예제 #1
0
class Client(object):
    def __init__(self, addr, coder=None):
        self.sock = Socket()
        self.addr = addr
        self.loop = Loop()
        self.ch = Channel(self.sock, self.loop, coder)
        self.ch.set_read_callback(self.on_msg_in)
        self.ch.set_write_callback(self.on_msg_sent)
        self.ch.set_error_callback(self.on_error)
    
    def start(self):
        self.ch.connect(self.addr)
        self.loop.loop()

    def on_msg_in(self, msg):
        pass
    
    def on_msg_sent(self):
        pass
    
    def on_error(self):
        pass
    
    def send(self, msg):
        self.ch.send(msg)
예제 #2
0
 def __init__(self, addr, coder=None):
     self.loop = Loop()
     self.acceptor = Acceptor(addr, self.loop)
     self.coder = coder
     self.clients = {}
     self.acceptor.set_error_callback(self.fatal_error)
     self.acceptor.set_connect_callback(self.process_new)
예제 #3
0
 def __init__(self, addr, coder=None):
     self.sock = Socket()
     self.addr = addr
     self.loop = Loop()
     self.ch = Channel(self.sock, self.loop, coder)
     self.ch.set_read_callback(self.on_msg_in)
     self.ch.set_write_callback(self.on_msg_sent)
     self.ch.set_error_callback(self.on_error)
예제 #4
0
    def __init__(self, window, parent=None):
        super(Display, self).__init__(parent)

        self.loop = Loop(window)

        self.setWindow(window)

        self.startTimer(100)
예제 #5
0
 def __init__(self, addr, retry_times=3):
     self.sock = Socket()
     self.fd = self.sock.fd
     self.addr = addr
     self.loop = Loop(2)
     self.loop.set_timeout(2, self.on_timeout)
     self.times = retry_times
     self.retry_time = 0
     self.stat = 0
def test_canvas_rejects_loop_with_repeated_numbers():
    dwg = svgwrite.Drawing("foo")
    canvas = Canvas(dwg)

    loop = Loop('acgu', [1, 2, 3, 4], None)
    loop2 = Loop('acgu', [1, 2, 3, 4], None)

    with pytest.raises(Exception) as e_info:
        canvas.add_loop(loop)
        canvas.add_loop(loop2)
예제 #7
0
def parse(dir_name):
    print("#####PARSING#####")
    arn_list = []
    for filename in os.listdir(dir_name):
        file = open(dir_name + filename, 'r')
        print("file: " + dir_name + filename)

        # On construit l'objet ARN
        arn = ARN(filename.split("_")[0])
        file.readline()
        file.readline()
        chain = file.readline().split(" ")[1].rsplit('\t')
        chain_id = chain[0]
        chain = chain[1].rsplit('\n')[0]
        arn.chain = chain
        arn.chain_id = chain_id
        file.readline()

        # On ajoute les interactions et bases a l'ARN
        arn._set_bases()
        for line in file:
            line = line.rsplit('\t')
            base1 = Base(line[2], int(line[5]))
            base2 = Base(line[6], int(line[9].rsplit('\n')[0]))
            interaction = Interaction(base1, line[1], base2)
            arn._add_interaction(interaction)

        # On ajoute les boucles a l'ARN
        expr = "Catalog_results/loop." + arn.name + "*"
        for loop_file_name in glob.glob(expr):
            print("|\tloop file: " + loop_file_name)
            loop_file = open(loop_file_name)
            loop = Loop(arn.name, arn.chain_id, loop_file.readline().split(":")[1].rsplit('\n')[0])
            loop_bases = loop_file.readline().split(": ")[1].split(", ")
            loop_bases[-1] = loop_bases[-1].rsplit('\n')[0]
            loop.bases = [Base(b[:1], b[1:]) for b in loop_bases]
            loop_file.readline()
            for line in loop_file:
                line = line.rsplit('\t')
                base1 = Base(line[0][:1], int(line[0][1:]))
                base2 = Base(line[2][:1], int(line[2][1:].rsplit('\n')[0]))
                interaction = Interaction(base1, line[1], base2)
                print("|\t|\tadding interaction " + str(interaction))
                loop.add_interaction(interaction)
            arn._add_loop(loop)
            loop_file.close()
        file.close()
        arn_list.append(arn)
    print("#####FINISHED PARSING#####")
    return arn_list
예제 #8
0
class Server(object):
    def __init__(self, addr, coder=None):
        self.loop = Loop()
        self.acceptor = Acceptor(addr, self.loop)
        self.coder = coder
        self.clients = {}
        self.acceptor.set_error_callback(self.fatal_error)
        self.acceptor.set_connect_callback(self.process_new)

