Esempio n. 1
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def show_tree(sexpr, format):
  tree = parse_sexpr(sexpr)
  tuples = graph_tuples(tree)
  dotstr = dot_from_tuples(tuples)
  filename = "/tmp/parseviz.%s.%s.%s" % (os.getid(), time.time(),format)
  call_dot(dotstr, filename, format=format)
  return filename
Esempio n. 2
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def Counter(name, mutex, block, word_map_list):

    print('Run child process %s %s.....' % (name, os.getid()))
    for line in block:
        line = line.split(' ')
        for w in line:
            if w:
                if w not in word_map:
                    word_map[w] = 0
                word_map[w] += 1
    #mutex.acquire()

    #mutex.release()
    print("work_%d finished size = %d\n" % (name, len(word_map)))
    return word_map
Esempio n. 3
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      header = struct.pack("bbHHh",ICMP_ECHO_REQUEST,0,socket.htons(my_checksum),ID,1)
      packet = header + data
      sock.sendto(packet,(target_addr,1))
      
      
 def ping_once(self):
     icmp = socket.getprotobyname("imcp")
     try:
         sock = socket.socket(socket.AF_INET,socket.SOCK_RAW,icmp)
     except socket.error,(error,msg):
         if errno == 1:
             msg += "ICMP messages can only be sent from root user processes"
             raise socket.error(msg)
     except Exception,e:
         print "Exception : %s" %(e)
     my_ID = os.getid() & OxFFFF
     self.send_ping(sock,my_ID)
     delay = self.receive_pong(sock,my_ID,self.timeout)
     sock.close()
     return delay
 
 def ping(self):
     for i in xrange(self.count):
         print "Ping to $s..." % self.target_host,
         try:
             delay = self.ping_once()
         except socket.gaierror,e:
             print "PIng failed.(socket error: '%s')" % e[1] 
             break
         
         if delay == None:
def pool_proc(name):
    print('running proc (%s)in Pool' %os.getid())
    start = time.time()
    time.sleep(random.random()*2)
    end = time.time()
    print('Task %s cost time: %s' %(name, (end - start)))
Esempio n. 5
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#!/usr/bin/env python

# -*- coding: utf-8 -*-

import os

print('Process (%s) start...' % os.getpid())
#only work on Unix/linux/Mac
pid = os.fork()
if pid == 0:
    print("I am child process (%s) and my parent is %s." %
          s(os.getid(), os.getppid()))
else:
    print("I (%s) just created a child process (%s)." % (os.getpid(), pid))
Esempio n. 6
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    def run(self):
        #Opening the JSON config file containing the device and sensor details
        with open('/home/pi/python3_venv/AWS/config1.txt') as specs:
            data = json.load(
                specs, object_pairs_hook=OrderedDict
            )  #storing the contents of JSON config file keeping the order intact
            #      print("^^^^^^^^^^^^^^^^change^^^^^^^^^^^^^",data["Specs"]["analog_input"]["Boiler2"]["sensors"]["sensor1"]["sensor_id"])
            specs = data["Specs"]
            #Looping through the JSON config file contents
            for con in specs:
                #Checking for all the devices under modbus RTU and storing the details in different arrays
                if con == "modbus_rtu":
                    ports = []
                    serial_no = []
                    parity = []
                    data_bits = []
                    stop_bits = []
                    baud_rate = []
                    j = 0
                    for p in data["Specs"]["modbus_rtu"]:
                        ports.append(p)
#Iterating through each port and storing the details
                    for p in ports:
                        dev = []
                        serial_no.append(
                            data["Specs"]["modbus_rtu"][p]["serial_no"])
                        baud_rate.append(
                            data["Specs"]["modbus_rtu"][p]["baud_rate"])
                        parity.append(data["Specs"]["modbus_rtu"][p]["parity"])
                        data_bits.append(
                            data["Specs"]["modbus_rtu"][p]["data_bits"])
                        stop_bits.append(
                            data["Specs"]["modbus_rtu"][p]["stop_bits"])
                        for d in data["Specs"]["modbus_rtu"][p]["Devices"]:
                            dev.append(d)
                        dev_no = []
                        dev_id = []
                        json_rgstr = []
                        boilers_rtu = []
                        #Iterating through all the devices in each port
                        for d in dev:
                            dev_no.append(data["Specs"]["modbus_rtu"][p]
                                          ["Devices"][d]["device_no"])
                            dev_id.append(data["Specs"]["modbus_rtu"][p]
                                          ["Devices"][d]["device_id"])
                            boilers_rtu.append(d)
                            json_rgstr.append(data["Specs"]["modbus_rtu"][p]
                                              ["Devices"][d]["registers"])
                            try:
                                process1 = Process(
                                    target=self.registers_rtu,
                                    args=(serial_no[j], baud_rate[j],
                                          parity[j], data_bits[j],
                                          stop_bits[j], dev_no, dev_id,
                                          json_rgstr))
                                time.sleep(.2)
                                process1.start()
                            except KeyboardInterrupt:
                                process1.terminate()
                                print(
                                    "Process {} terminated by KeyboardInterrupt"
                                    .format(os.getid()))
#Creating threads for each port
                        j = j + 1
#Checking for all the devices under modbus tcp and storing the details in different arrays
                if con == "modbus_tcp":
                    boilers_tcp = []
                    ip = []
                    port = []
                    dev_id = []
                    u = []
                    json_rgstr = []
                    for b in data["Specs"]["modbus_tcp"]:
                        ip.append(data["Specs"]["modbus_tcp"][b]["ip_address"])
                        port.append(data["Specs"]["modbus_tcp"][b]["port"])
                        dev_id.append(
                            data["Specs"]["modbus_tcp"][b]["device_id"])
                        u.append(
                            data["Specs"]["modbus_tcp"][b]["unit_address"])
                        boilers_tcp.append(b)
#storing the details of each register for all the devices/boilers under tcp in an array
                    for i in range(len(boilers_tcp)):
                        json_rgstr.append(data["Specs"]["modbus_tcp"][
                            boilers_tcp[i]]["registers"])

