I have an application wich is minimized to the tray (showing an icon) when the user close it. What I need to know is how can I call it back with a combination of keys, like Ctrl+Alt+Something. Actually I call it back when I double-click it, but it will be nice to do the same on a keystroke. Here is a portion of the code:
# -*- coding: utf-8 -*-
"""The user interface for our app"""
import os,sys
import ConfigParser
# Import Qt modules
from PyQt4 import QtCore,QtGui
# Import the compiled UI module
from octo import Ui_Form
CFG_PATH = "etc/config.list" #Config File Path
#config.list vars DEFAULT Values
ClipCount = 8
Static = ""
window = None
# Create a class for our main window
class Main(QtGui.QWidget):
def __init__(self):
QtGui.QWidget.__init__(self)
# This is always the same
self.ui=Ui_Form()
self.ui.setupUi(self)
# Window Icon
icon = QtGui.QIcon("SSaver.ico")
self.setWindowIcon(icon)
self.setWindowTitle("Octopy")
# Set the timer =)
self.timer = self.startTimer(1000) #self.killTimer(self.timer)
# Clipboard Counter
self.counter = 0
#Last trapped clipboard
self.LastClip = ""
self.tentacles = [""] * 8
self.cmd = []
self.cmd.append(self.ui.cmd_1)
self.cmd.append(self.ui.cmd_2)
self.cmd.append(self.ui.cmd_3)
self.cmd.append(self.ui.cmd_4)
self.cmd.append(self.ui.cmd_5)
self.cmd.append(self.ui.cmd_6)
self.cmd.append(self.ui.cmd_7)
self.cmd.append(self.ui.cmd_8)
## Events ##
def on_cmd_8_pressed(self): #Clear
for i in range(0,7):
self.tentacles[i] = ""
self.cmd[i].setText(self.tentacles[i])
def on_cmd_1_pressed(self):
t = self.ui.cmd_1.text()
self.setClp(t)
def on_cmd_2_pressed(self):
t = self.ui.cmd_2.text()
self.setClp(t)
def on_cmd_3_pressed(self):
t = self.ui.cmd_3.text()
self.setClp(t)
def on_cmd_4_pressed(self):
t = self.ui.cmd_4.text()
self.setClp(t)
def on_cmd_5_pressed(self):
t = self.ui.cmd_5.text()
self.setClp(t)
def on_cmd_6_pressed(self):
t = self.ui.cmd_6.text()
self.setClp(t)
def on_cmd_7_pressed(self):
t = self.ui.cmd_7.text()
self.setClp(t)
def hideEvent(self,event): # Capture close and minimize events
pass
def keyPressEvent(self,ev):
if ev.key() == 16777216:
self.hide()
def showEvent(self,ev):
self.fillClp()
def timerEvent(self,ev):
c = self.getClp()
if c:
#print c, self.counter
self.tentacles[self.counter] = c
if self.counter < 7:
self.counter += 1
else:
self.counter = 0
self.fillClp()
## Functions ##
def fillClp(self):
for i in range(0,7):
self.cmd[i].setText(self.tentacles[i])
def getClp(self):
clp = QtGui.QApplication.clipboard()
c = clp.text()
if self.LastClip != c:
self.LastClip = c
return c
else:
return None
def setClp(self, t):
clp = QtGui.QApplication.clipboard()
clp.setText(t)
class SystemTrayIcon(QtGui.QSystemTrayIcon):
def __init__(self, icon, parent=None):
QtGui.QSystemTrayIcon.__init__(self, icon, parent)
menu = QtGui.QMenu(parent)
# Actions
self.action_quit = QtGui.QAction("Quit", self)
self.action_about = QtGui.QAction("About Octopy", self)
# Add actions to menu
menu.addAction(self.action_about)
menu.addSeparator()
menu.addAction(self.action_quit)
# Connect menu with signals
self.connect(self.action_about, QtCore.SIGNAL("triggered()"), self.about)
self.connect(self.action_quit, QtCore.SIGNAL("triggered()"), self.quit)
# Other signals
traySignal = "activated(QSystemTrayIcon::ActivationReason)"
QtCore.QObject.connect(self, QtCore.SIGNAL(traySignal), self.icon_activated)
# Create Menu
self.setContextMenu(menu)
def quit(self):
w = QtGui.QWidget()
reply = QtGui.QMessageBox.question(w, 'Confirm Action',"Are you sure to quit?", QtGui.QMessageBox.Yes, QtGui.QMessageBox.No)
if reply == QtGui.QMessageBox.Yes:
QtGui.QApplication.quit()
def about(self):
w = QtGui.QWidget()
QtGui.QMessageBox.information(w, 'About', "Octopy Multi-Clipboard Manager\n Developed by mRt.")
def icon_activated(self, reason):
if reason == QtGui.QSystemTrayIcon.DoubleClick:
window.show()
else:
print "otro"
def main():
# Again, this is boilerplate, it's going to be the same on
# almost every app you write
app = QtGui.QApplication(sys.argv)
# TrayIcon
w = QtGui.QWidget()
icon = QtGui.QIcon("SSaver.ico")
trayIcon = SystemTrayIcon(icon, w)
trayIcon.show()
trayIcon.setToolTip("Octopy Multi-Clipboard Manager")
# Main Window
global window
window=Main()
window.show()
window.setWindowTitle("Octopy")
app.setQuitOnLastWindowClosed(0)
sys.exit(app.exec_())
def readIni():
cfg = ConfigParser.ConfigParser()
cfg.read(CFG_PATH)
ClipCount = int(cfg.get("Other","ClipCount"))
Static = cfg.get("Other","Static")
clip = [""] * int(ClipCount+1)
if __name__ == "__main__":
readIni()
main()
The complete program is hosted on google: http://code.google.com/p/octopys/downloads/list
For a keystroke to be handled by your application when it does not have keyboard focus, you need to install a global shortcut. Qt doesn't support this, but Qxt, a Qt extension library, does. See
http://doc.libqxt.org/0.5.0/classQxtGlobalShortcut.html. I don't know if PyQt bindings exist for Qxt.
Related
When I move or/and resize my windows on my screen anyway , I would like to keep this parameters for the next time that I will run my application, but impossible.
I open a new issue because I don't see in the pyqt5 section what I've posted here
I'm on Linux (Manjaro) using PyCharm with the lastest PyQT5, Python and QT5 on a kernel 5.1.18-1.