    def start(self):
        self.acceptor.listen()
        self.loop.loop()

    def fatal_error(self, msg):
        print msg
        self.quit()

    def quit(self):
        for fd in self.clients.keys():
            ch = self.clients.pop(fd)
            ch.close()
        self.loop.quit()

    def process_new(self, sock):
        ch = Channel(Socket(sock), self.loop, self.coder)
        ch.set_read_callback(self.on_msg_in)
        ch.set_write_callback(self.on_msg_sent)
        ch.set_error_callback(self.on_error)
        ch.set_peer_closed(self.peer_closed)
        self.clients[ch.fd] = ch
        self.on_connect(ch)

    def on_connect(self, ch=None):
        print 'client {} connect.'.format(ch.peer_addr)
        pass

    def on_msg_in(self, msg, ch=None):
        pass

    def on_msg_sent(self, ch=None):
        pass

    def on_error(self, ch=None):
        print 'error'
        self.clients.pop(ch.fd)

    def peer_closed(self, ch=None):
        print 'client {} disconnect.'.format(ch.peer_addr)
        self.clients.pop(ch.fd)
예제 #9
0
파일: main.py 프로젝트: yaricp/pywheelings
def main():
    pygame.mixer.init(44100, -16, 2, 1024)
    pygame.init()
    screen = pygame.display.set_mode(DISPLAY)
    pygame.display.set_caption("py Wheels")
    bg = Surface((WIN_WIDTH, WIN_HEIGHT))
    bg.fill(Color(BACKGROUND_COLOR))
    timer = pygame.time.Clock()
    margin_row = 0
    margin_sect = MARGIN * 0.5
    list_loops = []
    total_dict_loops = {}

    pygame.mouse.set_cursor(*pygame.cursors.diamond)
    for row in range(0, COUNT_ROWS):
        margin_row += MARGIN
        margin_sect += row * MARGIN * 0.5
        loops = []
        margin_loop = 0
        for col in range(0, COUNT_IN_ROW):
            margin_loop += MARGIN
            x = LOOP_RAD + 2 * col * LOOP_RAD + margin_loop + TOTAL_X_MARGIN
            y = LOOP_RAD + 2 * row * LOOP_RAD + margin_row + TOTAL_Y_MARGIN
            loop = Loop(LOOP_RAD, x, y)
            total_dict_loops.update({loop.id: loop})
            loops.append(loop)
        height = (2 * LOOP_RAD) + MARGIN
        y = row * height + MARGIN * 0.5 + TOTAL_Y_MARGIN
        width = (2 * LOOP_RAD * COUNT_IN_ROW) + (MARGIN * (COUNT_IN_ROW + 1))
        sect = Section(TOTAL_X_MARGIN, y, width, height)
        list_loops.append([sect, loops])
    loop_sync = LoopSync(
        LOOP_RAD_SYNC, TOTAL_X_MARGIN + (width / 2),
        MARGIN + height * COUNT_ROWS + LOOP_RAD_SYNC + TOTAL_Y_MARGIN)
    main_process(screen, bg, list_loops, total_dict_loops, loop_sync, timer)
예제 #10
0
class Display(QtWidgets.QLabel):
    def __init__(self, window, parent=None):
        super(Display, self).__init__(parent)

        self.loop = Loop(window)

        self.setWindow(window)

        self.startTimer(100)

    def setWindow(self, window):
        self.window = window

        self.loop.window = window

        self.setFixedSize(window.width, window.height)

        self.updateContent()

        self.show()

    def updateContent(self):
        self.window.getContent()

        i = QtGui.QImage(
            self.window.pixels,
            self.window.width,
            self.window.height,
            QtGui.QImage.Format_RGBX8888,
        ).rgbSwapped()

