Exemplo n.º 1
0
    def show_status(self):
        table_data=[]

        temp=[]
        temp.append('Event')
        for i in range (number_of_players):
            temp.append(self.event[i])
        table_data.append(temp)

        temp1=[]
        temp1.append('Diagnosis')
        for i in range (number_of_players):
            temp1.append(self.diagnosis[i])
        table_data.append(temp1)

        temp2=[]
        temp2.append('Tests')
        for i in range (number_of_players):
            temp2.append(self.tests[i])
        table_data.append(temp2)

        table=SingleTable(table_data)
        table.title=Color('{autored}Node ID:'+self.nodeid+' NodeNum:' +
                          self.nodenum+'{/autored}')
        table.inner_row_border="True"
        print ""
        print table.table
Exemplo n.º 2
0
	def transfer_pokemon(self):
		pokemon_list = [p for p in self.pokemon if p.get('transfer', False) and not p['is_favorite'] and not p['is_shiny'] and not p['has_costume']]
		total_transfers = len(pokemon_list)
		transfers_completed = 0
		if not pokemon_list:
			print u'No Pokémon scheduled to transfer.'
			return
		table_data = [
			[u'Pokémon', 'CP', 'IV %', 'ATK', 'DEF', 'STA']
		]
		print 'About to transfer %d Pokémon…' % total_transfers

		transfer_list = []
		for pokemon in pokemon_list:
			# Remove the Pokémon from the list, so that we don’t try to rename
			# it later.
			self.pokemon.remove(pokemon)

			pokedex_number = pokemon['pokedex_number']
			pokemon_name = self.pokemon_list[str(pokedex_number)]

			table_data.append([
				pokemon_name,
				pokemon['cp'],
				'{0:.0f}%'.format(pokemon['iv_percent']),
				pokemon['attack'],
				pokemon['defense'],
				pokemon['stamina']
			])

			transfer_list.append(pokemon['id'])

		table = SingleTable(table_data)
		table.justify_columns = {
			0: 'left', 1: 'right', 2: 'right', 3: 'right',
			4: 'right', 5: 'right', 6: 'left'
		}
		print u'The following Pokémon are about to be transferred:'
		print table.table

		# After logging in, wait a while before starting to rename Pokémon, like a
		# human player would.
		self.config.min_delay = total_transfers * 2
		self.config.max_delay = total_transfers * 4
		self.wait_randomly()
		response = self.api.release_pokemon(pokemon_ids=transfer_list)
		try:
			result = response['responses']['RELEASE_POKEMON']['result']
		except KeyError:
			print 'Failed:'
			print response
			status = 'error'
			pass
		else:
			if result == 1:
				status = 'success'
				print 'Transfer successful.'
			else:
				status = 'error'
				print 'Transfer failed. Error code: %s' % str(result)
Exemplo n.º 3
0
    def print_compare(self, src, dst, a, b, sym):

        from colorclass import Color, Windows

        from terminaltables import SingleTable

        Windows.enable(auto_colors=True, reset_atexit=True)  # Does nothing if not on Windows.

        max_width = 50
        l = [Color('{autocyan}' + self.wrap_text(src, max_width) + '{/autocyan}'),
             sym[0],
             Color('{autocyan}' + self.wrap_text(dst, max_width) + '{/autocyan}')]
        table_data = []
        table_data.append(l)

        for key, value in a.items():
            l = [self.wrap_text(key, max_width), sym[1], ""]
            table_data.append(l)
        for key, value in b.items():
            l = ["", sym[2], self.wrap_text(key, max_width)]
            table_data.append(l)

        table = SingleTable(table_data)
        table.inner_heading_row_border = True
        table.inner_row_border = True
        print(table.table)
Exemplo n.º 4
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def print_table(table_headers,
				table_values,
				table_title='',
				table_view='v'):
	os.system("cls")
	if table_view == 'v':
		table_data = [table_headers]
		for i in range(len(table_values[0])):
			dataline = []
			for j in range(len(table_headers)):
				dataline.append(str(table_values[j][i]))
			table_data.append(dataline)

	elif table_view == 'h':
		table_data = []
		for i in range(len(table_values)):
			table_data.append([table_headers[i]] +
							  list(map(str, table_values[i])))

	table = SingleTable(table_data)
	table.title = table_title
	table.justify_columns = {0: 'left',
							 1: 'left',
							 2: 'left'}
	table.inner_row_border = False
	print(table.table)
Exemplo n.º 5
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def main():
    user_inp = str(raw_input('Enter the ip address :  ')).strip()
    ip = IPAddress(str(user_inp))
    
    if ip.version == 4:
        ipaddr = user_inp
    elif ip.version == 6:
        ipaddr = user_inp.replace(":","%3A")    
    else:
        print "Please enter only a valid ipv4 or ipv6 address"
        sys.exit()
    
    tor_result = torproject(ipaddr)
    status,asn,owner,isp,continent,country,city,region = blacklist(ipaddr)
    table_data = [["ASN",asn],
                  ["Owner",owner],
                  ["ISP",isp],
                  ["TorNode",tor_result],
                  ["Blacklist",status],
                  ["City",city],
                  ["Region",region],
                  ["Continent",continent],
                  ["Country",country]]
    table = SingleTable(table_data)    
    table.title = ipaddr
    table.justify_columns = {0: 'center', 1: 'center'}
    table.inner_row_border = True
    print ""
    print table.table                    
Exemplo n.º 6
0
Arquivo: core.py Projeto: azlyth/mcp
    def box(cls, width, height, title=''):
        table_structure = [[' ' * (width - 2)] for x in range(height - 2)]

        table = SingleTable(table_structure, ' {} '.format(title))
        table.inner_row_border = False
        table.inner_heading_row_border = False

        return table.table
Exemplo n.º 7
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def list_files(folder_path):
    ipa_files = [f for f in os.listdir(folder_path) if str(f).endswith(".ipa")]
    table_data = [[' * ', Color('{autoblue}%-40s{/autoblue}' % f)] for f in ipa_files]
    table = SingleTable(table_data)
    table.title = "All ipa files:"
    table.inner_column_border = False
    table.inner_heading_row_border = False
    print(table.table)
Exemplo n.º 8
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def table_server_timings():
    """Return table string to be printed."""
    table_data = [
        [Color('{autogreen}<10ms{/autogreen}'), '192.168.0.100, 192.168.0.101'],
        [Color('{autoyellow}10ms <= 100ms{/autoyellow}'), '192.168.0.102, 192.168.0.103'],
        [Color('{autored}>100ms{/autored}'), '192.168.0.105'],
    ]
    table_instance = SingleTable(table_data)
    table_instance.inner_heading_row_border = False
    return table_instance.table
Exemplo n.º 9
0
def test():
    #Windows.enable(auto_colors=True, reset_atexit=True)
    table_data = [
        [Color('{autogreen}TITLE{/autogreen}'), '192.168.0.100, 192.168.0.101'],
        [Color('{autocyan}10ms <= 100ms{/autocyan}'), '192.168.0.102, 192.168.0.103'],
        [Color('{autored}>100ms{/autored}'), '192.168.0.105'],
    ]
    table = SingleTable(table_data)
    table.inner_heading_row_border = False
    print(table.table)
Exemplo n.º 10
0
def table_server_status():
    """Return table string to be printed."""
    table_data = [
        [Color('Low Space'), Color('{autocyan}Nominal Space{/autocyan}'), Color('Excessive Space')],
        [Color('Low Load'), Color('Nominal Load'), Color('{autored}High Load{/autored}')],
        [Color('{autocyan}Low Free RAM{/autocyan}'), Color('Nominal Free RAM'), Color('High Free RAM')],
    ]
    table_instance = SingleTable(table_data, '192.168.0.105')
    table_instance.inner_heading_row_border = False
    table_instance.inner_row_border = True
    table_instance.justify_columns = {0: 'center', 1: 'center', 2: 'center'}
    return table_instance.table
Exemplo n.º 11
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def main():
    """Main function."""
    table_data = [
        ['Long String', ''],  # One row. Two columns. Long string will replace this empty string.
    ]
    table = SingleTable(table_data)

    # Calculate newlines.
    max_width = table.column_max_width(1)
    wrapped_string = '\n'.join(wrap(LONG_STRING, max_width))
    table.table_data[0][1] = wrapped_string

    print(table.table)
Exemplo n.º 12
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def fancy_table(table_headers, *table_rows):
    """Creates a fancy table string from the given data

    :param table_headers: Iterable contains the table's headers
    :param table_rows: Iterable elements contain the table rows (body)
    :return: Formatted string represents the newly created table
    """
    table_data = [table_headers]
    table_data.extend(table_rows)

    table = SingleTable(table_data=table_data)
    table.inner_row_border = True

    return table.table
Exemplo n.º 13
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def _print_deployment_summary(env):
    table_data = [
        ["Project name:", env.project_name],
        ["Target:", env.target_name],
        ["User:"******"Host(s):", "; ".join(env.hosts)],
    ]

    table = SingleTable(table_data)
    table.title = Color('{autoyellow}Deployment configuration{/autoyellow}')
    table.justify_columns = {0: 'left', 1: 'left'}
    table.inner_row_border = False
    table.inner_heading_row_border = False

    _print_table(table)
Exemplo n.º 14
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def show_matches():
    from models import Match
    from terminaltables import SingleTable

    # Initialize table data
    data = [['keyword', 'answer']]

    # List all matches
    matches = list(Match.select().order_by(Match.keyword, Match.id))
    for match in matches:
        data.append([str(match.keyword), str(match.answer).replace('\n', '↵')[:30]])

    # Create and print table
    table = SingleTable(data)
    table.title = '{} dialogues'.format(len(matches))
    print(table.table)
Exemplo n.º 15
0
    def show_packet(self):
        table_data=[
            ['SendID', 'RecvID', 'RootEvent'],
            ['qwe', 'qwe', 'qwe']
        ]
        table=SingleTable(table_data)
        table.title=Color('{autocyan}Packet 1/2{/autocyan}')
        print table.table

        table_data2=[
            ['Event', 'From', 'Topology', 'IsTested'],
            ['to tez tabl', 'to tez', 'to tez']
        ]
        table2=SingleTable(table_data2)
        table2.title=Color('{autocyan}Packet 2/2{/autocyan}')
        print ""
        print table2.table
Exemplo n.º 16
0
def fill_tabel(app):
    table_data = [
        ['{0: <20}'.format('Title'),Color('{autoblue}%-50s{/autoblue}' % app.title)],
        ['{0: <20}'.format('URL'), Color('{autocyan}%s{/autocyan}' % app.url)],
        ['{0: <20}'.format('Price'), Color('{autogreen}%s{/autogreen}' % app.price)],
        ['{0: <20}'.format('Category'),Color('{autogreen}%s{/autogreen}' % app.category)],
        ['{0: <20}'.format('Release'),Color('{autogreen}%s{/autogreen}' % app.release)],
        ['{0: <20}'.format('Version') ,Color('{autogreen}%s{/autogreen}' % app.version)],
        ['{0: <20}'.format('Size'),Color('{autogreen}%s{/autogreen}' % app.size)],
        ['{0: <20}'.format('Language(s)'),Color('{autogreen}%s{/autogreen}' % app.language)],
        ['{0: <20}'.format('Developer'),Color('{autogreen}%s{/autogreen}' % app.developer)],
        ['{0: <20}'.format('Compatibility'),Color('{autogreen}%s...{/autogreen}' % ".".join(app.compatibility.split('.')[:2]))],
        ['{0: <20}'.format('Description:'),Color('{autocyan}%-50s{/autocyan}' % app.description)],
    ]
    table = SingleTable(table_data)
    table.inner_column_border = False
    table.inner_heading_row_border = False
    return table
def test_single_line():
    """Test single-lined cells."""
    table_data = [
        ['Name', 'Color', 'Type'],
        ['Avocado', 'green', 'nut'],
        ['Tomato', 'red', 'fruit'],
        ['Lettuce', 'green', 'vegetable'],
        ['Watermelon', 'green'],
        [],
    ]
    table = SingleTable(table_data, 'Example')
    table.inner_footing_row_border = True
    table.justify_columns[0] = 'left'
    table.justify_columns[1] = 'center'
    table.justify_columns[2] = 'right'
    actual = table.table

    expected = (
        u'\u250cExample\u2500\u2500\u2500\u2500\u2500\u252c\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u252c\u2500\u2500'
        u'\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2510\n'

        u'\u2502 Name       \u2502 Color \u2502      Type \u2502\n'

        u'\u251c\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u253c\u2500\u2500\u2500\u2500'
        u'\u2500\u2500\u2500\u253c\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2524\n'

        u'\u2502 Avocado    \u2502 green \u2502       nut \u2502\n'

        u'\u2502 Tomato     \u2502  red  \u2502     fruit \u2502\n'

        u'\u2502 Lettuce    \u2502 green \u2502 vegetable \u2502\n'

        u'\u2502 Watermelon \u2502 green \u2502           \u2502\n'

        u'\u251c\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u253c\u2500\u2500\u2500\u2500'
        u'\u2500\u2500\u2500\u253c\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2524\n'

        u'\u2502            \u2502       \u2502           \u2502\n'

        u'\u2514\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2534\u2500\u2500\u2500\u2500'
        u'\u2500\u2500\u2500\u2534\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2500\u2518'
    )
    assert actual == expected
Exemplo n.º 18
0
def test_single_line():
    """Test single-lined cells."""
    table_data = [
        ['Name', 'Color', 'Type'],
        ['Avocado', 'green', 'nut'],
        ['Tomato', 'red', 'fruit'],
        ['Lettuce', 'green', 'vegetable'],
        ['Watermelon', 'green'],
        [],
    ]
    table = SingleTable(table_data, 'Example')
    table.inner_footing_row_border = True
    table.justify_columns[0] = 'left'
    table.justify_columns[1] = 'center'
    table.justify_columns[2] = 'right'
    actual = table.table

    expected = (
        '\033(0\x6c\033(BExample\033(0\x71\x71\x71\x71\x71\x77\x71\x71\x71\x71\x71\x71\x71\x77\x71\x71\x71\x71\x71\x71'
        '\x71\x71\x71\x71\x71\x6b\033(B\n'

        '\033(0\x78\033(B Name       \033(0\x78\033(B Color \033(0\x78\033(B      Type \033(0\x78\033(B\n'

        '\033(0\x74\x71\x71\x71\x71\x71\x71\x71\x71\x71\x71\x71\x71\x6e\x71\x71\x71\x71\x71\x71\x71\x6e\x71\x71\x71\x71'
        '\x71\x71\x71\x71\x71\x71\x71\x75\033(B\n'

        '\033(0\x78\033(B Avocado    \033(0\x78\033(B green \033(0\x78\033(B       nut \033(0\x78\033(B\n'

        '\033(0\x78\033(B Tomato     \033(0\x78\033(B  red  \033(0\x78\033(B     fruit \033(0\x78\033(B\n'

        '\033(0\x78\033(B Lettuce    \033(0\x78\033(B green \033(0\x78\033(B vegetable \033(0\x78\033(B\n'

        '\033(0\x78\033(B Watermelon \033(0\x78\033(B green \033(0\x78\033(B           \033(0\x78\033(B\n'