#array to create multiple threads for each device/ boiler data under tcp(number of threads = number of boilers)
                    for i in range(len(json_rgstr)):
                        try:
                            process2 = Process(target=self.registers_tcp,
                                               args=(json_rgstr[i], ip[i],
                                                     port[i], u[i]))
                            time.sleep(.2)
                            process2.start()
                        except KeyboardInterrupt:
                            process2.terminate()
                            print("Process {} terminated by KeyboardInterrupt".
                                  format(os.getid()))

#storing the details of each device/boiler under analog input in an array and passing them to the "sensors_ai" function
                if con == "analog_input":
                    boilers_ai = []
                    for b in data["Specs"]["analog_input"]:
                        boilers_ai.append(b)
                        dev_id.append(
                            data["Specs"]["analog_input"][b]["device_id"])
                    json_sensors = []
                    #storing the sensor details in JSON format in the variable "json_sensors"
                    for i in range(len(boilers_ai)):
                        json_sensors.append(data["Specs"]["analog_input"][
                            boilers_ai[i]]["sensors"])
#array to create multiple threads for each device/ boiler data under analog input(number of threads = number of boilers)
                    for i in range(len(json_sensors)):
                        try:
                            process3 = Process(target=self.sensors_ai,
                                               args=(json_sensors[i],
                                                     dev_id[i]))
                            time.sleep(.2)
                            process3.start()
                        except KeyboardInterrupt:
                            process3.terminate()
                            print("Process {} terminated by KeyboardInterrupt".
                                  format(os.getid()))
Esempio n. 7
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 def pid_cpuset(self, pid=None):
     if pid is None:
         pid = os.getid()
     return self.groups_cpuset(self.pid_groups(pid))
Esempio n. 8
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 def pid_close(self, pid):
     if pid is None:
         pid = os.getid()
     self.groups_close(self.pid_groups(pid))
Esempio n. 9
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 def pid_stats(self, pid=None):
     if pid is None:
         pid = os.getid()
     return self.groups_stats(self.pid_groups(pid))
Esempio n. 10
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import os
import time

ret = os.fork()
print(ret)
if ret == 0:
	while True:
		print(“-------ppprogress------”)
		print("%d"%os.getid())
		time.sleep(1)
else:
	while True:
		print("-------pprogress------")
		print("%d"%os.getppid())
		time.sleep(1)


      header = struct.pack("bbHHh",ICMP_ECHO_REQUEST,0,socket.htons(my_checksum),ID,1)
      packet = header + data
      sock.sendto(packet,(target_addr,1))
      
      
 def ping_once(self):
     icmp = socket.getprotobyname("imcp")
     try:
         sock = socket.socket(socket.AF_INET,socket.SOCK_RAW,icmp)
     except socket.error,(error,msg):
         if errno == 1:
             msg += "ICMP messages can only be sent from root user processes"
             raise socket.error(msg)
     except Exception,e:
         print "Exception : %s" %(e)
     my_ID = os.getid() & OxFFFF
     self.send_ping(sock,my_ID)
     delay = self.receive_pong(sock,my_ID,self.timeout)
     sock.close()
     return delay
 
 def ping(self):
     for i in xrange(self.count):
         print "Ping to $s..." % self.target_host,
         try:
             delay = self.ping_once()
         except socket.gaierror,e:
             print "PIng failed.(socket error: '%s')" % e[1] 
             break
         
         if delay == None:
Esempio n. 12
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def long_time_task(name):
    print("Run task %s (%s)..." % (name, os.getid()))
    start = time.time()
    time.sleep(random.random() * 3)
    end = time.time()
    print("Task %s runs %0.2f seconds." % (name, (end - start)))
Esempio n. 13
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# -*-coding:utf-8-*-
from multiprocessing import Pool
# 进程池方式创建进程
import os, time, random


def long_time_task(name):
    print("Run task %s (%s)..." % (name, os.getid()))
    start = time.time()
    time.sleep(random.random() * 3)
    end = time.time()
    print("Task %s runs %0.2f seconds." % (name, (end - start)))


if __name__ == "__main__":
    print("Parent process %s." % os.getid())
    p = Pool()  # p = Pool(5)同时进行5个进程
    for i in range(5):
        p.apply_async(long_time_task, args=(i, ))  # 批量创建进程
    print("Waiting for all subprocesses done")
    p.close()
    p.join()
    print("All subprocesses done")