def initUI(self):
grid = QGridLayout()
self.setLayout(grid)
display = QLCDNumber(self)
display.setFixedHeight(80)
display.display(0)
grid.addWidget(display, 0, 0, 1, 5)
names = [
'MC', 'MR', 'MS', 'M+', 'M-', '\u20D6', 'CE', 'C', '\u00B1',
'\u221A', '7', '8', '9', '/', '%', '4', '5', '6', '*', '1/x', '1',
'2', '3', '-', '=', '0', '', ',', '+', ''
]
positions = [(i, j) for i in range(1, 7) for j in range(5)]
for position, name in zip(positions, names):
if name == '':
continue
button = QPushButton(name)
if name == '0':
grid.addWidget(button, 6, 0, 1, 2)
elif name == '=':
button.setFixedHeight(80)
grid.addWidget(button, 5, 4, 2, 1)
else:
grid.addWidget(button, *position)
def __build_lcd_number_widget(self):
"""Build a LCD Number widget."""
lcdnumber = QLCDNumber(self)
lcdnumber.setSegmentStyle(QLCDNumber.Filled)
lcdnumber.setFixedHeight(40)
lcdnumber.setFrameStyle(QFrame.NoFrame)
return lcdnumber
def fillVbox(self, vbox):
lcd = QLCDNumber()
# lcd.setFixedSize(150, 70)
lcd.setFixedHeight(150)
layout = QGridLayout()
vbox.addLayout(layout)
label = [
'MC', 'MR', 'MS', 'M+', 'M-', '<-', 'CE', 'C', '+/-', 'sqrt', 7, 8,
9, '/', '%', 4, 5, 6, '*', '1/x', 1, 2, 3, '-', 'x', 'x', 'x', '.',
'+', 'x'
]
for w in range(0, len(label)):
layout.addWidget(QPushButton(str(label[w])), int(1 + w / 5),
int(w % 5))
layout.addWidget(lcd, 0, 0, 1, 5)
layout.addWidget(QPushButton(str("0")), 1 + 5, 0, 1, 2)
layout.addWidget(QPushButton(str("\n\n=\n")), 1 + 4, 4, 2, 1)
class App(QMainWindow):
def __init__(self):
super().__init__()
self.lcd = QLCDNumber()
self.lcd.setFixedWidth(100)
self.lcd.setFixedHeight(100)
mySlyder = QSlider(Qt.Horizontal,self)
mySlyder.setMaximun(254)
mySlyder.setMinimun(0)
mySlyder.setGeometry(30,40,200,30)
mySlyder.valueChanged.connect(self.changedValue)
self.setGeometry(50,50,320,200)
self.setWindowTitle("Curso RPI4")
layout = QVBoxLayout()
layout.addWidget(self.lcd)
layout.addWidget(mySlider)
self.setLayout(layout)
class parameterWidget(QWidget):
def __init__(self,minimum,maximum):
super(parameterWidget,self).__init__()
self.container = QVBoxLayout()
self.container.addStretch(1)
self.slider = QSlider(Qt.Horizontal, self)
self.slider.setMinimum(minimum)
self.slider.setMaximum(maximum)
self.slider.setTickInterval(1)
self.slider.setSingleStep(1)
self.container.addWidget(self.slider)
self.lcd = QLCDNumber()
self.lcd.setFixedHeight(100)
self.lcd.setFixedWidth(100)
self.lcd.resize(50, 100)
self.container.addWidget(self.lcd)
self.lcd.setDigitCount(8)
self.slider.valueChanged.connect(self.update_lcd)
self.container.addStretch(1)
self.setLayout(self.container)
@pyqtSlot(int)
def update_lcd(self,value):
self.lcd.display(str(value))
class Run_gui(QMainWindow):
def __init__(self):
super().__init__()
self.cwd = os.getcwd()
self.load_()
# Enable antialiasing for prettier plots
self.initUI()
def initUI(self):
################### MENU BARS START ##################
MyBar = QMenuBar(self)
fileMenu = MyBar.addMenu("File")
self.fileSave = fileMenu.addAction("Save thinfilm config")
self.fileSave.triggered.connect(self.save_)
self.fileSave.setShortcut('Ctrl+S')
self.fileLoadAs = fileMenu.addAction("Load config section")
self.fileLoadAs.triggered.connect(self.load_config_dialog)
fileClose = fileMenu.addAction("Close")
fileClose.triggered.connect(self.close) # triggers closeEvent()
fileClose.setShortcut('Ctrl+X')
self.loadMenu = MyBar.addMenu("Load data")
loadSubOlis = self.loadMenu.addAction("OLIS sub")
loadSubFilmOlis = self.loadMenu.addAction("OLIS sub + thin film")
loadSubFTIR = self.loadMenu.addAction("FTIR sub")
loadSubFilmFTIR = self.loadMenu.addAction("FTIR sub + thin film")
loadSubOlis.triggered.connect(self.loadSubOlisDialog)
loadSubFilmOlis.triggered.connect(self.loadSubFilmOlisDialog)
loadSubFTIR.triggered.connect(self.loadSubFTIRDialog)
loadSubFilmFTIR.triggered.connect(self.loadSubFilmFTIRDialog)
self.emailMenu = MyBar.addMenu("E-mail")
self.emailSettings = self.emailMenu.addAction("E-mail settings")
self.emailSettings.triggered.connect(self.email_set_dialog)
self.emailData = self.emailMenu.addAction("E-mail data")
self.emailData.triggered.connect(self.email_data_dialog)
helpMenu = MyBar.addMenu("Help")
helpParam = helpMenu.addAction("Instructions")
helpParam.triggered.connect(self.helpParamDialog)
contact = helpMenu.addAction("Contact")
contact.triggered.connect(self.contactDialog)
################### MENU BARS END ##################
# status info which button has been pressed
Start_lbl = QLabel("PLOTS and analysis steps", self)
Start_lbl.setStyleSheet("color: blue")
self.Step0_Button = QPushButton("Raw data", self)
self.Step0_Button.setToolTip("STEP 0. Plot raw data for OLIS and FTIR")
self.button_style(self.Step0_Button, 'black')
self.Step1_Button = QPushButton("Tmin and Tmax", self)
self.Step1_Button.setToolTip(
"STEP 1. Find all the minima and maxima positions using Gaussian filter"
)
self.button_style(self.Step1_Button, 'black')
self.Step2_Button = QPushButton("Std.Dev. in d", self)
self.Step2_Button.setToolTip(
"STEP 2. Minimize standard deviation in the film thickness d")
self.button_style(self.Step2_Button, 'black')
self.Step3_Button = QPushButton("Index n", self)
self.Step3_Button.setToolTip(
"STEP 3. Plot refractive indicies n1 and n2")
self.button_style(self.Step3_Button, 'black')
self.Step4_Button = QPushButton("Absorption alpha", self)
self.Step4_Button.setToolTip(
"STEP 4. Plot abosorption alpha based on n2")
self.button_style(self.Step4_Button, 'black')
self.Step5_Button = QPushButton("Wavenumber k", self)
self.Step5_Button.setToolTip("STEP 5. Plot wavenumber k based on n2")
self.button_style(self.Step5_Button, 'black')
####################################################
# status info which button has been pressed
self.NewFiles = QLabel('No files created yet!', self)
self.NewFiles.setStyleSheet("color: blue")
newfont = QFont("Times", 10, QFont.Normal)
self.NewFiles.setFont(newfont)
'''
self.NewFiles = numpy.zeros(5,dtype=object)
for i in range(4):
self.NewFiles[i] = QLabel(''.join([str(i+1),': ']), self)
self.NewFiles[i].setStyleSheet("color: magenta")
'''
####################################################
loads_lbl = QLabel("RAW data files", self)
loads_lbl.setStyleSheet("color: blue")
configFile_lbl = QLabel("Current thinfilm", self)
self.config_file_lbl = QLabel("", self)
self.config_file_lbl.setStyleSheet("color: green")
loadSubOlis_lbl = QLabel("OLIS sub", self)
self.loadSubOlisFile_lbl = QLabel("", self)
self.loadSubOlisFile_lbl.setStyleSheet("color: magenta")
loadSubFilmOlis_lbl = QLabel("OLIS sub + thin film", self)
self.loadSubFilmOlisFile_lbl = QLabel("", self)
self.loadSubFilmOlisFile_lbl.setStyleSheet("color: magenta")
loadSubFTIR_lbl = QLabel("FTIR sub", self)
self.loadSubFTIRFile_lbl = QLabel("", self)
self.loadSubFTIRFile_lbl.setStyleSheet("color: magenta")
loadSubFilmFTIR_lbl = QLabel("FTIR sub + thin film", self)
self.loadSubFilmFTIRFile_lbl = QLabel("", self)
self.loadSubFilmFTIRFile_lbl.setStyleSheet("color: magenta")
self.cb_sub_olis = QCheckBox('', self)
self.cb_sub_olis.toggle()
self.cb_subfilm_olis = QCheckBox('', self)
self.cb_subfilm_olis.toggle()
self.cb_sub_ftir = QCheckBox('', self)
self.cb_sub_ftir.toggle()
self.cb_subfilm_ftir = QCheckBox('', self)
self.cb_subfilm_ftir.toggle()
plot_X_lbl = QLabel("Plot X axis in", self)
self.combo2 = QComboBox(self)
self.mylist2 = ["eV", "nm"]
self.combo2.addItems(self.mylist2)
self.combo2.setFixedWidth(70)
####################################################
lbl1 = QLabel("GAUSSIAN filter settings", self)
lbl1.setStyleSheet("color: blue")
interpol_lbl = QLabel("Interpolation method", self)
self.combo4 = QComboBox(self)
self.mylist4 = ["spline", "linear"]
self.combo4.setToolTip(
"Interpolation method for local minima Tmin and local maxima Tmax can only be linear or spline."
)
self.combo4.addItems(self.mylist4)
self.combo4.setFixedWidth(70)
factors_lbl = QLabel("Gaussian factors", self)
self.factorsEdit = QLineEdit("", self)
self.factorsEdit.setToolTip(
"HIGH gaussian factor = broadband noise filtering.\nLOW gaussian factor = narrowband noise filtering.\nHigh gauissian factors (>2) will result in relatively large deviation from the raw data.\nGauissian factors of zero or near zero (<0.5) will closely follow trend of the raw data."
)
self.factorsEdit.setFixedWidth(200)
borders_lbl = QLabel("Gaussian borders [eV]", self)
self.bordersEdit = QLineEdit("", self)
self.bordersEdit.setToolTip(
"Gaussian borders should be typed in ascending order and the number of\nborders is always one more compared with the number of Gaussian factors."
)
self.bordersEdit.setFixedWidth(200)
##############################################
lbl2 = QLabel("ABSORPTION alpha and n1 and n2", self)
lbl2.setStyleSheet("color: blue")
poly_lbl = QLabel("Polyfit order", self)
self.combo1 = QComboBox(self)
self.mylist1 = ["1", "2", "3", "4", "5"]
self.combo1.addItems(self.mylist1)
self.combo1.setFixedWidth(70)
polybord_lbl = QLabel("Polyfit range(s) [eV]", self)
self.poly_bordersEdit = QLineEdit("", self)
self.poly_bordersEdit.setFixedWidth(140)
self.cb_polybord = QCheckBox('', self)
self.cb_polybord.toggle()
ignore_data_lbl = QLabel("No. of ignored points", self)
self.ignore_data_ptsEdit = QLineEdit("", self)
self.ignore_data_ptsEdit.setFixedWidth(140)
corr_slit_lbl = QLabel("Correction slit width [nm]", self)
self.corr_slitEdit = QLineEdit("", self)
self.corr_slitEdit.setToolTip(
"Finite spectrometer bandwidth (slit width) in the transmission spectrum."
)
self.corr_slitEdit.setFixedWidth(140)
##############################################
lbl4 = QLabel("STORAGE location (folder/file)", self)
lbl4.setStyleSheet("color: blue")
self.filenameEdit = QLineEdit("", self)
#self.filenameEdit.setFixedWidth(180)
self.cb_save_figs = QCheckBox('Save figs', self)
self.cb_save_figs.toggle()
##############################################
self.lcd = QLCDNumber(self)
self.lcd.setStyleSheet("color: red")
self.lcd.setFixedHeight(60)
self.lcd.setSegmentStyle(QLCDNumber.Flat)
self.lcd.setToolTip("Timetrace for saving files")
self.lcd.setNumDigits(11)
##############################################
self.initUI_()
##############################################
# Add all widgets
g1_0 = QGridLayout()
g1_0.addWidget(MyBar, 0, 0)
g1_1 = QGridLayout()
g1_1.addWidget(loads_lbl, 0, 0)
g1_1.addWidget(configFile_lbl, 1, 0)
g1_1.addWidget(self.config_file_lbl, 1, 1)
g1_1.addWidget(loadSubOlis_lbl, 2, 0)
g1_1.addWidget(self.loadSubOlisFile_lbl, 2, 1)
g1_1.addWidget(self.cb_sub_olis, 2, 2)
g1_1.addWidget(loadSubFilmOlis_lbl, 3, 0)
g1_1.addWidget(self.loadSubFilmOlisFile_lbl, 3, 1)
g1_1.addWidget(self.cb_subfilm_olis, 3, 2)
g1_1.addWidget(loadSubFTIR_lbl, 4, 0)
g1_1.addWidget(self.loadSubFTIRFile_lbl, 4, 1)
g1_1.addWidget(self.cb_sub_ftir, 4, 2)
g1_1.addWidget(loadSubFilmFTIR_lbl, 5, 0)
g1_1.addWidget(self.loadSubFilmFTIRFile_lbl, 5, 1)
g1_1.addWidget(self.cb_subfilm_ftir, 5, 2)
g1_1.addWidget(plot_X_lbl, 6, 0)
g1_1.addWidget(self.combo2, 6, 1)
g1_2 = QGridLayout()
g1_2.addWidget(lbl1, 0, 0)
g1_3 = QGridLayout()
g1_3.addWidget(interpol_lbl, 0, 0)
g1_3.addWidget(self.combo4, 0, 1)
g1_3.addWidget(factors_lbl, 1, 0)
g1_3.addWidget(self.factorsEdit, 1, 1)
g1_3.addWidget(borders_lbl, 2, 0)
g1_3.addWidget(self.bordersEdit, 2, 1)
g1_4 = QGridLayout()
g1_4.addWidget(lbl2, 0, 0)
g1_5 = QGridLayout()
g1_5.addWidget(poly_lbl, 0, 0)
g1_5.addWidget(self.combo1, 0, 1)
g1_5.addWidget(polybord_lbl, 1, 0)
g1_5.addWidget(self.poly_bordersEdit, 1, 1)
g1_5.addWidget(self.cb_polybord, 1, 2)
g1_5.addWidget(ignore_data_lbl, 2, 0)
g1_5.addWidget(self.ignore_data_ptsEdit, 2, 1)
g1_5.addWidget(corr_slit_lbl, 3, 0)
g1_5.addWidget(self.corr_slitEdit, 3, 1)
g4_0 = QGridLayout()
g4_0.addWidget(lbl4, 0, 0)
g4_0.addWidget(self.cb_save_figs, 0, 1)
g4_1 = QGridLayout()
g4_1.addWidget(self.filenameEdit, 0, 0)
v1 = QVBoxLayout()
v1.addLayout(g1_0)
v1.addLayout(g1_1)
v1.addLayout(g1_2)
v1.addLayout(g1_3)
v1.addLayout(g1_4)
v1.addLayout(g1_5)
v1.addLayout(g4_0)
v1.addLayout(g4_1)
###################################################
g1_6 = QGridLayout()
g1_6.addWidget(Start_lbl, 0, 0)
g1_7 = QGridLayout()
g1_7.addWidget(self.Step0_Button, 0, 0)
g1_7.addWidget(self.Step1_Button, 1, 0)
g1_7.addWidget(self.Step2_Button, 2, 0)
g1_7.addWidget(self.Step3_Button, 3, 0)
g1_7.addWidget(self.Step4_Button, 4, 0)
g1_7.addWidget(self.Step5_Button, 5, 0)
g1_8 = QGridLayout()
g1_8.addWidget(self.NewFiles, 0, 0)
g1_8.addWidget(self.lcd, 1, 0)
v0 = QVBoxLayout()
v0.addLayout(g1_6)
v0.addLayout(g1_7)
v0.addLayout(g1_8)
# SET ALL VERTICAL COLUMNS TOGETHER
hbox = QHBoxLayout()
hbox.addLayout(v1)
hbox.addLayout(v0)
###############################################################################
# reacts to choises picked in the menu
self.combo1.activated[str].connect(self.onActivated1)
self.combo2.activated[str].connect(self.onActivated2)
self.combo4.activated[str].connect(self.onActivated4)
# reacts to choises picked in the menu
self.Step0_Button.clicked.connect(self.set_run)
self.Step1_Button.clicked.connect(self.set_run)
self.Step2_Button.clicked.connect(self.set_run)
self.Step3_Button.clicked.connect(self.set_run)
self.Step4_Button.clicked.connect(self.set_run)
self.Step5_Button.clicked.connect(self.set_run)
# reacts to choises picked in the checkbox
self.cb_sub_olis.stateChanged.connect(self.sub_olis_check)
self.cb_subfilm_olis.stateChanged.connect(self.subfilm_olis_check)
self.cb_sub_ftir.stateChanged.connect(self.sub_ftir_check)
self.cb_subfilm_ftir.stateChanged.connect(self.subfilm_ftir_check)
self.cb_save_figs.stateChanged.connect(self.save_figs_check)
self.cb_polybord.stateChanged.connect(self.polybord_check)
self.threadpool = QThreadPool()
print("Multithreading in TEST_gui_v1 with maximum %d threads" %
self.threadpool.maxThreadCount())
self.isRunning = False
self.move(0, 0)
#self.setGeometry(50, 50, 800, 500)
hbox.setSizeConstraint(hbox.SetFixedSize)
self.setWindowTitle("Swanepoel method for thin film analysis")
w = QWidget()
w.setLayout(hbox)
self.setCentralWidget(w)
self.show()
def bool_(self, txt):
if txt == "True":
return True
elif txt == "False":
return False
def initUI_(self):
self.config_file_lbl.setText(self.last_used_scan)
self.loadSubOlisFile_lbl.setText(self.loadSubOlis_str)
self.loadSubFilmOlisFile_lbl.setText(self.loadSubFilmOlis_str)
self.loadSubFTIRFile_lbl.setText(self.loadSubFTIR_str)
self.loadSubFilmFTIRFile_lbl.setText(self.loadSubFilmFTIR_str)
##############################################
self.sub_olis_check(self.loadSubOlis_check)
self.cb_sub_olis.setChecked(self.loadSubOlis_check)
self.subfilm_olis_check(self.loadSubFilmOlis_check)
self.cb_subfilm_olis.setChecked(self.loadSubFilmOlis_check)
self.sub_ftir_check(self.loadSubFTIR_check)
self.cb_sub_ftir.setChecked(self.loadSubFTIR_check)
self.subfilm_ftir_check(self.loadSubFilmFTIR_check)
self.cb_subfilm_ftir.setChecked(self.loadSubFilmFTIR_check)
self.save_figs_check(self.save_figs)
self.cb_save_figs.setChecked(self.save_figs)
self.filenameEdit.setText(self.filename_str)
##############################################
if len(self.fit_poly_ranges) == 0:
self.fit_poly_ranges_check = False
self.polybord_check(self.fit_poly_ranges_check)
self.cb_polybord.setChecked(self.fit_poly_ranges_check)
else:
self.polybord_check(self.fit_poly_ranges_check)
self.cb_polybord.setChecked(self.fit_poly_ranges_check)
##############################################
self.factorsEdit.setText(self.gaussian_factors)
self.bordersEdit.setText(self.gaussian_borders)
##############################################
self.combo1.setCurrentIndex(self.mylist1.index(self.fit_poly_order))
self.combo2.setCurrentIndex(self.mylist2.index(self.plot_X))
self.combo4.setCurrentIndex(self.mylist4.index(self.fit_linear_spline))
##############################################
self.poly_bordersEdit.setText(self.fit_poly_ranges)
self.ignore_data_ptsEdit.setText(self.ignore_data_pts)
self.corr_slitEdit.setText(self.corr_slit)
##############################################
self.NewFiles.setToolTip(''.join([
"Display newly created and saved files in ", os.sep,
self.filename_str, os.sep
]))
self.lcd.display(self.timetrace)
def button_style(self, button, color):
button.setStyleSheet(''.join([
'QPushButton {background-color: lightblue; font-size: 18pt; color: ',
color, '}'
]))
button.setFixedWidth(260)
button.setFixedHeight(65)
def loadSubOlisDialog(self):
options = QFileDialog.Options()
options |= QFileDialog.DontUseNativeDialog
files, _ = QFileDialog.getOpenFileNames(
self,
"Open files",
''.join(['data', os.sep]),
"All Files (*);;Dat Files (*.dat);;Text Files (*.txt)",
options=options)
for afile in files:
head, tail = os.path.split(str(afile))
self.loadSubOlis_str = tail
self.loadSubOlisFile_lbl.setText(tail)
self.cb_sub_olis.setEnabled(True)
self.loadSubOlis_check = True
self.cb_sub_olis(self.loadSubOlis_check)
def loadSubFilmOlisDialog(self):
options = QFileDialog.Options()
options |= QFileDialog.DontUseNativeDialog
files, _ = QFileDialog.getOpenFileNames(
self,
"Open files",
''.join(['data', os.sep]),
"All Files (*);;Dat Files (*.dat);;Text Files (*.txt)",
options=options)
for afile in files:
head, tail = os.path.split(str(afile))
self.loadSubFilmOlis_str = tail
self.loadSubFilmOlisFile_lbl.setText(tail)
self.cb_subfilm_olis.setEnabled(True)
self.loadSubFilmOlis_check = True
self.cb_subfilm_olis(self.loadSubFilmOlis_check)