I have tried several things like this : https://github.com/baoboa/pyqt5/blob/master/examples/mainwindows/application/application.py#L197-L207
I have not used the QDesktopWidget class : it seems to be depreciated : QDesktopWidget class
I'm on Linux (Manjaro) using PyCharm with the lastest PyQT5, Python and QT5 on a kernel 5.1.18-1.
#check if the hidden project folder is created by default, if not it is created
HOME_PATH = os.path.expanduser("~")
USER_PATH = os.path.join(HOME_PATH, ".mx5000")
if not os.path.exists(USER_PATH):
os.mkdir(USER_PATH)
#configFolder = os.path.join(QDir.homePath(), ".mx5000")
#configFile = os.path.join(QDir.homePath(), ".mx5000/config.conf")
#configLog = os.path.join(QDir.homePath(), ".mx5000/logfile")
config_path = os.path.join(USER_PATH, "config.ini")
#settings = QSettings()
# config = configparser.ConfigParser()
# config['DEFAULT'] = {'path_keyboard': "/dev/hiddev0",
# 'keyboard_name': "Whatever",
# 'server_type': "self.ui.rdbimap.setChecked(True)",
# 'server_adress': "self.ui.lneserveradress.setText(imap.yourserver.com)",
# 'username': 'username',
# 'password': "cnffjbep",
# 'time_to_check': '10',
# 'keyboard_beep': '1',
# 'play_sound': '1',
# 'sound_directory': "/home/user/.mx5000/notify.ogg"}
#if not os.path.isfile("config"):
#os.mkdir(USER_PATH)
# with open('config.ini', 'w') as configfile:
config.write(configfile)
class Mx5000(QDialog):
def __init__(self, parent=None):
super(Mx5000, self).__init__(parent)
self.setupUi()
self.connectActions()
self.dirty = False
self.loadSettings()
# self.default_size = QSize(615, 800)
# self.default_position = QPoint(20, 20)
# self.ui.lneserveradress.setText('imap.yourserver.com')
# settings = QSettings()
# pos = settings.value("pos", QPoint(200, 200))
# size = settings.value("size", QSize(615, 800))
# self.resize(size)
# self.move(pos)
#===============================================================================
...
def closeEvent(self, event):
if self.okToContinue():
# settings = QSettings()
# pass
self.writeSettings()
event.accept()
else:
event.ignore()
#====================================================================================================================
def loadSettings(self):
settings = QSettings('Exemple app', 'MX5000')
pos = settings.value("pos", QPoint(200, 200))
size = settings.value("size", QSize(615, 800))
self.resize(size)
self.move(pos)
def writeSettings(self):
settings = QSettings('Exemple app', 'MX5000')
settings.setValue("pos", self.pos())
settings.setValue("size", self.size())
#====================================================
# settings.setValue("size", QSize(615, 800).tosize())
# settings.setValue("pos", QPoint(200, 200).toPoint())
#====================================================
settings.sync()
#===================================================================================================================
def okToContinue(self):
if self.dirty is True:
reply = QMessageBox.question(self, self.tr("MX 5000", "Did you want to close the application ?"),
QMessageBox.Yes | QMessageBox.No | QMessageBox.Cancel)
if reply == QMessageBox.Cancel:
return False
elif reply == QMessageBox.Yes:
self.Mx5000.close()
self.application.quit()
self.writeSettings()
return True
The entire files (Python and ui) are available if it is not clear for a while here :
python file
and
ui file
By Advance Thanks a lot.
Your logic is a bit strange, each method / function must have a specific task, in the case of okToContinue() method I guess you should only verify if the user accepts the closing or not of the window if a flag was activated otherwise it is considered that I accept the close, it is not necessary to add more code.
Considering the above the solution is:
class Mx5000(QtWidgets.QDialog):
def __init__(self, parent=None):
super(Mx5000, self).__init__(parent)
self.setupUi()
self.dirty = False
self.loadSettings()
def setupUi(self):
self.ui = Ui_MX5000()
self.ui.setupUi(self)
# ...
def closeEvent(self, event):
if self.okToContinue():
self.writeSettings()
event.accept()
else:
event.ignore()
def loadSettings(self):
settings = QtCore.QSettings("Exemple app", "MX5000")
pos = settings.value("pos", QtCore.QPoint(200, 200))
size = settings.value("size", QtCore.QSize(615, 800))
self.resize(size)
self.move(pos)
def writeSettings(self):
settings = QtCore.QSettings("Exemple app", "MX5000")
settings.setValue("pos", self.pos())
settings.setValue("size", self.size())
def okToContinue(self):
if self.dirty:
reply = QtWidgets.QMessageBox.question(
self,
self.tr("MX 5000", "Did you want to close the application ?"),
QtWidgets.QMessageBox.Yes
| QtWidgets.QMessageBox.No
| QtWidgets.QMessageBox.Cancel,
)
return reply == QtWidgets.QMessageBox.Yes
return True
I have the below piece of code which gives the below picture.
import os
import numpy as np
from PyQt5 import QtCore, QtWidgets
import sqlite3
class Ui_Form():
def __init__(self):
#Checking if the loading database is in place
if not os.path.exists("loading_database.db"):
QtWidgets.QMessageBox.information(None,'Loading database missing','Loading database has not been found. Creation of a new one will be attempted')
self.loadingDatabaseCreator()
QtWidgets.QMessageBox.information(None,'Successful','Loading database succesfully created')
#Asking the user for the input file to be parsed and the number of componenets determined
filePath, _ = QtWidgets.QFileDialog.getOpenFileName(None, "Select input model","","Input deck (*.inp)","*.inp")
filePath = str(filePath)
self.pleaseWait = waitWindow()
self.pleaseWait.show()
#If no file has been inputted the script will exit
if not filePath:
exit()
else:
#If a file has been inputted now it will be opened and a list containing all the lines will be created
readInputFile(filePath)
#Searching in the file for all the valid components. We disregards collectors containing RBE3 elements
#as they don't require fatigue analysis
self.pleaseWait.close()
for line in model_file:
if "*ELEMENT," in line and "DCOUP3D" not in line:
#If a valid collector is found it will be added to the array of type numpy.