        self.setPixmap(QtGui.QPixmap.fromImage(i))
        self.update()

    def timerEvent(self, e):
        self.updateContent()

    def mouseReleaseEvent(self, e):
        pos = e.pos()
        right = e.button() == Qt.RightButton
        self.window.click(pos.x(), pos.y(), right=right)

        self.loop.addClick(pos.x(), pos.y(), right)
예제 #11
0
파일: graph.py 프로젝트: zhp562176325/deepy
 def loop(self, sequences=None, outputs=None, non_sequences=None, block=None, **kwargs):
     """
     Start a loop.
     Usage:
     ```
     with deepy.graph.loop(sequences={"x": x}, outputs={"o": None}) as vars:
         vars.o = vars.x + 1
     loop_outputs = deepy.graph.loop_outputs()
     result = loop_outputs.o
     ```
     """
     from loop import Loop
     return Loop(sequences, outputs, non_sequences, block, **kwargs)
예제 #12
0
class Client(object):
    def __init__(self, addr, coder=None):
        self.sock = None
        self.addr = addr
        self.coder = coder
        self.loop = Loop()
        self.ch = None

    def start(self):
        self.connect()
        self.loop.loop()

    def connect(self, retry=3):
        self.sock = Connector(self.addr).connect()
        if not self.sock:
            print 'connect timeout.'
            exit()
        self.ch = Channel(self.sock, self.loop, self.coder)
        self.ch.set_read_callback(self.on_msg_in)
        self.ch.set_write_callback(self.on_msg_sent)
        self.ch.set_error_callback(self.on_error)
        self.ch.set_peer_closed(self.peer_closed)

    def on_msg_in(self, msg, ch=None):
        pass

    def on_msg_sent(self, ch=None):
        pass

    def on_error(self, ch=None):
        pass

    def peer_closed(self, ch=None):
        print 'server offline.'
        self.loop.quit()

    def send(self, msg):
        self.ch.send(msg)
예제 #13
0
    def gen_random_loops(self, num_loops=7):
        loop_dim_dist = [6, 6, 7, 7, 8, 9, 10]
        for i in range(num_loops):
            rand_corner = (random.randint(0, self.width - 3),
                           random.randint(0, self.height - 3))
            rand_width = random.choice(loop_dim_dist)
            if rand_corner[0] + rand_width >= self.width:
                rand_width = self.width - rand_corner[0]
            rand_height = random.choice(loop_dim_dist)
            if rand_corner[1] + rand_height >= self.height:
                rand_height = self.height - rand_corner[1]
            cand = Loop(rand_corner, rand_width, rand_height)

            self.add_loop(cand)
            self.append_frame()
def test_sane_loop_order():

    # this stem is an impossibility of numbering -- just so that we can add to a canvas.
    stem = Stem('acguacgu', [[1, 8], [2, 7], [3, 6], [4, 5]])

    loop = Loop('acgu', [1, 2, 3, 4], stem)
    for loop_idx, loop_nt in enumerate(loop.nucleotides.keys()):
        print loop_idx, loop_nt, loop.nucleotides[loop_nt].name

    dwg = svgwrite.Drawing("foo")
    canvas = Canvas(dwg)

    canvas.add_stem(stem)

    canvas.add_loop(loop)

    for loop_idx, loop_nt in enumerate(canvas.loops[0].nucleotides.keys()):
        print loop_idx, loop_nt, loop.nucleotides[loop_nt].name
예제 #15
0
    def on_pushButton_send_clicked(self):
        # 若是发送按钮
        if self.pushButton_send.text() == '发送':
            # 按钮名改为停止
            self.pushButton_send.setText('停止')

            # 队列不为空
            while not self.queue.empty():

                # 读取队列
                self.queue.get()

            # 网站循环发送(时间,队列,数据源类型)
            self.loop = Loop(self.doubleSpinBox_speed.value(), self.queue,
                             self.comboBox_data.currentText())
            # 线程
            self.thread = Thread(target=self.loop.run,
                                 name='loop_run',
                                 args=())
            # 启动线程
            self.thread.start()
            # 休眠
            sleep(0.1)

