Ejemplos de Link en Python

Ejemplo n.º 1

Archivo: manageBot.py Proyecto: Remkudusov/botTelegramLinks

def botCreateLinkStep4(message):
    params.append(message.text)
    parametr = link.Link(params[0], params[1], params[2], params[3])
    db_worker = SQLiter('codes.db')
    db_worker.insert_row(message.from_user.id, parametr.getCode(),
                         parametr.getChannelLink(), parametr.getNotSub(),
                         parametr.getSub())
    db_worker.connection.commit()
    db_worker.close()
    links.append(link.Link(params[0], params[1], params[2], params[3]))
    startWork(message)

Ejemplo n.º 2

 def test_is_ssl(self):
     link = l.Link("index", "http://stackoverflow.com/")
     self.assertFalse(link.is_ssl())
     link.set_base("https://stackoverflow.com/")
     self.assertTrue(link.is_ssl())
     link.set_raw_value("http://rivergillis.com/")
     self.assertFalse(link.is_ssl())

Ejemplo n.º 3

	def msg_makeLink(self, msg):
		if msg.localID in self.links.keys():
			raise Exception('A link with ID %s already exists' % msg.localID)

		if msg.localID in self.payeeLinks.keys():
			raise Exception('A payee link with ID %s already exists' % msg.localID)

		if msg.localID[0] == '_':
			raise Exception('Names starting with an underscore are reserved, and can not be used')

		self.links[msg.localID] = link.Link(remoteID=msg.remoteID, localID=msg.localID)

		self.connections[msg.localID] = \
			persistentconnection.PersistentConnection(
				host=msg.remoteHost,
				port=msg.remotePort,
				connectMessage=messages.ConnectLink(
					ID=msg.remoteID,

					#TODO: find a way to update this whenever it changes:
					callbackHost=msg.localHost,
					callbackPort=msg.localPort,
					callbackID=msg.localID
					)
				)

		return []

Ejemplo n.º 4

Archivo: map_matching.py Proyecto: Kashugoyal/probe_data_analysis

def read_link():
    #reading Link Data
    print 'reading link data ...'
    with open('Partition6467LinkData.csv', 'rb') as csvfile:
        spamreader = csv.reader(csvfile, delimiter=',', quotechar='|')
        i = 0
        for row in spamreader:
            # print 'row_length=',row[16]
            link_obj = link.Link(row)

            # for shape_point in link_obj.shape_points:
            #     x.append(shape_point.longitude)
            #     y.append(shape_point.latitude)
            #     print 'No=',i,'latitude=', shape_point.latitude, 'longitude=', shape_point.longitude

            #For displaying nodes only
            # x.append(link_obj.reference_node.longitude)
            # y.append(link_obj.reference_node.latitude)
            # print 'No=', i, 'latitude=', link_obj.reference_node.latitude, 'longitude=', link_obj.reference_node.longitude
            #
            # x.append(link_obj.non_reference_node.longitude)
            # y.append(link_obj.non_reference_node.latitude)
            # print 'No=', i, 'latitude=', link_obj.non_reference_node.latitude, 'longitude=', link_obj.non_reference_node.longitude

            i = i + 1
            # print type(link_obj.reference_node.latitude)
            link_data.append(link_obj)

Ejemplo n.º 5

def parse_links(f):
    links = []
    l_map = {}

    num_links = int(next_line(f))

    for i in xrange(num_links):
        link_id = next_line(f)

        # Input link rate is in MB/s. Convert to
        # pass link_rate into constructor in bytes per second
        link_rate = (next_line(f, 'f')) * 1e6 / 8
        # print link_rate

        # Input link delay is in milliseconds. Convert to
        # seconds when passing to constructor
        link_delay = next_line(f, 'f') * 0.001

        # Input buffer size is in MB.
        # Passing buffer size into constructor in bytes
        link_buffer_size = next_line(f, 'f') * 1e3
        # print link_buffer_size