try:
#Checks if the collector has already been recorded as different element types partaining of the same component
#will be specified in different collectors win the input deck
if not line.split("ELSET=")[1][:-1] in self.collector_array:
self.collector_array = np.concatenate((self.collector_array,np.array([line.split("ELSET=")[1][:-1]])),axis=0)
except:
self.collector_array = np.array([line.split("ELSET=")[1][:-1]])
#model_file_obj.close
#Testing to see if the array has been created indicating the presence of at least one entity
#This will be useful if the user loads a load deck instead of a model as they have the same .inp extension
try:
self.collector_array
except:
QtWidgets.QMessageBox.information(None,'Error','File contains no element collectors')
#Creating the initial Window
self.mainWidget = QtWidgets.QWidget()
self.mainWidget.resize(500, 500)
self.mainWidget.setWindowFlags(self.mainWidget.windowFlags() | QtCore.Qt.MSWindowsFixedSizeDialogHint)
self.mainWidget.setWindowTitle("nCode analysis set-up")
#Creating the top level grid layout
self.mainGrid = QtWidgets.QGridLayout(self.mainWidget)
#Creating the boxes which will describe the analysis to be written in the .dcl file
self.analysis_type_label = QtWidgets.QLabel(self.mainWidget)
self.analysis_type_label.setText("Type of analysis")
self.mainGrid.addWidget(self.analysis_type_label,0,0)
self.analysis_type_combo = QtWidgets.QComboBox(self.mainWidget)
self.analysis_type_combo.addItems(["Fatigue","Proof plus fatigue"])
self.mainGrid.addWidget(self.analysis_type_combo,0,1,1,2)
self.load_deck_type_label = QtWidgets.QLabel(self.mainWidget)
self.load_deck_type_label.setText("Type of fatigue deck")
self.mainGrid.addWidget(self.load_deck_type_label,1,0)
self.load_deck_type_combo = QtWidgets.QComboBox(self.mainWidget)
self.load_deck_type_combo.addItems(["Regen braking","No regen braking"])
self.mainGrid.addWidget(self.load_deck_type_combo,1,1,1,2)
self.analysis_engine_type_label = QtWidgets.QLabel(self.mainWidget)
self.analysis_engine_type_label.setText("Analysis Engine")
self.mainGrid.addWidget(self.analysis_engine_type_label,2,0)
self.analysis_engine_type_combo = QtWidgets.QComboBox(self.mainWidget)
self.analysis_engine_type_combo.addItems(["EN analysis","SN analysis"])
self.mainGrid.addWidget(self.analysis_engine_type_combo,2,1,1,2)
#Creating a scrolable area to accommodate for a large number of components with possible lenghty names
self.scrollArea = QtWidgets.QScrollArea(self.mainWidget)
#The line below is absolutely required to make the scrollable area work.
self.scrollArea.setWidgetResizable(True)
self.mainGrid.addWidget(self.scrollArea,3,0,1,3)
self.secondaryWidget = QtWidgets.QWidget()
self.scrollArea.setWidget(self.secondaryWidget)
self.secondaryGrid = QtWidgets.QGridLayout(self.secondaryWidget)
#This bit creates the necessary object for every componenet that was found in the input deck.
#The globals method is used to dynamically assign objects to variables for subsequent manipulation.
for i in range(0, self.collector_array.shape[0]):
globals()["self.materialLabel"+str(i)] = QtWidgets.QLabel(self.secondaryWidget)
globals()["self.materialLabel"+str(i)].setText(self.collector_array[i]+" material")
self.secondaryGrid.addWidget(globals()["self.materialLabel"+str(i)],2+i,0)
globals()["self.materialName"+str(i)] = QtWidgets.QLineEdit(self.secondaryWidget)
globals()["self.materialName"+str(i)].setPlaceholderText("Drop material name here")
globals()["self.materialName"+str(i)].setFixedWidth(150)
self.secondaryGrid.addWidget(globals()["self.materialName"+str(i)],2+i,1)
globals()["self.materialPickingButton"+str(i)] = QtWidgets.QPushButton(self.secondaryWidget)
globals()["self.materialPickingButton"+str(i)].setText("Pick material")
globals()["self.materialPickingButton"+str(i)].clicked.connect(self.material_lookup)
self.secondaryGrid.addWidget(globals()["self.materialPickingButton"+str(i)],2+i,2)
#Creates the button that connects to the DLC_writer function
self.createDCL = QtWidgets.QPushButton(self.mainWidget)
self.createDCL.setText("Create DCL")
self.mainGrid.addWidget(self.createDCL,4,0,1,3)
self.createDCL.clicked.connect(self.DCL_guide)
self.mainWidget.show()
class waitWindow(QtWidgets.QDialog):
def __init__(self):
super().__init__()
self.setWindowTitle("Info")
self.resize(600,200)
self.VLayout = QtWidgets.QVBoxLayout(self)
self.message = QtWidgets.QLabel(self)
self.message.setFixedWidth(550)
self.message.setText("Please wait while input file is being read")
self.VLayout.addWidget(self.message)
class readInputFile():
def __init__(self,filePath):
model_file_obj = open(filePath, "r")
globals()['model_file'] = model_file_obj.readlines()
model_file_obj.close
if __name__ == "__main__":
import sys
app = QtWidgets.QApplication(sys.argv)
ui = Ui_Form()
sys.exit(app.exec_())
The problem is my text label is missing from this window. I made it so big in case the label did not have enough space to fully display but in that case I think it would have displayed what it had space for. Hopefully someone knows why.
Edit: I have included the entire init function of Ui_Form. All my problems are caused in this bit the rest working ok.
The window you are viewing is not pleaseWait window but the mainWidget window.
The above is explained assuming that:
The file that is read is small, so the pleaseWait window will open and close instantly, so that being that synchronous action Qt will not have time to do it and for the user the window will never have been shown. For this case the solution is to give a reasonable time for the user to see the window.
The file is very large, the reading will take a long time blocking the eventloop, which will cause tasks such as displaying a window to not be performed, to avoid blocking the task must be executed in another thread.