            # 线程不可用
            if not self.thread.is_alive():

                # 警告框
                QMessageBox.warning(self, '余时锐警告', '请检查网络连接', QMessageBox.Yes)

                # 按钮变回发送
                self.pushButton_send.setText('发送')

        # 若是停止按钮,按钮名改为发送
        else:

            # 按钮改名为发送
            self.pushButton_send.setText('发送')

            # 写队列,等待时间1秒
            self.queue.put(1)
예제 #16
0
    def _create_loops(self):
        points = []
        g_cities = nx.DiGraph()

        for city in self.cities:
            city = self.cities.get(city)
            g_cities.add_node('f-' + str(city.id), bipartite=0)
            g_cities.add_node('t-' + str(city.id), bipartite=1)
            points.append([city.x, city.y])
        points = np.array(points)
        vor = Voronoi(points, incremental=True)

        for point in vor.ridge_points:
            self.cities[point[0]].add_neighbor(self.cities[point[1]])
            self.cities[point[1]].add_neighbor(self.cities[point[0]])
            g_cities.add_edge('f-' + str(self.cities[point[0]]),
                              't-' + str(self.cities[point[1]]))
            g_cities.add_edge('f-' + str(self.cities[point[1]]),
                              't-' + str(self.cities[point[0]]))

        temp = bipartite.maximum_matching(g_cities)
        print(temp)
        del g_cities
        islands = nx.DiGraph()
        i = 0
        for key, value in temp.items():
            # connect cities ...
            self.cities[int(key[2:])].connect_to(self.cities[int(value[2:])])
            islands.add_edge(self.cities[int(key[2:])],
                             self.cities[int(value[2:])])
            i += 1
            if (i >= temp.__len__() / 2):
                break
        for i, c in enumerate(nx.recursive_simple_cycles(islands)):
            # for i, c in enumerate(nx.simple_cycles(islands)):
            loop = Loop(c, i)
            self._loops.append(loop)
            self.loops.add(i)
예제 #17
0
import socket
from urllib.parse import urlparse

from loop import Loop

loop = Loop()


async def connect(host):
    sock = socket.socket()
    sock.setblocking(False)
    await loop.sock_connect(sock, (host, 80))
    return sock


async def get(host):
    request = (b"GET / HTTP/1.1\r\n"
               b"Host: " + host.encode('ascii') + b"\r\n"
               b"Connection: close\r\n"
               b"\r\n")

    sock = await connect(host)
    await loop.sock_sendall(sock, request)

    chunks = []
    while True:
        chunks.append(await loop.sock_recv(sock, 4096))
        if not chunks[-1]:  # Server closed connection
            break

    sock.close()
예제 #18
0
import resource
import socket
from urllib.parse import urlparse

from loop import Loop

loop = Loop()

connection_count = 0


async def echo(sock):
    global connection_count
    while True:
        data = await loop.sock_recv(sock, 1024)
        if not data:
            break
        await loop.sock_sendall(sock, b'Echo: ' + data)
    print('Connection', connection_count, 'closed')
    connection_count -= 1


async def listen(address):
    global connection_count
    server_sock = socket.socket()
    server_sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
    server_sock.bind(address)
    server_sock.listen()
    server_sock.setblocking(False)

    while True:
예제 #19
0
import socket
import resource
from urllib.parse import urlparse

from loop import Loop
loop = Loop()


async def connect(address):
    sock = socket.socket()
    sock.setblocking(False)
    await loop.sock_connect(sock, address)
    return sock


async def start_client(i, address):
    sock = await connect(address)
    await loop.sock_sendall(sock, b'Hello from client %d!' % i)
    reply = await loop.sock_recv(sock, 1024)
    print('Client', i, 'got:', reply)
    # Keep client alive with a read that never returns
    await loop.sock_recv(sock, 1024)


async def start_clients(address):
    for i in range(5000):
        loop.create_task(start_client(i, address))