        '\033(0\x74\x71\x71\x71\x71\x71\x71\x71\x71\x71\x71\x71\x71\x6e\x71\x71\x71\x71\x71\x71\x71\x6e\x71\x71\x71\x71'
        '\x71\x71\x71\x71\x71\x71\x71\x75\033(B\n'

        '\033(0\x78\033(B            \033(0\x78\033(B       \033(0\x78\033(B           \033(0\x78\033(B\n'

        '\033(0\x6d\x71\x71\x71\x71\x71\x71\x71\x71\x71\x71\x71\x71\x76\x71\x71\x71\x71\x71\x71\x71\x76\x71\x71\x71\x71'
        '\x71\x71\x71\x71\x71\x71\x71\x6a\033(B'
    )
    assert actual == expected
Exemplo n.º 19
0
def show_app_item(a):
    x = lambda s: Color('{autogreen}%s{/autogreen}' % s)
    y = lambda s: '{0: <20}'.format(s)
    table_data = [
        [y('Title'), x(a.title)],
        [y('URL'), x(a.url)],
        [y('Price'), x(a.price)],
        [y('Category'), x(a.category)],
        [y('Release'), x(a.release)],
        [y('Version'), x(a.version)],
        [y('Size'), x(a.size)],
        [y('Language(s)'), x(a.language)],
        [y('Developer'), x(a.developer)],
        [y('Compatibility'), x(a.compatibility)],
        [y('Description:'), x(a.description)],
    ]
    table = SingleTable(table_data)
    table.inner_column_border = False
    table.inner_heading_row_border = False
    print(table.table)
Exemplo n.º 20
0
 def do_status(self, line):
     """
 Display process pool status.
     """
     self.clean_tasks()
     # this prevents from re-displaying the same status table once ENTER is pressed
     #  (marker 'restart' is handled in emptyline() hereafter
     if line == 'restart' and self.__last_tasklist is not None and \
                     hash(frozenset(self.tasklist)) == self.__last_tasklist:
         return
     self.__last_tasklist = hash(frozenset(copy(self.tasklist)))
     if len(self.tasklist) == 0:
         data = [['No task currently running']]
     else:
         data = [['Task', 'Status', 'Result']]
         for task, info in sorted(self.tasklist.items(), key=lambda x: str(x[0])):
             data.append([str(task).ljust(15), info['status'].ljust(10), str(info['result']).ljust(40)])
     table = SingleTable(data, 'Status of opened tasks')
     table.justify_columns = {0: 'center', 1: 'center', 2: 'center'}
     print(table.table)
Exemplo n.º 21
0
def table_abcd():
    """Return table string to be printed. Two tables on one line."""
    table_instance = SingleTable([['A', 'B'], ['C', 'D']])

    # Get first table lines.
    table_instance.outer_border = False
    table_inner_borders = table_instance.table.splitlines()

    # Get second table lines.
    table_instance.outer_border = True
    table_instance.inner_heading_row_border = False
    table_instance.inner_column_border = False
    table_outer_borders = table_instance.table.splitlines()

    # Combine.
    smallest, largest = sorted([table_inner_borders, table_outer_borders], key=len)
    smallest += [''] * (len(largest) - len(smallest))  # Make both same size.
    combined = list()
    for i, row in enumerate(largest):
        combined.append(row.ljust(10) + '          ' + smallest[i])
    return '\n'.join(combined)
Exemplo n.º 22
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 def get_grid(self, astype='table'):
     from pandas import DataFrame as df
     geoms = self.geometries().keys()
     phases = [p.name for p in self.phases().values() if not hasattr(p, 'mixture')]
     grid = df(index=geoms, columns=phases)
     for r in grid.index:
         for c in grid.columns:
             phys = self.find_physics(phase=self[c], geometry=self[r])
             if phys is not None:
                 grid.loc[r][c] = phys.name
             else:
                 grid.loc[r][c] = '---'
     if astype == 'pandas':
         pass
     elif astype == 'dict':
         grid = grid.to_dict()
     elif astype == 'table':
         from terminaltables import SingleTable
         headings = [self.network.name] + list(grid.keys())
         g = [headings]
         for row in list(grid.index):
             g.append([row] + list(grid.loc[row]))
         grid = SingleTable(g)
         grid.title = 'Project: ' + self.name
         grid.padding_left = 3
         grid.padding_right = 3
         grid.justify_columns = {col: 'center' for col in range(len(headings))}
     elif astype == 'grid':
         grid = ProjectGrid()
     return grid
Exemplo n.º 23
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def main():
    user_agent = 'Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/46.0.2490.80 Safari/537.36'
    headers = { 'User-Agent' : user_agent }
    trackingid = raw_input("Please enter the trackingid of your UPS package : ")
    
    url1 = "https://wwwapps.ups.com/WebTracking/processRequest?HTMLVersion=5.0&Requester=NES&AgreeToTermsAndConditions=yes&loc=en_US&"
    url2 = "tracknum={0}".format(trackingid)
    if len(trackingid) < 18:
        print "The tracking id is wrong"
    url = url1 + url2
    city,country,statusdate,localtime,activity = ups(url,headers)
    table_data = [["Tracking ID",trackingid],
                  ["City",city],
                  ["Country",country],
                  ["Status Date",statusdate],
                  ["Status Time",localtime],
                  ["Status",activity]]
    table = SingleTable(table_data)    
    table.title = "UPS Package Status"
    table.justify_columns = {0: 'center', 1: 'center'}
    table.inner_row_border = True
    print ""
    print table.table                    
Exemplo n.º 24
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    def handleDiscovery(self, dev, isNewDev, isNewData):
        if not isNewDev:
            return 
        elif self.opts.mac is not None and dev.addr != self.opts.mac:
            return 
        elif dev.rssi < self.opts.sensitivity:
            return

        vendor = vendors.find(dev.addr)
        vlabel = yellow( vendor + ' ' ) if vendor is not None else '?'
        clabel = green( u'\u2713' ) if dev.connectable else red( u'\u2715' )
        dlabel = "(no data) " if not dev.scanData else ""
        title  = " %s (%s dBm) %s" % ( bold(dev.addr), dev.rssi, dlabel )
        tdata  = [
            [ 'Vendor', vlabel ],
            [ 'Allows Connections', clabel ],
            [ 'Address Type', dev.addrType]
        ]

        for ( tag, desc, val ) in dev.getScanData():
            if desc == 'Flags':
                tdata.append([ 'Flags', self._parseFlags(val) ])

            # short local name or complete local name
            elif tag in [8, 9]:
                try:
                    tdata.append([ desc, yellow( val.decode('utf-8') ) ])
                except UnicodeEncodeError:
                    tdata.append([ desc, yellow( repr(val) ) ])
            else:
                tdata.append([ desc, repr(val) ])


        table = SingleTable(tdata, title)
        table.inner_heading_row_border = False

        print table.table + "\n"
Exemplo n.º 25
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def hinton_diagram(arr, max_arr=None):
    max_arr = arr if max_arr is None else max_arr
    max_val = max(abs(np.max(max_arr)), abs(np.min(max_arr)))
    diagram = [list([hinton_diagram_value(x, max_val) for x in _arr]) for _arr in arr]

    table = SingleTable(diagram)
    table.inner_heading_row_border = False
    table.inner_footing_row_border = False
    table.inner_column_border = False
    table.inner_row_border = False
    table.column_max_width = 1

    return table.table
Exemplo n.º 26
0
#!/usr/bin/env python
"""Simple example usage of terminaltables and column_max_width().

Just prints sample text and exits.
"""

from __future__ import print_function

from textwrap import wrap

from terminaltables import SingleTable


# Setup string and table.
long_string = ('Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore '
               'et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut '
               'aliquip ex ea commodo consequat. Duis aute irure dolor in reprehenderit in voluptate velit esse cillum '
               'dolore eu fugiat nulla pariatur. Excepteur sint occaecat cupidatat non proident, sunt in culpa qui '
               'officia deserunt mollit anim id est laborum.')
table = SingleTable([['Long String', '']])

# Calculate newlines.
max_width = table.column_max_width(1)
wrapped_string = '\n'.join(wrap(long_string, max_width))
table.table_data[0][1] = wrapped_string

print(table.table)
Exemplo n.º 27
0
 def print_pokemon(self):
     sorted_mons = sorted(self.pokemon,
                          key=lambda k:
                          (k['pokedex_number'], -k['iv_percent']))
     groups = groupby(sorted_mons, key=lambda k: k['pokedex_number'])
     table_data = [[
         u'Pokémon', 'Level', 'CP', 'IV %', 'ATK', 'DEF', 'STA', 'Candy',
         'Recommendation'
     ]]
     total_evolutions = 0
     total_transfers = 0
     print u'%d Pokémon found.' % len(sorted_mons)
     for key, group in groups:
         group = list(group)
         pokemon_name = self.pokemon_list[str(key)]
         best_iv_pokemon = max(group, key=lambda k: k['iv_percent'])
         best_iv_pokemon['best_iv'] = True
         candy_count = self.candy[key]
         result = pogotransfercalc.calculate(pokemon_count=len(group),
                                             candy_count=candy_count,
                                             pokedex_number=key)
         evolutions = result['evolutions']
         total_evolutions += evolutions
         if evolutions:
             for pokemon in group[:evolutions]:
                 pokemon['message'] = 'evolve'
         transfers = result['transfers']
         transfer_count = 0
         if transfers:
             for pokemon in reversed(group[evolutions:]):
                 if pokemon['is_favorite']:
                     pokemon['message'] = u'keep (★)'
                     continue
                 if pokemon['has_costume']:
                     pokemon['message'] = u'keep (costume)'
                     continue
                 if pokemon['is_shiny']:
                     pokemon['message'] = u'keep (shiny)'
                     continue
                 if pokemon['iv_percent'] < self.config.iv:
                     pokemon['message'] = 'transfer'
                     pokemon['transfer'] = True
                     transfer_count += 1
                     total_transfers += 1
                     if transfer_count == transfers:
                         break
                     continue
         for pokemon in group:
             if pokemon['iv_percent'] >= self.config.iv:
                 iv_msg = u'(IV ≥ %d%%)' % self.config.iv
                 if 'message' in pokemon:
                     pokemon['message'] += ' %s' % iv_msg
                 else:
                     pokemon['message'] = 'keep %s' % iv_msg
             row_data = [
                 pokemon_name + pokemon['gender'] +
                 (u'✨' if pokemon['is_shiny'] else '') +
                 (u'☃' if pokemon['has_costume'] else '') +
                 (u'★' if pokemon['is_favorite'] else ''), pokemon['level'],
                 pokemon['cp'], '{0:.0f}%'.format(pokemon['iv_percent']),
                 pokemon['attack'], pokemon['defense'], pokemon['stamina'],
                 candy_count,
                 pokemon.get('message', '')
             ]
             table_data.append(row_data)
     table = SingleTable(table_data)
     table.justify_columns = {
         0: 'left',
         1: 'right',
         2: 'right',
         3: 'right',
         4: 'right',
         5: 'right',
         6: 'right',
         7: 'right'
     }
     print table.table
     table = SingleTable([
         ['Total suggested transfers',
          format_number(total_transfers)],
         ['Total evolutions',
          format_number(total_evolutions)],
         [
             'Total XP from evolutions',
             format_number(total_evolutions * 500)
         ],
         [
             'Total XP from evolutions with lucky egg',
             format_number(total_evolutions * 1000)
         ],
     ])
     table.inner_heading_row_border = False
     table.justify_columns = {0: 'left', 1: 'right'}
     print table.table
Exemplo n.º 28
0
    def OutputTable(self, msg, select_tables):
        if self.numberLoop < 6:
            self.numberLoop = self.numberLoop + 1
        else:
            self.numberLoop = 0

        if len(self.all_data) > 6:
            del self.all_data[-6]
        self.all_data.append([msg])
        data = self.all_data

        if select_tables == 1:
            table = AsciiTable(data)
            print(table.table)

        elif select_tables == 2:
            try:
                self.account_info = self.requestStringNowait(
                    "update.php",
                    accesstoken=self.Configuration["accessToken"])
                self.exploits = int(self.account_info["exploits"])
                progress = round(int(self.account_info["exp"])) / round(
                    int(self.account_info["expreq"]))
                account_information = [
                    ["your account information", "update information"],
                    [
                        "{0}: {1}\n{2}: {3}\n{4}: {5}\n{6}: {7}\n{8}: {9}\n{10}: {11}"
                        .format("Your exploits ", self.exploits, "Your spam ",
                                self.account_info["spam"],
                                "Your network speed ",
                                self.account_info["inet"], "Your money ",
                                self.account_info["money"], "Your IP ",
                                self.account_info["ipaddress"],
                                "Your netcoins ",
                                self.account_info["netcoins"]),
                        "{}: {}\n{}: {}\n{}: {}\n{}: {}\n{}: {}, XP({}%)".
                        format("Your SDK ", self.account_info["sdk"],
                               "Your Firewall ", self.account_info["fw"],
                               "Your Antivirus ", self.account_info["av"],
                               "Your BruteForce ", self.account_info["brute"],
                               "Your level ", self.account_info["level"],
                               round(progress * 100, 1))
                    ]
                ]
            except KeyError:
                account_information = [[
                    "your account information", "update information"
                ], ["Error", "Error"]]
                sys.exit()
            table1 = SingleTable(data)
            table2 = SingleTable(account_information)
            time.sleep(0.3)
            if self.platform == "Linux":
                print("\033[H\033[J")
            else:
                os.system('cls')

            req_version = (3, 0)
            cur_version = sys.version_info
            # for windows Try to print tables else pass python 2
            try:
                print(table1.table)
                print(table2.table)
                if windows is False:
                    sys.stdout.write("""\nCMD: [m] Get Miner info
     [a] Get All applications
     [q] Quit Program

Waiting for user input : """)
                    with raw_mode(sys.stdin):
                        try:
                            if cur_version <= req_version:
                                while True:
                                    ch = sys.stdin.read(1)
                                    if ch == "a":
                                        p = Player(self)
                                        getTask = self.requestString(
                                            "tasks.php",
                                            accesstoken=self.
                                            Configuration["accessToken"])
                                        sdk = p.getHelperApplication(
                                        )["SDK"]["level"]
                                        ipsp = p.getHelperApplication(
                                        )["IPSP"]["level"]
                                        bp = p.getHelperApplication(
                                        )["BP"]["level"]
                                        brute = p.getHelperApplication(
                                        )["BRUTE"]["level"]
                                        spam = p.getHelperApplication(
                                        )["SPAM"]["level"]
                                        fw = p.getHelperApplication(
                                        )["FW"]["level"]
                                        av = p.getHelperApplication(
                                        )["AV"]["level"]
                                        sys.stdout.write("\n \
    SDK: {} \
    IPSP: {}\n \
    Bank Protect: {} \
    BruteForce: {}\n \
    SPAM: {} \
    Firewall: {}\n \
    Antivirus: {}".format(sdk, ipsp, bp, brute, spam, fw, av))