Combining both solutions we obtain the following code:
import os
from functools import partial
from PyQt5 import QtCore, QtWidgets
class Worker(QtCore.QObject):
finished = QtCore.pyqtSignal()
contentChanged = QtCore.pyqtSignal(list)
#QtCore.pyqtSlot(str)
def read_file(self, fileName):
with open(fileName, "r") as model_file_obj:
model_file = model_file_obj.readlines()
print(model_file)
self.contentChanged.emit(model_file)
self.finished.emit()
class MainWidget(QtWidgets.QWidget):
def __init__(self, parent=None):
super().__init__(parent)
self.resize(500, 500)
self.setWindowFlags(
self.windowFlags() | QtCore.Qt.MSWindowsFixedSizeDialogHint
)
self.setWindowTitle("nCode analysis set-up")
mainGrid = QtWidgets.QGridLayout(self)
thread = QtCore.QThread(self)
thread.start()
self.m_worker = Worker()
self.m_worker.moveToThread(thread)
self.m_worker.contentChanged.connect(self.get_content)
def launch_task(self):
if not os.path.exists("loading_database.db"):
QtWidgets.QMessageBox.information(
None,
"Loading database missing",
"Loading database has not been found. Creation of a new one will be attempted",
)
# self.loadingDatabaseCreator()
QtWidgets.QMessageBox.information(
None, "Successful", "Loading database succesfully created"
)
fileName, _ = QtWidgets.QFileDialog.getOpenFileName(
None, "Select input model", "", "Input deck (*.inp)", "*.inp"
)
self.pleaseWait = WaitWindow()
self.pleaseWait.show()
self.m_worker.finished.connect(self.pleaseWait.close)
wrapper = partial(self.m_worker.read_file, fileName)
# Launch the task in a reasonable time for the window to show
QtCore.QTimer.singleShot(100, wrapper) #
#QtCore.pyqtSlot(list)
def get_content(self, lines):
print(lines)
class WaitWindow(QtWidgets.QDialog):
def __init__(self):
super().__init__()
self.setWindowTitle("Info")
self.resize(600, 200)
layout = QtWidgets.QVBoxLayout(self)
self.message = QtWidgets.QLabel(self)
self.message.setFixedWidth(550)
self.message.setText("Please wait while input file is being read")
layout.addWidget(self.message)
if __name__ == "__main__":
import sys
app = QtWidgets.QApplication(sys.argv)
w = MainWidget()
w.show()
w.launch_task()
sys.exit(app.exec_())
Update:
import os
from functools import partial
import numpy as np
from PyQt5 import QtCore, QtWidgets
class MainWidget(QtWidgets.QWidget):
def __init__(self, parent=None):
super().__init__(parent)
self.resize(500, 500)
self.setWindowFlags(
self.windowFlags() | QtCore.Qt.MSWindowsFixedSizeDialogHint
)
self.setWindowTitle("nCode analysis set-up")
self.wait_window = WaitWindow()
thread = QtCore.QThread(self)
thread.start()
self.m_worker = Worker()
self.m_worker.moveToThread(thread)
self.m_worker.new_content_signal.connect(self.get_content)
# Creating the top level grid layout
mainGrid = QtWidgets.QGridLayout(self)
self.analysis_type_label = QtWidgets.QLabel(self)
self.analysis_type_label.setText("Type of analysis")
mainGrid.addWidget(self.analysis_type_label, 0, 0)
self.analysis_type_combo = QtWidgets.QComboBox(self)
self.analysis_type_combo.addItems(["Fatigue", "Proof plus fatigue"])
mainGrid.addWidget(self.analysis_type_combo, 0, 1, 1, 2)
self.load_deck_type_label = QtWidgets.QLabel(self)
self.load_deck_type_label.setText("Type of fatigue deck")
mainGrid.addWidget(self.load_deck_type_label, 1, 0)
self.load_deck_type_combo = QtWidgets.QComboBox(self)
self.load_deck_type_combo.addItems(
["Regen braking", "No regen braking"]
)
mainGrid.addWidget(self.load_deck_type_combo, 1, 1, 1, 2)
self.analysis_engine_type_label = QtWidgets.QLabel(self)
self.analysis_engine_type_label.setText("Analysis Engine")
mainGrid.addWidget(self.analysis_engine_type_label, 2, 0)
self.analysis_engine_type_combo = QtWidgets.QComboBox(self)
self.analysis_engine_type_combo.addItems(["EN analysis", "SN analysis"])
mainGrid.addWidget(self.analysis_engine_type_combo, 2, 1, 1, 2)
# Creating a scrolable area to accommodate for a large number of components with possible lenghty names
self.scrollArea = QtWidgets.QScrollArea(self)
# The line below is absolutely required to make the scrollable area work.
self.scrollArea.setWidgetResizable(True)
mainGrid.addWidget(self.scrollArea, 3, 0, 1, 3)
self.secondaryWidget = QtWidgets.QWidget()
self.scrollArea.setWidget(self.secondaryWidget)
self.secondaryGrid = QtWidgets.QGridLayout(self.secondaryWidget)
self.createDCL = QtWidgets.QPushButton(self)
self.createDCL.setText("Create DCL")
mainGrid.addWidget(self.createDCL, 4, 0, 1, 3)
def start_task(self):
if not os.path.exists("loading_database.db"):
QtWidgets.QMessageBox.information(
None,
"Loading database missing",
"Loading database has not been found. Creation of a new one will be attempted",
)
# self.loadingDatabaseCreator()
QtWidgets.QMessageBox.information(
None, "Successful", "Loading database succesfully created"
)
filePath, _ = QtWidgets.QFileDialog.getOpenFileName(
None, "Select input model", "", "Input deck (*.inp)", "*.inp"
)
if filePath:
self.wait_window.show()
self.m_worker.finished.connect(self.wait_window.close)
wrapper = partial(self.m_worker.read_file, filePath)
# Launch the task in a reasonable time for the window to show
QtCore.QTimer.singleShot(100, wrapper)
#QtCore.pyqtSlot(int, str)
def get_content(self, i, content):
label = QtWidgets.QLabel("{} material".format(content))
linedit = QtWidgets.QLineEdit(placeholderText="Drop material name here")
linedit.setFixedWidth(150)
button = QtWidgets.QPushButton("Pick material")
self.secondaryGrid.addWidget(label, 2 + i, 0)
self.secondaryGrid.addWidget(linedit, 2 + i, 1)
self.secondaryGrid.addWidget(button, 2 + i, 2)
class WaitWindow(QtWidgets.QDialog):
def __init__(self):
super().__init__()
self.setWindowTitle("Info")
self.resize(600, 200)
layout = QtWidgets.QVBoxLayout(self)
self.message = QtWidgets.QLabel()
self.message.setFixedWidth(550)
self.message.setText("Please wait while input file is being read")
layout.addWidget(self.message)
class Worker(QtCore.QObject):
finished = QtCore.pyqtSignal()
new_content_signal = QtCore.pyqtSignal(int, str)
#QtCore.pyqtSlot(str)
def read_file(self, fileName):
i = 0
collector_array = []
with open(fileName, "r") as model_file_obj:
for line in model_file_obj.readlines():
if "*ELEMENT," in line and "DCOUP3D" not in line:
t = line.split("ELSET=")[1][:-1]
if t not in collector_array:
self.new_content_signal.emit(i, t)
QtCore.QThread.msleep(10)
collector_array.append(t)
i += 1
self.finished.emit()
if __name__ == "__main__":
import sys
app = QtWidgets.QApplication(sys.argv)
w = MainWidget()
w.show()
w.start_task()
sys.exit(app.exec_())
This code works perfectly for me:
import sys
from PyQt5 import QtWidgets
from PyQt5.Qt import QApplication
class waitWindow(QtWidgets.QDialog):
def __init__(self):
super().__init__()
self.setWindowTitle("Info")
self.resize(600,200)
self.VLayout = QtWidgets.QVBoxLayout(self)
self.message = QtWidgets.QLabel(self)
self.message.setFixedWidth(550)
self.message.setText("Please wait while input file is being read")
self.VLayout.addWidget(self.message)
self.show()
def closeWindow(self):
self.close()
app = QApplication(sys.argv)
w = waitWindow()
w.exec_()
Okay took your code and gutted all the unessential stuff to analyze the actual issue I have included the gutted version so you can see what is necessary in the future to see what is wrong.