        # Construct link and add to link map and list of links
        l = link_class.Link(link_id, link_rate, link_delay, link_buffer_size)
        l_map[link_id] = l
        links.append(l)

    # Set the map for the link class
    link_class.Link.l_map = l_map

    return (links, l_map)

Ejemplo n.º 6

def read_link():
    #reading Link Data
  print 'Reading link data ...'
  with open('Partition6467LinkData.csv', 'rb') as csvfile:
      spamreader = csv.reader(csvfile, delimiter=',', quotechar='|')
      for i, row in enumerate(spamreader):
          link_obj=link.Link(row)
          link_data.append(link_obj)

Ejemplo n.º 7

	def setUp(self):
		self.ID = "L1"
		self.left = "H1"
		self.right = "H2"
		self.rate = "10"
		self.delay = "10"
		self.buff = "64"
		self.l = link.Link(self.ID,self.left,self.right,self.rate,self.delay,self.buff)

Ejemplo n.º 8

Archivo: alink.py Proyecto: tmpbci/LJ

def Start():
    global lnk
    import link

    print("Link ENABLED")
    lnk = link.Link(120)
    lnk.enabled = True
    lnk.startStopSyncEnabled = True
    linked = True

Ejemplo n.º 9

Archivo: network.py Proyecto: joe-eklund/tcp

 def create_network(self,line):
     fields = line.split()
     if len(fields) < 2:
         return
     start = self.get_node(fields[0])
     for i in range(1,len(fields)):
         end = self.get_node(fields[i])
         l = link.Link(self.address,start,endpoint=end)
         self.address += 1
         start.add_link(l)

Ejemplo n.º 10

def StartLink():

    global lnk
    import link

    print("Link ENABLED")
    lnk = link.Link(120)
    lnk.enabled = True
    lnk.startStopSyncEnabled = True
    SendOSCUI('/bpm', "120")

Ejemplo n.º 11

Archivo: escenario2.py Proyecto: UzayAnil/PyZelda

 def __init__(self):
     ''' Constructor '''
     self.imagen = pygame.image.load("imagenes/escenario2.png").convert()
     self.antorcha = pygame.image.load("imagenes/laantorcha.gif").convert()
     self.win = pygame.image.load("imagenes/creditos.jpg").convert()
     #self.antorchaRect = self.antorcha.get_rect()
     self.miLink = link.Link()
     self.enemigo = ganon.Ganon()
     self.rect = self.imagen.get_rect()
     self.escena3 = escenario3.Escenario3()

Ejemplo n.º 12

Archivo: escenario1.py Proyecto: UzayAnil/PyZelda

 def __init__(self):
     self.cursor_mouse = cursor_mouse.CursorMouse()
     self.imagen = pygame.image.load("imagenes/escena1.png").convert()
     self.puerta = pygame.image.load("imagenes/puerta.png").convert()
     self.rect_puerta = self.puerta.get_rect()  #Rectangulo de la puerta
     self.rect_puerta.centerx = 300
     self.rect_puerta.centery = 50
     self.rect = self.imagen.get_rect()
     self.enemigos = enemigos.Enemigos()
     self.miLink = link.Link()
     self.rect_link = self.miLink.obtenerRect()
     self.miEscena2 = escenario2.Escenario2()

Ejemplo n.º 13

Archivo: euclid.py Proyecto: abresler/Euclid

def justificationToLink(just):

    linkList = []
    just = just.replace('(', '').replace(')', '').replace('\r', '')
    justList = just.split('\n')
    justListTemp = []
    justListTemp2 = []
    for j in justList:
        justListTemp.extend(j.split(','))
    for j in justListTemp:
        if 'Post. ' in j:
            continue
        else:
            justListTemp2.extend(j.split(' '))
    justList = justListTemp2
    print justList
    for j in justList:

