def __init__(self, qtreactor, qtip, qtport, parent=None):
super(MonitSim, self).__init__(parent)
self.reactor = qtreactor
self.ip = qtip
self.port = qtport
self.ui = Ui_MonitSimForm()
self.ui.setupUi(self)
self.plotter = GenPlotter(self.ui.ecgChart)
self.smsg = None
self.monit = monitor_multi(sys.argv[1])
#Twisted client api
#self.monitw = ICUMonitorFactory(self.setmsg, self.ip, self.port) #Create client
self.monitw = ICUClient(reactor, self.ip, self.port)
def __init__(self, qtreactor, qtip, qtport, parent = None): super(MonitSim, self).__init__(parent) self.reactor = qtreactor self.ip = qtip self.port = qtport self.ui = Ui_MonitSimForm() self.ui.setupUi(self) self.plotter = GenPlotter(self.ui.ecgChart) self.smsg = None self.monit = monitor_multi(sys.argv[1]) #Twisted client api #self.monitw = ICUMonitorFactory(self.setmsg, self.ip, self.port) #Create client self.monitw = ICUClient(reactor, self.ip, self.port)
class MonitSim(QWidget):
def __init__(self, qtreactor, qtip, qtport, parent=None):
super(MonitSim, self).__init__(parent)
self.reactor = qtreactor
self.ip = qtip
self.port = qtport
self.ui = Ui_MonitSimForm()
self.ui.setupUi(self)
self.plotter = GenPlotter(self.ui.ecgChart)
self.smsg = None
self.monit = monitor_multi(sys.argv[1])
#Twisted client api
#self.monitw = ICUMonitorFactory(self.setmsg, self.ip, self.port) #Create client
self.monitw = ICUClient(reactor, self.ip, self.port)
def closeEvent(self, event):
self.loop.stop()
self.monitw.stop_sending()
time.sleep(1)
fecha = oru_wav((12312, 'CEN'), (sys.argv[1], 'MON'))
p1 = patient(1, 'Jonas Brothers')
m1 = measure()
p1.add_measure(m1)
fecha.add_patient(p1)
fecha.fill_segments()
#self.smsg = fecha.to_str()
self.monitw.msg = fecha.to_str()
self.monitw.send_msg()
#time.sleep(5)
#self.reactor.stop()
#Message that is sent to the icu center. HL7 format
def setmsg(self):
return self.smsg
#Initiates the monitor
def turnOn(self):
self.loop = LoopingCall(self.genMeasure)
self.loop.start(0.3) #Starts function that generates measures
# self.monitw.startsend(self.reactor, 0.3) #Starts function that sends data to the icu center
self.monitw.start_sending(0.3)
#Generates new measures from the patient
def genMeasure(self):
self.monit.preenche()
orw = self.monit.get_orw((sys.argv[1], 'CEN'))
# self.smsg = orw.to_str()
self.monitw.msg = orw.to_str()
#Creates strings with the measures
strTemp = str(self.monit.monitored.measures[0].channels[0].data).strip(
'[]') #Temp
strO2 = str(self.monit.monitored.measures[2].channels[0].data).strip(
'[]') #SpO2
strFc = str(self.monit.monitored.measures[3].channels[0].data).strip(
'[]') #BPM
strSys = str(self.monit.monitored.measures[1].channels[0].data).strip(
'[]') #Systolic
strDys = str(self.monit.monitored.measures[1].channels[1].data).strip(
'[]') #Dyastolic
strName = str(self.monit.monitored.name)
strId = str(sys.argv[1])
#Updates the labels for showing the measures
self.ui.lbTemperatura.setText(strTemp)
self.ui.lbO2.setText(strO2)
self.ui.lbFC.setText(strFc)
self.ui.lbPressao.setText(strSys + '/' + strDys)
self.ui.lbPaciente.setText(strName)
self.ui.lbMonitor.setText(strId)
self.plotter.atualiza(
self.monit.monitored.measures[4].channels[0].data)
class MonitSim(QWidget):
def __init__(self, qtreactor, qtip, qtport, parent = None):
super(MonitSim, self).__init__(parent)
self.reactor = qtreactor
self.ip = qtip
self.port = qtport
self.ui = Ui_MonitSimForm()
self.ui.setupUi(self)
self.plotter = GenPlotter(self.ui.ecgChart)
self.smsg = None
self.monit = monitor_multi(sys.argv[1])
#Twisted client api
#self.monitw = ICUMonitorFactory(self.setmsg, self.ip, self.port) #Create client
self.monitw = ICUClient(reactor, self.ip, self.port)
def closeEvent(self, event):
self.loop.stop()
self.monitw.stop_sending()
time.sleep(1)
fecha = oru_wav((12312,'CEN'),(sys.argv[1], 'MON'))
p1 = patient(1,'Jonas Brothers')
m1 = measure()
p1.add_measure(m1)
fecha.add_patient(p1)
fecha.fill_segments()
#self.smsg = fecha.to_str()
self.monitw.msg = fecha.to_str()
self.monitw.send_msg()
#time.sleep(5)
#self.reactor.stop()
#Message that is sent to the icu center. HL7 format
def setmsg(self):
return self.smsg
#Initiates the monitor
def turnOn(self):
self.loop = LoopingCall(self.genMeasure)
self.loop.start(0.3) #Starts function that generates measures
# self.monitw.startsend(self.reactor, 0.3) #Starts function that sends data to the icu center
self.monitw.start_sending(0.3)
#Generates new measures from the patient
def genMeasure(self):
self.monit.preenche()
orw = self.monit.get_orw((sys.argv[1], 'CEN'))
# self.smsg = orw.to_str()
self.monitw.msg = orw.to_str()
#Creates strings with the measures
strTemp = str(self.monit.monitored.measures[0].channels[0].data).strip('[]') #Temp
strO2 = str(self.monit.monitored.measures[2].channels[0].data).strip('[]') #SpO2
strFc = str(self.monit.monitored.measures[3].channels[0].data).strip('[]') #BPM
strSys = str(self.monit.monitored.measures[1].channels[0].data).strip('[]') #Systolic
strDys = str(self.monit.monitored.measures[1].channels[1].data).strip('[]') #Dyastolic
strName = str(self.monit.monitored.name)
strId = str(sys.argv[1])
#Updates the labels for showing the measures
self.ui.lbTemperatura.setText(strTemp)
self.ui.lbO2.setText(strO2)
self.ui.lbFC.setText(strFc)
self.ui.lbPressao.setText(strSys + '/' + strDys)
self.ui.lbPaciente.setText(strName)
self.ui.lbMonitor.setText(strId)
self.plotter.atualiza(self.monit.monitored.measures[4].channels[0].data)