In short the issue is that you need to add the following line as the last line in your waitWindow function >> self.exec() by adding that I got your label to display (see code below)
Now with that said you do have another issue and that is the QDialog box will not allow the program to continue until it has been closed (aka it stops the process flow until you release it by closing the window or use a different means). My question is why not use your "main window" to display that message then repopulate with the rest of that data. Also curious why are you not using QMainWindow?
import sys
from PyQt5.QtCore import *
from PyQt5.QtGui import *
from PyQt5.QtWidgets import *
class Ui_Form():
def __init__(self):
self.pleaseWait = waitWindow()
self.pleaseWait.show()
self.pleaseWait.close()
sys.exit()
class waitWindow(QDialog):
def __init__(self):
super(waitWindow, self).__init__()
self.setWindowTitle("Info")
self.resize(600,200)
self.message = QLabel(self)
self.message.setFixedWidth(550)
self.message.setText("Please wait while input file is being read")
self.VLayout = QVBoxLayout(self)
self.VLayout.addWidget(self.message)
self.setLayout(self.VLayout)
self.exec_()
if __name__ == "__main__":
app = QApplication(sys.argv)
ui = Ui_Form()
sys.exit(app.exec_())
I have a mainwindow which has a button which opens a second window when clicked. This second window contains a mayavi plot. Every time I click this button an error is shown
QCoreApplication::exec: The event loop is already running
I have looked at multiple similar questions on SO, but I cannot fix my problem.
The code of the mainwindow maingui.py:
# Standard library imports
import re
import sys
import string
import inspect
import platform
import importlib
import ctypes
from os.path import abspath, join, dirname, realpath
from functools import wraps
import inspect
import matplotlib as mpl
# Local imports
from loadhistory.stresscorrection import DnvThicknessStressCorrection
# PyQt5 imports
from PyQt5.QtCore import Qt
from PyQt5.QtWidgets import QApplication, QMainWindow, QMessageBox, QListView, QWidget, QGridLayout
from PyQt5.QtGui import QPixmap
# Gui package import
import gui.design
import gui.resources
from gui.inputs import Inputs
from gui.filemanager import Filemanager
from gui.datawrapper import RunThread
from gui.mayaviwindow import MayaviWindow
class MainWindow(QMainWindow, gui.design.Ui_MainWindow):
'''main window of the gui'''
def __init__(self):
QMainWindow.__init__(self)
super().__init__()
# Bypass needed to set taskbar icon if on windows
if "Windows" in platform.system():
myappid = 'LaboSoete'
ctypes.windll.shell32.SetCurrentProcessExplicitAppUserModelID(myappid)
self.inputs = Inputs(self)
self.filemanager = Filemanager(self)
self.mayaviwindow = MayaviWindow()
self.setupUi(self)
self.setWindowTitle("Endurance framework SafeLife")
# Apply css stylesheet
sshFile = "gui/stylesheet.css"
with open(sshFile, "r") as fh:
self.setStyleSheet(fh.read())
# Initialize combobox design codes
self.designcodes = self.inputs.code_dict()
codes = list(self.designcodes.keys())
self.design_code_combo.addItems(codes)
self.design_cat_combo.addItems(self.designcodes[codes[0]])
self.scrollbar_QComboBox(self.design_code_combo)
self.scrollbar_QComboBox(self.design_cat_combo)
# Initialize combobox Damagemodels
module = importlib.import_module('damagemodels.damagemodels')
for m in module.__dict__.values():
if inspect.isclass(m):
if 'damagemodels.damagemodels.' in str(m):
if not inspect.isabstract(m):
self.dmgBox.addItem(m.__name__)
###### Menubar ######
self.actionSave.triggered.connect(self.filemanager.save)
self.actionSave_as.triggered.connect(self.filemanager.save_as)
self.actionLoad.triggered.connect(self.filemanager.load)
self.actionOutput.triggered.connect(self.filemanager.change_output_dir)
self.actionQuit.triggered.connect(self.close)
###### Button handeling ######
self.loadhistory_btn.clicked.connect(self.inputs.lh_browse_file)
self.odb_btn.clicked.connect(self.inputs.odb_browse_file)
self.design_code_combo.currentIndexChanged.connect(
self.inputs.design_combo_currentIndexChanged)
self.btn_snCustom.clicked.connect(self.inputs.sn_browse_file)
self.run_btn.clicked.connect(self.run_analysis)
self.newBtn.clicked.connect(self.filemanager.new)
self.abaqus_results_btn.clicked.connect(self.filemanager.open_odb_results)
self.damageNnumber.textChanged.connect(lambda: self.check_numeric_entry(self.damageNnumber))
self.hss_visualization_btn.clicked.connect(self.mayaviwindow.open_new_window)
# DNV thickness correction initialization
self.thicknessFrame.hide()
self.design_cat_combo.currentIndexChanged.connect(self.show_thickness_correction)
self.loadhistory_txt.textChanged.connect(self.loadhistory_txt_changed)
self.radioBtn_snBasquin.toggled.connect(self.show_thickness_correction)
self.radioBtn_snCustom.toggled.connect(self.show_thickness_correction)
self.radioBtn_snDesign.toggled.connect(self.show_thickness_correction)
self.radioBtn_snLog.toggled.connect(self.show_thickness_correction)
###### Tab/plot handeling ######
# Loadhistory plot
self.tabWidget.setCurrentIndex(0)
self.loadhistory_txt.textChanged.connect(lambda: self.LhWidget.run(self))
