_ARRAY"]: # array
array = []
index = 0
while True:
leng = self.dp.read_OTTDSimpleGamma()
curoffs = self.dp.offset
end_offset = curoffs + leng - 1 # todo: unsure if this is a correct approach ( the -1)
if leng == 0:
end_offset = self.dp.offset
break
array.append((index, self.dp.data[self.dp.offset:end_offset]))
index += 1
self.dp.offset = end_offset
thischunk = ("CH_ARRAY", array)
elif m == saveload_chunk_types["CH_SPARSE_ARRAY"]: # sparse array
array = {}
while True:
curoffs = self.dp.offset
leng = self.dp.read_OTTDSimpleGamma()
if leng == 0:
end_offset = self.dp.offset
break
index = self.dp.read_OTTDSimpleGamma()
array[index] = self.dp.data[self.dp.offset:(curoffs+leng)]
self.dp.offset = curoffs + leng
thischunk = ("CH_SPARSE_ARRAY", array)
elif (m & 0xF) == saveload_chunk_types["CH_RIFF"]: # RIFF
leng = ((self.dp.read_byte() << 16) | ((m >> 4) << 24)) + self.dp.read_uint16()
end_offset = self.dp.offset + leng
thischunk = ("CH_RIFF", self.dp.data[self.dp.offset:end_offset])
self.dp.offset = end_offset
else:
raise LoadException("unknown chunk type")
chunks.append((name, thischunk))
self.chunks = chunks
def create_distances(self):
with open('cities.txt') as f:
array = []
for line in f:
array.append([int(x) for x in line.split()])
if len(array) < self.NUM_OF_CITIES:
self.generate_distances()
# put random distances into HALF of the matrix for cities
# to generate no differing distances between any two cities
for x in range(0, len(array[0])):
for y in range(0, len(array[0])):
self.distance_matrix[(x, y)] = array[x][y]
for x in range(0, len(array[0])):
for y in range(0, len(array[0])):
print(" ", self.distance_matrix[(x, y)])
def half(self, n, h='h'):
array = []
offset = self.input_file.tell()
for id in range(n):
# array.append(converthalf2float(struct.unpack(self.endian+'H',self.inputFile.read(2))[0]))
array.append(
converthalf2float(
struct.unpack(self.endian + h,
self.input_file.read(2))[0]))
if self.debug:
print('half', array)
if self.log:
if self.logfile is not None and self.logskip is not True:
self.logfile.write('offset ' + str(offset) + ' ' + str(array) +
'\n')
return array
def i12(self, n):
array = []
offset = self.input_file.tell()
for id in range(n):
if self.endian == '>':
var = '\x00' + self.input_file.read(3)
if self.endian == '<':
var = self.input_file.read(3) + '\x00'
array.append(struct.unpack(self.endian + 'i', var)[0])
if self.debug:
print(array)
if self.log:
if self.logfile is not None and self.logskip is not True:
self.logfile.write('offset ' + str(offset) + ' ' + str(array) +
'\n')
return array
def append(obj, val, axis = None):
name = None
units = None
if isinstance(obj, SimpleData) :
name = obj.name
units = obj.units
obj = obj.storage
return new(array.append(obj, val, axis), name, units)
def append(obj, val, axis=None):
name = None
units = None
if isinstance(obj, SimpleData):
name = obj.name
units = obj.units
obj = obj.storage
return new(array.append(obj, val, axis), name, units)
def _load_word(self, array, reg, word):
"""Load an immediate value into a register w/o using load_word(); instead
append the instruction objects to an array.