def loadSubFTIRDialog(self):
options = QFileDialog.Options()
options |= QFileDialog.DontUseNativeDialog
files, _ = QFileDialog.getOpenFileNames(
self,
"Open files",
''.join(['data', os.sep]),
"All Files (*);;Dat Files (*.dat);;Text Files (*.txt)",
options=options)
for afile in files:
head, tail = os.path.split(str(afile))
self.loadSubFTIR_str = tail
self.loadSubFTIRFile_lbl.setText(tail)
self.cb_sub_ftir.setEnabled(True)
self.loadSubFTIR_check = True
self.cb_sub_ftir(self.loadSubFTIR_check)
def loadSubFilmFTIRDialog(self):
options = QFileDialog.Options()
options |= QFileDialog.DontUseNativeDialog
files, _ = QFileDialog.getOpenFileNames(
self,
"Open files",
''.join(['data', os.sep]),
"All Files (*);;Dat Files (*.dat);;Text Files (*.txt)",
options=options)
for afile in files:
head, tail = os.path.split(str(afile))
self.loadSubFilmFTIR_str = tail
self.loadSubFilmFTIRFile_lbl.setText(tail)
self.cb_subfilm_ftir.setEnabled(True)
self.loadSubFilmFTIR_check = True
self.cb_subfilm_ftir.setChecked(self.loadSubFilmFTIR_check)
def load_config_dialog(self):
self.Load_config_dialog = Load_config_dialog.Load_config_dialog(
self, self.config, self.load_, self.initUI_, self.cwd)
self.Load_config_dialog.exec()
def email_data_dialog(self):
self.Send_email_dialog = Send_email_dialog.Send_email_dialog(
self, self.cwd)
self.Send_email_dialog.exec()
def email_set_dialog(self):
self.Email_dialog = Email_settings_dialog.Email_dialog(
self, self.lcd, self.cwd)
self.Email_dialog.exec()
def helpParamDialog(self):
helpfile = ''
with open('config_Swanepoel_forklaringer.py', 'r') as f:
for line in f:
helpfile = helpfile + line
msg = QMessageBox()
msg.setIcon(QMessageBox.Information)
msg.setText(
"Apply the Swanepoel method using the following analysis steps:")
msg.setInformativeText(helpfile)
msg.setWindowTitle("Help")
#msg.setDetailedText(helpfile)
msg.setStandardButtons(QMessageBox.Ok)
#msg.setGeometry(1000, 0, 1000+250, 350)
msg.exec_()
def contactDialog(self):
QMessageBox.information(
self, "Contact information",
"Suggestions, comments or bugs can be reported to [email protected]"
)
def onActivated1(self, text):
self.fit_poly_order = int(text)
def onActivated2(self, text):
self.plot_X = str(text)
def onActivated4(self, text):
self.fit_linear_spline = str(text)
def save_figs_check(self, state):
if state in [Qt.Checked, True]:
self.save_figs = True
else:
self.save_figs = False
def sub_olis_check(self, state):
if state in [Qt.Checked, True]:
self.loadSubOlis_check = True
self.loadSubOlisFile_lbl.setStyleSheet("color: magenta")
self.cb_sub_olis.setText('incl')
else:
self.loadSubOlis_check = False
self.loadSubOlisFile_lbl.setStyleSheet("color: grey")
self.cb_sub_olis.setText('exc')
def subfilm_olis_check(self, state):
if state in [Qt.Checked, True]:
self.loadSubFilmOlis_check = True
self.loadSubFilmOlisFile_lbl.setStyleSheet("color: magenta")
self.cb_subfilm_olis.setText('incl')
else:
self.loadSubFilmOlis_check = False
self.loadSubFilmOlisFile_lbl.setStyleSheet("color: grey")
self.cb_subfilm_olis.setText('exc')
def sub_ftir_check(self, state):
if state in [Qt.Checked, True]:
self.loadSubFTIR_check = True
self.loadSubFTIRFile_lbl.setStyleSheet("color: magenta")
self.cb_sub_ftir.setText('incl')
else:
self.loadSubFTIR_check = False
self.loadSubFTIRFile_lbl.setStyleSheet("color: grey")
self.cb_sub_ftir.setText('exc')
def subfilm_ftir_check(self, state):
if state in [Qt.Checked, True]:
self.loadSubFilmFTIR_check = True
self.loadSubFilmFTIRFile_lbl.setStyleSheet("color: magenta")
self.cb_subfilm_ftir.setText('incl')
else:
self.loadSubFilmFTIR_check = False
self.loadSubFilmFTIRFile_lbl.setStyleSheet("color: grey")
self.cb_subfilm_ftir.setText('exc')
def polybord_check(self, state):
if state in [Qt.Checked, True]:
self.fit_poly_ranges_check = True
self.poly_bordersEdit.setEnabled(True)
self.cb_polybord.setText('incl')
else:
self.fit_poly_ranges_check = False
self.poly_bordersEdit.setEnabled(False)
self.cb_polybord.setText('exc')
############################################################
# Check input if a number, ie. digits or fractions such as 3.141
# Source: http://www.pythoncentral.io/how-to-check-if-a-string-is-a-number-in-python-including-unicode/
def is_int(self, s):
try:
int(s)
return True
except ValueError:
return False
def is_number(self, s):
try:
float(s)
return True
except ValueError:
pass
try:
import unicodedata
unicodedata.numeric(s)
return True
except (TypeError, ValueError):
pass
return False
def create_file(self, mystr):
head, ext = os.path.splitext(mystr)
totalpath = ''.join([self.cwd, os.sep, head, '_', self.timetrace])
my_dir = os.path.dirname(totalpath)
if not os.path.isdir(my_dir):
QMessageBox.warning(
self, "Message",
"".join(["Folder(s) named ", my_dir, " will be created!"]))
try:
os.makedirs(my_dir, exist_ok=True)
except Exception as e:
QMessageBox.critical(
self, "Message",
"".join(["Folder named ", head, " not valid!\n\n",
str(e)]))
return ""
return totalpath
def set_run(self):
# Save all the currently changed varaibles
self.save_()
# Register the sender of the command (a button or similar)
sender = self.sender()
## gaussian_borders and gaussian_factors warnings and errors
gaus_bord = str(self.bordersEdit.text()).split(',')
for tal in gaus_bord:
if not self.is_number(tal):
QMessageBox.critical(self, 'Message',
"Gaussian borders must be real numbers!")
return
elif float(tal) < 0.0:
QMessageBox.critical(
self, 'Message',
"Gaussian borders must be positive or zero!")
return
if len(gaus_bord) < 2:
QMessageBox.critical(
self, 'Message', "You must enter at least 2 gaussian borders!")
return
if not numpy.array_equal([numpy.float(i) for i in gaus_bord],
numpy.sort(
[numpy.float(i) for i in gaus_bord])):
QMessageBox.critical(
self, 'Message',
"The gaussian borders must be entered in the ascending order!")
return
gaus_fact = str(self.factorsEdit.text()).split(',')
for tal in gaus_fact:
if not self.is_number(tal):
QMessageBox.critical(self, 'Message',
"Gaussian factors must be real numbers!")
return
elif float(tal) < 0.0:
QMessageBox.critical(
self, 'Message',
"Gaussian factors must be positive or zero!")
return
if len(gaus_fact) < 1:
QMessageBox.critical(self, 'Message',
"You must enter at least 1 gaussian factor!")
return
if len(gaus_bord) != len(gaus_fact) + 1:
QMessageBox.critical(
self, 'Message',
"The number of gaussian factors is exactly one less than the number of gaussian borders!"
)
return
## ignored data points warnings and errors
ign_pts = str(self.ignore_data_ptsEdit.text())
if not self.is_int(ign_pts):
QMessageBox.critical(
self, 'Message', "The number of ignored points is an integer!")
return
elif int(ign_pts) < 0:
QMessageBox.critical(
self, 'Message',
"The number of ignored points is a positive integer!")
return
## correction slit width warnings and errors
corr_pts = str(self.corr_slitEdit.text())
if not self.is_number(corr_pts):
QMessageBox.critical(
self, 'Message', "The correction slit width is a real number!")
return
elif float(corr_pts) < 0:
QMessageBox.critical(
self, 'Message',
"The correction slit width is a positive number!")
return
## fit_poly_ranges warnings and errors
if self.fit_poly_ranges_check == True:
polyfit_bord = str(self.poly_bordersEdit.text()).split(',')
for tal in polyfit_bord:
if not self.is_number(tal):
QMessageBox.critical(
self, 'Message',
"The polyfit range enteries must be real numbers!")
return
elif float(tal) < 0.0:
QMessageBox.critical(
self, 'Message',
"The polyfit range enteries must be positive or zero!")
return
if len(polyfit_bord) < 2 or len(polyfit_bord) % 2 != 0:
QMessageBox.critical(
self, 'Message',
"The polyfit range list accepts minimum 2 or even number of enteries!"
)
return
if not numpy.array_equal(
[numpy.float(i) for i in polyfit_bord],
numpy.sort([numpy.float(i) for i in polyfit_bord])):
QMessageBox.critical(
self, 'Message',
"The polyfit range list must be entered in ascending order!"
)
return
# When all user defined enteries are approved save the data
self.create_file(str(self.filenameEdit.text()))
if sender.text() != 'Raw data':
## raw data files warnings and errors
if not self.loadSubOlis_check and not self.loadSubFilmOlis_check:
pass
elif self.loadSubOlis_check and self.loadSubFilmOlis_check:
pass
else:
QMessageBox.critical(
self, 'Message',
"Select both OLIS data files subfilmRAW and subRAW!")
return
if not self.loadSubFTIR_check and not self.loadSubFilmFTIR_check:
pass
elif self.loadSubFTIR_check and self.loadSubFilmFTIR_check:
pass
else:
QMessageBox.critical(
self, 'Message',
"Select both FTIR data files subfilmRAW and subRAW!")
return
if not self.loadSubOlis_check and not self.loadSubFilmOlis_check and not self.loadSubFTIR_check and not self.loadSubFilmFTIR_check:
QMessageBox.critical(self, 'Message',
"No data files selected!")
return
if sender.text() == 'Raw data':
if not self.loadSubOlis_check and not self.loadSubFilmOlis_check and not self.loadSubFTIR_check and not self.loadSubFilmFTIR_check:
QMessageBox.critical(self, 'Message',
"No raw data files selected!")
return
self.button_style(self.Step0_Button, 'red')
self.button_style(self.Step1_Button, 'grey')
self.button_style(self.Step2_Button, 'grey')
self.button_style(self.Step3_Button, 'grey')
self.button_style(self.Step4_Button, 'grey')
self.button_style(self.Step5_Button, 'grey')
elif sender.text() == 'Tmin and Tmax':
self.button_style(self.Step1_Button, 'red')
self.button_style(self.Step0_Button, 'grey')
self.button_style(self.Step2_Button, 'grey')
self.button_style(self.Step3_Button, 'grey')
self.button_style(self.Step4_Button, 'grey')
self.button_style(self.Step5_Button, 'grey')
elif sender.text() == 'Std.Dev. in d':
self.button_style(self.Step2_Button, 'red')
self.button_style(self.Step0_Button, 'grey')
self.button_style(self.Step1_Button, 'grey')
self.button_style(self.Step3_Button, 'grey')
self.button_style(self.Step4_Button, 'grey')
self.button_style(self.Step5_Button, 'grey')
elif sender.text() == 'Index n':
self.button_style(self.Step3_Button, 'red')
self.button_style(self.Step0_Button, 'grey')
self.button_style(self.Step1_Button, 'grey')
self.button_style(self.Step2_Button, 'grey')
self.button_style(self.Step4_Button, 'grey')
self.button_style(self.Step5_Button, 'grey')
elif sender.text() == 'Absorption alpha':
self.button_style(self.Step4_Button, 'red')
self.button_style(self.Step0_Button, 'grey')
self.button_style(self.Step1_Button, 'grey')
self.button_style(self.Step2_Button, 'grey')
self.button_style(self.Step3_Button, 'grey')
self.button_style(self.Step5_Button, 'grey')
elif sender.text() == 'Wavenumber k':
self.button_style(self.Step5_Button, 'red')
self.button_style(self.Step0_Button, 'grey')
self.button_style(self.Step1_Button, 'grey')
self.button_style(self.Step2_Button, 'grey')
self.button_style(self.Step3_Button, 'grey')
self.button_style(self.Step4_Button, 'grey')
else:
return
worker = Worker(sender.text(), self.cwd)
worker.signals.pass_plots.connect(self.pass_plots)
worker.signals.critical.connect(self.critical)
worker.signals.finished.connect(self.finished)
# Execute
self.threadpool.start(worker)
self.isRunning = True
def pass_plots(self, obj):
self.my_plots, sender = obj
my_str = 'Data files:\n'
try:
self.datafiles = self.my_plots.make_plots()
for i, ii in zip(self.datafiles, range(len(self.datafiles))):
head, tail = os.path.split(i)
my_str += ''.join([str(ii + 1), ': ', tail, '\n'])
self.NewFiles.setText(my_str)
self.my_plots.show_plots()
except Exception as inst:
QMessageBox.critical(self, 'Message', str(inst))
def load_(self):
# Initial read of the config file
self.config = configparser.ConfigParser()
try:
self.config.read(''.join([self.cwd, os.sep, "config.ini"]))
self.last_used_scan = self.config.get('LastScan', 'last_used_scan')
self.loadSubOlis_str = self.config.get(
self.last_used_scan, "loadsubolis").strip().split(':')[0]
self.loadSubOlis_check = self.bool_(
self.config.get(self.last_used_scan,
'loadsubolis').strip().split(':')[1])
self.loadSubFilmOlis_str = self.config.get(
self.last_used_scan, 'loadsubfilmolis').strip().split(':')[0]
self.loadSubFilmOlis_check = self.bool_(
self.config.get(self.last_used_scan,
'loadsubfilmolis').strip().split(':')[1])
self.loadSubFTIR_str = self.config.get(
self.last_used_scan, 'loadsubftir').strip().split(':')[0]
self.loadSubFTIR_check = self.bool_(
self.config.get(self.last_used_scan,
'loadsubftir').strip().split(':')[1])
self.loadSubFilmFTIR_str = self.config.get(
self.last_used_scan, 'loadsubfilmftir').strip().split(':')[0]
self.loadSubFilmFTIR_check = self.bool_(
self.config.get(self.last_used_scan,
'loadsubfilmftir').strip().split(':')[1])
self.fit_linear_spline = self.config.get(self.last_used_scan,
'fit_linear_spline')
self.gaussian_factors = self.config.get(self.last_used_scan,
'gaussian_factors')
self.gaussian_borders = self.config.get(self.last_used_scan,
'gaussian_borders')
self.ignore_data_pts = self.config.get(self.last_used_scan,
'ignore_data_pts')
self.corr_slit = self.config.get(self.last_used_scan, 'corr_slit')
self.fit_poly_order = self.config.get(self.last_used_scan,
'fit_poly_order')
self.fit_poly_ranges = self.config.get(
self.last_used_scan, 'fit_poly_ranges').strip().split(':')[0]
self.fit_poly_ranges_check = self.bool_(
self.config.get(self.last_used_scan,
'fit_poly_ranges').strip().split(':')[1])
self.filename_str = self.config.get(self.last_used_scan,
'filename')
self.timetrace = self.config.get(self.last_used_scan, 'timetrace')
self.save_figs = self.bool_(
self.config.get(self.last_used_scan, 'save_figs'))
self.plot_X = self.config.get(self.last_used_scan, 'plot_x')
self.emailset_str = self.config.get(self.last_used_scan,
'emailset').strip().split(',')
self.emailrec_str = self.config.get(self.last_used_scan,
'emailrec').strip().split(',')
except configparser.NoOptionError as nov:
QMessageBox.critical(
self, 'Message', ''.join([
"Main FAULT while reading the config.ini file\n",
str(nov)
]))
raise
def save_(self):
self.timetrace = time.strftime("%y%m%d-%H%M")
self.lcd.display(self.timetrace)
self.config.read(''.join([self.cwd, os.sep, "config.ini"]))
self.config.set('LastScan', "last_used_scan", self.last_used_scan)
self.config.set(
self.last_used_scan, "loadSubOlis",
':'.join([self.loadSubOlis_str,
str(self.loadSubOlis_check)]))
self.config.set(
self.last_used_scan, "loadSubFilmOlis", ':'.join(
[self.loadSubFilmOlis_str,
str(self.loadSubFilmOlis_check)]))
self.config.set(
self.last_used_scan, "loadSubFTIR",
':'.join([self.loadSubFTIR_str,
str(self.loadSubFTIR_check)]))
self.config.set(
self.last_used_scan, "loadSubFilmFTIR", ':'.join(
[self.loadSubFilmFTIR_str,
str(self.loadSubFilmFTIR_check)]))
self.config.set(self.last_used_scan, "fit_linear_spline",
self.fit_linear_spline)
self.config.set(self.last_used_scan, "gaussian_factors",
str(self.factorsEdit.text()))
self.config.set(self.last_used_scan, "gaussian_borders",
str(self.bordersEdit.text()))
self.config.set(self.last_used_scan, "ignore_data_pts",
str(self.ignore_data_ptsEdit.text()))
self.config.set(self.last_used_scan, "corr_slit",
str(self.corr_slitEdit.text()))
self.config.set(self.last_used_scan, "fit_poly_order",
str(self.fit_poly_order))
self.config.set(
self.last_used_scan, "fit_poly_ranges", ':'.join([
str(self.poly_bordersEdit.text()),
str(self.fit_poly_ranges_check)
]))
self.config.set(self.last_used_scan, "filename",
str(self.filenameEdit.text()))
self.config.set(self.last_used_scan, "timetrace", self.timetrace)
self.config.set(self.last_used_scan, "save_figs", str(self.save_figs))
self.config.set(self.last_used_scan, "plot_x", self.plot_X)
with open(''.join([self.cwd, os.sep, "config.ini"]),
"w") as configfile:
self.config.write(configfile)
def finished(self):
self.my_plots.close_plots()
self.load_()
if self.emailset_str[1] == "yes":
self.send_notif()
if self.emailset_str[2] == "yes":
self.send_data()
self.button_style(self.Step0_Button, 'black')
self.button_style(self.Step1_Button, 'black')
self.button_style(self.Step2_Button, 'black')
self.button_style(self.Step3_Button, 'black')
self.button_style(self.Step4_Button, 'black')
self.button_style(self.Step5_Button, 'black')
self.isRunning = False
def allButtons_torf(self, trueorfalse, *argv):
if argv[0] == 'allfalse':
self.cb_sub_olis.setEnabled(False)
self.cb_subfilm_olis.setEnabled(False)
self.cb_sub_ftir.setEnabled(False)
self.cb_subfilm_ftir.setEnabled(False)
self.poly_bordersEdit.setEnabled(False)
self.fileSave.setEnabled(trueorfalse)
self.loadMenu.setEnabled(trueorfalse)
self.emailMenu.setEnabled(trueorfalse)
self.cb_save_figs.setEnabled(trueorfalse)
self.cb_polybord.setEnabled(trueorfalse)
self.Step0_Button.setEnabled(trueorfalse)
self.Step1_Button.setEnabled(trueorfalse)
self.Step2_Button.setEnabled(trueorfalse)
self.Step3_Button.setEnabled(trueorfalse)
self.Step4_Button.setEnabled(trueorfalse)
self.Step5_Button.setEnabled(trueorfalse)
self.combo1.setEnabled(trueorfalse)
self.combo2.setEnabled(trueorfalse)
self.combo4.setEnabled(trueorfalse)
self.factorsEdit.setEnabled(trueorfalse)
self.bordersEdit.setEnabled(trueorfalse)
self.ignore_data_ptsEdit.setEnabled(trueorfalse)
self.corr_slitEdit.setEnabled(trueorfalse)
self.filenameEdit.setEnabled(trueorfalse)
def warning(self, mystr):
QMessageBox.warning(self, "Message", mystr)
def send_notif(self):
contents = [
"The scan is done. Please visit the experiment site and make sure that all light sources are switched off."