        comp = j.replace(',', '').replace(' ', '').split('.')
        print comp
        if comp[0] in [
                '', '\r', 'Above', 'Cor', '.', 'As', 'in', 'as', 'or',
                'converse', 'and', 'to'
        ]:
            continue
        elif (comp[0] == '13'):  #one edge case in book 7
            print "Book 7 edge"
            l = link.Link('Def', 7, 13)
            linkList.append(l)
        elif comp[0] == 'C':
            if len(comp) == 3 and len(comp[2]) > 0:
                l = link.Link('Com', 1, int(comp[2]))
                linkList.append(l)
            else:
                for i in range(1, 6):
                    l = link.Link('Com', 1, i)
                    linkList.append(l)
        elif comp[0] == 'Post' or comp[1] == 'Post':
            l = link.Link('Pos', 1, int(comp[-1]))
            linkList.append(l)
        elif comp[0] == 'Def':
            book = romanToBook(comp[1])
            l = link.Link('Def', book, int(comp[2]))
            linkList.append(l)
        elif comp[1] == 'Def':
            book = romanToBook(comp[0])
            l = link.Link('Def', book, int(comp[2]))
            linkList.append(l)
        else:
            book = romanToBook(comp[0])
            l = link.Link('Pro', book, int(comp[1]))
            linkList.append(l)

    return linkList

Ejemplo n.º 14

	def setUp (self):
		self.lNode = node.Node("h1")
		self.rNode = node.Node("h2")
		# don't need flow, as no packet timeouts created to callback to flow
		# and node receive is a dummy function		
		for i in 1, 2, 3:
			self.lPs.append(packet.Packet("","h1","h2","data",i,1000)) # 1000kbit
			self.rPs.append(packet.Packet("","h2","h1","data",i,1000))
		
		self.link = link.Link("l1", "h1", "h2", 1000.0, 10.0, 3000.0) 
					# 1000kbit/ms, 10 ms prop delay, 3000kbit buffers

		self.sim = event_simulator.Event_Simulator({"l1":self.link, \
													"h1":self.lNode, \
													"h2":self.rNode})

Ejemplo n.º 15

    def __init__(self, core_id, idc_id, id, upload_capacity,
                 download_capacity):
        self.id = id
        self.super_core_id = core_id
        self.idc_id = idc_id

        self.block_list = {}  # blockid: blockinfo
        self.link = link.Link(upload_capacity, download_capacity)

        self.task_status = {}  # blockid: finished or not(0:1)
        self.status = 0  # finished all
        self.sender_list = {
        }  # {(super_core_id, idc_id, server_id): download block info}
        self.receiver_list = {
        }  # {(super_core_id, idc_id, server_id): upload block info}

Ejemplo n.º 16

 def __init__(self):
     self.miLink = link.Link()
     self.enemigo = ganon.Ganon()
     self.imagenEscenario3 = pygame.image.load(
         "imagenes/escenario3.jpg").convert()
     self.rect = self.imagenEscenario3.get_rect()
     self.perfil1 = pygame.image.load("imagenes/ganonPerfil.gif")
     self.perfil2 = pygame.image.load("imagenes/linkPerfil.gif")
     self.letra = pygame.font.SysFont("Algerian", 20)
     self.color = (250, 0, 0)
     self.barraVida = pygame.image.load("imagenes/barraVida.png")
     self.turno = True
     self.vidaGanon = self.enemigo.obtenerVida()
     self.vidaLink = self.miLink.obtenerVida()
     self.gana = "Ninguno"

Ejemplo n.º 17

    def test_page_create_links(self):
        # This test is very slow
        page = p.Page("http://rivergillis.com/about/")
        correct_link_str = {
            "http://rivergillis.com/", "http://rivergillis.com/about/",
            "http://rivergillis.com/posts/", "http://rivergillis.com/feed.xml",
            "https://github.com/rivergillis",
            "https://twitter.com/rivergillis",
            "http://rivergillis.com/resume.pdf"
        }
        correct_links = set()
        for link in correct_link_str:
            correct_links.add(l.Link(link, "http://rivergillis.com/about/"))

        self.assertEqual(page.get_links(), correct_links)