                                        time.sleep(1.5)
                                    if ch == "m":
                                        self.minefinish = int(
                                            self.account_info['minerLeft'])
                                        sys.stdout.write(
                                            "\nminerLeft {} in secondes".
                                            format(self.minefinish))
                                        sys.stdout.write(
                                            "\nwaiting until {} --- {}".format(
                                                self.tuntin(self.minefinish),
                                                datetime.timedelta(seconds=(
                                                    self.minefinish))))
                                        time.sleep(1)
                                    if ch == "q":
                                        sys.stdout.write(
                                            "\nok ok, good bye ;)\n")
                                        sys.exit()
                            else:
                                while True:
                                    ch = sys.stdin.read(1)
                                    if ch == "a":
                                        p = Player(self)
                                        getTask = self.requestString(
                                            "tasks.php",
                                            accesstoken=self.
                                            Configuration["accessToken"])
                                        sdk = p.getHelperApplication(
                                        )["SDK"]["level"]
                                        ipsp = p.getHelperApplication(
                                        )["IPSP"]["level"]
                                        bp = p.getHelperApplication(
                                        )["BP"]["level"]
                                        brute = p.getHelperApplication(
                                        )["BRUTE"]["level"]
                                        spam = p.getHelperApplication(
                                        )["SPAM"]["level"]
                                        fw = p.getHelperApplication(
                                        )["FW"]["level"]
                                        av = p.getHelperApplication(
                                        )["AV"]["level"]
                                        sys.stdout.write("\n \
     SDK: {} \
     IPSP: {}\n \
     Bank Protect: {} \
     BruteForce: {}\n \
     SPAM: {} \
     Firewall: {}\n \
     Antivirus: {}".format(sdk, ipsp, bp, brute, spam, fw, av))

                                        time.sleep(1.5)
                                    if str(ch) == "m":
                                        self.minefinish = int(
                                            self.account_info['minerLeft'])
                                        sys.stdout.write(
                                            "\nminerLeft {} in secondes".
                                            format(self.minefinish))
                                        sys.stdout.write(
                                            "\nwaiting until {} --- {}".format(
                                                self.tuntin(self.minefinish),
                                                datetime.timedelta(seconds=(
                                                    self.minefinish))))
                                        time.sleep(1)
                                    if ch == "q":
                                        sys.stdout.write(
                                            "\nok ok, good bye ;)\n")
                                        sys.exit()
                                    break
                        except (KeyboardInterrupt, EOFError):
                            pass
            except IOError as e:
                pass
Exemplo n.º 29
0
def list_all():
    print '\n{}ENCODERS{}'.format(logs.bold(logs.purple('>>')),logs.bold(logs.purple('<<')))
    table_data = [['--NAME--', '--ARCH--', '--DESCRIPTION--', '--RANK--']]
    encoders = []
    for enc in os.walk(PATH+'encoders'):
        encoders.append(enc)
    encoders = encoders[0][2]
    cdrs = []
    for enc in encoders:
        if ('init' in enc or '.pyc' in enc):
            pass
        else:
            cdrs.append(enc.replace('.py', ''))
    for encoder in cdrs:
        try:
            encoder = importlib.import_module('encoders.'+encoder).Encoder()
            if encoder.rank == 'unstable':
                rank = logs.red('UNSTABLE')
            if encoder.rank == 'manual':
                rank = logs.yellow('MANUAL')
            elif encoder.rank == 'good':
                rank = logs.green('GOOD')
            elif encoder.rank == 'excellent':
                rank = logs.blue('EXCELLENT')
        except:
            rank = 'N/A'
        table_data.append([encoder.name, encoder.arch, encoder.description, rank])
    table_instance = SingleTable(table_data) 
    table_instance.inner_heading_row_border = True
    table_instance.inner_row_border = False
    table_instance.justify_columns = {0: 'left', 1: 'left', 2: 'left'}
    print table_instance.table

    print '\n{}EGGHUNTERS{}'.format(logs.bold(logs.purple('>>')),logs.bold(logs.purple('<<')))
    table_data = [['--NAME--', '--PLATFORM--', '--SIZE--', '--EGG SIZE--']]
    for egg in eggs:
        table_data.append([egg, eggs[egg][1],'{} bytes'.format(eggs[egg][2]),'{} bytes'.format(eggs[egg][3])])
    table_instance = SingleTable(table_data) 
    table_instance.inner_heading_row_border = True
    table_instance.inner_row_border = False
    table_instance.justify_columns = {0: 'left', 1: 'left', 2: 'left'}
    print table_instance.table

    print '\n{}FORMATS{}'.format(logs.bold(logs.purple('>>')),logs.bold(logs.purple('<<')))
    table_data = [['--FORMAT--', '--DESCRIPTION--']]
    for func in dir(wrappers):
        if "format_"  in func:
            table_data.append([func.replace("format_", ''), eval("wrappers.{}".format(func)).__doc__])
    table_instance = SingleTable(table_data) 
    table_instance.inner_heading_row_border = True
    table_instance.inner_row_border = False
    table_instance.justify_columns = {0: 'left', 1: 'left', 2: 'left'}
    print table_instance.table
Exemplo n.º 30
0
def visit_stash(player):
    while True:
        print(
            SingleTable([['How much cocaine would you like to deposit?'],
                         [
                             'Stash: ' + str(player.stash.cocaine) +
                             ' | Coat: ' + str(player.cocaine)
                         ]]).table)
        try:
            ans = int(input("\n> "))
            if ans == 0:
                break
            else:
                if player.stash.can_transfer("cocaine", ans):
                    player.stash.transfer("cocaine", ans)
                    break
                else:
                    clear()
                    print(SingleTable([["You don't have that much!"]]).table)
        except ValueError as e:
            clear()
            print(SingleTable([["That isn't a number!"]]).table)
    clear()
    while True:
        print(
            SingleTable([['How much heroin would you like to deposit?'],
                         [
                             'Stash: ' + str(player.stash.heroin) +
                             ' | Coat: ' + str(player.heroin)
                         ]]).table)
        try:
            ans = int(input("\n> "))
            if ans == 0:
                break
            else:
                if player.stash.can_transfer("heroin", ans):
                    player.stash.transfer("heroin", ans)
                    break
                else:
                    clear()
                    print(SingleTable([["You don't have that much!"]]).table)
        except ValueError as e:
            clear()
            print(SingleTable([["That isn't a number!"]]).table)
    clear()
    while True:
        print(
            SingleTable([['How much acid would you like to deposit?'],
                         [
                             'Stash: ' + str(player.stash.acid) + ' | Coat: ' +
                             str(player.acid)
                         ]]).table)
        try:
            ans = int(input("\n> "))
            if ans == 0:
                break
            else:
                if player.stash.can_transfer("acid", ans):
                    player.stash.transfer("acid", ans)
                    break
                else:
                    clear()
                    print(SingleTable([["You don't have that much!"]]).table)
        except ValueError as e:
            clear()
            print(SingleTable([["That isn't a number!"]]).table)
    clear()
    while True:
        print(
            SingleTable([['How much weed would you like to deposit?'],
                         [
                             'Stash: ' + str(player.stash.weed) + ' | Coat: ' +
                             str(player.weed)
                         ]]).table)
        try:
            ans = int(input("\n> "))
            if ans == 0:
                break
            else:
                if player.stash.can_transfer("weed", ans):
                    player.stash.transfer("weed", ans)
                    break
                else:
                    clear()
                    print(SingleTable([["You don't have that much!"]]).table)
        except ValueError as e:
            clear()
            print(SingleTable([["That isn't a number!"]]).table)
    clear()
    while True:
        print(
            SingleTable([['How much speed would you like to deposit?'],
                         [
                             'Stash: ' + str(player.stash.speed) +
                             ' | Coat: ' + str(player.speed)
                         ]]).table)
        try:
            ans = int(input("\n> "))
            if ans == 0:
                break
            else:
                if player.stash.can_transfer("speed", ans):
                    player.stash.transfer("speed", ans)
                    break
                else:
                    clear()
                    print(SingleTable([["You don't have that much!"]]).table)
        except ValueError as e:
            clear()
            print(SingleTable([["That isn't a number!"]]).table)
    clear()
    while True:
        print(
            SingleTable([['How many ludes would you like to deposit?'],
                         [
                             'Stash: ' + str(player.stash.ludes) +
                             ' | Coat: ' + str(player.ludes)
                         ]]).table)
        try:
            ans = int(input("\n> "))
            if ans == 0:
                break
            else:
                if player.stash.can_transfer("ludes", ans):
                    player.stash.transfer("ludes", ans)
                    break
                else:
                    clear()
                    print(SingleTable([["You don't have that many!"]]).table)
        except ValueError as e:
            clear()
            print(SingleTable([["That isn't a number!"]]).table)
    clear()
Exemplo n.º 31
0
def cops_chase(player):
    if 1 == randint(1, 10):
        cops = 0
        r = randint(1, 10)
        if r >= 1 or r <= 6:
            cops = 2
        elif r >= 7 or r <= 9:
            cops = 3
        else:
            cops = 4
        print(
            SingleTable([[
                "Officer Headass and " + str(cops) +
                " other(s) are chasing you!"
            ]]).table)
        if player.guns >= 1:
            while True:
                print(
                    SingleTable([["Would you like to (R)un or (F)ight?"],
                                 ["HP: " + str(player.health) + "/ 20"]
                                 ]).table)
                a = input("\n> ")
                aout = check_ans_yn(a)
                if a == 1:
                    if 1 == randint(1, 6):
                        drug = choice([
                            "cocaine", "heroin", "acid", "weed", "speed",
                            "ludes"
                        ])
                        pdrug = p.get_amt(drug)
                        amnt = randint(1, 10)
                        pdrug -= amnt
                        clear()
                        print(
                            SingleTable([[
                                "You got away but you dropped " + str(amnt) +
                                " bags of " + drug.capitalize() +
                                " while running!!"
                            ]]))
                        input("Press ENTER to Continue")
                        break
                    else:
                        if randint(1, 6) in [1, 6]:
                            player.health -= 1
                            clear()
                            print(
                                SingleTable([[
                                    "You got hit by one of their shots and lost some health!"
                                ]]).table)
                        else:
                            drug = choice([
                                "cocaine", "heroin", "acid", "weed", "speed",
                                "ludes"
                            ])
                            pdrug = p.get_amt(drug)
                            amnt = randint(1, 10)
                            pdrug -= amnt
                            clear()
                            print(
                                SingleTable([[
                                    "You got away but you dropped " +
                                    str(amnt) + " bags of " +
                                    drug.capitalize() + "while running!!"
                                ]]))
                            input("Press ENTER to Continue")
                            break
                elif a == 2:
                    if 1 == randint(1, 3):
                        cops -= 1
                        if cops == 0:
                            break
                        clear()
                        print(
                            SingleTable([["You took one of them out!"]]).table)
                    else:
                        player.health -= 1
                        clear()
                        print(
                            SingleTable([[
                                "You got hit by one of their shots and lost some health!"
                            ]]).table)
        else:
            while True:
                print(
                    SingleTable([["Press ENTER to Try and Run"],
                                 ["HP: " + str(player.health) + "/ 20"]
                                 ]).table)
                input()
                if 1 == randint(1, 6):
                    break
                else:
                    player.health -= 1
                    clear()
                    print(
                        SingleTable([[
                            "You got hit by one of their shots and lost some health!"
                        ]]).table)
            clear()
            print(SingleTable([["You got away from the pigs!"]]).table)
            input("Press ENTER to Continue")
Exemplo n.º 32
0
 def makeDashbTable(self, data):
     table = SingleTable(data)
     table.inner_heading_row_border = False
     table.inner_row_border = True
     table.justify_columns = {0: 'center', 1: 'center'}
     return table
Exemplo n.º 33
0
def main():

    print colored('Welcome to MVC & MVVM Validation Model for iOS (MMVMi)',
                  'cyan')
    print colored('Phase one Massive Controller detector (MCD): ', 'cyan')

    controllers = [
        'UIViewController', 'UITabBarController', 'UITableViewController',
        'UICollectionViewController', 'UIActivityViewController',
        'UICloudSharingController', 'UIDocumentInteractionController',
        'UIDocumentMenuViewController', 'UIDocumentPickerViewController',
        'UIDocumentPickerExtensionViewController', 'UIImagePickerController',
        'UIInputViewController', 'UINavigationController', 'UIPageControl',
        'UIPageViewController', 'UIPopoverController',
        'UIPopoverPresentationController', 'UIPresentationController',
        'UIPrinterPickerController', 'UIPrintInteractionController',
        'UIReferenceLibraryViewController', 'UIRefreshControl',
        'UISearchContainerViewController', 'UISearchController',
        'UISearchDisplayController', 'UISplitViewController',
        'GLKViewController', 'AVPlayerViewController'
    ]

    views = [
        'UIView', 'UICollectionView', 'UICollectionReusableView',
        'UITableView', 'UICollectionViewCell', 'UITableViewCell', 'UILabel',
        'UIActivityIndicatorView', 'UIButton', 'UIProgressView', 'UIStackView',
        'UIImageView', 'UITextView', 'UIScrollView', 'UIPickerView',
        'UIVisualEffectView', 'MKMapView', 'MTKView', 'GLKView', 'ARSCNView',
        'WKWebView', 'UINavigationBar', 'UIToolbar', 'UITabBar', 'UISearchBar',
        'UIContainerView'
    ]

    extension = ".swift"
    extLen = len(extension)

    anotherCheck = []
    allControllers = []
    controllers_list = []
    view_list = []

    path = raw_input(colored("Please enter your project path: ", 'white'))

    # replace the white space at the end of the project path with '/'
    project_path = path.replace(' ', '/')

    controller_pattern = re.compile("class .*: (?=(" +
                                    "|".join(map(re.escape, controllers)) +
                                    "))")

    view_pattern = re.compile("class .*: \\b(?=(" +
                              "|".join(map(re.escape, views)) + ")\\b)")

    for path, subdirs, files in os.walk(project_path):
        for filename in files:
            if filename[len(filename) - extLen:] == '.swift':
                # open the file to read it
                current_file = open(os.path.join(path, filename))

                for line in current_file:
                    for match in re.finditer(view_pattern, line):
                        view_list.append(filename[:-extLen])

                    for match in re.finditer(controller_pattern, line):
                        # count # of lines for each controller object
                        num_lines = sum(
                            1 for theLine in open(os.path.join(path, filename))
                            if theLine.split() and not '//' in theLine)

                        controllers_list.append(filename[:-extLen])
                        allControllers.append((filename[:-extLen], num_lines))

                if not (filename[:-extLen] in controllers_list
                        or filename[:-extLen] in view_list):
                    anotherCheck.append(
                        (filename[:-extLen], os.path.join(path, filename)))

    # another check is needed to check if a class is a subclass of controller classes
    project_controllers = re.compile(
        "class .*: \\b(?=(" + "|".join(map(re.escape, controllers_list)) +
        ")\\b)")

    for theFile, thePath in anotherCheck:
        currentFile = open(thePath)

        for line in currentFile:
            for match in re.finditer(project_controllers, line):

                num_linesy = sum(1 for theLiney in open(thePath)
                                 if theLiney.split() and not '//' in theLiney)
                allControllers.append((theFile, num_linesy))
                controllers_list.append(theFile)

    total_controllers = len(allControllers)

    print colored(
        '\nThis project has',
        'white'), colored('%d', 'magenta') % total_controllers, colored(
            'controllers. \n', 'white')

    sorted_controllers = sorted(allControllers,
                                key=lambda x: x[1],
                                reverse=True)