self.thicknessCorrCheckbox.toggled.connect(lambda: self.LhWidget.run(self))
self.t_txt.textChanged.connect(lambda: self.LhWidget.run(self))
self.tref_txt.textChanged.connect(lambda: self.LhWidget.run(self))
self.k_txt.textChanged.connect(lambda: self.LhWidget.run(self))
self.mscCheckBox.toggled.connect(lambda: self.LhWidget.run(self))
self.mscSelectionBox.currentIndexChanged.connect(lambda: self.LhWidget.run(self))
# Sncurve plot
self.design_cat_combo.currentIndexChanged.connect(self.inputs.design_cat_combo_change)
self.design_code_combo.currentIndexChanged.connect(self.inputs.design_combo_currentIndexChanged)
self.sncurve_txt.textChanged.connect(lambda: self.SnWidget.run(self))
self.radioBtn_snCustom.clicked.connect(lambda: self.SnWidget.run(self))
self.radioBtn_snDesign.clicked.connect(lambda: self.SnWidget.run(self))
self.radioBtn_snBasquin.clicked.connect(self.clear_sntxt_fields)
self.radioBtn_snLog.clicked.connect(self.clear_sntxt_fields)
self.Nf_txt.textChanged.connect(lambda: self.SnWidget.run(self))
self.uts_txt.textChanged.connect(lambda: self.SnWidget.run(self))
self.m1_txt.textChanged.connect(lambda: self.SnWidget.run(self))
self.B1_txt.textChanged.connect(lambda: self.SnWidget.run(self))
self.m2_txt.textChanged.connect(lambda: self.SnWidget.run(self))
self.B2_txt.textChanged.connect(lambda: self.SnWidget.run(self))
# HSS handeling
self.hss_checkbox.toggled.connect(self.show_hss_image)
self.hss_combobox.currentIndexChanged.connect(self.show_hss_image)
self.hss_combobox.currentIndexChanged.connect(self.show_hide_hss_spinbox)
###### Output related ######
self.hss_visualization_btn.hide()
self.hideTab(3)
self.abaqus_results_btn.hide()
self.newBtn.hide()
self.progressBar.hide()
#staticmethod
def eval_eq(equation):
'''
Check if the string 'equation' only contains allowable characters
'''
regex = re.compile(r'(\d+([.]|\*))?\d+(e|[.]|\*)?\d*(e|[.]|\*)?\d*?$')
if (equation.endswith('e') or equation.endswith('.')) and re.match(regex, equation):
return eval(equation[:-1])
elif re.match(regex, equation) and equation.count('e') < 2:
return eval(equation)
else:
raise ValueError(
'Illegal expression used to define the S-N curve, only e^*'+string.digits+' allowed')
def check_numeric_entry(self, myQlineEdit):
'''
For QlineEdit which can only contain numbers, check whether
no non-numeric characters are entered
'''
if myQlineEdit.text().isdigit() or len(myQlineEdit.text()) < 1:
return
else:
reply = QMessageBox.warning(self, 'TypeError', 'This field only allows for numeric entries')
if reply == QMessageBox.Ok:
myQlineEdit.setText(myQlineEdit.text()[:-1])
return
def loadhistory_txt_changed(self):
'''
If a loadhistory is selected the meanstresscorrection option
becomes enabled
'''
if len(self.loadhistory_txt.text())>0:
self.mscCheckBox.setEnabled(True)
else:
self.mscCheckBox.setDisabled(True)
def show_thickness_correction(self):
'''
Determine whether or not the thickness_correction option should be shown and enabled.
This is only the case when a DNV SN curve is selected
'''
if 'DNV' in self.design_code_combo.currentText() and self.radioBtn_snDesign.isChecked() and len(self.loadhistory_txt.text())>0:
self.thicknessFrame.show()
self.thicknessCorrCheckbox.setEnabled(True)
else:
self.thicknessFrame.hide()
self.thicknessCorrCheckbox.setChecked(False)
self.thicknessCorrCheckbox.setDisabled(True)
def show_hss_image(self):
if self.hss_checkbox.isChecked():
filename = self.hss_combobox.currentText()
filepath = abspath(join(dirname(realpath(__file__)), 'gui', 'icons', filename))
pixmap = QPixmap(filepath)
self.hss_imagelabel.setPixmap(pixmap)
self.hss_imagelabel.show()
self.tabWidget.setCurrentIndex(2)
if not self.hss_checkbox.isChecked():
self.hss_imagelabel.hide()
def get_thickness_correction(self):
'''
Return a thickness correction object using the values from the
gui to initialize the object
'''
if "DNV" in self.design_code_combo.currentText():
tref = self.eval_eq(self.tref_txt.text())
t = self.eval_eq(self.t_txt.text())
k = self.eval_eq(self.k_txt.text())
if k >= 1:
reply = QMessageBox.warning(
self, 'ValueError', 'k needs to be less than one, please consult DNV-GL-RP203 for the correct values')
if reply == QMessageBox.Ok or reply == QMessageBox.Cancel:
self.k_txt.clear()
return
else: return
return DnvThicknessStressCorrection(tref, t, k)
def show_hide_hss_spinbox(self):
'''
hide the hss_spinbox and hss_t_label widgets if a hss method, that does not
use the plate thickness to determine the extrapolation coords, is selected
'''
test = self.hss_combobox.currentText()
lst = ['1', '2', '3']
if any(x in test for x in lst):
self.hss_spinbox.show()
self.hss_t_label.show()
else:
self.hss_t_label.hide()
self.hss_t_label.show()
def scrollbar_QComboBox(self, combo):
'''
Add a scrollbar to QComboBoxes if the selected text is wider than
the combobox
'''
view = QListView(combo)
combo.setView(view)
view.setTextElideMode(Qt.ElideNone)
view.setHorizontalScrollBarPolicy(Qt.ScrollBarAsNeeded)
def closeEvent(self, event):
'''
Handle the event of the user wanting to close the application
'''
msgBox = QMessageBox()
msgBox.setWindowTitle('Exit application?')