Ejemplo n.º 18

Archivo: markdownpage.py Proyecto: danpicton/mudpub

    def collect_references(self):
        """Populates the pkm (local) references (links and images)."""

        markdownbody = markdown.markdown(self.body_text)
        # markdownbody = markdown.markdown(page_to_validate.content, extensions=['wikilinks'])

        doc = etree.fromstring(markdownbody, etree.HTMLParser())

        # collect links
        for link_element in doc.xpath('//a'):
            self.body_links.append(link.Link(link_element))

        # collect images
        for image_element in doc.xpath('//img'):
            self.body_images.append(image.Image(image_element))

Ejemplo n.º 19

Archivo: alink.py Proyecto: tmpbci/LJ

def newtempo(tempo):
    global lnk

    #print("val2", val2, "tempo", tempo)

    if linked == True:
        lnk.enabled = False
        lnk.startStopSyncEnabled = False
        lnk = link.Link(tempo)
        lnk.enabled = True
        lnk.startStopSyncEnabled = True
        bpm = tempo
        print(("New BPM", bpm))
        midix.SendUI('/bpm', [bpm])

    else:
        print("Link is disabled")

Ejemplo n.º 20

def newtempo(tempo):
    global lnk

    #print("val2", val2, "tempo", tempo)

    if gstt.link == True:
        lnk.enabled = False
        lnk.startStopSyncEnabled = False
        lnk = link.Link(tempo)
        lnk.enabled = True
        lnk.startStopSyncEnabled = True
        gstt.currentbpm = tempo
        print("New BPM", tempo)
        SendOSCUI('/bpm', tempo)
        #SendOSCUI('/bpm', [gstt.currentbpm])
        #AllStatus("New BPM : "+ str(tempo))
    else:
        print("Link is disabled")

Ejemplo n.º 21

def R18():

    size_packet=8 # in bits
    num_packets=5
    list_data=[]
    #err_prob=0
    #loss_prob=0.03

    rate_link= 2000000 # bits/s
    delay_prop_link=0.01 # m/s
    #delay_proc_router=0.01
    #queue_router=2

    for i in range(num_packets):
        list_data.append(physical.Databits(i,size_packet))

    env=simpy.Environment()

    A=link.Host(env,'mac_a')
    B=link.Host(env,'mac_b')

    rA=link.Router(env,0.1,3,'mac_rA')

    l1=link.Link(env,'l1',rate_link,delay_prop_link)

    A.addHandler(l1.getHandler)
    B.addHandler(l1.getHandler)
    l1.addHandler(rA.getHandler)
    l1.addHandler(A.getHandler)
    l1.addHandler(B.getHandler)
    rA.addHandler(l1.getHandler)


    A.sendData(list_data, 'mac_rA')
    B.sendData(list_data, 'mac_rA')

    env.run(until=1000)

Ejemplo n.º 22

            1: 3
        }
    }  # packet to host 2 through interface 1 for cost 3
    router_b = network.Router(name='B',
                              intf_cost_L=[1, 3],
                              intf_capacity_L=[500, 100],
                              rt_tbl_D=router_b_rt_tbl_D,
                              max_queue_size=router_queue_size)
    object_L.append(router_b)

    #create a Link Layer to keep track of links between network nodes
    link_layer = link.LinkLayer()
    object_L.append(link_layer)

    #add all the links
    link_layer.add_link(link.Link(client, 0, router_a, 0))
    link_layer.add_link(link.Link(router_a, 1, router_b, 0))
    link_layer.add_link(link.Link(router_b, 1, server, 0))

    #start all the objects
    thread_L = []
    for obj in object_L:
        thread_L.append(threading.Thread(name=obj.__str__(), target=obj.run))

    for t in thread_L:
        t.start()