    TABLE_DATA = (('\nController Name', '\nTotal number of lines',
                   '\nController status'), )

    for controller_name, lines in sorted_controllers:
        if lines > 300:
            TABLE_DATA += (controller_name, lines, "Massive Controller"),
        elif lines < 150:
            TABLE_DATA += (controller_name, lines, "Thin Controller"),
        elif lines >= 150 or lines <= 300:
            TABLE_DATA += (controller_name, lines, "Take care"),

    title = 'Massive Controller Detection'

    # SingleTable.
    table_instance = SingleTable(TABLE_DATA, title)
    table_instance.justify_columns[2] = 'left'
    print(table_instance.table)

    print colored('Welcome to phase two: Object Relations Validation (ORV)',
                  'cyan')

    model_objects = raw_input(
        colored("Please enter your Model files name: ", 'cyan'))
    model_list = model_objects.split()  # splits the input string on spaces

    modelView_objects = raw_input(
        colored("Please enter your Model View files name: ", 'cyan'))
    modelView_list = modelView_objects.split(
    )  # splits the input string on spaces

    rovFile = open("ROV.dot", "w")

    modelsPattern = re.compile("[^\"]\\b(?=(" +
                               "|".join(map(re.escape, model_list)) + ")\\b)")
    modelViewPattern = re.compile("[^\"]\\b(?=(" +
                                  "|".join(map(re.escape, modelView_list)) +
                                  ")\\b)")
    controllersPattern = re.compile(
        "[^\"]\\b(?=(" + "|".join(map(re.escape, controllers_list)) + ")\\b)")
    viewsPattern = re.compile("[^\"]\\b(?=(" +
                              "|".join(map(re.escape, view_list)) + ")\\b)")

    noDuplicate = {}

    with open('ROVtemplate.dot', 'r') as f:
        for line in f:
            if "Controller" in line:
                draw.writeOnCluster(rovFile, controllers_list, line)

            elif "label = \"View Model\"" in line:
                draw.writeOnCluster(rovFile, modelView_list, line)

            elif "label = \"View\"" in line:
                draw.writeOnCluster(rovFile, view_list, line)

            elif "label = \"Model\"" in line:
                draw.writeOnCluster(rovFile, model_list, line)

            else:
                rovFile.write(line)

        for path, subdirs, files in os.walk(project_path):
            for filename in files:
                # check all the relations between modelView objects and other objects
                if filename[:-extLen] in modelView_list:
                    modelView_objects = {
                        modelsPattern:
                        "",
                        controllersPattern:
                        "",
                        viewsPattern:
                        "which is a view object. Please fix this forbidden relation. \n"
                    }
                    draw.check_relations(filename, extLen, noDuplicate,
                                         rovFile, modelView_objects,
                                         modelView_list, path)

                # check all the relations between model objects and other objects
                if filename[:-extLen] in model_list:
                    model_objects = {
                        modelViewPattern:
                        "",
                        controllersPattern:
                        "which is a controller object. Please fix this forbidden relation. \n",
                        viewsPattern:
                        "which is a view object. Please fix this forbidden relation. \n"
                    }
                    draw.check_relations(filename, extLen, noDuplicate,
                                         rovFile, model_objects, model_list,
                                         path)

                # check all the relations between controllers objects and other objects
                if filename[:-extLen] in controllers_list:
                    controller_objects = {
                        modelsPattern:
                        "which is a model object. Please fix this forbidden relation. \n",
                        modelViewPattern: "",
                        viewsPattern: ""
                    }
                    draw.check_relations(filename, extLen, noDuplicate,
                                         rovFile, controller_objects,
                                         controllers_list, path)

                # check all the relations between view objects and other objects
                if filename[:-extLen] in view_list:
                    view_objects = {
                        modelsPattern:
                        "which is a model object. Please fix this forbidden relation. \n",
                        modelViewPattern: "",
                        controllersPattern: ""
                    }
                    draw.check_relations(filename, extLen, noDuplicate,
                                         rovFile, view_objects, view_list,
                                         path)

    rovFile.write("}")

    f.close()
    rovFile.close()
Exemplo n.º 34
0
from json import loads
from terminaltables import AsciiTable, SingleTable

#wczytanie api imgw
url = 'https://danepubliczne.imgw.pl/api/data/synop/'
print(get(url))
resp = get(url)

# print(resp.text)
# print(loads(resp.text))
#interfejs programu i wypisanie danych
print("Weather forecast")
user_city = str(input('Please choose a city: '))
cities = [user_city]
api_row = [
    ['City', 'Temperature', 'Wind Speed', 'Pressure']
]
for weather_row in loads(resp.text):
    # print(r)
    if weather_row['stacja'] in cities:
        # print(r['stacja'], r['temperatura'], r['predkosc_wiatru'], r['cisnienie']) dane z api imgw - odpowiednie listy
        api_row.append([
            weather_row['stacja'], 
            weather_row['temperatura'], 
            weather_row['predkosc_wiatru'], 
            weather_row['cisnienie']
        ])

weather_table = SingleTable(api_row)
print(weather_table.table)
Exemplo n.º 35
0
CONSIDER = set(["car"])
objCount = {obj: 0 for obj in CONSIDER}
frameDict = {}

# initialize dictionary which wil contain information regard the device active or not
lastActive = {}
lastActiveCheck = datetime.now()

# printout the detected obj in command line
print("[INFO] detecting: {}...".format(", ".join(obj for obj in CONSIDER)))



while True:
     
    table = SingleTable(tableParkiran)
    table.title = "Table Parkiran"
    table.inner_row_border = False
    print(table.table)

    # receive RPi name and frame from the RPi and ack
    (rpiName, frame) = imageHub.recv_image()
    imageHub.send_reply(b'OK')

    dtnow = datetime.now().strftime('%H:%M:%S %a-%d-%b')

    if rpiName not in lastActive.keys():
        print("[INFO] receiving data from {}...".format(rpiName))

    lastActive[rpiName] = datetime.now()
Exemplo n.º 36
0
def create_box_table(box):
    table_instance = SingleTable(box)
    table_instance.inner_heading_row_border = False
    table_instance.inner_row_border = True
    return table_instance
Exemplo n.º 37
0
    def printboard(self):
        table_instance = SingleTable(
            [[self.name, 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J'],
             [
                 '1', self.board[0, 0], self.board[0, 1], self.board[0, 2],
                 self.board[0, 3], self.board[0, 4], self.board[0, 5],
                 self.board[0, 6], self.board[0, 7], self.board[0, 8],
                 self.board[0, 9]
             ],
             [
                 '2', self.board[1, 0], self.board[1, 1], self.board[1, 2],
                 self.board[1, 3], self.board[1, 4], self.board[1, 5],
                 self.board[1, 6], self.board[1, 7], self.board[1, 8],
                 self.board[1, 9]
             ],
             [
                 '3', self.board[2, 0], self.board[2, 1], self.board[2, 2],
                 self.board[2, 3], self.board[2, 4], self.board[2, 5],
                 self.board[2, 6], self.board[2, 7], self.board[2, 8],
                 self.board[2, 9]
             ],
             [
                 '4', self.board[3, 0], self.board[3, 1], self.board[3, 2],
                 self.board[3, 3], self.board[3, 4], self.board[3, 5],
                 self.board[3, 6], self.board[3, 7], self.board[3, 8],
                 self.board[3, 9]
             ],
             [
                 '5', self.board[4, 0], self.board[4, 1], self.board[4, 2],
                 self.board[4, 3], self.board[4, 4], self.board[4, 5],
                 self.board[4, 6], self.board[4, 7], self.board[4, 8],
                 self.board[4, 9]
             ],
             [
                 '6', self.board[5, 0], self.board[5, 1], self.board[5, 2],
                 self.board[5, 3], self.board[5, 4], self.board[5, 5],
                 self.board[5, 6], self.board[5, 7], self.board[5, 8],
                 self.board[5, 9]
             ],
             [
                 '7', self.board[6, 0], self.board[6, 1], self.board[6, 2],
                 self.board[6, 3], self.board[6, 4], self.board[6, 5],
                 self.board[6, 6], self.board[6, 7], self.board[6, 8],
                 self.board[6, 9]
             ],
             [
                 '8', self.board[7, 0], self.board[7, 1], self.board[7, 2],
                 self.board[7, 3], self.board[7, 4], self.board[7, 5],
                 self.board[7, 6], self.board[7, 7], self.board[7, 8],
                 self.board[7, 9]
             ],
             [
                 '9', self.board[8, 0], self.board[8, 1], self.board[8, 2],
                 self.board[8, 3], self.board[8, 4], self.board[8, 5],
                 self.board[8, 6], self.board[8, 7], self.board[8, 8],
                 self.board[8, 9]
             ],
             [
                 '10', self.board[9, 0], self.board[9, 1], self.board[9, 2],
                 self.board[9, 3], self.board[9, 4], self.board[9, 5],
                 self.board[9, 6], self.board[9, 7], self.board[9, 8],
                 self.board[9, 9]
             ]])

        # Get second table lines.
        table_instance.outer_border = True
        table_instance.inner_column_border = True
        table_instance.inner_row_border = True
        table = table_instance.table.splitlines()

        return table
Exemplo n.º 38
0
        tableData = [headers]
        totalSeq = 0
        for tag in stats.keys():
            content = []
            (fileCount, timeSpan) = stats[tag]
            meanFC = numpy.mean(fileCount)
            stdFC = numpy.std(fileCount)
            meanT = numpy.mean(timeSpan)
            stdT = numpy.std(timeSpan)
            totalSeq = totalSeq + len(fileCount)
            ## TODO - add outlier detection
            content.append([tag.upper(), str(len(fileCount)),
                            str(round(meanFC,2)), str(round(stdFC,2)),
                            str(int(meanT)), str(int(stdT))])
            tableData.extend(content)
        tableData.append(["T O T A L", str(totalSeq), '', '', '', ''])
        if PRETTY_PRINT:
            table = SingleTable(tableData, 'Raw Dataset Stats')
            # table.inner_row_border = True
            for i in range(1,6):
                table.justify_columns[i] = 'center'
            print(table.table)
        else:
            for header in tableData[0]:
                print(header.replace("\n","").ljust(25), end="")
            print("\n")
            for contents in tableData[1:]:
                for content in contents:
                    print(content.ljust(25), end="")
                print("\n")
Exemplo n.º 39
0
    def transfer_pokemon(self):
        pokemon_list = [
            p for p in self.pokemon
            if p.get('transfer', False) and not p['is_favorite']
            and not p['is_shiny'] and not p['has_costume']
        ]
        total_transfers = len(pokemon_list)
        transfers_completed = 0
        if not pokemon_list:
            print u'No Pokémon scheduled to transfer.'
            return
        table_data = [[u'Pokémon', 'CP', 'IV %', 'ATK', 'DEF', 'STA']]
        print 'About to transfer %d Pokémon…' % total_transfers

        transfer_list = []
        for pokemon in pokemon_list:
            # Remove the Pokémon from the list, so that we don’t try to rename
            # it later.
            self.pokemon.remove(pokemon)

            pokedex_number = pokemon['pokedex_number']
            pokemon_name = self.pokemon_list[str(pokedex_number)]

            table_data.append([
                pokemon_name, pokemon['cp'],
                '{0:.0f}%'.format(pokemon['iv_percent']), pokemon['attack'],
                pokemon['defense'], pokemon['stamina']
            ])

            transfer_list.append(pokemon['id'])

        table = SingleTable(table_data)
        table.justify_columns = {
            0: 'left',
            1: 'right',
            2: 'right',
            3: 'right',
            4: 'right',
            5: 'right',
            6: 'left'
        }
        print u'The following Pokémon are about to be transferred:'
        print table.table

        # After logging in, wait a while before starting to rename Pokémon, like a
        # human player would.
        self.config.min_delay = total_transfers * 2
        self.config.max_delay = total_transfers * 4
        self.wait_randomly()
        response = self.api.release_pokemon(pokemon_ids=transfer_list)
        try:
            result = response['responses']['RELEASE_POKEMON']['result']
        except KeyError:
            print 'Failed:'
            print response
            status = 'error'
            pass
        else:
            if result == 1:
                status = 'success'
                print 'Transfer successful.'
            else:
                status = 'error'
                print 'Transfer failed. Error code: %s' % str(result)
Exemplo n.º 40
0
def print_run_table(table_data):
    table = SingleTable(table_data)
    table.justify_columns = {0: 'left', 1: 'center', 2: 'left'}
    table.inner_heading_row_border = False
    table.inner_column_border = False
    table.outer_border = False
    max_width = table.column_max_width(2)
    for index, row in enumerate(table_data):
        table.table_data[index][2] = str(row[2][0:max_width].splitlines()[0])
        if row[1] == 0:
            table.table_data[index][1] = colored(str(row[1]), 'green')
        elif row[1] == 1:
            table.table_data[index][2] = colored(str(row[1]), 'yellow')
        elif row[1] == 3:
            table.table_data[index][2] = colored(str(row[1]), 'grey')
        else:
            table.table_data[index][2] = colored(str(row[1]), 'red')
    print table.table
Exemplo n.º 41
0

list1 = []
mgntList = []
list1.append(['Index', 'Title', 'Date Added', 'Size', 'Seeders', 'Leechers'])
for i in range(int(num)):
    item = items[i]
    tempList = []
    tempList.append(str(i + 1))
    tempList.append(item.title.text)
    mgntList.append(item.magneturl.text)
    tempList.append(item.pubDate.text[5:16])
    tempList.append(convertSize(int(item.size.text)))
    seeders = item.find(attrs={'name': 'seeders'})
    tempList.append(seeders['value'])
    peers = item.find(attrs={'name': 'peers'})
    tempList.append(peers['value'])
    list1.append(tempList)

cuteTable = SingleTable(list1)
max_width = cuteTable.column_max_width(1)
for i in range(1, len(list1)):
    row = list1[i]
    wrappedString = '\n'.join(wrap(row[1], max_width))
    cuteTable.table_data[i][1] = wrappedString + '\n'

print(cuteTable.table)
choice = int(input('\nEnter the index--->'))
print('\nThe magnet link is :\n')
print(mgntList[choice])
Exemplo n.º 42
0
def sopa_game(sopa_letras, player):
    """Función donde se ejecuta las mecánicas del juego. Primero se crea una matriz 15*15 y se coloca en una lista las palabras que tienen que ser repartidas en el tablero, mediante la funcion set_words, a su vez se va verificando que las palabras no se crucen con la función verification_words hasta finalmente llegar a un loop donde tienes que ingresar las palabras que vayas encontrando.