]
subject = "The scan is done"
obj = type(
"obj", (object, ), {
"subject": subject,
"contents": contents,
"settings": self.emailset_str,
"receivers": self.emailrec_str
})
worker = Send_Email_Worker(obj)
worker.signals.critical.connect(self.critical)
worker.signals.warning.connect(self.warning)
worker.signals.finished.connect(self.finished1)
# Execute
self.md = Indicator_dialog.Indicator_dialog(
self, "...sending notification...",
"indicators/ajax-loader-ball.gif")
self.threadpool.start(worker)
self.isRunning = True
def send_data(self):
contents = [
"The scan is done and the logged data is attached to this email. Please visit the experiment site and make sure that all light sources are switched off."
]
contents.extend(self.datafiles)
subject = "The scan data from the latest scan!"
obj = type(
"obj", (object, ), {
"subject": subject,
"contents": contents,
"settings": self.emailset_str,
"receivers": self.emailrec_str
})
worker = Send_Email_Worker(obj)
worker.signals.critical.connect(self.critical)
worker.signals.warning.connect(self.warning)
worker.signals.finished.connect(self.finished1)
# Execute
self.md = Indicator_dialog.Indicator_dialog(
self, "...sending files...", "indicators/ajax-loader-ball.gif")
self.threadpool.start(worker)
self.isRunning = True
def finished1(self):
self.isRunning = False
self.md.close_()
def critical(self, mystr):
QMessageBox.critical(self, 'Message', mystr)
def closeEvent(self, event):
reply = QMessageBox.question(self, 'Message', "Quit now?",
QMessageBox.Yes | QMessageBox.No)
if reply == QMessageBox.Yes:
if self.isRunning:
QMessageBox.warning(
self, 'Message',
"Analysis in progress. Wait the analysis to finish and then quit!"
)
event.ignore()
else:
event.accept()
elif reply == QMessageBox.No:
event.ignore()
class MainWindow(QMainWindow):
def __init__(self):
super(MainWindow, self).__init__()
self.setupTrayicon()
self.setupVariables()
self.setupUi()
self.setupConnections()
self.show()
def setupVariables(self):
settings = QSettings()
self.workEndTime = QTime(
int(settings.value(workHoursKey, 0)),
int(settings.value(workMinutesKey, 25)),
int(settings.value(workSecondsKey, 0)),
)
self.restEndTime = QTime(
int(settings.value(restHoursKey, 0)),
int(settings.value(restMinutesKey, 5)),
int(settings.value(restSecondsKey, 0)),
)
self.timeFormat = "hh:mm:ss"
self.time = QTime(0, 0, 0, 0)
self.workTime = QTime(0, 0, 0, 0)
self.restTime = QTime(0, 0, 0, 0)
self.totalTime = QTime(0, 0, 0, 0)
self.currentMode = Mode.work
self.maxRepetitions = -1
self.currentRepetitions = 0
def setupConnections(self):
""" Create button connections """
self.startButton.clicked.connect(self.startTimer)
self.startButton.clicked.connect(
lambda: self.startButton.setDisabled(True))
self.startButton.clicked.connect(
lambda: self.pauseButton.setDisabled(False))
self.startButton.clicked.connect(
lambda: self.resetButton.setDisabled(False))
self.pauseButton.clicked.connect(self.pauseTimer)
self.pauseButton.clicked.connect(
lambda: self.startButton.setDisabled(False))
self.pauseButton.clicked.connect(
lambda: self.pauseButton.setDisabled(True))
self.pauseButton.clicked.connect(
lambda: self.resetButton.setDisabled(False))
self.pauseButton.clicked.connect(
lambda: self.startButton.setText("continue"))
self.resetButton.clicked.connect(self.resetTimer)
self.resetButton.clicked.connect(
lambda: self.startButton.setDisabled(False))
self.resetButton.clicked.connect(
lambda: self.pauseButton.setDisabled(True))
self.resetButton.clicked.connect(
lambda: self.resetButton.setDisabled(True))
self.resetButton.clicked.connect(
lambda: self.startButton.setText("start"))
self.acceptTaskButton.pressed.connect(self.insertTask)
self.deleteTaskButton.pressed.connect(self.deleteTask)
""" Create spinbox connections """
self.workHoursSpinBox.valueChanged.connect(self.updateWorkEndTime)
self.workMinutesSpinBox.valueChanged.connect(self.updateWorkEndTime)
self.workSecondsSpinBox.valueChanged.connect(self.updateWorkEndTime)
self.restHoursSpinBox.valueChanged.connect(self.updateRestEndTime)
self.restMinutesSpinBox.valueChanged.connect(self.updateRestEndTime)
self.restSecondsSpinBox.valueChanged.connect(self.updateRestEndTime)
self.repetitionsSpinBox.valueChanged.connect(self.updateMaxRepetitions)
""" Create combobox connections """
self.modeComboBox.currentTextChanged.connect(self.updateCurrentMode)
""" Create tablewidget connections """
self.tasksTableWidget.cellDoubleClicked.connect(
self.markTaskAsFinished)
def setupUi(self):
self.size_policy = sizePolicy = QSizePolicy(QSizePolicy.Expanding,
QSizePolicy.Expanding)
""" Create tabwidget """
self.tabWidget = QTabWidget()
""" Create tab widgets """
timerWidget = self.setupTimerTab()
tasksWidget = self.setupTasksTab()
statisticsWidget = self.setupStatisticsTab()
""" add tab widgets to tabwidget"""
self.timerTab = self.tabWidget.addTab(timerWidget, makeIcon("timer"),
"Timer")
self.tasksTab = self.tabWidget.addTab(tasksWidget, makeIcon("tasks"),
"Tasks")
self.statisticsTab = self.tabWidget.addTab(statisticsWidget,
makeIcon("statistics"),
"Statistics")
""" Set mainwindows central widget """
self.setCentralWidget(self.tabWidget)
def setupTimerTab(self):
settings = QSettings()
self.timerContainer = QWidget(self)
self.timerContainerLayout = QVBoxLayout(self.timerContainer)
self.timerContainer.setLayout(self.timerContainerLayout)
""" Create work groupbox"""
self.workGroupBox = QGroupBox("Work")
self.workGroupBoxLayout = QHBoxLayout(self.workGroupBox)
self.workGroupBox.setLayout(self.workGroupBoxLayout)
self.workHoursSpinBox = QSpinBox(
minimum=0,
maximum=24,
value=int(settings.value(workHoursKey, 0)),
suffix="h",
sizePolicy=self.size_policy,
)
self.workMinutesSpinBox = QSpinBox(
minimum=0,
maximum=60,
value=int(settings.value(workMinutesKey, 25)),
suffix="m",
sizePolicy=self.size_policy,
)
self.workSecondsSpinBox = QSpinBox(
minimum=0,
maximum=60,
value=int(settings.value(workSecondsKey, 0)),
suffix="s",
sizePolicy=self.size_policy,
)
""" Create rest groupbox"""
self.restGroupBox = QGroupBox("Rest")
self.restGroupBoxLayout = QHBoxLayout(self.restGroupBox)
self.restGroupBox.setLayout(self.restGroupBoxLayout)
self.restHoursSpinBox = QSpinBox(
minimum=0,
maximum=24,
value=int(settings.value(restHoursKey, 0)),
suffix="h",
sizePolicy=self.size_policy,
)
self.restMinutesSpinBox = QSpinBox(
minimum=0,
maximum=60,
value=int(settings.value(restMinutesKey, 5)),
suffix="m",
sizePolicy=self.size_policy,
)
self.restSecondsSpinBox = QSpinBox(
minimum=0,
maximum=60,
value=int(settings.value(restSecondsKey, 0)),
suffix="s",
sizePolicy=self.size_policy,
)
self.restGroupBoxLayout.addWidget(self.restHoursSpinBox)
self.restGroupBoxLayout.addWidget(self.restMinutesSpinBox)
self.restGroupBoxLayout.addWidget(self.restSecondsSpinBox)
""" Create other groupbox"""
self.otherGroupBox = QGroupBox("Other")
self.otherGroupBoxLayout = QHBoxLayout(self.otherGroupBox)
self.otherGroupBox.setLayout(self.otherGroupBoxLayout)
self.repetitionsLabel = QLabel("Repetitions")
self.repetitionsSpinBox = QSpinBox(
minimum=0,
maximum=10000,
value=0,
sizePolicy=self.size_policy,
specialValueText="∞",
)
self.modeLabel = QLabel("Mode")
self.modeComboBox = QComboBox(sizePolicy=self.size_policy)
self.modeComboBox.addItems(["work", "rest"])
self.otherGroupBoxLayout.addWidget(self.repetitionsLabel)
self.otherGroupBoxLayout.addWidget(self.repetitionsSpinBox)
self.otherGroupBoxLayout.addWidget(self.modeLabel)
self.otherGroupBoxLayout.addWidget(self.modeComboBox)
""" Create timer groupbox"""
self.lcdDisplayGroupBox = QGroupBox("Time")
self.lcdDisplayGroupBoxLayout = QHBoxLayout(self.lcdDisplayGroupBox)
self.lcdDisplayGroupBox.setLayout(self.lcdDisplayGroupBoxLayout)
self.timeDisplay = QLCDNumber(8, sizePolicy=self.size_policy)
self.timeDisplay.setFixedHeight(100)
self.timeDisplay.display("00:00:00")
self.lcdDisplayGroupBoxLayout.addWidget(self.timeDisplay)
""" Create pause, start and reset buttons"""
self.buttonContainer = QWidget()
self.buttonContainerLayout = QHBoxLayout(self.buttonContainer)
self.buttonContainer.setLayout(self.buttonContainerLayout)
self.startButton = self.makeButton("start", disabled=False)
self.resetButton = self.makeButton("reset")
self.pauseButton = self.makeButton("pause")
""" Add widgets to container """
self.workGroupBoxLayout.addWidget(self.workHoursSpinBox)
self.workGroupBoxLayout.addWidget(self.workMinutesSpinBox)
self.workGroupBoxLayout.addWidget(self.workSecondsSpinBox)
self.timerContainerLayout.addWidget(self.workGroupBox)
self.timerContainerLayout.addWidget(self.restGroupBox)
self.timerContainerLayout.addWidget(self.otherGroupBox)
self.timerContainerLayout.addWidget(self.lcdDisplayGroupBox)
self.buttonContainerLayout.addWidget(self.pauseButton)
self.buttonContainerLayout.addWidget(self.startButton)
self.buttonContainerLayout.addWidget(self.resetButton)
self.timerContainerLayout.addWidget(self.buttonContainer)
return self.timerContainer
def setupTasksTab(self):
settings = QSettings()
""" Create vertical tasks container """
self.tasksWidget = QWidget(self.tabWidget)
self.tasksWidgetLayout = QVBoxLayout(self.tasksWidget)
self.tasksWidget.setLayout(self.tasksWidgetLayout)
""" Create horizontal input container """
self.inputContainer = QWidget()
self.inputContainer.setFixedHeight(50)
self.inputContainerLayout = QHBoxLayout(self.inputContainer)
self.inputContainerLayout.setContentsMargins(0, 0, 0, 0)
self.inputContainer.setLayout(self.inputContainerLayout)
""" Create text edit """
self.taskTextEdit = QTextEdit(
placeholderText="Describe your task briefly.",
undoRedoEnabled=True)
""" Create vertical buttons container """
self.inputButtonContainer = QWidget()
self.inputButtonContainerLayout = QVBoxLayout(
self.inputButtonContainer)
self.inputButtonContainerLayout.setContentsMargins(0, 0, 0, 0)
self.inputButtonContainer.setLayout(self.inputButtonContainerLayout)
""" Create buttons """
self.acceptTaskButton = QToolButton(icon=makeIcon("check"))
self.deleteTaskButton = QToolButton(icon=makeIcon("trash"))
""" Create tasks tablewidget """
self.tasksTableWidget = QTableWidget(0, 1)
self.tasksTableWidget.setHorizontalHeaderLabels(["Tasks"])
self.tasksTableWidget.horizontalHeader().setStretchLastSection(True)
self.tasksTableWidget.verticalHeader().setVisible(False)
self.tasksTableWidget.setWordWrap(True)
self.tasksTableWidget.setTextElideMode(Qt.ElideNone)
self.tasksTableWidget.setEditTriggers(QAbstractItemView.NoEditTriggers)
self.tasksTableWidget.setSelectionMode(
QAbstractItemView.SingleSelection)
self.insertTasks(*settings.value(tasksKey, []))
""" Add widgets to container widgets """
self.inputButtonContainerLayout.addWidget(self.acceptTaskButton)
self.inputButtonContainerLayout.addWidget(self.deleteTaskButton)
self.inputContainerLayout.addWidget(self.taskTextEdit)
self.inputContainerLayout.addWidget(self.inputButtonContainer)
self.tasksWidgetLayout.addWidget(self.inputContainer)
self.tasksWidgetLayout.addWidget(self.tasksTableWidget)
return self.tasksWidget
def setupStatisticsTab(self):
""" Create statistics container """
self.statisticsContainer = QWidget()
self.statisticsContainerLayout = QVBoxLayout(self.statisticsContainer)
self.statisticsContainer.setLayout(self.statisticsContainerLayout)
""" Create work time groupbox """
self.statisticsWorkTimeGroupBox = QGroupBox("Work Time")
self.statisticsWorkTimeGroupBoxLayout = QHBoxLayout()
self.statisticsWorkTimeGroupBox.setLayout(
self.statisticsWorkTimeGroupBoxLayout)
self.statisticsWorkTimeDisplay = QLCDNumber(8)
self.statisticsWorkTimeDisplay.display("00:00:00")
self.statisticsWorkTimeGroupBoxLayout.addWidget(
self.statisticsWorkTimeDisplay)
""" Create rest time groupbox """
self.statisticsRestTimeGroupBox = QGroupBox("Rest Time")
self.statisticsRestTimeGroupBoxLayout = QHBoxLayout()
self.statisticsRestTimeGroupBox.setLayout(
self.statisticsRestTimeGroupBoxLayout)
self.statisticsRestTimeDisplay = QLCDNumber(8)
self.statisticsRestTimeDisplay.display("00:00:00")
self.statisticsRestTimeGroupBoxLayout.addWidget(
self.statisticsRestTimeDisplay)
""" Create total time groupbox """
self.statisticsTotalTimeGroupBox = QGroupBox("Total Time")
self.statisticsTotalTimeGroupBoxLayout = QHBoxLayout()
self.statisticsTotalTimeGroupBox.setLayout(
self.statisticsTotalTimeGroupBoxLayout)
self.statisticsTotalTimeDisplay = QLCDNumber(8)
self.statisticsTotalTimeDisplay.display("00:00:00")
self.statisticsTotalTimeGroupBoxLayout.addWidget(
self.statisticsTotalTimeDisplay)
""" Add widgets to container """
self.statisticsContainerLayout.addWidget(
self.statisticsTotalTimeGroupBox)
self.statisticsContainerLayout.addWidget(
self.statisticsWorkTimeGroupBox)
self.statisticsContainerLayout.addWidget(
self.statisticsRestTimeGroupBox)
return self.statisticsContainer
def setupTrayicon(self):
self.trayIcon = QSystemTrayIcon(makeIcon("tomato"))
self.trayIcon.setContextMenu(QMenu())
self.quitAction = self.trayIcon.contextMenu().addAction(
makeIcon("exit"), "Quit", self.exit)
self.quitAction.triggered.connect(self.exit)
self.trayIcon.activated.connect(self.onActivate)
self.trayIcon.show()
def leaveEvent(self, event):
super(MainWindow, self).leaveEvent(event)
self.tasksTableWidget.clearSelection()
def closeEvent(self, event):
super(MainWindow, self).closeEvent(event)
settings = QSettings()
settings.setValue(workHoursKey, self.workHoursSpinBox.value())
settings.setValue(
workMinutesKey,
self.workMinutesSpinBox.value(),
)
settings.setValue(
workSecondsKey,
self.workSecondsSpinBox.value(),
)
settings.setValue(restHoursKey, self.restHoursSpinBox.value())
settings.setValue(
restMinutesKey,
self.restMinutesSpinBox.value(),
)
settings.setValue(
restSecondsKey,
self.restSecondsSpinBox.value(),
)
tasks = []
for i in range(self.tasksTableWidget.rowCount()):
item = self.tasksTableWidget.item(i, 0)
if not item.font().strikeOut():
tasks.append(item.text())
settings.setValue(tasksKey, tasks)
def startTimer(self):
try:
if not self.timer.isActive():
self.createTimer()
except:
self.createTimer()
def createTimer(self):
self.timer = QTimer()
self.timer.timeout.connect(self.updateTime)
self.timer.timeout.connect(self.maybeChangeMode)
self.timer.setInterval(1000)
self.timer.setSingleShot(False)
self.timer.start()
def pauseTimer(self):
try:
self.timer.stop()
self.timer.disconnect()
except:
pass
def resetTimer(self):
try:
self.pauseTimer()
self.time = QTime(0, 0, 0, 0)
self.displayTime()
except:
pass
def maybeStartTimer(self):
if self.currentRepetitions != self.maxRepetitions:
self.startTimer()
started = True
else:
self.currentRepetitions = 0
started = False
return started
def updateWorkEndTime(self):
self.workEndTime = QTime(
self.workHoursSpinBox.value(),
self.workMinutesSpinBox.value(),
self.workSecondsSpinBox.value(),
)
def updateRestEndTime(self):
self.restEndTime = QTime(
self.restHoursSpinBox.value(),
self.restMinutesSpinBox.value(),
self.restSecondsSpinBox.value(),
)
def updateCurrentMode(self, mode: str):
self.currentMode = Mode.work if mode == "work" else Mode.rest
def updateTime(self):
self.time = self.time.addSecs(1)
self.totalTime = self.totalTime.addSecs(1)
if self.modeComboBox.currentText() == "work":