    #create some send events
    for i in range(5):
        priority = i % 2
        print(priority)

Ejemplo n.º 23

    table_d = [(2, 3), (3, 4)]

    router_d = network_3.Router(name='D',
                                intf_count=4,
                                max_queue_size=router_queue_size,
                                forward_t=table_d)
    object_L.append(router_d)
    # create a Link Layer to keep track of links between network_3 nodes
    link_layer = link.LinkLayer()
    object_L.append(link_layer)

    # add all the links
    # link parameters: from_node, from_intf_num, to_node, to_intf_num, mtu
    # connect client 1 to router a
    link_layer.add_link(link.Link(client_1, 0, router_a, 0, 50))
    # connect client 2 to router a
    link_layer.add_link(link.Link(client_2, 0, router_a, 1, 50))

    #Upper port values are OUTPUT ports else input
    link_layer.add_link(link.Link(router_a, 2, router_b, 0,
                                  50))  # connect a to b
    link_layer.add_link(link.Link(router_b, 1, router_d, 0,
                                  50))  # connect b to d
    link_layer.add_link(link.Link(router_a, 3, router_c, 0,
                                  50))  # connect a to c
    link_layer.add_link(link.Link(router_c, 1, router_d, 1,
                                  50))  # connect c to d

    # connect server 1 to router d
    link_layer.add_link(link.Link(router_d, 2, server_1, 0, 50))

Ejemplo n.º 24

Archivo: simulation_2.py Proyecto: lbsrussett/control_plane

                              cost_D=cost_D,
                              max_queue_size=router_queue_size)
    object_L.append(router_a)

    cost_D = {'H2': {1: 3}, 'RA': {0: 1}}  # {neighbor: {interface: cost}}
    router_b = network.Router(name='RB',
                              cost_D=cost_D,
                              max_queue_size=router_queue_size)
    object_L.append(router_b)

    #create a Link Layer to keep track of links between network nodes
    link_layer = link.LinkLayer()
    object_L.append(link_layer)

    #add all the links - need to reflect the connectivity in cost_D tables above
    link_layer.add_link(link.Link(host_1, 0, router_a, 0))
    link_layer.add_link(link.Link(router_a, 1, router_b, 0))
    link_layer.add_link(link.Link(router_b, 1, host_2, 0))

    #start all the objects
    thread_L = []
    for obj in object_L:
        thread_L.append(threading.Thread(name=obj.__str__(), target=obj.run))

    for t in thread_L:
        t.start()

    ## compute routing tables
    router_a.send_routes(1)  #one update starts the routing process
    sleep(simulation_time)  #let the tables converge
    # router_a.rt_tbl_D = router_b.rt_tbl_D

Ejemplo n.º 25

if __name__ == '__main__':
    import doctest
    doctest.testmod()

    import sys
    port = None
    port = sys.argv[1:] and sys.argv[1] or False
    serial_num = sys.argv[2:] and sys.argv[2] or False
    if not port or not serial_num:
        print "usage:\n%s <port> <serial>, eg /dev/ttyUSB0 208850" % sys.argv[0]
        sys.exit(1)
    import link
    import stick
    import session
    from pprint import pformat
    logging.basicConfig(stream=sys.stdout, level=logging.DEBUG)
    log.info(
        "howdy! I'm going to take a look at your pump and grab lots of info.")
    stick = stick.Stick(link.Link(port, timeout=.400))
    stick.open()
    session = session.Pump(stick, serial_num)
    log.info(pformat(stick.interface_stats()))
    log.info('PUMP MODEL: %s' % session.read_model())
    do_commands(session)
    log.info(pformat(stick.interface_stats()))
    #get_pages(session)
    #log.info(pformat(stick.interface_stats( )))
    log.info("howdy! we downloaded a lot of pump info successfully.")
    # stick.open( )