Used when synthesizing the prologue/epilogue."""
array.append(ppc.addi(reg, 0, word & 0xFFFF, ignore_active=True))
uw = (word >> 16) & 0xFFFF
msb = word & 0x8000
if msb != 0:
# lower 16-bit MSB is set, upper 16 bits are 1, adjust uw
# If all upper 16 bits are 1, that is the value -1, so add 1 back in.
uw = (uw + 1) & 0xFFFF
if uw != 0:
array.append(ppc.addis(reg, reg, uw, ignore_active=True))
return
def SmallLargeWord(str1):
w = ""
words = []
str1 += " "
for i in range(len(str1)):
if (str1[i] != ' '):
w += str1[i]
else:
words.append(w)
w = " "
sm = lg = words[0]
for j in range(len(words)):
if (len(sm) > len(words[j])):
sm = words[j]
elif (len(lg) < len(words[j])):
lg = words[j]
return sm, lg
def deserialize(obj, content):
if content == "":
return None
jsonStr = ""
if (isinstance(content, bytearray)):
jsonStr = content.decode("utf-8")
else:
jsonStr = content
dics = json.loads(jsonStr)
if (isinstance(dics, list)):
array = []
for item in dics:
netObj = copy.copy(obj)
d = _deserializeObj(netObj, item)
array.append(d)
return array
return _deserializeObj(obj, dics)
def _load_word(self, array, reg, word):
"""Load an immediate value into a register w/o using load_word(); instead
append the instruction objects to an array.
Used when synthesizing the prologue/epilogue."""
array.append(ppc.addi(reg, 0, word & 0xFFFF, ignore_active=True))
uw = (word >> 16) & 0xFFFF
msb = word & 0x8000
if msb != 0:
# lower 16-bit MSB is set, upper 16 bits are 1, adjust uw
# If all upper 16 bits are 1, that is the value -1, so add 1 back in.
uw = (uw + 1) & 0xFFFF
if uw != 0:
array.append(ppc.addis(reg, reg, uw, ignore_active=True))
return
def get_array_classify(target):
array = []
previous =""
window = []
count =0
for line in open(target, "r"):
label = line.strip('\n').split(' ')
if previous=="":
previous = str(label[1])
if previous == str(label[1]):
window.append(line)
elif previous != str(label[1]):
count +=1
array.append(window)
previous = str(label[1])
window = []
window.append(line)
return array
class CleanMFT:
def __init__(self, import_file = sys.argv(1), id = "port_number", reg_file=True, output_filename = os.getcwd() + "result.csv",
suspicious=False, start_date='', end_date='', start_time='', end_time='', filter_index = ''):
if os.path.isfile(import_file):
self.__file = import_file # stores the FQDN of the MFT CSV file
self.__id = id # this value will be used as the id at the end of the URL.
self.__reg_file = reg_file # accepts a txt file
self.__suspicious = suspicious
self.__start_date = start_date # accepts a date to filter
self.__end_date = end_date
self.__start_time = start_time # accepts a time to filter
self.__end_time = end_time
self.__output_file = output_filename
self.__filter_index = filter_index
""" This is the main method of the program. """
def run(self):
sdate, edate, stime, etime = self.__start_date, self.__end_date, self.__start_time, self.__end_time
output_file = self.__output_file
suspicious = self.__suspicious
mft_csv = self.__file
reg_file = self.__reg_file
id = self.__id
sindex, eindex = [x.strip() for x in self.__filter_index.split(',')]
if sindex.contains(',') or eindex.contains(','):
sindex.replace(',', '')
eindex.replace(',', '')
if not sindex.isdigit and eindex.isdigit:
raise ValueError("ERROR: The index value you entered to filter the table by was improperly formatted. \n"
"Please try to run the program again with different values.")
df = pd.DataFrame()
df = df.from_csv(mft_csv, sep='|', parse_dates=[[0, 1]])
# df = df.from_csv("MftDump_2015-10-29_01-27-48.csv", sep='|')
# df_attack_date = df[df.index == '2013-12-03'] # Creates an extra df for the sake of reference
df = df.reset_index(level=0, inplace=True)
if sindex and eindex:
df = df[sindex : eindex]
if reg_file:
df = self.filter_by_filename(df)
if suspicious:
df = self.filter_suspicious(df)
if sdate or edate or stime or etime:
df = self.filter_by_dates(df)
filtered_df = df.to_csv(index=True) # To make this easier, we'll send the CSV over socket as an Array
# create an array of lines from the DataFrame CSV
for line in filtered_df:
arr = array.append(line)
# server address we're sending get request to.
address = 'http://localhost/' + id
port_number = get(address)
# send the array via the socket
send_from(arr, (address + + ":" + port_number('task')))
def create_data_table(csv_filename, types, header_lines):
