Difference between revisions of "Bokeh: Menerima TCP data"

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Line 42: Line 42:
 
==server.py==
 
==server.py==
  
import sys
+
import sys
import time
+
import time
import socket
+
import socket
from bokeh.plotting import figure, output_server, show, cursession
+
from bokeh.plotting import figure, output_server, show, cursession
 
+
output_server("raw",url='http://192.168.0.100:5006')
+
output_server("raw",url='http://192.168.0.100:5006')
 
+
# Visualization workflow
+
# Visualization workflow
counter = 0
+
counter = 0
rx = [0]
+
rx = [0]
x = [0]
+
x = [0]
p = figure()
+
p = figure()
p.line(x, rx, name='raw')
+
p.line(x, rx, name='raw')
 
+
# Create a TCP/IP socket
+
# Create a TCP/IP socket
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
+
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
 
+
# Bind the socket to the port
+
# Bind the socket to the port
server_address = ('192.168.0.100', 2000)
+
server_address = ('192.168.0.100', 2000)
print >>sys.stderr, 'starting up on %s port %s' % server_address
+
print >>sys.stderr, 'starting up on %s port %s' % server_address
sock.bind(server_address)
+
sock.bind(server_address)
 
+
# Listen for incoming connections
+
# Listen for incoming connections
sock.listen(1)
+
sock.listen(1)
 
+
show(p)
+
show(p)
 
+
 
+
renderer = p.select(dict(name="raw"))
+
renderer = p.select(dict(name="raw"))
ds = renderer[0].data_source
+
ds = renderer[0].data_source
 
+
 
+
 
+
while True:
+
while True:
    # Wait for a connection
+
    # Wait for a connection
    print >>sys.stderr, 'waiting for a connection'
+
    print >>sys.stderr, 'waiting for a connection'
    connection, client_address = sock.accept()
+
    connection, client_address = sock.accept()
 
+
    try:
+
    try:
        print >>sys.stderr, 'connection from', client_address
+
        print >>sys.stderr, 'connection from', client_address
 
+
        while True:
+
        while True:
            data = connection.recv(20)
+
            data = connection.recv(20)
            print data
+
            print data  
 
+
            if len(data) == 0:
+
            if len(data) == 0:
              break
+
                break
 
+
            rx += [data]
+
            rx += [data]
            x += [counter]
+
            x += [counter]
            counter += 1
+
            counter += 1
 
+
            ds.data["x"] = x
+
            ds.data["x"] = x
            ds.data["rmag_x"] = rx
+
            ds.data["rmag_x"] = rx
            cursession().store_objects(ds)
+
            cursession().store_objects(ds)
 
+
            time.sleep(0.01)
+
            time.sleep(0.01)
 
+
    finally:
+
    finally:
        # Clean up the connection
+
        # Clean up the connection
        connection.close()
+
        connection.close()
 
 
  
 
==Referensi==
 
==Referensi==
  
 
* http://stackoverflow.com/questions/33241229/real-time-bokeh-socket-python/33275677#33275677
 
* http://stackoverflow.com/questions/33241229/real-time-bokeh-socket-python/33275677#33275677

Latest revision as of 18:53, 28 November 2015

Sumber: http://stackoverflow.com/questions/33241229/real-time-bokeh-socket-python/33275677#33275677

client.py

import sys
import time
import socket
import random

# Create a TCP/IP socket
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)

# Connect the socket to the port where the server is listening
server_address = ('192.168.0.100', 2000)
sock.connect(server_address)

try:
    for i in xrange(100000):
#     for i in xrange(10):
        m0 = random.random()
#        m1 = random.random()
#        m2 = random.random()
#        m3 = random.random()
#        m4 = random.random()
#        m5 = random.random()
#        message = "%1.4f" % m1 + " %1.4f" % m2 + " %1.4f" % m3 + " %1.4f" % m4 + " %1.4f" % m5  + "\n"
        message = "%1.4f" % m0
        print >>sys.stderr, 'sending ' , message
        sock.sendall(message)
        time.sleep(0.5)

finally:
    print >>sys.stderr, 'closing socket'
    sock.close()




server.py

import sys
import time
import socket
from bokeh.plotting import figure, output_server, show, cursession

output_server("raw",url='http://192.168.0.100:5006')

# Visualization workflow
counter = 0
rx = [0]
x = [0]
p = figure()
p.line(x, rx, name='raw')

# Create a TCP/IP socket
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)

# Bind the socket to the port
server_address = ('192.168.0.100', 2000)
print >>sys.stderr, 'starting up on %s port %s' % server_address
sock.bind(server_address)

# Listen for incoming connections
sock.listen(1)

show(p)


renderer = p.select(dict(name="raw"))
ds = renderer[0].data_source



while True:
    # Wait for a connection
    print >>sys.stderr, 'waiting for a connection'
    connection, client_address = sock.accept()

    try:
        print >>sys.stderr, 'connection from', client_address

        while True:
            data = connection.recv(20)
            print data 

            if len(data) == 0:
               break

            rx += [data]
            x += [counter]
            counter += 1

            ds.data["x"] = x
            ds.data["rmag_x"] = rx
            cursession().store_objects(ds)

            time.sleep(0.01)

    finally:
        # Clean up the connection
        connection.close()

Referensi