if __name__ == '__main__':
    soft, hard = resource.getrlimit(resource.RLIMIT_NOFILE)
예제 #20
0
 def __init__(self):
     Loop.__init__(self)
     self.sock = 3
def startup(sim_pipe):
    #Sonnesystem
    python_position = [
        #"Sun"
        [0, 0, 0],
        #"Mercury"
        [57_909_175_000, 0, 0],
        #"Venus"
        [108_208_930_000, 0, 0],
        #"Earth"
        [149_597_890_000, 0, 0],
        #"Moon"
        [149_597_890_000, 384_400_000, 0],
        #"Mars"
        [227_936_640_000, 0, 0],
        #"Jupiter"
        [778_412_020_000, 0, 0],
        #"Saturn"
        [1_426_725_400_000, 0, 0],
        #"Uranus"
        [2_870_972_200_000, 0, 0],
        #"Neptune"
        [4_498_252_900_000, 0, 0]
    ]

    python_speed = [
        #"Sun"
        [0, 0, 0],
        #"Mercury"
        [0, 47_872, 0],
        #"Venus"
        [0, 35_021, 0],
        #"Earth"
        [0, 29_786, 0],
        #"Moon"
        [-1_022, 0, 0],
        #"Mars"
        [0, 24_131, 0],
        #"Jupiter"
        [0, 13_069, 0],
        #"Saturn"
        [0, 9_672, 0],
        #"Uranus"
        [0, 6_835, 0],
        #"Neptune"
        [0, 5_477, 0]
    ]

    python_masse = [
        #"Sun"
        1.9889 * 10**30,
        #"Mercury"
        3.3022 * 10**23,
        #"Venus"
        4.8685 * 10**24,
        #"Earth"
        5.97219 * 10**24,
        #"Moon"
        7.34767309 * 10**22,
        #"Mars"
        6.4185 * 10**23,
        #"Jupiter"
        1.8987 * 10**27,
        #"Saturn"
        5.6851 * 10**26,
        #"Uranus"
        8.6849 * 10**25,
        #"Neptune"
        1.0244 * 10**26
    ]

    FACTOR = 0.1
    radius = [
        0.25 * FACTOR, 0.02 * FACTOR, 0.06 * FACTOR, 0.06 * FACTOR,
        0.01 * FACTOR, 0.03 * FACTOR, 0.18 * FACTOR, 0.15 * FACTOR,
        0.1 * FACTOR, 0.1 * FACTOR
    ]

    position = np.array(python_position, dtype=np.float64)
    speed = np.array(python_speed, dtype=np.float64)
    masse = np.array(python_masse, dtype=np.float64)
    dt = 60 * 60 * 2

    while True:
        if sim_pipe.poll():
            message = sim_pipe.recv()
            if isinstance(message, str) and message == END_MESSAGE:
                print('simulation exiting ...')
                sys.exit(0)
        for i in range(24 * 7):
            Loop(dt, position, speed, masse)

        body_array = np.zeros((len(position), 4), dtype=np.float64)
        normalization = -11

        for body_index in range(len(python_position)):
            body_array[body_index][
                0] = position[body_index][0] / 4_498_252_900_000
            body_array[body_index][
                1] = position[body_index][1] / 4_498_252_900_000
            body_array[body_index][
                2] = position[body_index][2] / 4_498_252_900_000
            body_array[body_index][3] = radius[body_index]

        #print(body_array)
        #time.sleep(1/60)

        sim_pipe.send(body_array)
예제 #22
0
    with open('../etc/config.json') as cf:
        config = json.loads(''.join(cf.readlines()))

    with open('../etc/users.json') as cf:
        users = json.loads(''.join(cf.readlines()))

    return config, users


if __name__ == "__main__":

    # as the method says...
    config, users = load_configuration()
    
    from loop import Loop
    looper = Loop(config)

    # importing the handler
    from handlers import Handler

    # initializing the handler
    # includes all callbacks
    handler = Handler(looper.com, users)
    
    # importing the server implmentation
    from server import HTTPServer

    # Starting the webserver, passing in all 
    # route definitions
    http_server = HTTPServer(config, handler.routes)
    
예제 #23
0
파일: scoplib.py 프로젝트: Carollo95/PolyPy
    def __calculate_iteration_domain(statement, params, matrix, columns):
        """
            Establishes the loops of a given statement from a matrix corresponding to the SCoPLib
            domain from a .scop file

        Parameters
        ----------
        statement : the statement to assign the loops
        params : the list of parameters for the .scop file
        matrix : the matrix of the SCoPLib domain from a .scop file as a list of lists
        columns : the number of columns of the matrix