  Args:
      [Objeto clase Normal_Game_NR]: sopa_letras, juego normal sin requisitos donde está toda la información del juego.
      [Player]: información del juegador
  Returns:
      [Bool]: True, si se gana el juego
  """
    print(sopa_letras.get_name().replace("_", " de ").title())
    print(sopa_letras.get_rules().capitalize())
    question_n = random.randint(0, 2)
    info_question = sopa_letras.send_question(question_n)
    table_data = [
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
    ]
    palabras = [
        info_question["answer_1"].lower(), info_question["answer_2"].lower(),
        info_question["answer_3"].lower()
    ]

    letters = [
        'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n',
        'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z'
    ]

    while verification_words(table_data, palabras) == False:
        table_data = [
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
            ["", "", "", "", "", "", "", "", "", "", "", "", "", "", ""],
        ]
        set_words(table_data, palabras)

    for i in range(15):
        for j in range(15):
            if table_data[i][j] == "":
                n = random.randint(0, 25)
                table_data[i][j] = letters[n]

    table = SingleTable(table_data)
    table.inner_row_border = True
    words_guessed = []
    n_clue = 1
    av_clues = 3
    while len(words_guessed) < 3 and player.get_time_left(
    ) > datetime.timedelta() and player.get_lives() > 0:
        print(table.table)
        guess = input("Ingrese la palabra encontrada: ").lower()
        if guess not in words_guessed:
            if guess in palabras:
                words_guessed.append(guess)
                os.system("clear")
                print(f"Bien {len(words_guessed)}/3")
            else:
                print("La palabra no está. Pierdes media vida")
                player.set_lives(player.get_lives() - 0.5)
                n_clue = get_clue(player, info_question, n_clue, av_clues)
        else:
            print("Ya lo habías adivinado. ")
        if len(words_guessed) == 3:
            return True
Exemplo n.º 43
0
    def do_l(self, arg):
        'Lists current portfolio'
        t = Terminal()
        portfolio = self.trader.portfolios()
        if portfolio['extended_hours_equity']:
            equity =  float(portfolio['extended_hours_equity'])
        else:
            equity =  float(portfolio['equity'])

        eq = '%.2f' % equity
        previous_close = float(portfolio['adjusted_equity_previous_close'])
        change = equity - previous_close
        change_pct =  '%.2f' % (change/previous_close * 100.0)

        # format
        change = f"{change:.2f}"

        # colorize
        change_pct = color_data(change_pct)
        change = color_data(change)

        account_details = self.trader.get_account()
        if 'margin_balances' in account_details:
            buying_power = account_details['margin_balances']['unallocated_margin_cash']

        account_table = SingleTable([['Portfolio Value','Change','Buying Power'],[eq, change+' ('+change_pct+'%)', buying_power]],'Account')
        print((account_table.table))

        # Load Stocks
        positions = self.trader.securities_owned()
        instruments = [position['instrument'] for position in positions['results']]
        symbols = [self.get_symbol(position['instrument']) for position in positions['results']]

        market_data = self.trader.get_stock_marketdata(instruments)

        table_data = []
        table_data.append(["Symbol", "Last", "Shares", "Equity", "Avg Cost", "Return" , "Day", "EquityChange", "Day %"])

        i = 0
        for position in positions['results']:
            quantity = int(float(position['quantity']))
            symbol = self.get_symbol(position['instrument'])
            price = market_data[i]['last_trade_price']
            total_equity = float(price) * quantity
            buy_price = float(position['average_buy_price'])
            p_l = f"{total_equity - (buy_price * quantity):.2f}"
            total_equity = f"{total_equity:.2f}"
            buy_price = f"{buy_price:.2f}"
            day_change = f"{float(market_data[i]['last_trade_price']) - float(market_data[i]['previous_close']):.2f}"
            day_change_q_val = f"{float(quantity) * float(day_change):.2f}"
            day_change_pct = f"{float(day_change) / float(market_data[i]['previous_close']) * 100:.2f}"
            price = f"{float(price):.2f}"

            table_data.append([
                symbol,
                price,
                quantity,
                total_equity,
                buy_price,
                color_data(p_l),
                color_data(day_change),
                color_data(day_change_q_val),
                color_data(day_change_pct)
                ])
            i += 1

        table = SingleTable(table_data,'Portfolio')
        table.inner_row_border = True
        table.justify_columns = {0: 'center' }

        print((table.table))
Exemplo n.º 44
0
def create_table(dict_devices, dict_failed_check_result):
    """
    Функция для создания отрисовки таблицы
    Function for creating a table
    """
    table_data = []
    table_data_temp = []
    hostname = "{{{0}}}{1}{{/{0}}}".format("autoyellow", "HOSTNAME")
    status = "{{{0}}}{1}{{/{0}}}".format("autoyellow", "STATUS")
    lost = "{{{0}}}{1}{{/{0}}}".format("autoyellow", "LOST")
    aver_delay = "{{{0}}}{1}{{/{0}}}".format("autoyellow", "AVERAGE DELAY")
    max_delay = "{{{0}}}{1}{{/{0}}}".format("autoyellow", "MAXIMUM DELAY")
    date = "{{{0}}}{1}{{/{0}}}".format("autoyellow", "DATE")
    table_data.append([
        Color(hostname),
        Color(status),
        Color(lost),
        Color(aver_delay),
        Color(max_delay),
        Color(date)
    ])
    for key in dict_devices:
        hostname = key
        status = dict_devices.get(key)[0]
        lost = dict_devices.get(key)[1]
        aver_delay = dict_devices.get(key)[2]
        max_delay = dict_devices.get(key)[3]
        color = int(dict_devices.get(key)[4])
        if status == "FAILD":
            hostname = "{autored}" + hostname + "{/autored}"
            status = "{autored}" + status + "{/autored}"
            lost = "{autored}" + lost + "{/autored}"
            aver_delay = max_delay = '{autored}0{/autored}'
            date = "{autored}" + dict_failed_check_result.get(
                key) + "{/autored}"
            table_data_temp.append([
                Color(hostname),
                Color(status),
                Color(lost),
                Color(aver_delay),
                Color(max_delay),
                Color(date)
            ])
        else:
            if color == 0:
                hostname = "{{{0}}}{1}{{/{0}}}".format("autogreen", hostname)
                status = "{{{0}}}{1}{{/{0}}}".format("autogreen", status)
                if lost != "0%":
                    lost = "{autocyan}" + lost + "{/autocyan}"
                else:
                    lost = "{{{0}}}{1}{{/{0}}}".format("autogreen", lost)
                aver_delay = "{{{0}}}{1}{{/{0}}}".format(
                    "autogreen", aver_delay)
                max_delay = "{{{0}}}{1}{{/{0}}}".format("autogreen", max_delay)
                date = '{autored}-{/autored}'
                table_data_temp.append([
                    Color(hostname),
                    Color(status),
                    Color(lost),
                    Color(aver_delay),
                    Color(max_delay),
                    Color(date)
                ])
            elif color == 1:
                hostname = "{{{0}}}{1}{{/{0}}}".format("autoyellow", hostname)
                status = "{{{0}}}{1}{{/{0}}}".format("autoyellow", status)
                if lost != "0%":
                    lost = "{autocyan}" + lost + "{/autocyan}"
                else:
                    lost = "{{{0}}}{1}{{/{0}}}".format("autoyellow", lost)
                aver_delay = "{{{0}}}{1}{{/{0}}}".format(
                    "autoyellow", aver_delay)
                max_delay = "{{{0}}}{1}{{/{0}}}".format(
                    "autoyellow", max_delay)
                date = "{autored}" + dict_failed_check_result.get(
                    key) + "{/autored}"
                table_data_temp.append([
                    Color(hostname),
                    Color(status),
                    Color(lost),
                    Color(aver_delay),
                    Color(max_delay),
                    Color(date)
                ])

            else:
                hostname = "{{{0}}}{1}{{/{0}}}".format("autowhite", hostname)
                status = "{{{0}}}{1}{{/{0}}}".format("autowhite", status)
                if lost != "0%":
                    lost = "{autocyan}" + lost + "{/autocyan}"
                else:
                    lost = "{{{0}}}{1}{{/{0}}}".format("autowhite", lost)
                aver_delay = "{{{0}}}{1}{{/{0}}}".format(
                    "autowhite", aver_delay)
                max_delay = "{{{0}}}{1}{{/{0}}}".format("autowhite", max_delay)
                date = "{autored}" + dict_failed_check_result.get(
                    key) + "{/autored}"
                table_data_temp.append([
                    Color(hostname),
                    Color(status),
                    Color(lost),
                    Color(aver_delay),
                    Color(max_delay),
                    Color(date)
                ])
    for i in sorted(table_data_temp):
        table_data.append(i)

    table_instance = SingleTable(table_data)
    table_instance.inner_heading_row_border = True
    table_instance.inner_row_border = False
    table_instance.justify_columns = {
        0: 'center',
        1: 'center',
        2: 'center',
        3: 'center',
        4: 'center',
        5: 'center'
    }
    return table_instance.table
Exemplo n.º 45
0
def display_pricing_screen(p):
    prices = Prices(p)
    if p.days == 30:
        clear()
        print(SingleTable([["GAME OVER", "You Reached 30 Days!"]]))
        print(
            SingleTable([[
                "Your Total Money:", p.bank.balance + p.money - p.shark.balance
            ]]))
        print(
            SingleTable([[
                "Your Score:",
                str((p.bank.balance + p.money - p.shark.balance) / 1000000 *
                    100) + " out of 100"
            ]]))
        exit()
    if not p.is_first_round:
        achoice = choice([
            lambda p: cops_chase(p), lambda p: buy_gun(p),
            lambda p: get_mugged(p), lambda p: find_drugs(p)
        ])
        achoice(p)
    if prices.action != None and not p.is_first_round:
        print(SingleTable([[prices.action]]).table)
        input("Press ENTER to Continue")
    current_area = p.current_area
    if not p.is_first_round and current_area == "Bronx":
        clear()
        ask_loan_shark(p)
        ask_bank(p)
        ask_stash(p)
    while True:
        clear()
        inventory_table = lambda: [
            ['Inventory', 'Days Left: ' + str(30 - p.days)],
            [
                'Cocaine: ' + str(round_down(p.cocaine)), 'Weed: ' + str(
                    round_down(p.weed))
            ],
            [
                'Heroin: ' + str(round_down(p.heroin)), 'Speed: ' + str(
                    round_down(p.speed))
            ],
            [
                'Acid: ' + str(round_down(p.acid)), 'Ludes: ' + str(
                    round_down(p.ludes))
            ],
        ]
        pricing_table = lambda: [
            [
                'Current Area: ' + p.current_area, 'Coat Space: ' + str(
                    p.coat_space()) + " / " + str(p.max_trench)
            ],
            [
                'Cocaine: ' + str(round_down(prices.cocaine)), 'Weed: ' + str(
                    round_down(prices.weed))
            ],
            [
                'Heroin: ' + str(round_down(prices.heroin)), 'Speed: ' + str(
                    round_down(prices.speed))
            ],
            [
                'Acid: ' + str(round_down(prices.acid)), 'Ludes: ' + str(
                    round_down(prices.ludes))
            ]
        ]
        money_table = lambda: [[
            'Debt: ' + str(int(round_down(p.shark.balance))), 'Guns: ' + str(
                p.guns), 'Bank: ' + str(int(round_down(p.bank.balance))),
            'Wallet: ' + str(int(round_down(p.money)))
        ]]
        print(SingleTable(inventory_table()).table)
        print(SingleTable(pricing_table(), title="Prices").table)
        print(SingleTable(money_table(), title="Money").table)
        print(
            SingleTable([["Are you going to (B)uy, (S)ell, or (J)et?"]]).table)
        ans = input("\n> ")
        anout = check_ans_bsj(ans)
        clear()
        if anout == 1:
            while True:
                print(SingleTable(inventory_table()).table)
                print(SingleTable(pricing_table(), title="Prices").table)
                print(SingleTable(money_table(), title="Money").table)
                print(SingleTable([["What would you like to buy?"]]).table)
                buy = input("\n> ")
                if not check_drug_inp(buy):
                    clear()
                    print(
                        SingleTable(
                            [["Enter the first letter of a drug to choose!"]]))
                else:
                    if buy[0].lower() == "c":
                        drug = prices.cocaine
                    elif buy[0].lower() == "h":
                        drug = prices.heroin
                    elif buy[0].lower() == "a":
                        drug = prices.acid
                    elif buy[0].lower() == "w":
                        drug = prices.weed
                    elif buy[0].lower() == "s":
                        drug = prices.speed
                    elif buy[0].lower() == "l":
                        drug = prices.ludes
                    price = int(round_down(drug))
                    print(
                        SingleTable(
                            [["How much would you like to buy?"],
                             [
                                 "Max Allowed: " +
                                 str(p.get_max(check_drug_inp(buy), drug))
                             ]]).table)
                    try:
                        amnt = int(input("\n> "))
                        if p.can_buy(price, int(amnt)):
                            p.buy(check_drug_inp(buy), amnt, price)
                            clear()
                            print(
                                SingleTable([[
                                    "You bought " + str(amnt) + " of " +
                                    check_drug_inp(buy)
                                ]]).table)
                            break
                        else:
                            clear()
                            print(
                                SingleTable([[
                                    "You don't have enough money/coat space to buy that!"
                                ]]).table)
                            break
                    except ValueError:
                        clear()
                        print(SingleTable([["That isn't a number!"]]).table)
        elif anout == 2:
            while True:
                print(SingleTable(inventory_table()).table)
                print(SingleTable(pricing_table(), title="Prices").table)
                print(SingleTable(money_table(), title="Money").table)
                print(SingleTable([["What would you like to sell?"]]).table)
                sell = input("\n> ")
                if not check_drug_inp(sell):
                    clear()
                    print(
                        SingleTable(
                            [["Enter the first letter of a drug to choose!"]]))
                else:
                    if sell[0].lower() == "c":
                        drug = prices.cocaine
                    elif sell[0].lower() == "h":
                        drug = prices.heroin
                    elif sell[0].lower() == "a":
                        drug = prices.acid
                    elif sell[0].lower() == "w":
                        drug = prices.weed
                    elif sell[0].lower() == "s":
                        drug = prices.speed
                    elif sell[0].lower() == "l":
                        drug = prices.ludes
                    price = int(round_down(drug))
                    print(
                        SingleTable([["How much would you like to sell?"],
                                     [
                                         "You Have: " +
                                         str(p.get_amt(check_drug_inp(sell)))
                                     ]]).table)
                    try:
                        amnt = int(input("\n> "))
                        if p.can_sell(amnt, check_drug_inp(sell)):
                            p.sell(check_drug_inp(sell), amnt, price)
                            clear()
                            print(
                                SingleTable([[
                                    "You sold " + str(amnt) + " of " +
                                    check_drug_inp(sell)
                                ]]).table)
                            break
                        else:
                            clear()
                            print(
                                SingleTable([[
                                    "You don't have enough to sell that many!"
                                ]]).table)
                            break
                    except ValueError:
                        clear()
                        print(SingleTable([["That isn't a number!"]]).table)
        elif anout == 3:
            while True:
                clear()
                loc_index = [
                    'Bronx', 'Ghetto', 'Central Park', 'Manhatten',
                    'Coney Island', 'Brooklyn'
                ]
                location_table = [['1) Bronx', '2) Ghetto', '3) Central Park'],
                                  [
                                      '4) Manhatten', '5) Coney Island',
                                      '6) Brooklyn'
                                  ]]
                print(
                    SingleTable(
                        location_table,
                        title="Where you gonna go? Current Location: " +
                        p.current_area).table)
                try:
                    loc = int(input("\n> ")) - 1
                    if loc > 5 or loc < 0:
                        clear()
                        print(
                            SingleTable([["Choose a number between 1 and 6!"]
                                         ]).table)
                    else:
                        if loc_index[loc] == p.current_area:
                            clear()
                        else:
                            loc += 1
                            if loc == 1:
                                p.current_area = "Bronx"
                            if loc == 2:
                                p.current_area = "Ghetto"
                            if loc == 3:
                                p.current_area = "Central Park"
                            if loc == 4:
                                p.current_area = "Manhattan"
                            if loc == 5:
                                p.current_area = "Coney Island"
                            if loc == 6:
                                p.current_area = "Brooklyn"
                            p.days += 1
                            break
                except ValueError:
                    clear()
                    print(SingleTable([["That isn't a number!"]]).table)
        else:
            clear()
            print(
                SingleTable([["That isn't an option. Choose B, S, or J"]
                             ]).table)
        if p.current_area != current_area:
            break
    p.is_first_round = False
    p.bank.interest()
    p.shark.interest()
    display_pricing_screen(p)
Exemplo n.º 46
0
try:
    if sys.argv[1] == "-nl":
        subprocess.call("clear")
        print("-----------------Tos---------------------")
        import time
        time.sleep(2)
        subprocess.call("clear")

        a = 'test_a'

        table_data = [
            ['num', 'var.'],
            ['1. ', 'live'],
            ['2. ', 'exit'],
        ]
        table = SingleTable(table_data)
        print(table.table)
        os.system("figlet TBoot")
        numinstall = input(">_")
        if numinstall == "1":
            subprocess.call("clear")
            system()
        if numinstall == "2":
            exit()
        else:
            print("Error")
    if sys.argv[1] == "-s":
        log()
        subprocess.call("clear")
        print("-----------------Tos---------------------")
        time.sleep(2)
Exemplo n.º 47
0
def do_it(pp):

	ids = []
	table_data = []
	headers = []
	no_section = []

	for h in pp["columns"]:
		headers.append(str(h))

	table_data.append(headers)