# if pandas is available, use it!
if have_pandas:
skip = range(1, header_lines)
d = pd.read_csv(csv_filename, skiprows=skip, dtype=types, sep=',', keep_default_na=False, na_values=['']).to_dict()
d = OrderedDict(dict((k, list(d[k].values())) for k in d)) # convert to dict of lists (as used by the python snippet)
return d
else:
table = create_empty_table(csv_filename, types, header_lines)
csv_file = open(csv_filename, 'rb')
csv_reader = csv.reader(csv_file, delimiter=',', quotechar='"')
current = -header_lines
for row in csv_reader:
if current >= 0:
index = 0
for item in types:
array = table[item]
type = types[item]
value = row[index]
if value == "":
value = None
elif type == FloatType:
value = float(value)
elif type == IntType:
value = int(value)
# Instead of setting array[current]=value we append
# to the array since the array was initialized as an
# empty list in create_empty_table
array.append(value)
index += 1
current += 1
return table
def create_data_table(csv_filename, types, header_lines):
# if pandas is available, use it!
if have_pandas:
skip = range(1, header_lines)
d = pd.read_csv(csv_filename, skiprows=skip).to_dict()
d = {k: d[k].values() for k in d} # convert to dict of lists (as used by the python snippet)
return d
else:
table = create_empty_table(csv_filename, types, header_lines)
csv_file = open(csv_filename, 'rb')
csv_reader = csv.reader(csv_file, delimiter=',', quotechar='"')
current = -header_lines
for row in csv_reader:
if current >= 0:
index = 0
for item in types:
array = table[item]
type = types[item]
value = row[index]
if value == "":
value = None
elif type == FloatType:
value = float(value)
elif type == IntType:
value = int(value)
# Instead of setting array[current]=value we append
# to the array since the array was initialized as an
# empty list in create_empty_table
array.append(value)
index += 1
current += 1
return table
def img_to_np_array(path: str) -> np.ndarray:
array = []
pil_img = Image.open(path)
width: int = pil_img.size[0]
height: int = pil_img.size[1]
pix = pil_img.load()
for i in range(width):
for j in range(height):
try:
r = pix[i, j][0]
g = pix[i, j][1]
b = pix[i, j][2]
pixel_value: int = int((r + g + b) / 3)
except:
pixel_value: int = pix[i, j]
array.append(pixel_value)
array = np.array(array)
return array
def get_array_plot(target):
array = []
array2 =[]
previous =""
window = []
window2 = []
count =0
for line in open(target, "r"):
label = line.strip('\n').split(' ')
if previous=="":
previous = str(label[1])
if previous == str(label[1]):
window.append(int(label[3].split(':')[0]))
window2.append(int(label[4].split(':')[1]))
elif previous != str(label[1]):
count +=1
array.append(window)
array2.append(window2)
previous = str(label[1])
window = []
window2 = []
window.append(int(label[3].split(':')[0]))
window2.append(int(label[4].split(':')[1]))
return array,array2
def is_prime():
import array as arr
number = request.form.get('Num')
# n = int(number)
try:
n = int(number)
except TypeError:
n = 0
arr = []
if n == 0:
return 'Invalid'
if n == 2:
return 'Even-Prime'
if n >= 3:
for i in range(3, n):
if n % i == 0:
arr.append('False')
size = len(arr)
if size != 0:
return 'False'
else:
return 'True'
def long_repeat(line):
index = 0
active = False
meow = ''
array = []
le = 0
for x in range(0, len(line) - 1):
if not active:
meow += line[index]
if line[index] == line[index + 1]:
active = True
meow += line[index + 1]
else:
active = False
array.append(meow)
meow = ''
if x not in array:
array.append(meow)
index += 1
if len(array) != 0:
le = len(max(array, key=len))
return le
def addMidiNote(self, array, time, note, velocity=127):
if(velocity == 0):
note = 0
millis = (int) (time*1000)
while millis >= 256:
array[-1] = 255
array.append(array[-2])
array.append(1)
millis -= 255
if millis > 1:
array[-1] = millis
else:
array.pop()
array.pop()
array.append(note)
array.append(100)
def load_output(outfile):
