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Add a pure-python version of the Black-Scholes function for comparison with the Cython equivalent
Add a pure-python version of the Black-Scholes function for comparison with the Cython equivalent

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communicator.py
77 lines | 2.7 KiB | text/x-python | PythonLexer
import socket
import uuid
import zmq
from IPython.parallel.util import disambiguate_url
class EngineCommunicator(object):
def __init__(self, interface='tcp://*', identity=None):
self._ctx = zmq.Context()
self.socket = self._ctx.socket(zmq.XREP)
self.pub = self._ctx.socket(zmq.PUB)
self.sub = self._ctx.socket(zmq.SUB)
# configure sockets
self.identity = identity or bytes(uuid.uuid4())
print(self.identity)
self.socket.setsockopt(zmq.IDENTITY, self.identity)
self.sub.setsockopt(zmq.SUBSCRIBE, b'')
# bind to ports
port = self.socket.bind_to_random_port(interface)
pub_port = self.pub.bind_to_random_port(interface)
self.url = interface+":%i"%port
self.pub_url = interface+":%i"%pub_port
# guess first public IP from socket
self.location = socket.gethostbyname_ex(socket.gethostname())[-1][0]
self.peers = {}
def __del__(self):
self.socket.close()
self.pub.close()
self.sub.close()
self._ctx.term()
@property
def info(self):
"""return the connection info for this object's sockets."""
return (self.identity, self.url, self.pub_url, self.location)
def connect(self, peers):
"""connect to peers. `peers` will be a dict of 4-tuples, keyed by name.
{peer : (ident, addr, pub_addr, location)}
where peer is the name, ident is the XREP identity, addr,pub_addr are the
"""
for peer, (ident, url, pub_url, location) in peers.items():
self.peers[peer] = ident
if ident != self.identity:
self.sub.connect(disambiguate_url(pub_url, location))
if ident > self.identity:
# prevent duplicate xrep, by only connecting
# engines to engines with higher IDENTITY
# a doubly-connected pair will crash
self.socket.connect(disambiguate_url(url, location))
def send(self, peers, msg, flags=0, copy=True):
if not isinstance(peers, list):
peers = [peers]
if not isinstance(msg, list):
msg = [msg]
for p in peers:
ident = self.peers[p]
self.socket.send_multipart([ident]+msg, flags=flags, copy=copy)
def recv(self, flags=0, copy=True):
return self.socket.recv_multipart(flags=flags, copy=copy)[1:]
def publish(self, msg, flags=0, copy=True):
if not isinstance(msg, list):
msg = [msg]
self.pub.send_multipart(msg, copy=copy)
def consume(self, flags=0, copy=True):
return self.sub.recv_multipart(flags=flags, copy=copy)