	SOURCEKEY	= pp["columns"].index("SOURCE")
	DESTKEY		= pp["columns"].index("DESTINATION")
	SERVICEKEY	= pp["columns"].index("SERVICE")

	for id in pp["ruleSections"]:
		ids.append(id[1])

	for id in pp["ruleSections"]:
		for rule in pp["rules"]:
			rule = clean_rule(rule)
			if u"Any" in rule[SOURCEKEY] or u"Any" in rule[DESTKEY] or u"Any" in rule[SERVICEKEY] or u"Disabled" in rule[0]:
				if rule[len(rule)-1] == id[1]:
					table_data.append(rule)
					pp["rules"].remove(rule)
				elif rule[len(rule)-1] not in ids:
					if rule not in no_section:
						no_section.append(rule)
						pp["rules"].remove(rule)
				else:
					pass
		if len(table_data) > 1:
			new_table_data = clean_td(table_data)

			ascii = AsciiTable(table_data)
			single = SingleTable(table_data)

			ascii.inner_row_border = True
			single.inner_row_border = True

			a = ascii.table
			s = single.table

			write_output(a, id[0])

			if (verbose):
				print "--- SECTION: %s ---" % id[0]
				print s

			table_data = []
			table_data.append(headers)

	if len(no_section) > 0:
		table_data = []
		headers = []

		for h in pp["columns"]:
			headers.append(str(h))

		table_data.append(headers)

		for rule in no_section:
			table_data.append(rule)

		table_data = clean_td(table_data)

		ascii = AsciiTable(table_data)
		single = SingleTable(table_data)

		single.inner_row_border = True
		ascii.inner_row_border = True

		a = ascii.table
		s = single.table

		write_output(a, "(NO SECTION DEFINED)")
		if (verbose):
			print "--- NO SECTION DEFINED (THESE ARE USUALLY AT THE TOP) ---"
			print s

	n = name + "-myCVT-output.txt"
	print "\033[1;32m[+] Written output to file ./%s\n" % n
Exemplo n.º 48
0
def call(args, context):
    """
    This is called when the plugin is invoked
    """
    if not HAS_BOTO:
        # we can't do anything - ask for an install
        pip_version = 'pip3' if sys.version[0] == 3 else 'pip'

        print(
            "This plugin requires the 'boto' module.  Please install it by running "
            "'{} install boto'".format(pip_version))

        sys.exit(2)  # requirements not met - we can't go on

    parser = argparse.ArgumentParser(PLUGIN_BASE, add_help=False)
    parser.add_argument('command',
                        metavar='COMMAND',
                        nargs='?',
                        type=str,
                        help='The command to execute in object storage')
    parser.add_argument(
        '--cluster',
        metavar='CLUSTER',
        type=str,
        help='The cluster to use.  Defaults to us-east-1 (presently)')

    parsed, args = parser.parse_known_args(args)

    if not parsed.command:
        # show help if invoked with no command
        parser.print_help()

        # additional help
        print()
        print("Available commands: ")

        command_help_map = [[name, func.__doc__.strip()]
                            for name, func in sorted(COMMAND_MAP.items())]

        tab = SingleTable(command_help_map)
        tab.inner_heading_row_border = False
        print(tab.table)
        print()
        print(
            "Additionally, you can regenerate your Object Storage keys using the "
            "'regenerate-keys' command")
        print()
        print('See --help for individual commands for more information')

        exit(0)

    # make a client, but only if we weren't printing help
    access_key, secret_key = _get_s3_creds(context.client)
    client = _get_boto_client(parsed.cluster or 'us-east-1', access_key,
                              secret_key)

    if parsed.command in COMMAND_MAP:
        try:
            COMMAND_MAP[parsed.command](client, args)
        except S3ResponseError as e:
            if e.error_code:
                print('Error: {}'.format(e.error_code))
            else:
                print(e)
            sys.exit(4)
        except S3CreateError as e:
            print('Error: {}'.format(e))
            sys.exit(5)
        except BotoClientError as e:
            message_parts = e.message.split(':')
            if len(message_parts) > 0:
                message = ':'.join(message_parts[0:])
            else:
                message = e.message
            print('Error: {}'.format(message))
            sys.exit(6)
    elif parsed.command == "regenerate-keys":
        print("Regenerating Object Storage keys..")
        _get_s3_creds(context.client, force=True)
        print("Done.")
        print(
            "Warning: Your old Object Storage keys _were not_ automatically expired!  If you want "
            "to expire them, see `linode-cli object-storage keys-list` and "
            "`linode-cli object-storage keys-delete [KEYID]`.")
    else:
        print('No command {}'.format(parsed.command))
        sys.exit(1)
Exemplo n.º 49
0
    def __init__(self, api_key, id, currency, fiat_currency, dcoin, d2coin,
                 d3coin, d4coin, reload_time):
        Windows.enable(auto_colors=True, reset_atexit=True)  # For just Windows
        self.key_ = api_key
        self.id_ = id
        self.cur_ = currency
        self.fcur_ = fiat_currency
        self.coin_ = dcoin
        self.coin2_ = d2coin
        self.coin3_ = d3coin
        self.coin4_ = d4coin
        self.reload_time_ = int(reload_time)
        self.crypto_symbols_ = {}

        self.btc_ = 0.0  # 1 BTC in USD

        if self.reload_time_ > 1800 or int(reload_time) < 15:
            print(
                'reload_time argument must be between 10 and 1800. For more info, run $ python3 display.py --help'
            )
            exit()

        self.setSymbols()

        #print(Color('{autoyellow}benafleck{/autoyellow}')) # lol ;)

        self.time_str_ = 'Hello world, What time is it?'

        self.dot_count_ = 0

        self.other_cur = False
        if args.f != None:
            self.other_cur = True

        self.dashb_ = False
        self.dashb2_ = False
        self.dashb3_ = False
        self.dashb4_ = False
        if args.d != None:
            self.dashb_ = True
        if args.d2 != None:
            self.dashb2_ = True
        if args.d3 != None:
            self.dashb3_ = True
        if args.d4 != None:
            self.dashb4_ = True

        self.balances_table_data_ = []
        self.balances_table_ = SingleTable([])

        if self.dashb_:
            self.dashb_table_data_ = []
            self.dashb_table_ = SingleTable([])

        if self.dashb2_:
            self.dashb2_table_data_ = []
            self.dashb2_table_ = SingleTable([])

        if self.dashb3_:
            self.dashb3_table_data_ = []
            self.dashb3_table_ = SingleTable([])

        if self.dashb4_:
            self.dashb4_table_data_ = []
            self.dashb4_table_ = SingleTable([])

        self.printDotInfo('Getting values and converting to currencies')
        self.getStats()
        self.printTables()

        if args.n == 'YES':
            self.displayNonStop()
        else:
            exit()
Exemplo n.º 50
0
        del nums[index]
    return choices


with open('puzzle_cars.json') as data_file:
    data = json.load(data_file)

all_cars = data['cars']

choices = [all_cars[i] for i in pick_five()]

Car_Table = [['Order', 'Car']]

for (i, item) in enumerate(choices):
    color = item['color'].upper()
    if color == 'WHITE':
        Car_Table.append([
            i + 1,
            getattr(Back, color) + Fore.BLACK + ' ' + item['color'] + ' ' +
            item['type'] + ' ' + Fore.RESET + Back.RESET
        ])
    else:
        Car_Table.append([
            i + 1,
            getattr(Back, color) + ' ' + item['color'] + ' ' + item['type'] +
            ' ' + Back.RESET
        ])

table_instance = SingleTable(Car_Table, 'Puzzle')
table_instance.justify_columns[0] = 'right'
print(table_instance.table)
Exemplo n.º 51
0
def show_board(game):
    table_result = SingleTable(game.get_board())
    table_result.inner_row_border = True
    print(table_result.table)
    print('\n')
Exemplo n.º 52
0
def handle_add_driver(driver_repo: Repo, parser: Parser,
                      car_repo: Repo) -> None:
    """
    Handle adding a driver

    Args:
        driver_repo (Repo): Driver repository
        parser (Parser): Input data parser
        car_repo (Repo): Car repository
    """
    new_id = None
    new_name = ""
    new_age = None

    # Get driver id:
    done_id = False
    while not done_id:
        id_ = input(
            "Enter driver id (numeric), leave blank for autocomplete > ")
        if id_ == "":
            _, last_entity = driver_repo.get(mode="last")
            id_ = last_entity.id
            found = False

            while not found:
                id_ += 1
                if not parser.check_if_already_exists(by_id=True, id=int(id_)):
                    found = True
                    new_id = int(id_)
                    done_id = True
                    print(f"\tAutocomplete succesfull, assigned id {new_id}")
        else:
            if not parser.check_if_already_exists(by_id=True, id=int(id_)):
                new_id = int(id_)
                done_id = True
            else:
                console.clear_console()
                olt.show(
                    title="Info",
                    message=
                    "This id already exists, you might want to auto-complete, just press enter",
                    go_back=False)

    # Get driver name:
    new_name = input("Enter the driver's name > ")

    # Get driver age:
    done_age = False
    while not done_age:
        age = input("Enter the driver's age (numeric) > ")
        try:
            new_age = int(age)
            done_age = True
        except ValueError:
            console.clear_console()
            olt.show(title="Info",
                     message="The age must be a numeric value, ex: 45",
                     go_back=False)

    # Deal with car assignment:
    if input("Do you want to assign a car now? y/n > ").lower() == "y":
        # Add car:
        print(
            "In order to assign a car to a driver you need it's ID, do you know it, or do you want to see all cars"
        )
        input_ = input("Press enter to see all cars or enter an ID > ")
        if input_ == "":
            _, car_list = car_repo.get()
            if len(car_list) == 0 or car_list is None:
                olt.show(
                    title="Something went wrong",
                    message=
                    "Either there are no cars at this moment or something else went wrong"
                )
            else:
                table_data = [["ID", "Registration"]]
                for car in car_list:
                    table_data.append([str(car.id), car.reg])

                car_table = SingleTable(table_data, title="Cars")
                car_table.justify_columns = {
                    0: "left",
                    1: "center",
                }

                while True:
                    console.clear_console()
                    print(car_table.table)
                    input_ = input("Type b or back to go back > ")
                    if input_ == "b" or input_ == "back":
                        break
                    else:
                        continue

                console.clear_console()
                input_ = input(
                    "Enter car id or \"back\" if you want to leave it blank for now > "
                )
                if input_ == "back":
                    # Just add driver with no car assigned
                    driver_repo.add(Driver(new_id, new_name, new_age, None))
                else:
                    try:
                        new_car_id = int(input_)
                        resp, car_ = car_repo.get(mode="single",
                                                  entity_id=new_car_id)
                        if resp == "found":
                            # Add driver with respective car
                            driver_repo.add(
                                Driver(new_id, new_name, new_age, car_))
                        else:
                            olt.show(
                                title="Warning",
                                message=
                                "ID not found! Leaving blank for now, update via menu"
                            )
                            driver_repo.add(
                                Driver(new_id, new_name, new_age, None))
                    except ValueError:
                        olt.show(
                            title="Warning",
                            message=
                            "The id must be numeric. Leaving blank for now, update via menu"
                        )
                        driver_repo.add(Driver(new_id, new_name, new_age,
                                               None))
        else:
            # User gave manual id:
            try:
                new_car_id = int(input_)
                resp, car_ = car_repo.get(mode="single", entity_id=new_car_id)
                if resp == "found":
                    # Add driver with respective car
                    driver_repo.add(Driver(new_id, new_name, new_age, car_))
                else:
                    olt.show(
                        title="Warning",
                        message=
                        "ID not found! Leaving blank for now, update via menu")
                    driver_repo.add(Driver(new_id, new_name, new_age, None))
            except ValueError:
                olt.show(
                    title="Warning",
                    message=
                    "The id must be numeric. Leaving blank for now, update via menu"
                )
                driver_repo.add(Driver(new_id, new_name, new_age, None))
    else:
        # Just add driver with no car assigned
        driver_repo.add(Driver(new_id, new_name, new_age, None))

    _, driver_instance_list = driver_repo.get()
    save_data(mode="single",
              only="drivers",
              driver_instance_list=driver_instance_list)
    olt.show(title="Success", message="The new driver was added succesfully")
Exemplo n.º 53
0
def _chat_history_table(evts: List[Dict[Text, Any]]) -> Text:
    """Create a table containing bot and user messages.