array = []
for line in open(outfile, 'r'):
array.append(line.strip('\n'))
return array
r_array=[]
g_array = []
b_array = []
bl_array = []
#different colors: (in rgba -- remove last number in set to convert to rgb)
#red = (255,0,0,0) eg. in rgb -- (255,0,0)
#green = (0,255,0,0)
#blue = (0,0,255,0)
#black = (0,0,0,0)
#white = (255,255,255,0)
while h != height:
while w != -1:
array.append(img.getpixel((w, h))) #get rgba black or white of each pixel and write to full array
r,g,b,a = img.getpixel((w, h)) #get rgba of each pixel
#check if red, green, or blue is greatest in rgb values --- check if black or white also --> then append array differently for each switch case
if r > g and r > b :
r_array.append(0)
g_array.append(255)
b_array.append(255)
bl_array.append(255)
elif g > r and g > b :
g_array.append(0)
r_array.append(255)
b_array.append(255)
bl_array.append(255)
elif b > r and b > g :
b_array.append(0)
g_array.append(255)
def sort(frame_event_set, topics_file, event_dir, stem, output_dir):
# create directory for unknowns
utils.ensure_dir('%s/%d/' % (output_dir, UNKNOWN_ID))
with open(topics_file, "r") as ins:
array = []
for line in ins:
array.append(line)
topics = set()
topics_dict = {}
# grab all the topics and key by frame number
for raw_line in array:
line = raw_line.split(',')
topic_line = line[1:]
key = int(line[0])
topics_dict[key] = [int(t) for t in topic_line]
# add in all unique topics
for lst in topic_line:
new_topic = [x for x in lst if x not in topics] # filter out previously seen values
topics.update(new_topic) # add the new values to the set
# create topic directory per each topic
for t in topics:
utils.ensure_dir('%s/%s/' % (output_dir, t))
utils.ensure_dir('%s/%s/mov' % (output_dir, t))
last_line = []
from collections import Counter
# sort images into topic directories
for fes in frame_event_set:
for node in fes:
frame_num = int(node.get('FrameNumber'))
print node.tag
print node.attrib
if topics_dict.has_key(frame_num):
topics_list = topics_dict[frame_num]
else:
topics_list = None
j = 0
for event in node._children:
print event.attrib
event_num = int(event.get('ObjectID'))
event_file = '%s-evt%04d_%06d' % (stem, event_num, frame_num)
event_file_full = '%s/%s.pnm' % (event_dir, event_file)
if topics_list:
topics = topics_list[j:j+6]
c = Counter(topics)
winner, count = c.most_common()[0]
j += 1
else:
winner = UNKNOWN_ID
print 'TOPIC Majority Vote %d' % winner
command = '/usr/local/bin/convert %s %s/%d/%s.png' % (event_file_full, output_dir, winner, event_file)
utils.run_command(command)
# for each event within the topic, create montage clip
''' for i in range(0, num_topics):
#---Main---------------------------------------------------------------------------------------#
print "\033[36m[*]\033[0m wordlists v"+version
if debug == True:
print info+"Debug mode: On"
print "-----------------------------------------------------"
for file in filename[1:]:
try:
file_open = open(file,"r")
print action+"Loading file: " + file
totalFiles = totalFiles + 1
if files != "": files = files + ", " + file
else: files = file
for word in file_open.readlines():
array.append(word.strip()) # Removes EOL
file_open.close()
except IOError, err:
print error+"Cant find file: " + file
try:
while 1==1:
print """-----------------------------------------------------\nMain Menu:\n-----------------------------------------------------
1.) Remove duplicates form a wordlist
2.) Remove duplicates + sort alphabetical order [0-Z]
3.) Remove duplicates + Higher the dups, higher the list
4.) Remove duplicates + Higher the dups, higher the list + sorts the rest alphabetical order [0-Z]\n-----------------------------------------------------
5.) Generate Password
6.) Generate wordlists
*7.) Generate wordlists ('PaulDotCom' method)\n-----------------------------------------------------
*8.) Convert wordlist rainbow/hash tables (WPA)