self.workTime = self.workTime.addSecs(1)
else:
self.restTime = self.restTime.addSecs(1)
self.displayTime()
def updateMaxRepetitions(self, value):
if value == 0:
self.currentRepetitions = 0
self.maxRepetitions = -1
else:
self.maxRepetitions = 2 * value
def maybeChangeMode(self):
if self.currentMode is Mode.work and self.time >= self.workEndTime:
self.resetTimer()
self.modeComboBox.setCurrentIndex(1)
self.incrementCurrentRepetitions()
started = self.maybeStartTimer()
self.showWindowMessage(
Status.workFinished if started else Status.repetitionsReached)
elif self.currentMode is Mode.rest and self.time >= self.restEndTime:
self.resetTimer()
self.modeComboBox.setCurrentIndex(0)
self.incrementCurrentRepetitions()
started = self.maybeStartTimer()
self.showWindowMessage(
Status.restFinished if started else Status.repetitionsReached)
def incrementCurrentRepetitions(self):
if self.maxRepetitions > 0:
self.currentRepetitions += 1
def insertTask(self):
task = self.taskTextEdit.toPlainText()
self.insertTasks(task)
def insertTasks(self, *tasks):
for task in tasks:
if task:
rowCount = self.tasksTableWidget.rowCount()
self.tasksTableWidget.setRowCount(rowCount + 1)
self.tasksTableWidget.setItem(rowCount, 0,
QTableWidgetItem(task))
self.tasksTableWidget.resizeRowsToContents()
self.taskTextEdit.clear()
def deleteTask(self):
selectedIndexes = self.tasksTableWidget.selectedIndexes()
if selectedIndexes:
self.tasksTableWidget.removeRow(selectedIndexes[0].row())
def markTaskAsFinished(self, row, col):
item = self.tasksTableWidget.item(row, col)
font = self.tasksTableWidget.item(row, col).font()
font.setStrikeOut(False if item.font().strikeOut() else True)
item.setFont(font)
def displayTime(self):
self.timeDisplay.display(self.time.toString(self.timeFormat))
self.statisticsRestTimeDisplay.display(
self.restTime.toString(self.timeFormat))
self.statisticsWorkTimeDisplay.display(
self.workTime.toString(self.timeFormat))
self.statisticsTotalTimeDisplay.display(
self.totalTime.toString(self.timeFormat))
def showWindowMessage(self, status):
if status is Status.workFinished:
self.trayIcon.showMessage("Break", choice(work_finished_phrases),
makeIcon("tomato"))
elif status is Status.restFinished:
self.trayIcon.showMessage("Work", choice(rest_finished_phrases),
makeIcon("tomato"))
else:
self.trayIcon.showMessage("Finished",
choice(pomodoro_finished_phrases),
makeIcon("tomato"))
self.resetButton.click()
def makeButton(self, text, iconName=None, disabled=True):
button = QPushButton(text, sizePolicy=self.size_policy)
if iconName:
button.setIcon(makeIcon(iconName))
button.setDisabled(disabled)
return button
def exit(self):
self.close()
app = QApplication.instance()
if app:
app.quit()
def onActivate(self, reason):
if reason == QSystemTrayIcon.Trigger:
self.show()
class ToolBar(QToolBar):
def __init__(self, appctxt, params, parent):
super(ToolBar, self).__init__(parent)
self.appctxt = appctxt
self.params = params
self.setIconSize(QSize(30, 30))
self.playPause = QAction("Play/Pause (Space)", self)
self.playPause.setShortcut(Qt.Key_Space)
self.playPause.setShortcutContext(Qt.ApplicationShortcut)
self.playPause.setIcon(
QtGui.QIcon(self.appctxt.get_resource("Images/svg/play.svg")))
self.reset = QAction("Reset Memory (Ctrl+R)", self)
self.reset.setShortcut("Ctrl+R")
self.reset.setShortcutContext(Qt.ApplicationShortcut)
self.reset.setIcon(
QIcon(self.appctxt.get_resource("Images/svg/reset.svg")))
self.condition = QAction("Condition (Ctrl+C)", self)
self.condition.setShortcut("Ctrl+C")
self.condition.setShortcutContext(Qt.ApplicationShortcut)
self.condition.setIcon(
QIcon(self.appctxt.get_resource("Images/svg/upload.svg")))
self.preferences = QAction("Preferences (Ctrl+P)", self)
self.preferences.setShortcut("Ctrl+P")
self.preferences.setShortcutContext(Qt.ApplicationShortcut)
self.preferences.setIcon(
QIcon(self.appctxt.get_resource("Images/svg/settingsBlueBig.svg")))
self.save = QAction("Save (Ctrl+S)", self)
self.save.setShortcut("Ctrl+S")
self.save.setShortcutContext(Qt.ApplicationShortcut)
self.save.setIcon(
QIcon(self.appctxt.get_resource("Images/svg/save.svg")))
self.lcd = QLCDNumber(self)
self.lcd.display(1)
self.lcd.setDigitCount(1)
self.lcd.setFixedHeight(35)
self.lcd.setFixedWidth(35)
#sld.valueChanged.connect(self.lineEdit.setText())
# # get the palette
# palette = self.lcd.palette()
# # foreground color
# palette.setColor(palette.WindowText, QtGui.QColor(85, 85, 255))
# # background color
# palette.setColor(palette.Background, QtGui.QColor(0, 170, 255))
# # "light" border
# palette.setColor(palette.Light, QtGui.QColor(255, 0, 0))
# # "dark" border
# palette.setColor(palette.Dark, QtGui.QColor(0, 255, 0))
# # set the palette
# self.lcd.setPalette(palette)
self.bpmBox = QSpinBox(self)
self.bpmBox.setSuffix(" BPM")
#self.bpmBox.setMinimumSize(30,30)
self.bpmBox.setFixedHeight(35)
self.bpmBox.setRange(20, 150)
self.bpmBox.setSingleStep(5)
self.bpmBox.setValue(self.params['metronome']["BPM"])
# self.enforce = QAction("Enforce",self)
# self.enforce.setShortcut("Ctrl+E")
# self.enforce.setShortcutContext(Qt.ApplicationShortcut)
# self.clear = QAction("Clear",self)
# #self.clear.setShortcut("Ctrl+E")
# self.clear.setShortcutContext(Qt.ApplicationShortcut)
#self.enforce.setIcon(QIcon(self.appctxt.get_resource("Images/reset.svg")))
#self.toolbarAction.setStatusTip("STARTPAUSE")
#self.toolbarAction.setWhatsThis("srgsr")
self.addAction(self.playPause)
self.addAction(self.reset)
self.addAction(self.condition)
self.addAction(self.preferences)
self.addAction(self.save)
self.addWidget(self.bpmBox)
self.addWidget(self.lcd)
self.keyIndicator = QLabel(" ", objectName='keyIndicator')
class WheelBox(QWidget):
valueChanged = pyqtSignal('double', name="valueChanged")
def __init__(self, title, min, max, stepSize, parent):
super().__init__(parent)
self.__d_number = QLCDNumber(self)
self.__d_number.setSegmentStyle(QLCDNumber.Filled)
self.__d_number.setAutoFillBackground(True)
self.__d_number.setFixedHeight(self.__d_number.sizeHint().height() * 2)
self.__d_number.setFocusPolicy(Qt.WheelFocus)
pal = QPalette(Qt.black)
pal.setColor(QPalette.WindowText, Qt.green)
self.__d_number.setPalette(pal)
self.__d_wheel = Wheel(self)
self.__d_wheel.setOrientation(Qt.Vertical)
self.__d_wheel.setInverted(True)
self.__d_wheel.setRange(min, max)
self.__d_wheel.setSingleStep(stepSize)
self.__d_wheel.setPageStepCount(5)
self.__d_wheel.setFixedHeight(self.__d_number.height())
self.__d_number.setFocusProxy(self.__d_wheel)
font = QFont("Helvetica", 10)
font.setBold(True)
self.__d_label = QLabel(title, self)
self.__d_label.setFont(font)
hLayout = QHBoxLayout()
hLayout.setContentsMargins(0, 0, 0, 0)
hLayout.setSpacing(2)
hLayout.addWidget(self.__d_number, 10)
hLayout.addWidget(self.__d_wheel)
vLayout = QVBoxLayout(self)
vLayout.addLayout(hLayout, 10)
vLayout.addWidget(self.__d_label, 0, Qt.AlignTop | Qt.AlignHCenter)
self.__d_wheel.valueChanged.connect(self.display)
self.__d_wheel.valueChanged.connect(self.valueChanged)
def display(self, value):
self.__d_number.display(value)
def theme(self):
return self.__d_wheel.palette().color(QPalette.Window)
def setTheme(self, color):
self.__d_wheel.setPalette(QPalette(color))
def setValue(self, value):
self.__d_wheel.setValue(value)
self.__d_number.display(value)
def value(self):
return self.__d_wheel.value()
theme = pyqtProperty(QColor, theme, setTheme)
class Timer(QDialog):
timeout = pyqtSignal()
def __init__(self, parent=None):
super().__init__(parent)
self.time=0
self.timeInterval = 1000 #默认秒
self.timerUp = QTimer()
self.timerUp.setInterval(self.timeInterval)
self.timerUp.timeout.connect(self.updateUptime)
self.timerDown = QTimer()
self.timerDown.setInterval(self.timeInterval)
self.timerDown.timeout.connect(self.updateDowntime)
self.initUi()
self.buttonStart.clicked.connect(self.timerUp.start)
self.buttonStop.clicked.connect(self.timerUp.stop)
self.buttonReset.clicked.connect(self.reset)
self.buttonCountDown.clicked.connect(self.timerDown.start)
self.buttonStopAlarm.clicked.connect(self.timerDown.stop)
self.timeSpinBox.valueChanged.connect(self.settimer)
def initUi(self):
mainLayout = QVBoxLayout()
self.setLayout(mainLayout)
self.groupBox = QGroupBox("unit")
self.radioButton1 = QRadioButton("s")
self.radioButton1.toggled.connect(self.setUnit)
self.radioButton2 = QRadioButton("0.1s")
self.radioButton2.toggled.connect(self.setUnit)
self.radioButton3 = QRadioButton("0.01s")
self.radioButton3.toggled.connect(self.setUnit)
self.radioButton4 = QRadioButton("1ms")
self.radioButton4.toggled.connect(self.setUnit)
self.radioButton1.setChecked(True)
self.unitLayout = QHBoxLayout()
self.unitLayout.addWidget(self.radioButton1)
self.unitLayout.addWidget(self.radioButton2)
self.unitLayout.addWidget(self.radioButton3)
self.unitLayout.addWidget(self.radioButton4)
self.groupBox.setLayout(self.unitLayout)
mainLayout.addWidget(self.groupBox)
self.buttonStart = QPushButton(self.tr("start"))
mainLayout.addWidget(self.buttonStart)
self.buttonStop = QPushButton(self.tr("stop"))
mainLayout.addWidget(self.buttonStop)
self.timeViewer = QLCDNumber()
self.timeViewer.setFixedHeight(45)
mainLayout.addWidget(self.timeViewer)
self.timeForHuman = QLabel()
mainLayout.addWidget(self.timeForHuman)
self.buttonReset = QPushButton(self.tr("reset"))
mainLayout.addWidget(self.buttonReset)
self.timeSpinBox = QSpinBox()
self.timeSpinBox.setRange(0,10000)
mainLayout.addWidget(self.timeSpinBox)
self.buttonCountDown = QPushButton(self.tr("countdown"))
mainLayout.addWidget(self.buttonCountDown)
self.buttonStopAlarm = QPushButton(self.tr("stopalarm"))
mainLayout.addWidget(self.buttonStopAlarm)
def setUnit(self):
if self.radioButton1.isChecked():
self.timeInterval = 1000
elif self.radioButton2.isChecked():
self.timeInterval = 100
elif self.radioButton3.isChecked():
self.timeInterval = 10
elif self.radioButton1.isChecked():
self.timeInterval = 1
self.timerUp.setInterval(self.timeInterval)
self.timerDown.setInterval(self.timeInterval)
def updateUptime(self):
self.time += 1
self.settimer(self.time)
print(self.time)
def updateDowntime(self):
self.time =self.time-1
self.settimer(self.time)
print(self.time)
if self.time <=0:
self.timeout.emit()
def settimer(self,int):
self.time=int
self.timeViewer.display(self.time)
if self.timeInterval ==1000:
self.timeForHuman.setText(time.strftime('%H hour %M minute %S second',time.gmtime(self.time)))
elif self.timeInterval ==100:
self.timeForHuman.setText(time.strftime('%H hour %M minute %S second',time.gmtime(self.time/10)))
elif self.timeInterval ==10:
self.timeForHuman.setText(time.strftime('%H hour %M minute %S second',time.gmtime(self.time/100)))
elif self.timeInterval ==1:
self.timeForHuman.setText(time.strftime('%H hour %M minute %S second',time.gmtime(self.time/1000)))
def reset(self):
self.time=0
self.settimer(self.time)
class GameGUI(QMainWindow):
BEFORE_START = 0
RUNNING = 1
PAUSED = 2
OVER = 3
sgn_game_over = pyqtSignal()
sgn_update_score = pyqtSignal(int)
def __init__(self, speed=1000):
super().__init__()
self.speed = speed
# flag
self.game_status = self.BEFORE_START # 0:未开始 1:正在运行 2:暂停 3:游戏结束
# signal
self.sgn_game_over.connect(self.game_over)
self.sgn_update_score.connect(self.update_score)
# gui
self.board = None
self.next_panel = None
self.score_ui = None
self.timer = None
self.init_gui()
self.start()
def init_gui(self, width_block=10, height_block=22, grid_size=20):
center_widget = QWidget()
h_layout = QHBoxLayout()
self.board = Board(None, grid_size, width_block, height_block)
self.next_panel = NextBlockPanel(None, grid_size, self.board.core.next_shape)
self.score_ui = QLCDNumber(self)
self.score_ui.setDigitCount(6)
self.score_ui.setSegmentStyle(QLCDNumber.Flat)
self.score_ui.setFixedHeight(50)
self.score_ui.display(0)
right_widget = QWidget()
right_layout = QVBoxLayout()
right_layout.addWidget(self.next_panel, 0, Qt.AlignCenter | Qt.AlignTop)
right_layout.addWidget(QLabel("<h3>Score</h3>"), 0, Qt.AlignLeft | Qt.AlignTop)
right_layout.addWidget(self.score_ui, 1, Qt.AlignCenter | Qt.AlignTop)
right_layout.setSpacing(0)
right_widget.setLayout(right_layout)
h_layout.addWidget(self.board)
h_layout.addWidget(right_widget)
h_layout.setSpacing(0)
self.timer = QBasicTimer()
self.setFocusPolicy(Qt.StrongFocus)
self.setWindowTitle('Tetris')
center_widget.setFixedSize(self.board.width() + self.next_panel.width() + 30, self.board.height()+15)
self.setFixedSize(center_widget.width(), center_widget.height())
center_widget.setLayout(h_layout)
self.setCentralWidget(center_widget)
print(self.dockOptions())
self.show()
def start(self):
self.board.core.remove_lines()
self.board.core.generate_next_shape()
self.next_panel.set_shape(self.board.core.next_shape)
self.game_status = self.RUNNING
self.timer.start(self.speed, self)
self.update()
def update_window(self):
self.board.update()
self.next_panel.update()
# self.score_ui.update()
self.update()
def next_block(self):
if self.board.core.merge_board():
self.board.core.remove_lines()
self.sgn_update_score.emit(self.board.core.score)
self.board.core.generate_next_shape()
self.next_panel.set_shape(self.board.core.next_shape)
return True
else:
self.sgn_game_over.emit()
return False
def game_over(self):
print('close')
self.close()
def update_score(self, score):
self.score_ui.display(score)
def timerEvent(self, event):
if event.timerId() == self.timer.timerId():
if self.board.core.move_down():
pass
else:
self.next_block()
self.update_window()
else:
super().timerEvent(event)
def keyPressEvent(self, event):
if self.game_status == self.RUNNING:
key = event.key()
if key in {Qt.Key_Left, Qt.Key_A}:
self.board.core.move_left()
self.update_window()
return
elif key in {Qt.Key_Right, Qt.Key_D}:
self.board.core.move_right()
self.update_window()
return
elif key in {Qt.Key_Up, Qt.Key_W}:
self.board.core.rotate_right()
self.update_window()
return
elif key in {Qt.Key_Down, Qt.Key_S}:
if not self.board.core.move_down():
self.next_block()
self.update_window()
super().keyPressEvent(event)
return
class MainWindow(QMainWindow):
def __init__(self):
super(MainWindow, self).__init__()
settings = QSettings()
self.setup_trayicon()
self.setup_ui()
self.update_work_end_time()
self.update_rest_end_time()
self.setup_connections()
self.timeFormat = "hh:mm:ss"
self.time = QTime(0, 0, 0, 0)
self.workTime = QTime(0, 0, 0, 0)
self.restTime = QTime(0, 0, 0, 0)
self.totalTime = QTime(0, 0, 0, 0)
self.currentMode = Mode.work
self.maxRepetitions = -1
self.currentRepetitions = 0
self.show()
def leaveEvent(self, event):
super(MainWindow, self).leaveEvent(event)
self.tasksTableWidget.clearSelection()
def closeEvent(self, event):
super(MainWindow, self).closeEvent(event)
settings = QSettings()
settings.setValue("timer/work/hours", self.workHoursSpinBox.value())
settings.setValue("timer/work/minutes",
self.workMinutesSpinBox.value())
settings.setValue("timer/work/seconds",
self.workSecondsSpinBox.value())
settings.setValue("timer/rest/hours", self.restHoursSpinBox.value())
settings.setValue("timer/rest/minutes",
self.restMinutesSpinBox.value())
settings.setValue("timer/rest/seconds",
self.restSecondsSpinBox.value())
tasks = []