        Returns
        -------
            None
        """
        number_of_loops = columns - 2 - len(params)

        loops = []
        for tup in matrix:
            d_loop = dict()
            d_loop['tup'] = tup
            d_loop['p_tup'] = list(filter(lambda c: c != '',
                                          tup.split(' ')))[:columns]
            d_loop['is_greater_than'] = int(d_loop['p_tup'][0])
            # Last iterator with a coefficient different from 0.
            # This is the less restrictive loop for which this condition_text can belong
            num = 0
            iterators = d_loop['p_tup'][1:1 + number_of_loops]
            for i, value in enumerate(iterators[::-1]):
                if value != '0':
                    num = len(iterators) - i
                    break
            d_loop['for_loop_num'] = num - 1
            loops.append(d_loop)

        statement_loops = []
        for i in range(number_of_loops):
            loop = Loop()
            loop.iterator = 'optimization_iterator_' + str(i)
            statement_loops.append(loop)
        for d_loop in loops:
            condition = Condition()
            coefficients = {}
            for cond in range(number_of_loops):
                if int(d_loop['p_tup'][cond + 1]):
                    itera = 'optimization_iterator_' + str(cond)
                    val = int(d_loop['p_tup'][cond + 1])
                    coefficients[itera] = val

            for cond, _ in enumerate(params):
                if int(d_loop['p_tup'][cond + number_of_loops + 1]):
                    par = params[cond]
                    val = int(d_loop['p_tup'][cond + number_of_loops + 1])
                    coefficients[par] = val

            condition.coefficients = coefficients
            condition.term = int(d_loop['p_tup'][-1])

            if len(statement_loops) == 0:
                statement.if_conditions.append(condition)
            else:
                statement_loops[d_loop['for_loop_num']].loop_conditions.append(
                    condition)

        statement.loops = statement_loops
예제 #24
0
파일: main.py 프로젝트: jyi/CSE341
from branch import Branch
from ifcond import IfCond
from loop import Loop

if __name__ == '__main__':
    cond = 'x > 0'
    branch = Branch(cond)
    print(branch.toString())

    then_b = 'x++;'
    else_b = 'x--;'
    ifcond = IfCond(cond, then_b, else_b)
    print(ifcond.toString())

    body = 'y++;'
    loop = Loop(cond, body)
    print(loop.toString())
예제 #25
0
class Connector(object):
    def __init__(self, addr, retry_times=3):
        self.sock = Socket()
        self.fd = self.sock.fd
        self.addr = addr
        self.loop = Loop(2)
        self.loop.set_timeout(2, self.on_timeout)
        self.times = retry_times
        self.retry_time = 0
        self.stat = 0

    def on_timeout(self):

        if self.retry_time > self.times:
            self.close()
            return
        self.retry_time += 1
        self.loop.set_timeout(self.retry_time, self.on_timeout)
        if self.sock.connect(self.addr):
            self.on_connect()

    def run_onece(self, fd, evt):
        if evt < 8:
            self.on_connect()
        # else:
        #     print 'connector ', evt

    def on_connect(self):
        self.close()
        self.stat = 1
        self.sock.stat = 1

    def close(self):
        self.loop.unregister(self.fd)
        self.loop.quit()

    def poll(self):
        self.loop.register(self.fd, EPOLLET | EPOLLOUT, self.run_onece)
        self.loop.loop()

    def connect(self):
        self.sock.connect(self.addr)
        self.poll()
        if self.stat:
            print 'connected'
            return self.sock
        return None
예제 #26
0
# Loops as a list of loopconnection object that contains (list<string>
# elements,List<string> strarts, List <ends> ends)
dicarr = gateway.entry_point.getLoops()
Loops = []
for i in range(0, len(dicarr)):
    n = dicarr[i]
    elements = []
    starts = []
    ends = []
    for x in dicarr[i].getElements():
        elements.append(x.getLabel())
    for x in dicarr[i].getStarts():
        starts.append(x.getLabel())
    for x in dicarr[i].getEnds():
        ends.append(x.getLabel())
    l = Loop(dicarr[i].getId(), elements, starts, ends)
    Loops.append(l)