Ejemplo n.º 26

Archivo: simulation_3.py Proyecto: lbsrussett/control_plane

            0: 1
        },
        'H2': {
            2: 1
        }
    }  # {neighbor: {interface: cost}}
    router_d = network.Router(name='RD',
                              cost_D=cost_D,
                              max_queue_size=router_queue_size)
    object_L.append(router_d)
    #create a Link Layer to keep track of links between network nodes
    link_layer = link.LinkLayer()
    object_L.append(link_layer)

    #add all the links - need to reflect the connectivity in cost_D tables above
    link_layer.add_link(link.Link(host_1, 0, router_a, 0))
    link_layer.add_link(link.Link(router_a, 1, router_b, 0))
    link_layer.add_link(link.Link(router_a, 2, router_c, 0))
    link_layer.add_link(link.Link(router_b, 1, router_d, 0))
    link_layer.add_link(link.Link(router_c, 1, router_d, 1))
    link_layer.add_link(link.Link(router_d, 2, host_2, 0))

    #start all the objects
    thread_L = []
    for obj in object_L:
        thread_L.append(threading.Thread(name=obj.__str__(), target=obj.run))

    for t in thread_L:
        t.start()

    ## compute routing tables

Ejemplo n.º 27

Archivo: stick.py Proyecto: gcastellanos/decoding-carelink

if __name__ == '__main__':
    import doctest
    doctest.testmod()

    import sys
    port = None
    port = sys.argv[1:] and sys.argv[1] or False
    if not port:
        print "usage:\n%s /dev/ttyUSB0" % sys.argv[0]
        sys.exit(1)
    import link
    from pprint import pformat
    logging.basicConfig(stream=sys.stdout, level=logging.DEBUG)
    log.info("howdy! I'm going to take a look at your carelink usb stick.")
    stick = Stick(link.Link(port))
    stick.open()
    log.info('test fetching product info %s' % stick)
    log.info(pformat(stick.product_info()))
    log.info('get signal strength of %s' % stick)
    signal = 0
    while signal < 50:
        signal = stick.signal_strength()
    log.info('we seem to have found a nice signal strength of: %s' % signal)
    log.info("""
    at this point, we could issue remote commands to a medical
    device, let's inspect the interfaces""".strip())
    #log.info(pformat(stick.usb_stats( )))
    #log.info(pformat(stick.radio_stats( )))
    log.info(pformat(stick.interface_stats()))
    """

Ejemplo n.º 28

    def test_get_full_hyperlink(self):
        test_link = l.Link("/index", "http://rivergillis.com/")
        self.assertEqual(test_link.full_hyperlink,
                         "http://rivergillis.com/index/")
        test_link.set_raw_value("/index.html")
        self.assertEqual(test_link.full_hyperlink,
                         "http://rivergillis.com/index.html")
        test_link.set_raw_value("/index#sadf")
        self.assertEqual(test_link.full_hyperlink,
                         "http://rivergillis.com/index/")
        test_link.set_raw_value("//stackoverflow.com")
        self.assertEqual(test_link.full_hyperlink, "http://stackoverflow.com/")

        # self.assertEqual(c.clean_link(base_url, "../", root_url), ?)
        # self.assertEqual(c.clean_link(base_url, "../../", root_url), ?)

        test_link.set_raw_value("#sadf")
        self.assertEqual(test_link.full_hyperlink, "http://rivergillis.com/")
        test_link.set_raw_value("index.html")
        self.assertEqual(test_link.full_hyperlink,
                         "http://rivergillis.com/index.html")
        test_link.set_raw_value("index#sdf")
        self.assertEqual(test_link.full_hyperlink,
                         "http://rivergillis.com/index/")

        test_link.set_base("https://www.rivergillis.co.uk/test/3.5/")
        test_link.set_raw_value("/index")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/index/")
        test_link.set_raw_value("/index.html")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/index.html")
        test_link.set_raw_value("/index#sadf")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/index/")
        test_link.set_raw_value("//stackoverflow.com")
        self.assertEqual(test_link.full_hyperlink,
                         "https://stackoverflow.com/")