    Also includes additional information, like any events and
    prediction probabilities."""

    def wrap(txt, max_width):
        return "\n".join(textwrap.wrap(txt, max_width,
                                       replace_whitespace=False))

    def colored(txt, color):
        return "{" + color + "}" + txt + "{/" + color + "}"

    def format_user_msg(user_evt, max_width):
        _parsed = user_evt.get('parse_data', {})
        _intent = _parsed.get('intent', {}).get("name")
        _confidence = _parsed.get('intent', {}).get("confidence", 1.0)
        _md = _as_md_message(_parsed)

        _lines = [
            colored(wrap(_md, max_width), "hired"),
            "intent: {} {:03.2f}".format(_intent, _confidence)
        ]
        return "\n".join(_lines)

    def bot_width(_table: AsciiTable) -> int:
        return _table.column_max_width(1)

    def user_width(_table: AsciiTable) -> int:
        return _table.column_max_width(3)

    def add_bot_cell(data, cell):
        data.append([len(data), Color(cell), "", ""])

    def add_user_cell(data, cell):
        data.append([len(data), "", "", Color(cell)])

    # prints the historical interactions between the bot and the user,
    # to help with correctly identifying the action
    table_data = [
        ["#  ",
         Color(colored('Bot      ', 'autoblue')),
         "  ",
         Color(colored('You       ', 'hired'))],
    ]

    table = SingleTable(table_data, 'Chat History')

    bot_column = []
    for idx, evt in enumerate(evts):
        if evt.get("event") == ActionExecuted.type_name:
            bot_column.append(colored(evt['name'], 'autocyan'))
            if evt['confidence'] is not None:
                bot_column[-1] += (
                    colored(" {:03.2f}".format(evt['confidence']),
                            'autowhite'))

        elif evt.get("event") == UserUttered.type_name:
            if bot_column:
                text = "\n".join(bot_column)
                add_bot_cell(table_data, text)
                bot_column = []

            msg = format_user_msg(evt, user_width(table))
            add_user_cell(table_data, msg)

        elif evt.get("event") == BotUttered.type_name:
            wrapped = wrap(format_bot_output(evt), bot_width(table))
            bot_column.append(colored(wrapped, 'autoblue'))

        else:
            e = Event.from_parameters(evt)
            if e.as_story_string():
                bot_column.append(wrap(e.as_story_string(), bot_width(table)))

    if bot_column:
        text = "\n".join(bot_column)
        add_bot_cell(table_data, text)

    table.inner_heading_row_border = False
    table.inner_row_border = True
    table.inner_column_border = False
    table.outer_border = False
    table.justify_columns = {0: 'left', 1: 'left', 2: 'center', 3: 'right'}

    return table.table
Exemplo n.º 54
0
def print_table(TABLE_DATA):

    table_instance = SingleTable(TABLE_DATA, "")
    table_instance.justify_columns[2] = 'right'
    print(table_instance.table)
    print
Exemplo n.º 55
0
def main():
    ## Command Handling
    parser = argparse.ArgumentParser("linode-cli", add_help=False)
    parser.add_argument('command',
                        metavar='COMMAND',
                        nargs='?',
                        type=str,
                        help="The command to invoke in the CLI.")
    parser.add_argument('action',
                        metavar='ACTION',
                        nargs='?',
                        type=str,
                        help="The action to perform in this command.")
    parser.add_argument('--help',
                        action="store_true",
                        help="Display information about a command, action, or "
                        "the CLI overall.")
    parser.add_argument(
        '--text',
        action="store_true",
        help="Display text output with a delimiter (defaults to tabs).")
    parser.add_argument('--delimiter',
                        metavar='DELIMITER',
                        type=str,
                        help="The delimiter when displaying raw output.")
    parser.add_argument('--json',
                        action='store_true',
                        help="Display output as JSON")
    parser.add_argument('--markdown',
                        action='store_true',
                        help="Display output in Markdown format.")
    parser.add_argument('--pretty',
                        action='store_true',
                        help="If set, pretty-print JSON output")
    parser.add_argument('--no-headers',
                        action='store_true',
                        help="If set, does not display headers in output.")
    parser.add_argument(
        '--page',
        metavar='PAGE',
        type=int,
        default=1,
        help="For listing actions, specifies the page to request")
    parser.add_argument(
        '--all',
        action='store_true',
        help="If set, displays all possible columns instead of "
        "the default columns.  This may not work well on "
        "some terminals.")
    parser.add_argument(
        '--format',
        metavar='FORMAT',
        type=str,
        help="The columns to display in output.  Provide a comma-"
        "separated list of column names.")
    parser.add_argument(
        '--no-defaults',
        action='store_true',
        help="Suppress default values for arguments.  Default values "
        "are configured on initial setup or with linode-cli configure")
    parser.add_argument(
        '--as-user',
        metavar='USERNAME',
        type=str,
        help="The username to execute this command as.  This user must "
        "be configured.")
    parser.add_argument(
        '--suppress-warnings',
        action='store_true',
        help="Suppress warnings that are intended for human users. "
        "This is useful for scripting the CLI's behavior.")
    parser.add_argument('--version',
                        '-v',
                        action="store_true",
                        help="Prints version information and exits.")
    parser.add_argument('--debug',
                        action='store_true',
                        help="Enable verbose HTTP debug output")

    parsed, args = parser.parse_known_args()

    # setup cli class
    if parsed.text:
        cli.output_handler.mode = OutputMode.delimited
    elif parsed.json:
        cli.output_handler.mode = OutputMode.json
        cli.output_handler.columns = '*'
    elif parsed.markdown:
        cli.output_handler.mode = OutputMode.markdown
    if parsed.delimiter:
        cli.output_handler.delimiter = parsed.delimiter
    if parsed.pretty:
        cli.output_handler.mode = OutputMode.json
        cli.output_handler.pretty_json = True
        cli.output_handler.columns = '*'
    if parsed.no_headers:
        cli.output_handler.headers = False
    if parsed.all:
        cli.output_handler.columns = '*'
    elif parsed.format:
        cli.output_handler.columns = parsed.format

    cli.defaults = not parsed.no_defaults
    cli.suppress_warnings = parsed.suppress_warnings
    cli.page = parsed.page
    cli.debug_request = parsed.debug

    if parsed.as_user:
        # if they are acting as a non-default user, set it up early
        cli.config.set_user(parsed.as_user)

    if parsed.version:
        if not parsed.command:
            # print version info and exit - but only if no command was given
            print("linode-cli {}".format(VERSION))
            print("Built off spec version {}".format(cli.spec_version))
            exit(0)
        else:
            # something else might want to parse version
            # find where it was originally, as it was removed from args
            index = argv.index('--version') - 3  # executable command action
            args = args[:index] + ['--version'] + args[index:]

    # handle a bake - this is used to parse a spec and bake it as a pickle
    if parsed.command == "bake":
        if parsed.action is None:
            print("No spec provided, cannot bake")
            exit(9)
        print("Baking...")
        spec_loc = parsed.action
        try:
            if os.path.exists(os.path.expanduser(spec_loc)):
                with open(os.path.expanduser(spec_loc)) as f:
                    spec = yaml.safe_load(f.read())
            else:  # try to GET it
                resp = requests.get(spec_loc)
                if resp.status_code == 200:
                    spec = yaml.safe_load(resp.content)
                else:
                    raise RuntimeError("Request failed to {}".format(spec_loc))
        except Exception as e:
            print("Could not load spec: {}".format(e))
            exit(2)

        cli.bake(spec)
        print("Baking bash completions...")
        # this step would normally happen on laod
        if '_base_url' in cli.ops:
            del cli.ops['_base_url']
        if '_spec_version' in cli.ops:
            del cli.ops['_spec_version']
        # do the baking
        cli.bake_completions()
        print("Done.")
        exit(0)
    elif cli.ops is None:
        # if not spec was found and we weren't baking, we're doomed
        exit(3)

    if parsed.command == 'register-plugin':
        # this is how the CLI discovers third-party plugins - the user registers
        # them!  Registering a plugin gets it set up for all CLI users.
        if parsed.action is None:
            print('register-plugin requires a module name!')
            exit(9)
        module = parsed.action

        # attempt to import the module to prove it is installed and exists
        try:
            plugin = import_module(module)
        except ImportError:
            print('Module {} not installed'.format(module))
            exit(10)

        # get the plugin name
        try:
            plugin_name = plugin.PLUGIN_NAME
        except AttributeError:
            print('{} is not a valid Linode CLI plugin - missing PLUGIN_NAME'.
                  format(module))
            exit(11)

        # prove it's callable
        try:
            call_func = plugin.call
        except AttributeError:
            print('{} is not a valid Linode CLI plugin - missing call'.format(
                module))
            exit(11)

        reregistering = False
        # check for naming conflicts
        if plugin_name in cli.ops:
            print(
                'Plugin name conflicts with CLI operation - registration failed.'
            )
            exit(12)
        elif plugin_name in plugins.available_local:
            # conflicts with an internal plugin - can't do that
            print(
                'Plugin name conflicts with internal CLI plugin - registration failed.'
            )
            exit(13)
        elif plugin_name in plugins.available(cli.config):
            from linodecli.configuration import input_helper

            # this isn't an internal plugin, so warn that we're re-registering it
            print("WARNING: Plugin {} is already registered.".format(
                plugin_name))
            print("")
            answer = input_helper(
                "Allow re-registration of {}? [y/N] ".format(plugin_name))

            if not answer or answer not in 'yY':
                print('Registration aborted.')
                exit(0)

            reregistering = True

        # looks good - register it
        already_registered = []
        if cli.config.config.has_option('DEFAULT', 'registered-plugins'):
            already_registered = cli.config.config.get(
                'DEFAULT', 'registered-plugins').split(',')

        if reregistering:
            already_registered.remove(plugin_name)
            cli.config.config.remove_option(
                'DEFAULT', 'plugin-name-{}'.format(plugin_name))

        already_registered.append(plugin_name)
        cli.config.config.set('DEFAULT', 'registered-plugins',
                              ','.join(already_registered))
        cli.config.config.set('DEFAULT', 'plugin-name-{}'.format(plugin_name),
                              module)
        cli.config.write_config()

        print('Plugin registered successfully!')
        print('Invoke this plugin by running the following:')
        print('  linode-cli {}'.format(plugin_name))
        exit(0)

    if parsed.command == 'remove-plugin':
        if parsed.action is None:
            print('remove-plugin requires a plugin name to remove!')
            exit(9)

        # is this plugin registered?
        plugin_name = parsed.action
        if plugin_name in plugins.available_local:
            # can't remove first-party plugins
            print('{} is bundled with the CLI and cannot be removed'.format(
                plugin_name))
            exit(13)
        elif plugin_name not in plugins.available(cli.config):
            print('{} is not a registered plugin'.format(plugin_name))
            exit(14)

        # do the removal
        current_plugins = cli.config.config.get(
            'DEFAULT', 'registered-plugins').split(',')
        current_plugins.remove(plugin_name)
        cli.config.config.set('DEFAULT', 'registered-plugins',
                              ','.join(current_plugins))

        if cli.config.config.has_option('DEFAULT',
                                        'plugin-name-{}'.format(plugin_name)):
            # if the config if malformed, don't blow up
            cli.config.config.remove_option(
                'DEFAULT', 'plugin-name-{}'.format(plugin_name))

        cli.config.write_config()

        print("Plugin {} removed".format(plugin_name))
        exit(0)

    # handle a help for the CLI
    if parsed.command is None or (parsed.command is None and parsed.help):
        parser.print_help()

        # commands to manage CLI users (don't call out to API)
        print()
        print('CLI user management commands:')
        um_commands = [['configure', 'set-user', 'show-users'],
                       ['remove-user']]
        table = SingleTable(um_commands)
        table.inner_heading_row_border = False
        print(table.table)

        # commands to manage plugins (don't call out to API)
        print()
        print('CLI Plugin management commands:')
        pm_commands = [['register-plugin', 'remove-plugin']]
        table = SingleTable(pm_commands)
        table.inner_heading_row_border = False
        print(table.table)

        # commands generated from the spec (call the API directly)
        print()
        print("Available commands:")

        content = [c for c in cli.ops.keys()]
        proc = []
        for i in range(0, len(content), 3):
            proc.append(content[i:i + 3])
        if content[i + 3:]:
            proc.append(content[i + 3:])

        table = SingleTable(proc)
        table.inner_heading_row_border = False
        print(table.table)

        # plugins registered to the CLI (do arbitrary things)
        if plugins.available(cli.config):
            # only show this if there are any available plugins
            print("Available plugins:")

            plugin_content = [p for p in plugins.available(cli.config)]
            plugin_proc = []

            for i in range(0, len(plugin_content), 3):
                plugin_proc.append(plugin_content[i:i + 3])
            if plugin_content[i + 3:]:
                plugin_proc.append(plugin_content[i + 3:])

            plugin_table = SingleTable(plugin_proc)
            plugin_table.inner_heading_row_border = False

            print(plugin_table.table)

        print()
        print("To reconfigure, call `linode-cli configure`")
        print(
            "For comprehensive documentation, visit https://www.linode.com/docs/api/"
        )
        exit(0)

    # configure
    if parsed.command == "configure":
        if parsed.help:
            print('linode-cli configure')
            print()
            print(
                'Configured the Linode CLI.  This command can be used to change'
            )
            print(
                'defaults selected for the current user, or to configure additional'
            )
            print('users.')
            exit(0)
        else:
            cli.configure()
            exit(0)

    # block of commands for user-focused operations
    if parsed.command == "set-user":
        if parsed.help or not parsed.action:
            print('linode-cli set-user [USER]')
            print()
            print(
                'Sets the active user for the CLI out of users you have configured.'
            )
            print('To configure a new user, see `linode-cli configure`')
            exit(0)
        else:
            cli.config.set_default_user(parsed.action)
            exit(0)

    if parsed.command == "show-users":
        if parsed.help:
            print('linode-cli show-users')
            print()
            print(
                'Lists configured users.  Configured users can be set as the')
            print('active user (used for all commands going forward) with the')
            print('`set-user` command, or used for a single command with the')
            print(
                '`--as-user` flag.  New users can be added with `linode-cli configure`.'
            )
            print('The user that is currently active is indicated with a `*`')
            exit(0)
        else:
            cli.config.print_users()
            exit(0)

    if parsed.command == "remove-user":
        if parsed.help or not parsed.action:
            print('linode-cli remove-user [USER]')
            print()
            print(
                'Removes a user the CLI was configured with.  This does not change'
            )
            print(
                'your Linode account, only this CLI installation.  Once removed,'
            )
            print(
                'the user may not be set as active or used for commands unless'
            )
            print('configured again.')
            exit(0)
        else:
            cli.config.remove_user(parsed.action)
            exit(0)

    # special command to bake shell completion script
    if parsed.command == 'bake-bash':
        cli.bake_completions()

    # check for plugin invocation
    if parsed.command not in cli.ops and parsed.command in plugins.available(
            cli.config):
        context = plugins.PluginContext(cli.config.get_token(), cli)

        # reconstruct arguments to send to the plugin
        plugin_args = argv[1:]  # don't include the program name
        plugin_args.remove(parsed.command)  # don't include the plugin name tho

        plugins.invoke(parsed.command, plugin_args, context)
        exit(0)

    if parsed.command not in cli.ops and parsed.command not in plugins.available(
            cli.config):
        # unknown commands
        print('Unrecognized command {}'.format(parsed.command))

    # handle a help for a command - either --help or no action triggers this
    if parsed.command is not None and parsed.action is None:
        if parsed.command in cli.ops:
            actions = cli.ops[parsed.command]
            print("linode-cli {} [ACTION]".format(parsed.command))
            print()
            print("Available actions: ")
            content = [[action, op.summary] for action, op in actions.items()]

            header = ['action', 'summary']
            table = SingleTable([header] + content)
            print(table.table)
            exit(0)