for i in range(self.tasksTableWidget.rowCount()):
item = self.tasksTableWidget.item(i, 0)
if not item.font().strikeOut():
tasks.append(item.text())
settings.setValue("tasks/tasks", tasks)
def start_timer(self):
try:
if not self.timer.isActive():
self.create_timer()
except:
self.create_timer()
def create_timer(self):
self.timer = QTimer()
self.timer.timeout.connect(self.update_time)
self.timer.timeout.connect(self.maybe_change_mode)
self.timer.setInterval(1000)
self.timer.setSingleShot(False)
self.timer.start()
def pause_timer(self):
try:
self.timer.stop()
self.timer.disconnect()
except:
pass
def reset_timer(self):
try:
self.pause_timer()
self.time = QTime(0, 0, 0, 0)
self.display_time()
except:
pass
def maybe_start_timer(self):
if self.currentRepetitions != self.maxRepetitions:
self.start_timer()
started = True
else:
self.currentRepetitions = 0
started = False
return started
def update_work_end_time(self):
self.workEndTime = QTime(self.workHoursSpinBox.value(),
self.workMinutesSpinBox.value(),
self.workSecondsSpinBox.value())
def update_rest_end_time(self):
self.restEndTime = QTime(self.restHoursSpinBox.value(),
self.restMinutesSpinBox.value(),
self.restSecondsSpinBox.value())
def update_current_mode(self, mode: str):
self.currentMode = Mode.work if mode == "work" else Mode.rest
def update_time(self):
self.time = self.time.addSecs(1)
self.totalTime = self.totalTime.addSecs(1)
if self.modeComboBox.currentText() == "work":
self.workTime = self.workTime.addSecs(1)
else:
self.restTime = self.restTime.addSecs(1)
self.display_time()
def update_max_repetitions(self, value):
if value == 0:
self.currentRepetitions = 0
self.maxRepetitions = -1
else:
self.maxRepetitions = 2 * value
def maybe_change_mode(self):
if self.currentMode is Mode.work and self.time >= self.workEndTime:
self.reset_timer()
self.modeComboBox.setCurrentIndex(1)
self.increment_current_repetitions()
started = self.maybe_start_timer()
self.show_window_message(
Status.workFinished if started else Status.repetitionsReached)
elif self.currentMode is Mode.rest and self.time >= self.restEndTime:
self.reset_timer()
self.modeComboBox.setCurrentIndex(0)
self.increment_current_repetitions()
started = self.maybe_start_timer()
self.show_window_message(
Status.restFinished if started else Status.repetitionsReached)
def increment_current_repetitions(self):
if self.maxRepetitions > 0:
self.currentRepetitions += 1
def insert_task(self):
task = self.taskTextEdit.toPlainText()
self.insert_tasks(task)
def insert_tasks(self, *tasks):
for task in tasks:
if task:
rowCount = self.tasksTableWidget.rowCount()
self.tasksTableWidget.setRowCount(rowCount + 1)
self.tasksTableWidget.setItem(rowCount, 0,
QTableWidgetItem(task))
self.tasksTableWidget.resizeRowsToContents()
self.taskTextEdit.clear()
def delete_task(self):
selectedIndexes = self.tasksTableWidget.selectedIndexes()
if selectedIndexes:
self.tasksTableWidget.removeRow(selectedIndexes[0].row())
def mark_task_as_finished(self, row, col):
item = self.tasksTableWidget.item(row, col)
font = self.tasksTableWidget.item(row, col).font()
font.setStrikeOut(False if item.font().strikeOut() else True)
item.setFont(font)
def display_time(self):
self.timeDisplay.display(self.time.toString(self.timeFormat))
self.statisticsRestTimeDisplay.display(
self.restTime.toString(self.timeFormat))
self.statisticsWorkTimeDisplay.display(
self.workTime.toString(self.timeFormat))
self.statisticsTotalTimeDisplay.display(
self.totalTime.toString(self.timeFormat))
def show_window_message(self, status):
if status is Status.workFinished:
self.trayIcon.showMessage("Break", choice(work_finished_phrases),
QIcon("icons/tomato.png"))
elif status is Status.restFinished:
self.trayIcon.showMessage("Work", choice(rest_finished_phrases),
QIcon("icons/tomato.png"))
else:
self.trayIcon.showMessage("Finished",
choice(pomodoro_finished_phrases),
QIcon("icons/tomato.png"))
self.resetButton.click()
def setup_connections(self):
self.playButton.clicked.connect(self.start_timer)
self.playButton.clicked.connect(
lambda: self.playButton.setDisabled(True))
self.playButton.clicked.connect(
lambda: self.pauseButton.setDisabled(False))
self.playButton.clicked.connect(
lambda: self.resetButton.setDisabled(False))
self.pauseButton.clicked.connect(self.pause_timer)
self.pauseButton.clicked.connect(
lambda: self.playButton.setDisabled(False))
self.pauseButton.clicked.connect(
lambda: self.pauseButton.setDisabled(True))
self.pauseButton.clicked.connect(
lambda: self.resetButton.setDisabled(False))
self.resetButton.clicked.connect(self.reset_timer)
self.resetButton.clicked.connect(
lambda: self.playButton.setDisabled(False))
self.resetButton.clicked.connect(
lambda: self.pauseButton.setDisabled(True))
self.resetButton.clicked.connect(
lambda: self.resetButton.setDisabled(True))
self.workHoursSpinBox.valueChanged.connect(self.update_work_end_time)
self.workMinutesSpinBox.valueChanged.connect(self.update_work_end_time)
self.workSecondsSpinBox.valueChanged.connect(self.update_work_end_time)
self.restHoursSpinBox.valueChanged.connect(self.update_rest_end_time)
self.restMinutesSpinBox.valueChanged.connect(self.update_rest_end_time)
self.restSecondsSpinBox.valueChanged.connect(self.update_rest_end_time)
self.modeComboBox.currentTextChanged.connect(self.update_current_mode)
self.repetitionsSpinBox.valueChanged.connect(
self.update_max_repetitions)
self.acceptTaskButton.pressed.connect(self.insert_task)
self.deleteTaskButton.pressed.connect(self.delete_task)
self.tasksTableWidget.cellDoubleClicked.connect(
self.mark_task_as_finished)
def setup_ui(self):
settings = QSettings()
self.size_policy = sizePolicy = QSizePolicy(QSizePolicy.Expanding,
QSizePolicy.Expanding)
#TABWIDGET
self.tabWidget = QTabWidget()
self.pomodoroWidget = QWidget(self)
self.pomodoroWidgetLayout = QVBoxLayout(self.pomodoroWidget)
self.pomodoroWidget.setLayout(self.pomodoroWidgetLayout)
# work
self.workGroupBox = QGroupBox("Work")
self.workGroupBoxLayout = QHBoxLayout(self.workGroupBox)
self.workGroupBox.setLayout(self.workGroupBoxLayout)
self.workHoursSpinBox = QSpinBox(minimum=0,
maximum=24,
value=settings.value(
"timer/work/hours", 0),
suffix="h",
sizePolicy=self.size_policy)
self.workMinutesSpinBox = QSpinBox(minimum=0,
maximum=60,
value=settings.value(
"timer/work/minutes", 25),
suffix="m",
sizePolicy=self.size_policy)
self.workSecondsSpinBox = QSpinBox(minimum=0,
maximum=60,
value=settings.value(
"timer/work/seconds", 0),
suffix="s",
sizePolicy=self.size_policy)
self.workGroupBoxLayout.addWidget(self.workHoursSpinBox)
self.workGroupBoxLayout.addWidget(self.workMinutesSpinBox)
self.workGroupBoxLayout.addWidget(self.workSecondsSpinBox)
# rest
self.restGroupBox = QGroupBox("Rest")
self.restGroupBoxLayout = QHBoxLayout(self.restGroupBox)
self.restGroupBox.setLayout(self.restGroupBoxLayout)
self.restHoursSpinBox = QSpinBox(minimum=0,
maximum=24,
value=settings.value(
"timer/rest/hours", 0),
suffix="h",
sizePolicy=self.size_policy)
self.restMinutesSpinBox = QSpinBox(minimum=0,
maximum=60,
value=settings.value(
"timer/rest/minutes", 5),
suffix="m",
sizePolicy=self.size_policy)
self.restSecondsSpinBox = QSpinBox(minimum=0,
maximum=60,
value=settings.value(
"timer/rest/seconds", 0),
suffix="s",
sizePolicy=self.size_policy)
self.restGroupBoxLayout.addWidget(self.restHoursSpinBox)
self.restGroupBoxLayout.addWidget(self.restMinutesSpinBox)
self.restGroupBoxLayout.addWidget(self.restSecondsSpinBox)
#OTHER
self.otherGroupBox = QGroupBox("Other")
self.otherGroupBoxLayout = QHBoxLayout(self.otherGroupBox)
self.otherGroupBox.setLayout(self.otherGroupBoxLayout)
self.repetitionsLabel = QLabel("Repetitions",
sizePolicy=self.size_policy)
self.repetitionsSpinBox = QSpinBox(minimum=0,
maximum=10000,
value=0,
sizePolicy=self.size_policy,
specialValueText="∞")
self.modeLabel = QLabel("Mode", sizePolicy=self.size_policy)
self.modeComboBox = QComboBox()
self.modeComboBox.addItems(["work", "rest"])
self.otherGroupBoxLayout.addWidget(self.repetitionsLabel)
self.otherGroupBoxLayout.addWidget(self.repetitionsSpinBox)
self.otherGroupBoxLayout.addWidget(self.modeLabel)
self.otherGroupBoxLayout.addWidget(self.modeComboBox)
#LCDDISPLAY
self.lcdDisplayGroupBox = QGroupBox("Time")
self.lcdDisplayGroupBoxLayout = QHBoxLayout(self.lcdDisplayGroupBox)
self.lcdDisplayGroupBox.setLayout(self.lcdDisplayGroupBoxLayout)
self.timeDisplay = QLCDNumber(8, sizePolicy=self.size_policy)
self.timeDisplay.setFixedHeight(100)
self.timeDisplay.display("00:00:00")
self.lcdDisplayGroupBoxLayout.addWidget(self.timeDisplay)
#BUTTONS
self.buttonWidget = QWidget()
self.buttonWidgetLayout = QHBoxLayout(self.buttonWidget)
self.buttonWidget.setLayout(self.buttonWidgetLayout)
self.playButton = self.make_button("start", disabled=False)
self.resetButton = self.make_button("reset")
self.pauseButton = self.make_button("pause")
self.buttonWidgetLayout.addWidget(self.pauseButton)
self.buttonWidgetLayout.addWidget(self.playButton)
self.buttonWidgetLayout.addWidget(self.resetButton)
#CENTRALWIDGET
self.pomodoroWidgetLayout.addWidget(self.workGroupBox)
self.pomodoroWidgetLayout.addWidget(self.restGroupBox)
self.pomodoroWidgetLayout.addWidget(self.otherGroupBox)
self.pomodoroWidgetLayout.addWidget(self.lcdDisplayGroupBox)
self.pomodoroWidgetLayout.addWidget(self.buttonWidget)
#CREATE TASKS TAB
self.tasksWidget = QWidget(self.tabWidget)
self.tasksWidgetLayout = QVBoxLayout(self.tasksWidget)
self.tasksWidget.setLayout(self.tasksWidgetLayout)
self.inputWidget = QWidget()
self.inputWidget.setFixedHeight(50)
self.inputWidgetLayout = QHBoxLayout(self.inputWidget)
self.inputWidgetLayout.setContentsMargins(0, 0, 0, 0)
self.inputWidget.setLayout(self.inputWidgetLayout)
self.taskTextEdit = QTextEdit(
placeholderText="Describe your task briefly.",
undoRedoEnabled=True)
self.inputButtonContainer = QWidget()
self.inputButtonContainerLayout = QVBoxLayout(
self.inputButtonContainer)
self.inputButtonContainerLayout.setContentsMargins(0, 0, 0, 0)
self.inputButtonContainer.setLayout(self.inputButtonContainerLayout)
self.acceptTaskButton = QToolButton(icon=QIcon("icons/check.png"))
self.deleteTaskButton = QToolButton(icon=QIcon("icons/trash.png"))
self.inputButtonContainerLayout.addWidget(self.acceptTaskButton)
self.inputButtonContainerLayout.addWidget(self.deleteTaskButton)
self.inputWidgetLayout.addWidget(self.taskTextEdit)
self.inputWidgetLayout.addWidget(self.inputButtonContainer)
self.tasksTableWidget = QTableWidget(0, 1)
self.tasksTableWidget.setHorizontalHeaderLabels(["Tasks"])
self.tasksTableWidget.horizontalHeader().setStretchLastSection(True)
self.tasksTableWidget.verticalHeader().setVisible(False)
self.tasksTableWidget.setWordWrap(True)
self.tasksTableWidget.setTextElideMode(Qt.ElideNone)
self.tasksTableWidget.setEditTriggers(QAbstractItemView.NoEditTriggers)
self.tasksTableWidget.setSelectionMode(
QAbstractItemView.SingleSelection)
self.insert_tasks(*settings.value("tasks/tasks", []))
self.tasksWidgetLayout.addWidget(self.inputWidget)
self.tasksWidgetLayout.addWidget(self.tasksTableWidget)
#CREATE STATISTICS TAB
self.statisticsWidget = QWidget()
self.statisticsWidgetLayout = QVBoxLayout(self.statisticsWidget)
self.statisticsWidget.setLayout(self.statisticsWidgetLayout)
self.statisticsWorkTimeGroupBox = QGroupBox("Work Time")
self.statisticsWorkTimeGroupBoxLayout = QHBoxLayout()
self.statisticsWorkTimeGroupBox.setLayout(
self.statisticsWorkTimeGroupBoxLayout)
self.statisticsWorkTimeDisplay = QLCDNumber(8)
self.statisticsWorkTimeDisplay.display("00:00:00")
self.statisticsWorkTimeGroupBoxLayout.addWidget(
self.statisticsWorkTimeDisplay)
self.statisticsRestTimeGroupBox = QGroupBox("Rest Time")
self.statisticsRestTimeGroupBoxLayout = QHBoxLayout()
self.statisticsRestTimeGroupBox.setLayout(
self.statisticsRestTimeGroupBoxLayout)
self.statisticsRestTimeDisplay = QLCDNumber(8)
self.statisticsRestTimeDisplay.display("00:00:00")
self.statisticsRestTimeGroupBoxLayout.addWidget(
self.statisticsRestTimeDisplay)
self.statisticsTotalTimeGroupBox = QGroupBox("Total Time")
self.statisticsTotalTimeGroupBoxLayout = QHBoxLayout()
self.statisticsTotalTimeGroupBox.setLayout(
self.statisticsTotalTimeGroupBoxLayout)
self.statisticsTotalTimeDisplay = QLCDNumber(8)
self.statisticsTotalTimeDisplay.display("00:00:00")
self.statisticsTotalTimeGroupBoxLayout.addWidget(
self.statisticsTotalTimeDisplay)
self.statisticsWidgetLayout.addWidget(self.statisticsTotalTimeGroupBox)
self.statisticsWidgetLayout.addWidget(self.statisticsWorkTimeGroupBox)
self.statisticsWidgetLayout.addWidget(self.statisticsRestTimeGroupBox)
#ADD TABS
self.timerTab = self.tabWidget.addTab(self.pomodoroWidget,
QIcon("icons/timer.png"),
"Timer")
self.tasksTab = self.tabWidget.addTab(self.tasksWidget,
QIcon("icons/tasks.png"),
"Tasks")
self.statisticsTab = self.tabWidget.addTab(
self.statisticsWidget, QIcon("icons/statistics.png"), "Statistics")
self.setCentralWidget(self.tabWidget)
def make_button(self, text, iconPath=None, disabled=True):
button = QPushButton(text, sizePolicy=self.size_policy)
if iconPath:
button.setIcon(QIcon(iconPath))
button.setDisabled(disabled)
return button
def setup_trayicon(self):
self.trayIcon = QSystemTrayIcon(QIcon("icons/tomato.png"))
self.trayIcon.setContextMenu(QMenu())
self.quitAction = self.trayIcon.contextMenu().addAction(
QIcon("icons/exit.png"), "Quit", self.exit)
self.quitAction.triggered.connect(self.exit)
self.trayIcon.activated.connect(self.onActivate)
self.trayIcon.show()
def exit(self):
self.close()
app = QApplication.instance()
if app:
app.quit()
def onActivate(self, reason):
if reason == QSystemTrayIcon.Trigger:
self.show()
class view(QWidget):
def __init__(self):
super().__init__()
self.data_storage = datastorage.DataStorage()
self.parser = parser.Parser(self.data_storage)
self.thread = QThread()
self.parser.dataChanged.connect(self.append_data)
self.parser.moveToThread(self.thread)
self.thread.started.connect(self.parser.parse)
self.thread.start()
self.timer = QTimer(self)
self.timer.timeout.connect(self.plot_data)
self.timer.start(100)
self.lastUpdate = pg.ptime.time()
self.avgFps = 0.0
self.cutoff = 0
self.scroll_status = True
self.plotting_status = True
"""Optimization settings"""
self.end_dots = True
self.graph_update_count = 0
self.graph_update_interval = 3 # Increase this value to speed up graphing
self.optimize_fps = True
self.goal_fps = 30 # Max 60
self.bounds = 10
"""Latest Telemetry Info"""
self.lat = 0
self.long = 0
self.time = 0
self.alt = 0
self.vel = 0
self.sat = 0
self.accel = 0
self.temp = 0
self.gyro_x = 0
self.antenna_angle = [0, 0]
self.antenna_precision = 7
self.antenna_font_size = 32
self.initUI()
def initUI(self):
pg.setConfigOptions(antialias=False) ## expensive ass setting for fps but yolo
"""Declare layouts"""
hbox_Window = QHBoxLayout(self)
vbox_LogoAndGraphs = QVBoxLayout()
vbox_Logo = QVBoxLayout()
hbox_Banner = QHBoxLayout()
hbox_Graphs = QHBoxLayout()
vbox_inner_Graphs = QVBoxLayout() # vbox for non-position graphs
vbox_Indicators = QVBoxLayout()
hbox_position = QHBoxLayout()
vbox_Buttons = QVBoxLayout()
"""Declare widgets"""
self.fps_label = QLabel()
self.antenna_angle_label = QLabel()
