def copy(): while 1: flag = False print log[42] oneusername,onepassword = LandFunction.inuserlog(flag) print log[43] twousername,twopassword = LandFunction.inuserlog(flag) textqueue = multiprocessing.Queue() Aerrorqueue = multiprocessing.Queue() Berrorqueue = multiprocessing.Queue() copylandAPlay = multiprocessing.Process(target=CopyProcessing.copylandA, args=(oneusername,onepassword,textqueue,Aerrorqueue,)) copylandBPlay = multiprocessing.Process(target=CopyProcessing.copylandB, args=(twousername,twopassword,textqueue,Berrorqueue,)) #copyProcessing = multiprocessing.Process(target=CopyProcessing.CopyProcessing, args=(textqueue,)) copylandAPlay.start() copylandBPlay.start() CopyProc = threading.Thread(target=CopyProcessing.CopyProcessing,args=(textqueue,)) CopyProc.setDaemon(True) CopyProc.start() while 1: if Aerrorqueue.qsize()==1: Errors = Aerrorqueue.get(True) if Errors == 16: print 'A',log[16] temppw = InputFunction.inputpw(7) Aerrorqueue.put(1) Aerrorqueue.put(temppw) time.sleep(2) elif Errors == 10060: print log[33] elif Berrorqueue.qsize()==1: Errors = Berrorqueue.get(True) if Errors == 16: print 'B',log[16] temppw = InputFunction.inputpw(7) Berrorqueue.put(1) Berrorqueue.put(temppw) time.sleep(2) elif Errors == 10060: print log[33] copylandAPlay.join() msvcrt.getch()
def uptk(): cookie = NetworkFunction.Cookie() qk() while 1: flag = False if open('cookie.txt','r').read() != '': if InputFunction.inputyn(37): cookie.load('cookie.txt', ignore_discard=True, ignore_expires=True) qk() flag = True print log[58] break username,password = LandFunction.inuserlog(flag) if not username and not password : print log[53] open('Land','w').close() continue else : print log[15] LogFlag,Code = NetworkFunction.Login(username,password) if not LogFlag and Code==200: qk() print log[38] open('cookie.txt','w').close() open('Land','w').close() time.sleep(2) continue elif LogFlag and Code==200: qk() print log[17] break else : qk() print log[39] time.sleep(2) continue cookie.save(ignore_discard=True, ignore_expires=True) while 1: Uuid = NetworkFunction.UUID() DataProcessing_ = NetworkFunction.UuidData(Uuid) qk() print('%-5s%-5s%-5s%-45s%-20s' % (log[21],log[26],log[20],log[18],log[19])) l = 0 chooseCourse = {'1':log[24],'0':log[25]} for i in DataProcessing_: l+=1 print('%-5s%-5s%-5s%-45s%-20s' % (str(l).center(5),chooseCourse.get(i[5]) ,str(i[2]).decode("utf-8").encode('gbk').center(5) ,i[3].decode("utf-8").encode('gbk') ,i[4].decode("utf-8").encode('gbk'))) print('%-5s%-20s' % (str(l+1).center(5),log[56].center(20))) print('%-5s%-20s' % ('0'.center(5),log[29].center(20))) cla = InputFunction.inputsn(22,len(DataProcessing_)+1) if cla == -1: break elif cla == l: qk() print log[58] Already = 0 NotTask = 0 for CourseNumber in range(0, (len(DataProcessing_)-1) + 1): CourseList = NetworkFunction.course(DataProcessing_[CourseNumber][0],DataProcessing_[CourseNumber][1]) Already += int(CourseList[0]) NotTask += int(CourseList[1]) print log[54],Already,log[55],NotTask print log[57] msvcrt.getch() qk() continue TaskProcessing_ = NetworkFunction.task(DataProcessing_[cla][0],DataProcessing_[cla][1],Uuid) qk() print('%-5s%-5s%-45s' % (log[21],log[47],log[27])) l=0 for i in TaskProcessing_: l+=1 flag = '' if i[4] == '1': print('%-5s%-5s%-45s' % (l,log[48] ,i[1].decode("utf-8").encode('gbk'))) elif i[4] == '0' and i[5] == '1': print('%-5s%-5s%-45s' % (l,log[50] ,i[1].decode("utf-8").encode('gbk'))) elif i[4] == '0' and i[5] == '0': print('%-5s%-5s%-45s' % (l,log[49] ,i[1].decode("utf-8").encode('gbk'))) print('%-5s%-5s' % ('0',log[28])) Task = InputFunction.inputsn(23,len(TaskProcessing_)) if Task == -1: continue dlg = win32ui.CreateFileDialog(1) dlg.SetOFNInitialDir('C:\Users') dlg.DoModal() filename = dlg.GetPathName() if filename=='': print log[30] FileName = '' else: FileName = NetworkFunction.Upfile(filename) text = '' text = raw_input(log[31]) x = NetworkFunction.UpTask(Uuid,TaskProcessing_[Task][2],TaskProcessing_[Task][3],text,FileName) if x[0][1] == 'SUCCESS' and x[2][1] == 'true' and x[3][1] == 'SUCCESS': qk() print log[41] time.sleep(2) else : qk() print x[3][1].decode("utf-8").encode('gbk') time.sleep(2) cookie.save(ignore_discard=True, ignore_expires=True) qk()