msgBox.setText('Do you want to exit the application?')
exit_btn = msgBox.addButton('Exit', QMessageBox.YesRole)
save_exit_btn = msgBox.addButton('Save and Exit', QMessageBox.YesRole)
cancel_btn = msgBox.addButton('Cancel', QMessageBox.RejectRole)
msgBox.setEscapeButton(cancel_btn)
msgBox.exec_()
if msgBox.clickedButton() == exit_btn:
event.accept()
elif msgBox.clickedButton() == save_exit_btn:
self.filemanager.save()
event.accept()
elif msgBox.clickedButton() == cancel_btn:
event.ignore()
def start_thread(self, thread):
'''Pass all MainWindow attributes to the new thread and start the thread'''
thread.progressBar = self.progressBar
thread.loadhistory_txt = self.loadhistory_txt
thread.loadhistory_btn = self.loadhistory_btn
thread.odb_txt = self.odb_txt
thread.odb_btn = self.odb_btn
thread.dmgBox = self.dmgBox
thread.dmax_box = self.dmax_box
thread.radioBtn_snCustom = self.radioBtn_snCustom
thread.radioBtn_snBasquin = self.radioBtn_snBasquin
thread.radioBtn_snDesign = self.radioBtn_snDesign
thread.sncurve_txt = self.sncurve_txt
thread.btn_snCustom = self.btn_snCustom
thread.design_cat_combo = self.design_cat_combo
thread.design_code_combo = self.design_code_combo
thread.mscCheckBox = self.mscCheckBox
thread.mscSelectionBox = self.mscSelectionBox
thread.calcLifetimeBox = self.calcLifetimeBox
thread.calcLifetimeCheckBox = self.calcLifetimeCheckBox
thread.damageNcheckBox = self.damageNcheckBox
thread.damageNnumber = self.damageNnumber
thread.newBtn = self.newBtn
thread.m1_txt = self.m1_txt
thread.B1_txt = self.B1_txt
thread.m2_txt = self.m2_txt
thread.B2_txt = self.B2_txt
thread.uts_txt = self.uts_txt
thread.Nf_txt = self.Nf_txt
thread.SnWidget = self.SnWidget
thread.LhWidget = self.LhWidget
thread.Inputs = self.inputs
thread.thicknessCorrCheckbox = self.thicknessCorrCheckbox
thread.k_txt = self.k_txt
thread.t_txt = self.t_txt
thread.tref_txt = self.tref_txt
thread.hss_spinbox = self.hss_spinbox
thread.hss_combobox = self.hss_combobox
thread.hss_checkbox = self.hss_combobox
thread.start()
def clear_sntxt_fields(self):
'''Clear all text fields related to SN curve equations'''
self.Nf_txt.clear()
self.uts_txt.clear()
self.m1_txt.clear()
self.m2_txt.clear()
self.B1_txt.clear()
self.B2_txt.clear()
def initialize(self):
self.hss_visualization_btn.hide()
self.run_btn.setDisabled(True)
self.newBtn.hide()
self.abaqus_results_btn.hide()
self.hideTab(3)
self.output_txt.clear()
def finished(self):
if self.hss_checkbox.isChecked():
self.hss_visualization_btn.show()
self.run_btn.setEnabled(True)
self.newBtn.show()
self.abaqus_results_btn.show()
self.hide_progressbar()
self.showTab(3)
def show_progressbar(self):
self.progressBar.show()
def hide_progressbar(self):
self.progressBar.hide()
def clear_lhtxt(self):
self.loadhistory_txt.clear()
self.loadhistory_txt.setFocus()
def clear_odbtxt(self):
self.odb_txt.clear()
self.odb_txt.setFocus()
def clear_sncustomtxt(self):
self.sncurve_txt.clear()
self.sncurve_txt.setFocus()
def show_messagebox(self, errortype, msg, methodname):
reply = QMessageBox.warning(self, errortype, msg)
if methodname is not "None":
handle_error = getattr(self, methodname)
if reply == QMessageBox.Ok:
if 'handle_error' in locals():
handle_error()
return
def dmg_curve_plot(self, Dplot, nNplot):
self.DmgWidget.run(self, Dplot, nNplot)
def hideTab(self, tabIndex):
self.tabWidget.setTabEnabled(tabIndex, False)
def showTab(self, tabIndex):
self.tabWidget.setTabEnabled(tabIndex, True)
def check_required_inputs(self):
if "".__eq__(self.loadhistory_txt.text()) or "".__eq__(self.odb_txt.text()) \
or not self.odb_txt.text().endswith('odb'):
return False
if self.radioBtn_snCustom.isChecked() and "".__eq__(self.sncurve_txt.text()):
return False
if self.radioBtn_snBasquin.isChecked() or self.radioBtn_snLog.isChecked():
if ("".__eq__(self.m1_txt.text()) or "".__eq__(self.Nf_txt.text()) or \
"".__eq__(self.uts_txt.text()) or "".__eq__(self.B1_txt.text())):
return False
return True
def run_analysis(self):
mpl.pyplot.close(fig="all")
if self.check_required_inputs() is False:
self.show_messagebox('IOError', 'Please check all required fields', "None")
return
self.run_thread = RunThread(self)
self.run_thread.initialize.connect(self.initialize)
self.run_thread.clear_lhtxt.connect(self.clear_lhtxt)
self.run_thread.clear_odbtxt.connect(self.clear_odbtxt)
self.run_thread.clear_odbtxt.connect(self.clear_sncustomtxt)
self.run_thread.show_messagebox.connect(self.show_messagebox)
self.run_thread.show_progressbar.connect(self.show_progressbar)
self.run_thread.hide_progressbar.connect(self.hide_progressbar)
self.run_thread.finished.connect(self.finished)
self.run_thread.output.connect(self.filemanager.to_output)
self.run_thread.dmg_curve_plot.connect(self.dmg_curve_plot)
self.start_thread(self.run_thread)
if __name__ == '__main__':
app = QApplication(sys.argv)
window = MainWindow()
window.show()
sys.exit(app.exec_())
The code of the second window mayaviwindow.py:
import os
import sys
import mayavi.mlab as mlab
os.environ['ETS_TOOLKIT'] = 'qt4'
from pyface.qt import QtGui, QtCore
from traits.api import HasTraits, Instance, on_trait_change
from traitsui.api import View, Item
from mayavi.core.ui.api import MayaviScene, MlabSceneModel, SceneEditor
class MayaviWindow(QtGui.QMainWindow):
def open_new_window(self):
container = QtGui.QWidget()
container.setWindowTitle("Hot spot stress")
layout = QtGui.QGridLayout(container)
mayavi_widget = MayaviQWidget(container)
layout.addWidget(mayavi_widget, 1, 1)
container.show()
self.window = QtGui.QMainWindow()
self.window.setCentralWidget(container)
self.window.show()
class Visualization(HasTraits):
scene = Instance(MlabSceneModel, ())
#on_trait_change('scene.activated')
def update_plot(self):
self.scene.mlab.test_points3d()
# the layout of the dialog screated
view = View(Item('scene', editor=SceneEditor(scene_class=MayaviScene),
height=250, width=300, show_label=False),
resizable=True # We need this to resize with the parent widget
)
class MayaviQWidget(QtGui.QWidget):
def __init__(self, parent=None):
QtGui.QWidget.__init__(self, parent)
layout = QtGui.QVBoxLayout(self)
layout.setContentsMargins(0, 0, 0, 0)
layout.setSpacing(0)
self.visualization = Visualization()