self.antenna_angle_label.setFont(QFont("Times", self.antenna_font_size, QFont.Bold))
self.altitude_graph = pg.PlotWidget(title='Altitude', left='Height', bottom='Time')
self.rssi_graph = pg.PlotWidget(title='RSSI', left='RSSI', bottom='Time')
self.velocity_graph = pg.PlotWidget(title='Velocity', left='Velocity', bottom='Time')
self.acceleration_graph = pg.PlotWidget(title='Acceleration', left='Acceleration', bottom='Time')
self.position_graph = pg.PlotWidget(title='Position', left='Y Coordinate', bottom='X Coordinate')
# self.altitude_graph.setClipToView(True) # OPTIMIZATION OPTIONS
# self.altitude_graph.setDownsampling(mode='peak')
# self.temperature_graph.setClipToView(True)
# self.temperature_graph.setDownsampling(mode='peak')
# self.velocity_graph.setClipToView(True)
# self.velocity_graph.setDownsampling(mode='peak')
# self.acceleration_graph.setClipToView(True)
# self.acceleration_graph.setDownsampling(mode='peak')
# self.position_graph.setClipToView(True)
# self.position_graph.setDownsampling(mode='peak')
# self.altitude_graph.setRange(xRange=[0, 10])
# self.altitude_graph.setLimits(xMax=100)
self.text_box = QLineEdit(self)
self.text_box.setFixedWidth(250)
self.button = QPushButton('Update Cutoff', self)
self.button.clicked.connect(self.on_click)
self.button.setFixedWidth(250)
self.button_reset = QPushButton('RESET DATA', self)
self.button_reset.clicked.connect(self.on_click_reset)
self.button_reset.setFixedWidth(250)
self.button_reset.setStyleSheet("background-color: red")
self.scroll_checkbox = QCheckBox("Toggle Scrolling", self)
self.scroll_checkbox.setChecked(self.scroll_status)
self.scroll_checkbox.stateChanged.connect(self.on_click_scrolling)
self.plot_checkbox = QCheckBox("Toggle Plotting", self)
self.plot_checkbox.setChecked(self.plotting_status)
self.plot_checkbox.stateChanged.connect(self.on_click_plotting)
self.altitude_LCD = QLCDNumber(self)
self.rssi_LCD = QLCDNumber(self)
self.velocity_LCD = QLCDNumber(self)
self.acceleration_LCD = QLCDNumber(self)
self.positionX_LCD = QLCDNumber(self)
self.positionY_LCD = QLCDNumber(self)
self.altitude_LCD.setFixedHeight(LCD_HEIGHT)
self.rssi_LCD.setFixedHeight(LCD_HEIGHT)
self.velocity_LCD.setFixedHeight(LCD_HEIGHT)
self.acceleration_LCD.setFixedHeight(LCD_HEIGHT)
self.positionX_LCD.setFixedHeight(LCD_HEIGHT)
self.positionY_LCD.setFixedHeight(LCD_HEIGHT)
self.altitude_LCD.setDigitCount(9)
self.rssi_LCD.setDigitCount(4)
self.velocity_LCD.setDigitCount(9)
self.acceleration_LCD.setDigitCount(9)
self.positionX_LCD.setDigitCount(10)
self.positionY_LCD.setDigitCount(10)
altitude_label = QLabel("Current Altitude")
rssi_label = QLabel("RSSI")
velocity_label = QLabel("Current Velocity")
acceleration_label = QLabel("Current Acceleration")
position_label = QLabel("Current Position")
MRT_Logo = QPixmap('./../media/MRT-logo.png')
smaller_MRT_Logo = MRT_Logo.scaledToHeight(100)
logo_Lbl = QLabel(self)
logo_Lbl.setPixmap(smaller_MRT_Logo)
MRT_label = QLabel("McGill Rocket Team Ground Station")
MRT_label.setFont(QFont("Times", 30, QFont.Bold))
"""Layout Management"""
vbox_Logo.addWidget(self.fps_label)
vbox_Logo.addLayout(hbox_Banner)
hbox_Banner.addWidget(logo_Lbl)
hbox_Banner.addWidget(MRT_label)
hbox_Banner.addStretch(1)
vbox_inner_Graphs.addWidget(self.altitude_graph)
vbox_inner_Graphs.addWidget(self.rssi_graph)
vbox_inner_Graphs.addWidget(self.velocity_graph)
vbox_inner_Graphs.addWidget(self.acceleration_graph)
hbox_Graphs.addLayout(vbox_inner_Graphs)
hbox_Graphs.addWidget(self.position_graph)
vbox_Indicators.addWidget(altitude_label)
vbox_Indicators.addWidget(self.altitude_LCD)
vbox_Indicators.addWidget(rssi_label)
vbox_Indicators.addWidget(self.rssi_LCD)
vbox_Indicators.addWidget(velocity_label)
vbox_Indicators.addWidget(self.velocity_LCD)
vbox_Indicators.addWidget(acceleration_label)
vbox_Indicators.addWidget(self.acceleration_LCD)
vbox_Indicators.addWidget(position_label)
hbox_position.addWidget(self.positionX_LCD)
hbox_position.addWidget(self.positionY_LCD)
vbox_Indicators.addLayout(hbox_position)
vbox_Indicators.addLayout(vbox_Buttons)
vbox_Buttons.addWidget(self.antenna_angle_label)
vbox_Buttons.addWidget(self.text_box)
vbox_Buttons.addWidget(self.button)
vbox_Buttons.addWidget(self.button_reset)
vbox_Buttons.addWidget(self.scroll_checkbox)
vbox_Buttons.addWidget(self.plot_checkbox)
vbox_LogoAndGraphs.addLayout(vbox_Logo)
vbox_LogoAndGraphs.addLayout(hbox_Graphs)
hbox_Window.addLayout(vbox_LogoAndGraphs)
hbox_Window.addLayout(vbox_Indicators)
""" Telemetry values """
self.time_list = []
self.temperature_list = []
self.altitude_list = []
self.velocity_list = []
self.acceleration_list = []
""" GPS values """
self.latitude_list = []
self.longitude_list = []
""" Redundancy GPS values """
self.redundancy_latitude_list = []
self.redundancy_longitude_list = []
self.rssi_list = []
"""Build main window"""
self.setLayout(hbox_Window)
self.setGeometry(100, 100, 1720, 968)
self.setWindowTitle('MRT Ground Station')
self.altitude_curve = self.altitude_graph.plot(self.time_list, self.altitude_list)
self.rssi_curve = self.rssi_graph.plot(self.time_list, self.rssi_list)
self.velocity_curve = self.velocity_graph.plot(self.time_list, self.velocity_list)
self.acceleration_curve = self.acceleration_graph.plot(self.time_list, self.acceleration_list)
if show_graphs is True:
self.show()
@pyqtSlot(list)
def append_data(self, telemetry_data):
"""
telemetry long data format: Slat,long,time,alt,vel,sat,acc,temp,gyro_x,RSSI,E\n
backup GPS data: Slat,long,time,gps_alt,gps_speed,sat,RSSI,E\n
"""
""" Append telemetry data to lists """
if len(telemetry_data) == 2:
self.antenna_angle = telemetry_data
else:
try:
self.lat = float(telemetry_data[0])
self.long = float(telemetry_data[1])
self.time = float(telemetry_data[2])
self.alt = float(telemetry_data[3])
self.vel = float(telemetry_data[4])
self.sat = float(telemetry_data[5])
self.accel = 0
self.temp = 0
self.gyro_x = 0
self.rssi = 0
if len(telemetry_data) >= 9:
self.accel = float(telemetry_data[6])
self.temp = float(telemetry_data[7])
self.gyro_x = float(telemetry_data[8])
if len(telemetry_data) == 10:
self.rssi = float(telemetry_data[9])
if self.plotting_status:
self.rssi_list.append(float(self.rssi))
elif len(telemetry_data) == 7:
self.rssi = float(telemetry_data[6])
if self.plotting_status:
self.rssi_list.append(float(self.rssi))
if self.plotting_status:
self.time_list.append(float(self.time))
self.altitude_list.append(float(self.alt))
self.temperature_list.append(float(self.temp))
self.velocity_list.append(float(self.vel))
self.acceleration_list.append(float(self.accel))
except:
print('INVALID DATA SENT TO VIEW')
""" Append GPS data to lists """
try:
if self.plotting_status:
self.latitude_list.append(float(self.lat))
self.longitude_list.append(float(self.long))
except:
print("latlong broken")
@pyqtSlot()
def plot_data(self):
try:
now = pg.ptime.time()
fps = 1.0 / (now - self.lastUpdate)
self.lastUpdate = now
self.avgFps = self.avgFps * 0.8 + fps * 0.2
self.fps_label.setText("Generating {0:3.2f} fps Update interval: {1}".format(self.avgFps, self.graph_update_interval))
self.antenna_angle_label.setText('XY:{}\nZ:{}'.format(str(self.antenna_angle[0])[0:self.antenna_precision], str(self.antenna_angle[1])[0:self.antenna_precision]))
if self.plotting_status:
if self.graph_update_count > self.graph_update_interval:
self.graph_update_count = 0
if self.optimize_fps:
if self.avgFps < (self.goal_fps-self.bounds):
self.graph_update_interval += 1
elif self.avgFps > (self.goal_fps+self.bounds):
self.graph_update_interval -= 1
self.position_graph.clear()
if len(self.altitude_list) > self.cutoff+1:
self.altitude_curve.setData(self.time_list[-self.cutoff:-1], self.altitude_list[-self.cutoff:-1], pen='r')
self.rssi_curve.setData(self.time_list[-self.cutoff:-1], self.altitude_list[-self.cutoff:-1], pen='r')
self.velocity_curve.setData(self.time_list[-self.cutoff:-1], self.velocity_list[-self.cutoff:-1], pen='r')
self.acceleration_curve.setData(self.time_list[-self.cutoff:-1], self.acceleration_list[-self.cutoff:-1], pen='r')
if self.scroll_status:
try:
self.altitude_graph.setRange(xRange=[self.time_list[-1] - graph_range, self.time_list[-1]])
self.rssi_graph.setRange(xRange=[self.time_list[-1] - graph_range, self.time_list[-1]])
self.velocity_graph.setRange(xRange=[self.time_list[-1] - graph_range, self.time_list[-1]])
self.acceleration_graph.setRange(xRange=[self.time_list[-1] - graph_range, self.time_list[-1]])
except:
print("Scrolling broke somehow")
self.position_graph.plot(self.latitude_list[-self.cutoff:-1], self.longitude_list[-self.cutoff:-1])
# if self.end_dots:
# self.velocity_graph.plot([self.time], [self.vel], pen=None, symbol='o', symbolBrush=(0, 0, 255), symbolSize=6.5)
# self.acceleration_graph.plot([self.time], [self.accel], pen=None, symbol='o', symbolBrush=(0, 0, 255), symbolSize=6.5)
# self.altitude_graph.plot([self.time], [self.alt], pen=None, symbol='o', symbolBrush=(0, 0, 255), symbolSize=6.5)
# if len(self.time_list) == len(self.rssi_list):
# self.rssi_graph.plot(self.time_list[-self.cutoff:-1], self.rssi_list[-self.cutoff:-1], pen='r')
# if self.end_dots:
# self.rssi_graph.plot([self.time], [self.rssi], pen=None, symbol='o', symbolBrush=(0, 0, 255), symbolSize=6.5)
# This line adds an X marking the last gps location
self.position_graph.plot([self.lat], [self.long], pen=None, symbol='o', symbolBrush=(255, 0, 0), symbolSize=6.5)
else:
self.graph_update_count = self.graph_update_count + 1
self.altitude_LCD.display(self.alt)
self.rssi_LCD.display(self.rssi)
self.velocity_LCD.display(self.vel)
self.acceleration_LCD.display(self.accel)
self.positionX_LCD.display(self.lat)
self.positionY_LCD.display(self.long)
self.timer.start(0)
except:
print("Problem with graphing")
@pyqtSlot()
def on_click(self):
text_value = self.text_box.text()
try:
num_value = int(text_value)
num_value = abs(num_value)
if num_value < len(self.longitude_list):
self.cutoff = num_value
else:
self.cutoff = 0
except:
print('Data limit {} is invalid \nInput a number between 0 and {}'.format(text_value, len(self.longitude_list)))
self.cutoff = 0
@pyqtSlot()
def on_click_reset(self):
""" Telemetry values """
self.time_list = []
self.temperature_list = []
self.altitude_list = []
self.velocity_list = []
self.acceleration_list = []
""" GPS values """
self.latitude_list = []
self.longitude_list = []
""" Redundancy GPS values """
self.redundancy_latitude_list = []
self.redundancy_longitude_list = []
self.rssi_list = []
@pyqtSlot()
def on_click_scrolling(self):
if self.scroll_checkbox.isChecked():
self.scroll_status = True
else:
self.scroll_status = False
@pyqtSlot()
def on_click_plotting(self):
if self.plot_checkbox.isChecked():
self.plotting_status = True
else:
self.plotting_status = False
class Run_CM110(QMainWindow):
def __init__(self):
super().__init__()
self.cwd = os.getcwd()
self.load_()
# Enable antialiasing for prettier plots
pg.setConfigOptions(antialias=True)
self.initUI()
def initUI(self):
################### MENU BARS START ##################
MyBar = QMenuBar(self)
fileMenu = MyBar.addMenu("File")
fileSavePlt = fileMenu.addAction("Save plots")
fileSavePlt.triggered.connect(self.save_plots)
fileSavePlt.setShortcut('Ctrl+P')
fileSaveSet = fileMenu.addAction("Save settings")
fileSaveSet.triggered.connect(self.save_) # triggers closeEvent()
fileSaveSet.setShortcut('Ctrl+S')
fileClose = fileMenu.addAction("Close")
fileClose.triggered.connect(self.close) # triggers closeEvent()
fileClose.setShortcut('Ctrl+X')
instMenu = MyBar.addMenu("Instruments")
self.conMode = instMenu.addAction("Load instruments")
self.conMode.triggered.connect(self.instrumentsDialog)
################### MENU BARS END ##################
#####################################################
lbl1 = QLabel("MONOCHROMATOR CM110 settings:", self)
lbl1.setStyleSheet("color: blue")
intervals_lbl = QLabel("Number of intervals", self)
self.combo4 = QComboBox(self)
mylist4=["1","2"]
self.combo4.addItems(mylist4)
self.combo4.setCurrentIndex(mylist4.index(str(self.numofintervals)))
start_lbl = QLabel("Start[nm]",self)
stop_lbl = QLabel("Stop[nm]",self)
step_lbl = QLabel("Step[nm]",self)
dwelltime = QLabel("Dwell[s]",self)
self.startEdit = [QLineEdit("",self) for tal in range(2)]
self.stopEdit = [QLineEdit("",self) for tal in range(2)]
self.stepEdit = [QLineEdit("",self) for tal in range(2)]
self.dwelltimeEdit = [QLineEdit("",self) for tal in range(2)]
# disable those fields that will be ignored anyway
for tal in range(2):
if tal<self.numofintervals:
self.startEdit[tal].setText(str(self.start_[tal]))
self.stopEdit[tal].setText(str(self.stop[tal]))
self.stepEdit[tal].setText(str(self.step[tal]))
self.dwelltimeEdit[tal].setText(str(self.dwell_time[tal]))
else:
self.startEdit[tal].setEnabled(False)
self.stopEdit[tal].setEnabled(False)
self.stepEdit[tal].setEnabled(False)
self.dwelltimeEdit[tal].setEnabled(False)
lbl3 = QLabel("NEWPORT stepper SMC100:", self)
lbl3.setStyleSheet("color: blue")
startst_lbl = QLabel("Start",self)
stopst_lbl = QLabel("Stop",self)
stepst_lbl = QLabel("Step",self)
lcdst_lbl = QLabel("Current pos",self)
self.startst_Edit = QLineEdit(str(self.startst),self)
self.stopst_Edit = QLineEdit(str(self.stopst),self)
self.stepst_Edit = QLineEdit(str(self.stepst),self)
self.lcdst = QLCDNumber(self)
self.lcdst.setStyleSheet("color: blue")
#self.lcdst.setFixedHeight(40)
self.lcdst.setSegmentStyle(QLCDNumber.Flat)
self.lcdst.setNumDigits(5)
self.lcdst.display("-----")
lbl2 = QLabel("ARDUINO Mega2560 settings:", self)
lbl2.setStyleSheet("color: blue")
dwelltime_lbl = QLabel("Dwell time [ms]",self)
self.dwelltimeEdit_ard = QLineEdit(str(self.dwell_time_ard),self)
avgpts_lbl = QLabel("Averaging points", self)
self.combo1 = QComboBox(self)
mylist=["1","5","10","50","100","200"]
self.combo1.addItems(mylist)
self.combo1.setCurrentIndex(mylist.index(str(self.avg_pts)))
lbl4 = QLabel("STORAGE filename and location settings:", self)
lbl4.setStyleSheet("color: blue")
filename = QLabel("folder/file",self)
self.filenameEdit = QLineEdit(self.filename_str,self)
lbl6 = QLabel("PLOT options:", self)
lbl6.setStyleSheet("color: blue")
mylist2=["200","400","800","1600","3200","6400"]
schroll_lbl = QLabel("Schroll time after",self)
self.combo2 = QComboBox(self)
self.combo2.addItems(mylist2)
self.combo2.setCurrentIndex(mylist2.index(str(self.schroll_time)))
schroll2_lbl = QLabel("Schroll wavelength after",self)
self.combo3 = QComboBox(self)
self.combo3.addItems(mylist2)
self.combo3.setCurrentIndex(mylist2.index(str(self.schroll_wl)))
##############################################
lbl5 = QLabel("RECORD data and save images:", self)
lbl5.setStyleSheet("color: blue")
#save_str = QLabel("Store settings", self)
#self.saveButton = QPushButton("Save",self)
#self.saveButton.setEnabled(True)
run_str = QLabel("Record lock-in data", self)
self.runButton = QPushButton("Load instruments",self)
#saveplots_str = QLabel("Save plots as png", self)
#self.saveplotsButton = QPushButton("Save plots",self)
#self.saveplotsButton.setEnabled(True)
'''
elapsedtime_str = QLabel('Show voltage vs. time', self)