gateway.shutdown()
GivenConfidenceLevel = 0
''' removing folders '''
txtDirectory = "labeledEventLog_txt/"
csvDirectory = "labeledEventLog_csv/"
xesDirectory = "labeledEventLog_xes/"
otherDirectory = "otherEventLog_all/"
if os.path.exists(txtDirectory):
    shutil.rmtree(txtDirectory)
if os.path.exists(csvDirectory):
    shutil.rmtree(csvDirectory)
if os.path.exists(xesDirectory):
    shutil.rmtree(xesDirectory)
예제 #27
0
varX = Variable("x")
varX.setValue(Mul(Const(2), Const(5)))

varY = Variable("y")
varY.setValue(Const(3))

expr2 = Sub(Add(Const(1), varY), varX)  #-6

print(str(expr2) + " = " + str(expr2.calculate()))

expr3 = IfCond(
    IfCond(expr2, Const(0), Const(1)),
    Sub(expr2, Const(10)),  #-16
    Add(expr2, Const(10)))  #4

print(str(expr3) + " = " + str(expr3.execute()))

#expr4 = varX.setValue(Sub(varX, Const(1)))
#print(str(expr4) + " = " + str(varX.getValue()))
#expr4 = varX.setValue(Sub(varX, Const(1)))
#print(str(expr4) + " = " + str(varX.getValue()))

#print(varX) #x
#print(varX.setValue(Const(1))) #x = 1
#print(varX.getValue()) #1

expr5 = Loop(IfCond(Const(0), Const(1), Const(2)),
             varY.setValue(Add(varY, Const(1))))

print(str(expr5) + " = " + str(expr5.execute()))
예제 #28
0
def run(qubit, gf=10.0, pf=128.0):
    screen = pygame.display.set_mode(g.windowSize)
    screen.convert()
    pygame.display.set_caption('Qubit visualization')

    def graphics_update():
        screen.fill(g.CYAN)
        e.event_log.act(pygame.mouse.get_pos())
        qubit.draw(e.camera, g.WHITE, g.BLUE, g.RED, g.FOREST_GREEN, g.CYAN)
        g.draw(pygame.draw, screen)
        pygame.display.flip()
        gr.draw()

    physics = Loop(pf, time_dependent_func=qubit.step)

    gr = Graph((0, 1), (-1, 1))
    qubit.add_state_graph(gr, .2)

    stop = False
    last = time()

    graphics = Loop(gf, time_independent_func=graphics_update)
    graphics.init(last)

    physics.init(last)
    run = True

    while run:
        for event in pygame.event.get():
            if event.type == pygame.QUIT:
                run = False
            elif event.type == pygame.KEYDOWN:
                e.event_log.log(event.key)
                if event.key == 32:
                    stop = True
            elif event.type == pygame.KEYUP:
                e.event_log.remove(event.key)
            elif event.type == pygame.MOUSEBUTTONDOWN:
                e.event_log.click()
            elif event.type == pygame.MOUSEBUTTONUP:
                e.event_log.unclick()

        dt = time() - last
        graphics.go(dt)
        if not stop:
            physics.act(dt)

        last += dt

    pygame.display.quit()
예제 #29
0
        result += "\n]"
        return result

    def __str__(self):
        return self.format()

    def __repr__(self):
        return "CommandSequence(" + str(self) + ")"


if __name__ == "__main__":
    from comment import Comment
    from loop import Loop
    from parallel import Parallel

    print CommandSequence([Loop('x', 1, 10, 0.5)])

    print CommandSequence([Loop('x', 1, 10, 0.5, Comment("Hello"))])

    print CommandSequence(
        [Loop('x', 1, 10, 0.5, Comment("Hello"), completion=True)])

    print CommandSequence([
        Loop('x',
             1,
             10,
             0.5, [Comment("Hello"), Comment("World")],
             completion=True,
             timeout=10)
    ])
예제 #30
0
from loop import Loop
import random


def callback(x):
    x *= x

    return {"a": random.random()}


class Batata:
    def __init__(self):
        self.a = 2


arg = Batata()

l = Loop()
a = l.create_coro(callback, arg)
b = l.create_coro(callback, arg)

print(l.run([a, b]))

print(arg.a)