    # handle a help for an action
    if parsed.command is not None and parsed.action is not None and parsed.help:
        if parsed.command in cli.ops and parsed.action in cli.ops[
                parsed.command]:
            operation = cli.ops[parsed.command][parsed.action]
            print("linode-cli {} {}".format(parsed.command, parsed.action),
                  end='')
            for param in operation.params:
                # clean up parameter names - we add an '_' at the end of them
                # during baking if it conflicts with the name of an argument.
                # Remove the trailing underscores on output (they're not
                # important to the end user).
                pname = param.name.upper()
                if pname[-1] == '_':
                    pname = pname[:-1]
                print(' [{}]'.format(pname), end='')
            print()
            print(operation.summary)
            print()
            if operation.args:
                print("Arguments:")
                for arg in sorted(operation.args,
                                  key=lambda s: not s.required):
                    print("  --{}: {}{}".format(
                        arg.path, "(required) " if operation.method == 'post'
                        and arg.required else '', arg.description))
            elif operation.method == 'get' and parsed.action == 'list':
                filterable_attrs = ([
                    attr for attr in operation.response_model.attrs
                    if attr.filterable
                ])

                if filterable_attrs:
                    print("You may filter results with:")
                    for attr in filterable_attrs:
                        print("  --{}".format(attr.name))
        exit(0)

    if parsed.command is not None and parsed.action is not None:
        cli.handle_command(parsed.command, parsed.action, args)
Exemplo n.º 56
0
def handle_update_car(car_repo: Repo, parser: Parser):
    """
    Handle updateing a car

    Args:
        car_repo (Repo): Car repository
        parser (Parser): Input parser
    """

    # Get car id:
    got_id = False
    _, car_list = car_repo.get()

    while not got_id:
        id_ = input(
            "Enter car id (numeric) or leave blank to see the car list > ")
        if id_ == "":
            table_data = [["ID", "Registration"]]
            for car in car_list:
                table_data.append([str(car.id), car.reg])

            car_table = SingleTable(table_data, title="Cars")
            car_table.justify_columns = {
                0: "left",
                1: "center",
            }
            while True:
                console.clear_console()
                print(car_table.table)
                input_ = input("Type b or back to go back > ")
                if input_ == "b" or input_ == "back":
                    break
                else:
                    continue
        else:
            try:
                id_ = int(id_)

                if parser.check_if_already_exists(by_id=True, id=id_):
                    # Id exists, continue:
                    got_id = True
                    done_id = False
                    done_hp = False
                    done_kms = False

                    while not done_id:
                        new_id = input(
                            "If you want to change the ID enter it now, leave blank to skip > "
                        )
                        if new_id != "":
                            try:
                                new_id = int(new_id)
                                done_id = True
                            except ValueError:
                                console.clear_console()
                                olt.show(title="Info",
                                         message=
                                         "Invalid ID! The ID Must be numeric",
                                         go_back=False)
                        else:
                            new_id = None
                            done_id = True
                    new_reg = input(
                        "If you want to change the Registration No. enter it now, leave blank to skip > "
                    )
                    if new_reg == "":
                        new_reg = None

                    new_brand = input(
                        "If you want to change the Brand enter it now, leave blank to skip > "
                    )
                    if new_brand == "":
                        new_brand = None

                    while not done_hp:
                        new_hp = input(
                            "If you want to change the Horsepower enter it now, leave blank to skip > "
                        )
                        if new_hp != "":
                            try:
                                new_hp = int(new_hp)
                                done_hp = True
                            except ValueError:
                                console.clear_console()
                                olt.show(
                                    title="Info",
                                    message=
                                    "Invalid HP! The Horespower be a numeric value",
                                    go_back=False)
                        else:
                            new_hp = None
                            done_hp = True

                    while not done_kms:
                        new_kms = input(
                            "If you want to change the KMs enter them now, leave blank to skip > "
                        )
                        if new_kms != "":
                            try:
                                new_kms = int(new_kms)
                                done_kms = True
                            except ValueError:
                                console.clear_console()
                                olt.show(title="Info",
                                         message=
                                         "Invalid KM! The KMs Must be numeric",
                                         go_back=False)
                        else:
                            new_kms = None
                            done_kms = True

                    # Actually update-ing:
                    car_repo.update(type_of_entity="car",
                                    entity_id=id_,
                                    id=new_id,
                                    reg=new_reg,
                                    brand=new_brand,
                                    hp=new_hp,
                                    kms=new_kms)
                    save_data(mode="single",
                              only="cars",
                              car_instance_list=car_list)
                    olt.show(title="Success",
                             message="The car was updated succesfully")
            except ValueError:
                console.clear_console()
                olt.show(title="Info",
                         message="Invalid ID! The ID Must be numeric",
                         go_back=False)
            else:
                console.clear_console()
                olt.show(title="Info", message="Invalid ID!", go_back=False)
def print_table(TABLE_DATA):

    table_instance = SingleTable(TABLE_DATA, "")
    table_instance.justify_columns[2] = 'right'
    print(table_instance.table)
    print
Exemplo n.º 58
0
def handle_update_driver(driver_repo: Repo, parser: Parser, car_repo: Repo):
    """
    Handle updateing a driver

    Args:
        driver_repo (Repo): Driver repository
        parser (Parser): Input data parser
        car_repo (Repo): Car repository
    """

    # Get driver id:
    got_id = False
    _, driver_list = driver_repo.get()

    while not got_id:
        id_ = input(
            "Enter driver id (numeric) or leave blank to see the driver list > "
        )
        if id_ == "":
            table_data = [["ID", "Name"]]
            for driver in driver_list:
                table_data.append([str(driver.id), driver.name])

            driver_table = SingleTable(table_data, title="Drivers")
            driver_table.justify_columns = {
                0: "left",
                1: "center",
            }
            while True:
                console.clear_console()
                print(driver_table.table)
                input_ = input("Type b or back to go back > ")
                if input_ == "b" or input_ == "back":
                    break
                else:
                    continue
        else:
            try:
                id_ = int(id_)

                if parser.check_if_already_exists(by_id=True, id=id_):
                    # Id exists, continue:
                    got_id = True
                    done_id = False
                    done_age = False
                    #new_car = None

                    while not done_id:
                        new_id = input(
                            "If you want to change the ID enter it now, leave blank to skip > "
                        )
                        if new_id != "":
                            try:
                                new_id = int(new_id)
                                done_id = True
                            except ValueError:
                                console.clear_console()
                                olt.show(title="Info",
                                         message=
                                         "Invalid ID! The ID Must be numeric",
                                         go_back=False)
                        else:
                            new_id = None
                            done_id = True

                    new_name = input(
                        "If you want to change the Name enter it now, leave blank to skip > "
                    )
                    if new_name == "":
                        new_name = None

                    while not done_age:
                        new_age = input(
                            "If you want to change the Age enter it now, leave blank to skip > "
                        )
                        if new_age != "":
                            try:
                                new_age = int(new_age)
                                done_age = True
                            except ValueError:
                                console.clear_console()
                                olt.show(title="Info",
                                         message=
                                         "Invalid ID! The ID Must be numeric",
                                         go_back=False)
                        else:
                            new_age = None
                            done_age = True

                    new_car_yn = input(
                        "Do you want to change the driver's car enter \"y\" to change and \"n\" to skip > "
                    ).strip().lower()
                    if new_car_yn == 'y':
                        new_car_id = input(
                            "Enter the new car's ID, leave blank to see all cars, or type \"none\" to delete the car from the driver > "
                        ).strip().lower()
                        if new_car_id == "":
                            _, car_list = car_repo.get()
                            if len(car_list) == 0 or car_list is None:
                                olt.show(
                                    title="Something went wrong",
                                    message=
                                    "Either there are no cars at this moment or something else went wrong"
                                )
                            else:
                                table_data = [["ID", "Registration"]]
                                for car in car_list:
                                    table_data.append([str(car.id), car.reg])

                                car_table = SingleTable(table_data,
                                                        title="Cars")
                                car_table.justify_columns = {
                                    0: "left",
                                    1: "center",
                                }

                                while True:
                                    console.clear_console()
                                    print(car_table.table)
                                    input_ = input(
                                        "Type b or back to go back > ")
                                    if input_ == "b" or input_ == "back":
                                        break
                                    else:
                                        continue

                                new_car_id = input("Enter the new car's ID > ")

                                try:
                                    new_car_id = int(new_car_id)
                                    resp, car = car_repo.get(
                                        mode="single", entity_id=new_car_id)
                                    if resp is "found":
                                        new_car = car
                                    else:
                                        olt.show(
                                            title="Fail",
                                            message=
                                            "The car coudn't be found, discarding car changes",
                                            go_back=False)
                                except ValueError:
                                    olt.show(
                                        title="Fail",
                                        message=
                                        "The car's id must be numeric, discarding car changes",
                                        go_back=False)
                        elif new_car_id == "none":
                            new_car = -1
                        else:
                            try:
                                new_car_id = int(new_car_id)
                                resp, car = car_repo.get(mode="single",
                                                         entity_id=new_car_id)
                                if resp == "found":
                                    new_car = car
                                else:
                                    olt.show(
                                        title="Fail",
                                        message=
                                        "The car coudn't be found, discarding car changes",
                                        go_back=False)
                            except ValueError:
                                olt.show(
                                    title="Fail",
                                    message=
                                    "222The car's id must be numeric, discarding car changes",
                                    go_back=False)
                    else:
                        new_car = None

                    driver_repo.update(type_of_entity="driver",
                                       entity_id=id_,
                                       id=new_id,
                                       name=new_name,
                                       age=new_age,
                                       car=new_car)
                    save_data(mode="single",
                              only="drivers",
                              driver_instance_list=driver_list)
                    olt.show(title="Success",
                             message="The driver was updated succesfully")
            except ValueError:
                console.clear_console()
                olt.show(title="Info",
                         message="Invalid ID! The ID Must be numeric",
                         go_back=False)
            else:
                console.clear_console()
                olt.show(title="Info", message="Invalid ID!", go_back=False)
Exemplo n.º 59
0
def searchCopainsdavant(self, nom, city):
    url = "http://copainsdavant.linternaute.com/s/?ty=1&prenom=%s&nom=%s&nomjf=&annee=&anneeDelta=&ville=%s"
    name = nom
    if " " in name:
        nom = name.split(" ")[1]
        prenom = name.split(" ")[0]
    else:
        prenom = ""
        nom = name

    data = requests.get(url % (prenom, nom, city)).content.decode('utf-8')

    soup = BeautifulSoup(data, "html.parser")

    nameList = soup.find_all("div", {"class": "grid_last"})
    addresseList = soup.find_all("span",
                                 {"class": "app_list--result__search__place"})
    urlList = soup.find_all("h3")
    birthdayList = []
    travailList = []

    urlList2 = []

    for url in urlList:
        url = url.find("a")
        urls = str(url)
        href = re.search(r"/p/([a-zA-Z0-9_-]+)", urls).group()
        urlList2.append(href)

    for url in urlList2:
        data = requests.get("http://copainsdavant.linternaute.com/%s" %
                            (url)).content.decode('utf-8')
        soup = BeautifulSoup(data, "html.parser")
        birthdayList0 = soup.find_all("abbr", {"class": "bday"})
        item = len(birthdayList0)
        if item == 0:
            birthdayList0.append("None")

        for b in birthdayList0:
            birthdayList.append(str(b))

        travailList0 = soup.find_all("p", {"class": "title"})
        item = len(travailList0)
        if item == 0:
            travailList0.append("None")

        for t in travailList0:
            travailList.append(str(t))

    namesList2 = []
    addressesList2 = []
    birthdayList2 = []
    travailList2 = []

    for name in nameList:
        name = name.find("a")
        namesList2.append(name.string)
    for addr in addresseList:
        addressesList2.append(addr.string.strip())
    for date in birthdayList:
        date = date.replace("<abbr class=\"bday\" title=\"",
                            "").replace("00:00:00\">",
                                        "- ").replace("</abbr>",
                                                      "").replace("\">", "")
        birthdayList2.append(date)
    for travail in travailList:
        travail = travail.replace("<p class=\"title\">",
                                  "").replace("</p>", "")
        travailList2.append(travail)

    regroup = zip(namesList2, addressesList2, birthdayList2, travailList2,
                  urlList2)

    title = " Copain D'avant "

    TABLE_DATA = [
        ('Name', 'Adresse', 'Date', 'Work', 'url'),
    ]

    count = 0

    for info in regroup:
        count += 1
        name = info[0]
        adresse = info[1]
        adresse = adresse.split(" - ")[0]
        dateBirthday = info[2]
        try:
            dateBirthday = dateBirthday.split(" - ")[1]
        except:
            pass
        travail = info[3]
        url = info[4]

        infos = (name, adresse, dateBirthday, travail, url)

        TABLE_DATA.append(infos)

    if count > 0:
        table_instance = SingleTable(TABLE_DATA, title)
        labl = Label(self,
                     text=table_instance.table,
                     bg="black",
                     fg="green",
                     font=("comicsansms", 15, "bold"),
                     relief=FLAT)
        labl.place(x=20, y=2)
        # print(table_instance.table)
Exemplo n.º 60
0
def searchPageDor(requete='', num=''):
    def testResponse(requete):
        if 'Aucun résultat' in requete.text:
            return 1
            # print("[!] Aucun resultattttt pour votre recherche... o_o' ")

    page = requete.text  #content.decode('utf-8')
    soup = BeautifulSoup(page, "html.parser")
    rep = testResponse(requete)
    if rep == 1:
        print(warning + " Aucun résultat pour votre recherche... o_o'")
        if num != '':
            # phoneNumber(num)
            pass
        else:
            pass
    else:
        pass

    try:
        nameList = soup.find_all("h2", {"class": "result-item-title"})
        # print(nameList)
        addressList = soup.find_all("li", {"class": "address"})
        # print(addressList)
        numList = soup.find_all("li", {"class": "phone"})
        # input(numList)
        # name = name.string.strip()
        # adresse = adresse.string.strip()
        # num = num.string.strip()
        # printResult(name, adresse, num)
    except AttributeError:
        pass

    namesList2 = []
    addressesList2 = []
    numesList2 = []
    operatorList = []

    # try:
    for name in nameList:
        namesList2.append(name.text.strip())
    for addresse in addressList:
        addressesList2.append(addresse.text.strip())
    for num in numList:
        phone = searchInfoNumero()
        phone.search(num.text.strip())
        operator = phone.operator
        operatorList.append(operator)
        numesList2.append(num.text.strip())
    # except:
    # 	pass
    # 	print("[!] Aucun resultat pour votre recherche... o_o'")

    regroup = zip(namesList2, addressesList2, numesList2, operatorList)

    title = " Particulier "

    TABLE_DATA = [
        ('Name', 'Adresse', 'Phone', 'Operateur'),
    ]

    listeInfos = []

    for infos in regroup:

        try:

            TABLE_DATA.append(infos)

        except AttributeError:
            pass

    if rep != 1:
        table_instance = SingleTable(TABLE_DATA, title)
        print("\n" + table_instance.table)