        test_link.set_raw_value("../")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/test/")
        test_link.set_raw_value("../index")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/test/index/")
        test_link.set_raw_value("../index#asdf")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/test/index/")
        test_link.set_raw_value("../index.html")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/test/index.html")
        test_link.set_raw_value("../../")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/")
        test_link.set_raw_value("#asdf")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/test/3.5/")
        test_link.set_raw_value("index.html")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/test/3.5/index.html")
        test_link.set_raw_value("index")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/test/3.5/index/")

        test_link.set_raw_value("./foo")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/test/3.5/foo/")
        test_link.set_raw_value("./foo.html")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/test/3.5/foo.html")
        test_link.set_raw_value("./foo.html#asdf")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/test/3.5/foo.html")
        test_link.set_raw_value("./../foo")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/test/foo/")
        test_link.set_raw_value(".././foo")
        self.assertEqual(test_link.full_hyperlink,
                         "https://www.rivergillis.co.uk/test/foo/")

Ejemplo n.º 29

'''
Provides easy access to commonly used functions.
Initializes constants.
'''
import node
import link
import activations

Node = node.Node()
Link = link.Link()
Activation = activations.Activation()


# ---------------- #
# Hyper Paramaters #
# ---------------- #

# Sizes
population = 100
generations = 30

# Node type
node_type = 'cppn'

# Weight Mutations
weight_mutation_strength = 2.5
weight_max_size = 8.0

# Mutation Chance
chance_inherit_disabled_gene = 0.75
chance_mutate_weight = 0.8

Ejemplo n.º 30

    object_L.append(host3)
    router_a = network.Router(name='A', intf_count_in=2, intf_count_out=2, max_queue_size=router_queue_size, inLUT=aTable)
    object_L.append(router_a)
    router_b = network.Router(name='B', intf_count_in=1, intf_count_out=1, max_queue_size=router_queue_size, inLUT=bTable)
    object_L.append(router_b)
    router_c = network.Router(name='C', intf_count_in=1, intf_count_out=1, max_queue_size=router_queue_size, inLUT=cTable)
    object_L.append(router_c)
    router_d = network.Router(name='D', intf_count_in=2, intf_count_out=1, max_queue_size=router_queue_size, inLUT=dTable)
    object_L.append(router_d)

    # create a Link Layer to keep track of links between network nodes
    link_layer = link.LinkLayer()
    object_L.append(link_layer)

    # add all the links
    link_layer.add_link(link.Link(host1, 0, router_a, 0, 50))       #H1:0 - RA:0
    link_layer.add_link(link.Link(host2, 0, router_a, 1, 50))       #H2:0 - RA:1
    link_layer.add_link(link.Link(router_a, 0, router_b, 0, 50))    #RA:0 - RB:0
    link_layer.add_link(link.Link(router_a, 1, router_c, 0, 50))    #RA:1 - RC:0
    link_layer.add_link(link.Link(router_b, 0, router_d, 0, 50))    #RB:0 - RD:0
    link_layer.add_link(link.Link(router_c, 0, router_d, 1, 50))    #RC:0 - RD:1
    link_layer.add_link(link.Link(router_d, 0, host3, 0, 50))       #RD:0 - H3:0

    # start all the objects
    thread_L = []
    thread_L.append(threading.Thread(name=host1.__str__(), target=host1.run))
    thread_L.append(threading.Thread(name=host2.__str__(), target=host2.run))
    thread_L.append(threading.Thread(name=host3.__str__(), target=host3.run))
    thread_L.append(threading.Thread(name=router_a.__str__(), target=router_a.run))
    thread_L.append(threading.Thread(name=router_b.__str__(), target=router_b.run))
    thread_L.append(threading.Thread(name=router_c.__str__(), target=router_c.run))