# The edit_traits call will generate the widget to embed.
self.ui = self.visualization.edit_traits(parent=self,
kind='subpanel').control
layout.addWidget(self.ui)
self.ui.setParent(self)
Could someone explain to me what the problem is?
Edit
changing the class MayaviWindow to inherit from QWidget instead of QMainwindow did not solve the problem
class MayaviWindow(QtGui.QWidget):
def open_new_window(self):
self.container = QtGui.QWidget()
self.container.setWindowTitle("Hot spot stress")
layout = QtGui.QGridLayout(self.container)
mayavi_widget = MayaviQWidget(self.container)
layout.addWidget(mayavi_widget, 1, 1)
self.container.show()
UPDATE I made a function to get the text from QLineEdit in the logingui file, and it works. I have no idea why the same function wouldn't work if imported from a different file.
I am trying to get text from QLineEdit on a button click, I have 2 files, logingui and loginlogic. Both the files import each other. Here's the logingui's code
import sys
from PyQt4.QtGui import *
from PyQt4.QtCore import *
import login.loginlogic
class LoginForm(QWidget):
def __init__(self):
QWidget.__init__(self, parent=None)
object = login.loginlogic
formLayout = QFormLayout()
# vboxlayout = QVBoxLayout()
serifFont = QFont("Arial", 10)
unamelbl = QLabel("Username")
unamelbl.setFont(serifFont)
pwdlbl = QLabel("Password")
pwdlbl.setFont(serifFont)
self.unamele = QLineEdit()
self.pwdle = QLineEdit()
self.unamele.setPlaceholderText("Username")
self.pwdle.setPlaceholderText("Password")
self.loginButton = QPushButton("Login")
self.loginButton.setStyleSheet("background-color: #99ff99; font-size: 15px;")
self.loginButton.setFont(serifFont)
self.loginButton.clicked.connect(object.handleLogin)
formLayout.addRow(unamelbl)
formLayout.addRow(self.unamele)
formLayout.addRow(pwdlbl)
formLayout.addRow(self.pwdle)
formLayout.addRow(self.loginButton)
formLayout.setSpacing(20)
self.setLayout(formLayout)
self.setStyleSheet("background-color: rgb(255,255,255)")
self.setMinimumSize(420, 320)
self.setMaximumSize(420, 320)
self.setContentsMargins(60, 50, 60, 50)
self.setWindowIcon(QIcon("favicon.ico"))
self.show()
def handlelogin(self):
u = self.unamele.text()
print(u)
if __name__ == '__main__':
app = QApplication(sys.argv)
form = LoginForm()
app.exec_()
here's the code from loginlogic
import login.logingui
class handleLogin():
def __init__(self):
self.obj = login.logingui.LoginForm()
self.username = self.obj.unamele.text()
print("the code did reach here my man ")
print(self.username)
if __name__ == '__main__':
a = handleLogin()
now the output that I get is
your code reached here
*blank line*
I know that's a blank line cause when I click the button again it just leaves an empty line and the reached here text again. Also when I run the logingui, I do write some text in it. Not leaving it blank.
The following code works fine if run within FVWM2. But if you change desktop to Gnome, then the embedded window is destroyed instead of being embedded.
Why is that? What am I missing?...
The code follows but basically all it does is fork. In the child, we create a VPython window an let it idle forever. In the parent, we create a GTK window, find out what the window ID of the child window is, and try to embed it vis a GTK::Socket.
Note that the VPython part maybe irrelevant to this.
#!/usr/bin/env python
# -*- coding: utf-8 -*-
import subprocess
import sys
import os
import re
import time
from visual import *
def find_window_id (title):
"""Gets the OpenGL window ID."""
pattern = re.compile('0x[0-9abcdef]{7}')
proc = subprocess.Popen(['xwininfo', '-name', title],
stdout=subprocess.PIPE, stderr=subprocess.PIPE)
errors = proc.stderr.readlines()
if errors:
return None
for line in proc.stdout.readlines():
match = pattern.findall(line)
if len(match):
return long(match[0], 16)
return None
class Setting ():
"""VPython/OpenGL class."""
def __init__ (self, w=256, h=256, title='OpenGL via VPython'):
"""Initiator."""
self.width = w
self.height = h
self.title = title
self.scene = display.get_selected()
self.scene.title = self.title
self.scene.width = self.width
self.scene.height = self.height
self.sphere = sphere()
class GTKDisplay ():
def __init__ (self, winID):
"""Initiator: Draws the GTK GUI."""
import gtk
import pygtk
self.OpenGLWindowID = winID
window = gtk.Window()
window.show()
socket = gtk.Socket()
socket.show()
window.add(socket)
window.connect("destroy", lambda w: gtk.main_quit())
socket.add_id(long(self.OpenGLWindowID))
gtk.main()
def main ():
"""Main entry point."""
name = 'sphere OpenGL window'
child_pid = os.fork()
if 0 == child_pid:
sut = Setting(title=name)
else:
winID = None
while not winID:
time.sleep(.1)
winID = find_window_id(name)
try:
gui = GTKDisplay(winID)
except KeyboardInterrupt, err:
print '\nAdieu monde cruel!'
if __name__ == "__main__":
main()
PS: Yes, this is a follow up from this question.