self.elapsedtimeButton = QPushButton("Plot 2",self)
self.elapsedtimeButton.setEnabled(False)
'''
cancel_str = QLabel("Stop current run", self)
self.stopButton = QPushButton("STOP",self)
self.stopButton.setEnabled(False)
##############################################
# status info which button has been pressed
#self.status_str = QLabel("Edit settings and press SAVE!", self)
#self.status_str.setStyleSheet("color: green")
##############################################
# status info which button has been pressed
self.elapsedtime_str = QLabel("TIME trace for storing plots and data:", self)
self.elapsedtime_str.setStyleSheet("color: blue")
##############################################
self.lcd = QLCDNumber(self)
self.lcd.setStyleSheet("color: red")
self.lcd.setFixedHeight(60)
self.lcd.setSegmentStyle(QLCDNumber.Flat)
self.lcd.setNumDigits(11)
self.lcd.display(self.timestr)
##############################################
# Add all widgets
g1_0 = QGridLayout()
g1_0.addWidget(MyBar,0,0)
g1_0.addWidget(lbl1,1,0)
g1_1 = QGridLayout()
#g1_1.addWidget(cm110port,0,0)
#g1_1.addWidget(self.cm110portEdit,0,1)
g1_3 = QGridLayout()
g1_3.addWidget(intervals_lbl,0,0)
g1_3.addWidget(self.combo4,0,1)
g1_2 = QGridLayout()
g1_2.addWidget(start_lbl,0,0)
g1_2.addWidget(stop_lbl,0,1)
g1_2.addWidget(step_lbl,0,2)
g1_2.addWidget(dwelltime,0,3)
for tal in range(2):
g1_2.addWidget(self.startEdit[tal],1+tal,0)
g1_2.addWidget(self.stopEdit[tal],1+tal,1)
g1_2.addWidget(self.stepEdit[tal],1+tal,2)
g1_2.addWidget(self.dwelltimeEdit[tal],1+tal,3)
v1 = QVBoxLayout()
v1.addLayout(g1_0)
v1.addLayout(g1_1)
v1.addLayout(g1_3)
v1.addLayout(g1_2)
g9_0 = QGridLayout()
g9_0.addWidget(lbl3,0,0)
g9_1 = QGridLayout()
g9_1.addWidget(startst_lbl,0,0)
g9_1.addWidget(stopst_lbl,0,1)
g9_1.addWidget(stepst_lbl,0,2)
g9_1.addWidget(lcdst_lbl,0,3)
g9_1.addWidget(self.startst_Edit,1,0)
g9_1.addWidget(self.stopst_Edit,1,1)
g9_1.addWidget(self.stepst_Edit,1,2)
g9_1.addWidget(self.lcdst,1,3)
v9 = QVBoxLayout()
v9.addLayout(g9_0)
v9.addLayout(g9_1)
g2_0 = QGridLayout()
g2_0.addWidget(lbl2,0,0)
g2_1 = QGridLayout()
#g2_1.addWidget(ardport,0,0)
g2_1.addWidget(dwelltime_lbl,0,0)
g2_1.addWidget(avgpts_lbl,1,0)
#g2_1.addWidget(self.ardportEdit,0,1)
g2_1.addWidget(self.dwelltimeEdit_ard,0,1)
g2_1.addWidget(self.combo1,1,1)
v2 = QVBoxLayout()
v2.addLayout(g2_0)
v2.addLayout(g2_1)
g4_0 = QGridLayout()
g4_0.addWidget(lbl4,0,0)
g4_1 = QGridLayout()
g4_1.addWidget(filename,0,0)
g4_1.addWidget(self.filenameEdit,0,1)
v4 = QVBoxLayout()
v4.addLayout(g4_0)
v4.addLayout(g4_1)
g7_0 = QGridLayout()
g7_0.addWidget(lbl6,0,0)
g7_1 = QGridLayout()
g7_1.addWidget(schroll2_lbl,0,0)
g7_1.addWidget(self.combo3,0,1)
g7_1.addWidget(schroll_lbl,1,0)
g7_1.addWidget(self.combo2,1,1)
v7 = QVBoxLayout()
v7.addLayout(g7_0)
v7.addLayout(g7_1)
g5_0 = QGridLayout()
g5_0.addWidget(lbl5,0,0)
g5_1 = QGridLayout()
#g5_1.addWidget(save_str,0,0)
g5_1.addWidget(run_str,0,0)
#g5_1.addWidget(saveplots_str,2,0)
g5_1.addWidget(cancel_str,1,0)
#g5_1.addWidget(self.saveButton,0,1)
g5_1.addWidget(self.runButton,0,1)
#g5_1.addWidget(self.saveplotsButton,2,1)
g5_1.addWidget(self.stopButton,1,1)
v5 = QVBoxLayout()
v5.addLayout(g5_0)
v5.addLayout(g5_1)
g6_0 = QGridLayout()
g6_0.addWidget(self.elapsedtime_str,0,0)
g6_0.addWidget(self.lcd,1,0)
v6 = QVBoxLayout()
v6.addLayout(g6_0)
# add all groups from v1 to v6 in one vertical group v7
v8 = QVBoxLayout()
v8.addLayout(v1)
v8.addLayout(v9)
v8.addLayout(v2)
v8.addLayout(v4)
v8.addLayout(v7)
v8.addLayout(v5)
v8.addLayout(v6)
# set graph and toolbar to a new vertical group vcan
vcan = QVBoxLayout()
self.pw1 = pg.PlotWidget(name="Plot1") ## giving the plots names allows us to link their axes together
vcan.addWidget(self.pw1)
self.pw2 = pg.PlotWidget(name="Plot2")
vcan.addWidget(self.pw2)
# SET ALL VERTICAL COLUMNS TOGETHER
hbox = QHBoxLayout()
hbox.addLayout(v8,1)
hbox.addLayout(vcan,3.75)
##############################################
# PLOT 1 settings
# create plot and add it to the figure canvas
self.p0 = self.pw1.plotItem
self.curve1=[self.p0.plot()]
# create plot and add it to the figure
self.p0vb = pg.ViewBox()
self.curve5=pg.PlotCurveItem(pen=None)
self.p0vb.addItem(self.curve5)
# connect respective axes to the plot
self.p0.showAxis('right')
self.p0.getAxis('right').setLabel("10-bit Arduino output")
self.p0.scene().addItem(self.p0vb)
self.p0.getAxis('right').linkToView(self.p0vb)
self.p0vb.setXLink(self.p0)
# Use automatic downsampling and clipping to reduce the drawing load
self.pw1.setDownsampling(mode='peak')
self.pw1.setClipToView(True)
# PLOT 2 settings
# create plot and add it to the figure canvas
self.p1 = self.pw2.plotItem
self.curve2=self.p1.plot(pen='r')
self.curve3=self.p1.plot()
# create plot and add it to the figure
self.p2 = pg.ViewBox()
self.curve4=pg.PlotCurveItem(pen='y')
self.curve6=pg.PlotCurveItem(pen='m')
self.p2.addItem(self.curve4)
self.p2.addItem(self.curve6)
# connect respective axes to the plot
self.p1.showAxis('right')
self.p1.getAxis('right').setLabel("Wavelength", units='m', color='yellow')
self.p1.scene().addItem(self.p2)
self.p1.getAxis('right').linkToView(self.p2)
self.p2.setXLink(self.p1)
# Use automatic downsampling and clipping to reduce the drawing load
self.pw2.setDownsampling(mode='peak')
self.pw2.setClipToView(True)
# Initialize and set titles and axis names for both plots
self.clear_vars_graphs()
###############################################################################
self.inst_list = {}
self.colors = itertools.cycle(["r", "b", "g", "y", "m", "c", "w"])
self.threadpool = QThreadPool()
print("Multithreading in Run_COMPexPRO with maximum %d threads" % self.threadpool.maxThreadCount())
# reacts to choises picked in the menu
self.combo1.activated[str].connect(self.onActivated1)
self.combo2.activated[str].connect(self.onActivated2)
self.combo3.activated[str].connect(self.onActivated3)
self.combo4.activated[str].connect(self.onActivated4)
# save all paramter data in the config file
#self.saveButton.clicked.connect(self.save_)
#self.saveButton.clicked.connect(self.set_elapsedtime_text)
# run the main script
self.runButton.clicked.connect(self.set_run)
# cancel the script run
self.stopButton.clicked.connect(self.set_stop)
self.allFields(False)
##############################################
self.timer = QTimer(self)
self.timer.timeout.connect(self.set_disconnect)
self.timer.setSingleShot(True)
##############################################
self.setGeometry(100, 100, 1100, 650)
self.setWindowTitle("Monochromator CM110 Control And Data Acqusition")
w = QWidget()
w.setLayout(hbox)
self.setCentralWidget(w)
self.show()
def instrumentsDialog(self):
self.Inst = Instruments_dialog.Instruments_dialog(self,self.inst_list,self.cwd,self.lcdst)
self.Inst.exec()
if self.inst_list.get("CM110") or self.inst_list.get("Ard") or self.inst_list.get("SR530") or self.inst_list.get("SMC100"):
self.allFields(True)
self.runButton.setText("Scan")
self.timer.start(1000*60*self.minutes)
else:
self.allFields(False)
self.runButton.setText("Load instrument!")
def allFields(self,trueorfalse):
for tal in range(2):
if tal<self.numofintervals:
self.startEdit[tal].setEnabled(trueorfalse)
self.stopEdit[tal].setEnabled(trueorfalse)
self.stepEdit[tal].setEnabled(trueorfalse)
self.dwelltimeEdit[tal].setEnabled(trueorfalse)
self.startst_Edit.setEnabled(trueorfalse)
self.stopst_Edit.setEnabled(trueorfalse)
self.stepst_Edit.setEnabled(trueorfalse)
self.dwelltimeEdit_ard.setEnabled(trueorfalse)
self.combo1.setEnabled(trueorfalse)
self.combo2.setEnabled(trueorfalse)
self.combo3.setEnabled(trueorfalse)
self.combo4.setEnabled(trueorfalse)
self.filenameEdit.setEnabled(trueorfalse)
self.runButton.setEnabled(trueorfalse)
def onActivated1(self, text):
self.avg_pts = str(text)
def onActivated2(self, text):
self.schroll_time=int(text)
def onActivated3(self, text):
self.schroll_wl=int(text)
def onActivated4(self, text):
self.numofintervals = int(text)
for tal in range(2):
if tal<self.numofintervals:
self.startEdit[tal].setEnabled(True)
self.stopEdit[tal].setEnabled(True)
self.stepEdit[tal].setEnabled(True)
self.dwelltimeEdit[tal].setEnabled(True)
else:
self.startEdit[tal].setEnabled(False)
self.stopEdit[tal].setEnabled(False)
self.stepEdit[tal].setEnabled(False)
self.dwelltimeEdit[tal].setEnabled(False)
# Check input if a number, ie. digits or fractions such as 3.141
# Source: http://www.pythoncentral.io/how-to-check-if-a-string-is-a-number-in-python-including-unicode/
def is_number(self,s):
try:
float(s)
return True
except ValueError:
pass
try:
import unicodedata
unicodedata.numeric(s)
return True
except (TypeError, ValueError):
pass
return False
def create_file(self, mystr):
head, ext = os.path.splitext(mystr)
#print("head: ",head)
#print("ext: ",ext)
#print("filename: ",self.filenameEdit.text())
totalpath = ''.join([self.cwd,os.sep,head,'_',self.timestr,ext])
my_dir = os.path.dirname(totalpath)
if not os.path.isdir(my_dir):
QMessageBox.warning(self, "Message","".join(["Folder(s) named ",my_dir," will be created!"]))
try:
os.makedirs(my_dir, exist_ok=True)
except Exception as e:
QMessageBox.critical(self, "Message","".join(["Folder named ",head," not valid!\n\n",str(e)]))
return ""
return totalpath
def set_run(self):
# MINIMUM REQUIREMENTS for proper run
if not self.inst_list.get("CM110") and not self.inst_list.get("SR530") and not self.inst_list.get("Ard") and not self.inst_list.get("SMC100"):
QMessageBox.critical(self, 'Message',"No instruments connected. At least 1 instrument is required.")
return
########################################################
if self.inst_list.get("SMC100"):
val = self.inst_list.get("SMC100").return_ts(1)
if val[-2:] not in ["32","33","34","35"]:
# RESET the stepper if active
self.Reset_dialog = Reset_dialog.Reset_dialog(self, self.inst_list)
self.Reset_dialog.exec()
# Checkif the stepper is ready
val = self.inst_list.get("SMC100").return_ts(1)
if val[-2:] not in ["32","33","34","35"]:
return
########################################################
try:
for i in range(self.numofintervals):
arr = numpy.arange(int(self.startEdit[i].text()),int(self.stopEdit[i].text()),int(self.stepEdit[i].text()))
if len(arr)==0:
QMessageBox.warning(self, 'Message',''.join(["Empty array returned. Check wavelength start and stop values!"]))
return
except Exception as e:
QMessageBox.warning(self, 'Message',''.join(["All wavelength scan parameters should be integers!\n\n",str(e)]))
return
try:
arr = numpy.arange(float(self.startst_Edit.text()),float(self.stopst_Edit.text()),float(self.stepst_Edit.text()))
if len(arr)==0:
QMessageBox.warning(self, 'Message',''.join(["Empty array returned. Check Newport start and stop values!"]))
return
except Exception as e:
QMessageBox.warning(self, 'Message',''.join(["All stepper position parameters should be real numbers!\n\n",str(e)]))
return
for i in range(self.numofintervals):
if not self.is_number(self.dwelltimeEdit[i].text()):
QMessageBox.warning(self, 'Message',"Dwell time scan parameter is not a real number!")
return
# For SAVING data
if "\\" in self.filenameEdit.text():
self.filenameEdit.setText(self.filenameEdit.text().replace("\\",os.sep))
if "/" in self.filenameEdit.text():
self.filenameEdit.setText(self.filenameEdit.text().replace("/",os.sep))
if not self.filenameEdit.text():
self.filenameEdit.setText(''.join(["data",os.sep,"data"]))
if not os.sep in self.filenameEdit.text():
self.filenameEdit.setText(''.join(["data", os.sep, self.filenameEdit.text()]))
# Initial read of the config file
start_sc = [int(self.startEdit[i].text()) for i in range(self.numofintervals)]
stop_sc = [int(self.stopEdit[i].text()) for i in range(self.numofintervals)]
step_sc = [int(self.stepEdit[i].text()) for i in range(self.numofintervals)]
start_st = float(self.startst_Edit.text())
stop_st = float(self.stopst_Edit.text())
step_st = float(self.stepst_Edit.text())
dwelltime = [float(self.dwelltimeEdit[ii].text()) for ii in range(self.numofintervals)]
dwell_ard = float(self.dwelltimeEdit_ard.text())
file_txt = self.create_file(''.join([self.filenameEdit.text(),".txt"]))
file_hdf5 = self.create_file(''.join([self.filenameEdit.text(),".hdf5"]))
for start,stop,step,dwell in zip(start_sc,stop_sc,step_sc,dwelltime):
if start<0 or start>9000:
QMessageBox.warning(self, 'Message',"Minimum start wavelength is 0 nm and maximum 9000 nm!")
return
if stop<0 or stop>9000:
QMessageBox.warning(self, 'Message',"Minimum stop wavelength is 0 nm and maximum 9000 nm!")
return
if step<0 or step>127:
QMessageBox.warning(self, 'Message',"Minimum step is 0 units and maximum 127 units!")
return
if dwell<3*dwell_ard/1000 or dwell>100:
QMessageBox.warning(self, 'Message',"Monochromator dwell time is minimum 3 times Arduino dwell time and maximum 100 s!")
return
if dwell_ard<10 or dwell_ard>dwell*1000:
QMessageBox.warning(self, 'Message',"Arduino dwell time is minimum 10 ms and maximum CM110 dwell time!")
return
self.clear_vars_graphs()
self.allFields(False)
self.conMode.setEnabled(False)
self.runButton.setEnabled(False)
self.stopButton.setEnabled(True)
self.stopButton.setText("STOP")
self.runButton.setText("Scanning...")
self.timer.stop()
self.get_thread=Run_CM110_Thread(start_sc,stop_sc,step_sc,dwelltime,dwell_ard,self.avg_pts,file_txt,file_hdf5,self.timestr,self.analogref,self.inst_list,start_st,stop_st,step_st)
self.get_thread.signals.make_update1.connect(self.make_update1)
self.get_thread.signals.make_update2.connect(self.make_update2)
self.get_thread.signals.make_update3.connect(self.make_update3)
self.get_thread.signals.make_update4.connect(self.make_update4)
self.get_thread.signals.finished.connect(self.finished)
# Execute
self.threadpool.start(self.get_thread)
def make_update1(self,set_position,real_positions,endpoint_data,endpoints_times,raw_data):
self.set_wl.extend([ 1e-9*set_position ])
self.real_wl.extend([ 1e-9*real_positions ])
self.all_volts.extend([ endpoint_data ])
self.all_times.extend([ endpoints_times ])
self.all_raw.extend([ raw_data ])
if len(self.set_wl)>self.schroll_wl:
self.plot_volts[:-1] = self.plot_volts[1:] # shift data in the array one sample left
self.plot_volts[-1] = endpoint_data
self.plot_wl[:-1] = self.plot_wl[1:] # shift data in the array one sample left
self.plot_wl[-1] = 1e-9*set_position
self.plot_set_wl[:-1] = self.plot_set_wl[1:] # shift data in the array one sample left
self.plot_set_wl[-1] = 1e-9*set_position
self.plot_real_wl[:-1] = self.plot_real_wl[1:] # shift data in the array one sample left
self.plot_real_wl[-1] = 1e-9*real_positions
self.plot_raw[:-1] = self.plot_raw[1:] # shift data in the array one sample left
self.plot_raw[-1] = raw_data
else:
self.plot_volts.extend([ float(endpoint_data) ])
self.plot_wl.extend([ 1e-9*set_position ])
self.plot_set_wl.extend([ 1e-9*set_position ])
self.plot_real_wl.extend([ 1e-9*real_positions ])
self.plot_raw.extend([ int(raw_data) ])
self.curve1[-1].setData(self.plot_wl, self.plot_volts)
self.curve5.setData(self.plot_set_wl, self.plot_raw)
## Handle view resizing
def updateViews():
## view has resized; update auxiliary views to match
self.p0vb.setGeometry(self.p0.vb.sceneBoundingRect())
## need to re-update linked axes since this was called
## incorrectly while views had different shapes.
## (probably this should be handled in ViewBox.resizeEvent)
self.p0vb.linkedViewChanged(self.p0.vb, self.p0vb.XAxis)
updateViews()
self.p0.vb.sigResized.connect(updateViews)
###########################################################
# Update curve3 in different plot
if len(self.set_wl_tr)>=self.schroll_time:
local_times=self.all_times[-self.counter:]
local_volts=self.all_volts[-self.counter:]
self.curve3.setData(local_times, local_volts)
else:
self.curve3.setData(self.all_times, self.all_volts)
def make_update2(self,set_position,real_positions,all_data,timelist):
self.set_wl_tr.extend([ 1e-9*set_position ])
self.real_wl_tr.extend([ 1e-9*real_positions ])
#self.all_volts_tr.extend([ float(all_data) ])
#self.all_time_tr.extend([ float(timelist) ])
if len(self.set_wl_tr)==self.schroll_time:
self.counter=len(self.set_wl)
if len(self.set_wl_tr)>self.schroll_time:
self.plot_time_tr[:-1] = self.plot_time_tr[1:] # shift data in the array one sample left
self.plot_time_tr[-1] = timelist
self.plot_volts_tr[:-1] = self.plot_volts_tr[1:] # shift data in the array one sample left
self.plot_volts_tr[-1] = all_data
self.plot_set_wl_tr[:-1] = self.plot_set_wl_tr[1:] # shift data in the array one sample left
self.plot_set_wl_tr[-1] = 1e-9*set_position
self.plot_real_wl_tr[:-1] = self.plot_real_wl_tr[1:] # shift data in the array one sample left
self.plot_real_wl_tr[-1] = 1e-9*real_positions
else:
self.plot_set_wl_tr.extend([ 1e-9*set_position ])
self.plot_real_wl_tr.extend([ 1e-9*real_positions ])
self.plot_volts_tr.extend([ all_data ])
self.plot_time_tr.extend([ timelist ])
## Handle view resizing
def updateViews():
## view has resized; update auxiliary views to match
self.p2.setGeometry(self.p1.vb.sceneBoundingRect())
#p3.setGeometry(p1.vb.sceneBoundingRect())
## need to re-update linked axes since this was called
## incorrectly while views had different shapes.
## (probably this should be handled in ViewBox.resizeEvent)
self.p2.linkedViewChanged(self.p1.vb, self.p2.XAxis)
#p3.linkedViewChanged(p1.vb, p3.XAxis)
updateViews()
self.p1.vb.sigResized.connect(updateViews)
self.curve2.setData(self.plot_time_tr, self.plot_volts_tr)
self.curve4.setData(self.plot_time_tr, self.plot_set_wl_tr)
self.curve6.setData(self.plot_time_tr, self.plot_real_wl_tr)
def make_update3(self):
self.plot_wl = []
self.plot_volts = []
mycol=next(self.colors)
self.curve1.extend( [self.p0.plot(pen=pg.mkPen(mycol,width=1), symbolPen=mycol, symbolBrush=mycol, symbolSize=3)] )
def make_update4(self,val):
self.lcdst.display(str(val)[:5])
def set_disconnect(self):
##########################################
if self.inst_list.get("CM110"):
if self.inst_list.get("CM110").is_open():
self.inst_list.get("CM110").close()
self.inst_list.pop("CM110", None)
##########################################
if self.inst_list.get("Ard"):
if self.inst_list.get("Ard").is_open():
self.inst_list.get("Ard").close()
self.inst_list.pop("Ard", None)
##########################################
if self.inst_list.get("SR530"):
if self.inst_list.get("SR530").is_open():
self.inst_list.get("SR530").close()
self.inst_list.pop("SR530", None)
##########################################
if self.inst_list.get("SMC100"):
if self.inst_list.get("SMC100").is_open():
self.inst_list.get("SMC100").close()
self.inst_list.pop("SMC100", None)
##########################################
print("All com ports DISCONNECTED")
self.allFields(False)
self.conMode.setEnabled(True)
self.runButton.setText("Load instrument!")
self.runButton.setEnabled(False)
def set_stop(self):
self.stopButton.setEnabled(False)
self.stopButton.setText("Stopped")
if hasattr(self, "get_thread"):
self.get_thread.abort()
self.stop_pressed = True
def clear_vars_graphs(self):
# PLOT 1 initial canvas settings
self.set_wl=[]
self.real_wl=[]
self.all_volts=[]
self.all_times=[]
self.all_raw=[]
self.plot_set_wl=[]
self.plot_real_wl=[]
self.plot_raw=[]
self.plot_volts=[]
self.plot_wl=[]
for c in self.curve1:
c.setData([],[])
self.curve5.setData(self.plot_set_wl, self.plot_raw)
self.curve3.setData([], [])
self.pw1.enableAutoRange()
# Labels and titels are placed here since they change dynamically
self.pw1.setTitle(''.join(["CM110 scan as function of wavelength"]))
self.pw1.setLabel('left', "Voltage", units='V')
self.pw1.setLabel('bottom', "Wavelength", units='m')
# PLOT 2 initial canvas settings
self.set_wl_tr=[]
self.real_wl_tr=[]
self.plot_set_wl_tr=[]
self.plot_real_wl_tr=[]
self.plot_volts_tr=[]
self.plot_time_tr=[]
self.curve2.setData(self.plot_time_tr, self.plot_volts_tr)
self.curve4.setData(self.plot_time_tr, self.plot_set_wl_tr)
self.curve6.setData(self.plot_time_tr, self.plot_real_wl_tr)
self.pw2.enableAutoRange()
# Labels and titels are placed here since they change dynamically
self.p1.setTitle(''.join(["CM110 scan as function of time"]))
self.p1.setLabel('left', "Voltage", units='V', color='red')
self.p1.setLabel('bottom', "Elapsed time", units='s')
self.stop_pressed = False
def load_(self):
# Initial read of the config file
self.config = configparser.ConfigParser()
try:
self.config.read(''.join([self.cwd,os.sep,"config.ini"]))
self.last_used_scan = self.config.get("LastScan","last_used_scan")
self.numofintervals = int(self.config.get(self.last_used_scan,"numofintervals"))
self.start_ = [int(i) for i in self.config.get(self.last_used_scan,"start").strip().split(',')]
self.stop = [int(i) for i in self.config.get(self.last_used_scan,"stop").strip().split(',')]
self.step = [int(i) for i in self.config.get(self.last_used_scan,"step").strip().split(',')]
self.startst = float(self.config.get(self.last_used_scan,"startst"))
self.stopst = float(self.config.get(self.last_used_scan,"stopst"))
self.stepst = float(self.config.get(self.last_used_scan,"stepst"))
self.dwell_time = [int(i) for i in self.config.get(self.last_used_scan,"wait_time").strip().split(',')]
self.dwell_time_ard = int(self.config.get(self.last_used_scan,"wait_time_ard"))
self.avg_pts = int(self.config.get(self.last_used_scan,"avg_pts"))
self.schroll_time = int(self.config.get(self.last_used_scan,"schroll_time"))
self.schroll_wl = int(self.config.get(self.last_used_scan,"schroll_wl"))
self.filename_str = self.config.get(self.last_used_scan,"filename")
self.timestr = self.config.get(self.last_used_scan,"timestr")
self.analogref = float(self.config.get(self.last_used_scan,"analogref"))
self.minutes = float(self.config.get(self.last_used_scan,"timer"))
except configparser.NoOptionError as nov:
QMessageBox.critical(self, "Message","".join(["Main FAULT while reading the config.ini file\n",str(nov)]))
raise
def save_(self):
self.timestr=time.strftime("%y%m%d-%H%M")
self.lcd.display(self.timestr)
self.config.set("LastScan","last_used_scan", self.last_used_scan )
self.config.set(self.last_used_scan,"numofintervals",str(self.numofintervals) )
self.config.set(self.last_used_scan,"start",','.join([str(self.startEdit[ii].text()) for ii in range(self.numofintervals)]) )
self.config.set(self.last_used_scan,"stop",','.join([str(self.stopEdit[ii].text()) for ii in range(self.numofintervals)]) )
self.config.set(self.last_used_scan,"step",','.join([str(self.stepEdit[ii].text()) for ii in range(self.numofintervals)]) )
self.config.set(self.last_used_scan,"wait_time",','.join([str(self.dwelltimeEdit[ii].text()) for ii in range(self.numofintervals)]) )
self.config.set(self.last_used_scan,"startst", str(self.startst_Edit.text()) )
self.config.set(self.last_used_scan,"stopst", str(self.stopst_Edit.text()) )
self.config.set(self.last_used_scan,"stepst", str(self.stepst_Edit.text()) )
self.config.set(self.last_used_scan,"wait_time_ard", str(self.dwelltimeEdit_ard.text()) )
self.config.set(self.last_used_scan,"avg_pts", str(self.avg_pts) )
self.config.set(self.last_used_scan,"schroll_time", str(self.schroll_time) )
self.config.set(self.last_used_scan,"schroll_wl", str(self.schroll_wl) )
self.config.set(self.last_used_scan,"filename", self.filenameEdit.text() )
self.config.set(self.last_used_scan,"timestr", str(self.timestr) )
self.config.set(self.last_used_scan,"analogref", str(self.analogref) )
with open(''.join([self.cwd,os.sep,"config.ini"]), "w") as configfile:
self.config.write(configfile)
def finished(self):
if not self.stop_pressed:
self.stopButton.setEnabled(False)
if hasattr(self, "get_thread"):
self.get_thread.abort()
self.stop_pressed = True
self.allFields(True)
self.conMode.setEnabled(True)
if self.inst_list.get("CM110") or self.inst_list.get("SR530") or self.inst_list.get("Ard") or self.inst_list.get("SMC100"):
self.allFields(True)
self.runButton.setText("Scan")
else:
self.allFields(False)
self.runButton.setText("Load instrument!")
self.timer.start(1000*60*self.minutes)
def closeEvent(self, event):
reply = QMessageBox.question(self, 'Message', "Quit now? Any changes that are not saved will stay unsaved!", QMessageBox.Yes | QMessageBox.No, QMessageBox.No)
if reply == QMessageBox.Yes:
if self.inst_list.get("CM110"):
if not hasattr(self, "get_thread"):
if self.inst_list.get("CM110").is_open():
self.inst_list.get("CM110").close()
else:
if not self.stop_pressed:
QMessageBox.warning(self, "Message", "Scan in progress. Stop the scan then quit!")
event.ignore()
return
else:
if self.inst_list.get("CM110").is_open():
self.inst_list.get("CM110").close()
if self.inst_list.get("SR530"):
if not hasattr(self, "get_thread"):
if self.inst_list.get("SR530").is_open():
self.inst_list.get("SR530").close()
else:
if not self.stop_pressed:
QMessageBox.warning(self, "Message", "Scan in progress. Stop the scan then quit!")
event.ignore()
return
else:
if self.inst_list.get("SR530").is_open():
self.inst_list.get("SR530").close()
if self.inst_list.get("SMC100"):
if not hasattr(self, "get_thread"):
if self.inst_list.get("SMC100").is_open():
self.inst_list.get("SMC100").close()
else:
if not self.stop_pressed:
QMessageBox.warning(self, "Message", "Scan in progress. Stop the scan then quit!")
event.ignore()
return
else:
if self.inst_list.get("SMC100").is_open():
self.inst_list.get("SMC100").close()
if self.inst_list.get("Ard"):
if not hasattr(self, "get_thread"):
if self.inst_list.get("Ard").is_open():
self.inst_list.get("Ard").close()
else:
if not self.stop_pressed:
QMessageBox.warning(self, "Message", "Scan in progress. Stop the scan then quit!")
event.ignore()
return
else:
if self.inst_list.get("Ard").is_open():
self.inst_list.get("Ard").close()
if hasattr(self, "timer"):
if self.timer.isActive():
self.timer.stop()
event.accept()
else:
event.ignore()
##########################################
def save_plots(self):
# For SAVING data
if "\\" in self.filenameEdit.text():
self.filenameEdit.setText(self.filenameEdit.text().replace("\\",os.sep))
if "/" in self.filenameEdit.text():
self.filenameEdit.setText(self.filenameEdit.text().replace("/",os.sep))
if not self.filenameEdit.text():
self.filenameEdit.setText(''.join(["data",os.sep,"data"]))
if not os.sep in self.filenameEdit.text():
self.filenameEdit.setText(''.join(["data", os.sep, self.filenameEdit.text()]))
save_plot1 = self.create_file(''.join([self.filenameEdit.text(),".png"]))
save_plot2 = self.create_file(''.join([self.filenameEdit.text(),"_elapsedtime",".png"]))
# create an exporter instance, as an argument give it
# the item you wish to export
exporter = pg.exporters.ImageExporter(self.pw1.plotItem)
exporter.params.param('width').setValue(1920, blockSignal=exporter.widthChanged)
exporter.params.param('height').setValue(1080, blockSignal=exporter.heightChanged)
# set export parameters if needed
#exporter.parameters()['width'] = 100 # (note this also affects height parameter)
# save to file
exporter.export(save_plot1)
exporter = pg.exporters.ImageExporter(self.pw2.plotItem)
exporter.params.param('width').setValue(1920, blockSignal=exporter.widthChanged)
exporter.params.param('height').setValue(1080, blockSignal=exporter.heightChanged)
# set export parameters if needed
#exporter.parameters()['width'] = 100 # (note this also affects height parameter)
# save to file
exporter.export(save_plot2)
class Timer(QDialog):
timeout = pyqtSignal()
def __init__(self, parent=None):
super().__init__(parent)
self.time = 0
self.timeInterval = 1000 #默认秒
self.timerUp = QTimer()
self.timerUp.setInterval(self.timeInterval)
self.timerUp.timeout.connect(self.updateUptime)
self.timerDown = QTimer()
self.timerDown.setInterval(self.timeInterval)
self.timerDown.timeout.connect(self.updateDowntime)
self.initUi()
self.buttonStart.clicked.connect(self.timerUp.start)
self.buttonStop.clicked.connect(self.timerUp.stop)
self.buttonReset.clicked.connect(self.reset)
self.buttonCountDown.clicked.connect(self.timerDown.start)
self.buttonStopAlarm.clicked.connect(self.timerDown.stop)
self.timeSpinBox.valueChanged.connect(self.settimer)
def initUi(self):
mainLayout = QVBoxLayout()
self.setLayout(mainLayout)
self.groupBox = QGroupBox("unit")
self.radioButton1 = QRadioButton("s")
self.radioButton1.toggled.connect(self.setUnit)
self.radioButton2 = QRadioButton("0.1s")
self.radioButton2.toggled.connect(self.setUnit)
self.radioButton3 = QRadioButton("0.01s")
self.radioButton3.toggled.connect(self.setUnit)
self.radioButton4 = QRadioButton("1ms")
self.radioButton4.toggled.connect(self.setUnit)
self.radioButton1.setChecked(True)
self.unitLayout = QHBoxLayout()
self.unitLayout.addWidget(self.radioButton1)
self.unitLayout.addWidget(self.radioButton2)
self.unitLayout.addWidget(self.radioButton3)
self.unitLayout.addWidget(self.radioButton4)
self.groupBox.setLayout(self.unitLayout)
mainLayout.addWidget(self.groupBox)
self.buttonStart = QPushButton(self.tr("start"))
mainLayout.addWidget(self.buttonStart)
self.buttonStop = QPushButton(self.tr("stop"))
mainLayout.addWidget(self.buttonStop)
self.timeViewer = QLCDNumber()
self.timeViewer.setFixedHeight(45)
mainLayout.addWidget(self.timeViewer)
self.timeForHuman = QLabel()
mainLayout.addWidget(self.timeForHuman)
self.buttonReset = QPushButton(self.tr("reset"))
mainLayout.addWidget(self.buttonReset)
self.timeSpinBox = QSpinBox()
self.timeSpinBox.setRange(0, 10000)
mainLayout.addWidget(self.timeSpinBox)
self.buttonCountDown = QPushButton(self.tr("countdown"))
mainLayout.addWidget(self.buttonCountDown)
self.buttonStopAlarm = QPushButton(self.tr("stopalarm"))
mainLayout.addWidget(self.buttonStopAlarm)
def setUnit(self):
if self.radioButton1.isChecked():
self.timeInterval = 1000
elif self.radioButton2.isChecked():
self.timeInterval = 100
elif self.radioButton3.isChecked():
self.timeInterval = 10
elif self.radioButton1.isChecked():
self.timeInterval = 1
self.timerUp.setInterval(self.timeInterval)
self.timerDown.setInterval(self.timeInterval)
def updateUptime(self):
self.time += 1
self.settimer(self.time)
print(self.time)
def updateDowntime(self):
self.time = self.time - 1
self.settimer(self.time)
print(self.time)
if self.time <= 0:
self.timeout.emit()
def settimer(self, int):
self.time = int
self.timeViewer.display(self.time)
if self.timeInterval == 1000:
self.timeForHuman.setText(
time.strftime('%H hour %M minute %S second',
time.gmtime(self.time)))
elif self.timeInterval == 100:
self.timeForHuman.setText(
time.strftime('%H hour %M minute %S second',
time.gmtime(self.time / 10)))
elif self.timeInterval == 10:
self.timeForHuman.setText(
time.strftime('%H hour %M minute %S second',
time.gmtime(self.time / 100)))
elif self.timeInterval == 1:
self.timeForHuman.setText(
time.strftime('%H hour %M minute %S second',
time.gmtime(self.time / 1000)))
def reset(self):
self.time = 0
self.settimer(self.time)
class Window(QWidget):
def __init__(self, parent=None):
super(Window, self).__init__(parent)
self.setGeometry(100, 100, 800, 600) # pos pos width height
self.PortLabel = QLabel("Port:")
self.LabelProd = QLabel("Production:")
self.LabelLoad = QLabel("Load:")
port_selectBox = QComboBox(self)
ports = self.available_serial_ports()
for port in ports:
port_selectBox.addItem(port)
self.buttonConnect = QPushButton('Connect')
# self.button.clicked.connect(self.plot)
self.b1 = QCheckBox("SerialRead")
self.b1.setChecked(True)
# self.b1.stateChanged.connect(self.myThread.btnstate(self.b1))
self.b2 = QCheckBox("activateLog")
self.b2.setChecked(True)
# self.b2.stateChanged.connect(lambda:self.btnstate(self.b2))
self.figure_bar = plt.figure()
self.figure_timeseries = plt.figure()
self.canvas_bar = FigureCanvas(self.figure_bar)
self.canvas_timeseries = FigureCanvas(self.figure_timeseries)
# this is the Navigation widget
# it takes the Canvas widget and a parent
# self.toolbar = NavigationToolbar(self.canvas, self)
# set the layout
# self.b1.stateChanged.connect(self.SerialRead(self,b1))
self.b1.stateChanged.connect(lambda: self.SerialRead(self.b1))
self.b2.stateChanged.connect(self.SerialLog)
self.lcdProd = QLCDNumber(self)
self.lcdLoad = QLCDNumber(self)
self.lcdProd.setFixedHeight(100)
self.lcdLoad.setFixedHeight(100)
# --------------------------- Layout
col1 = QVBoxLayout()
col1.addWidget(self.PortLabel)
col1.addWidget(port_selectBox)
col1.addWidget(self.buttonConnect)
col1.addWidget(self.b1)
col1.addWidget(self.b2)
col2 = QVBoxLayout()
col2.addWidget(self.LabelProd)
col2.addWidget(self.lcdProd)
col2.addWidget(self.LabelLoad)
col2.addWidget(self.lcdLoad)
toprow = QHBoxLayout()
toprow.addLayout(col1)
toprow.addLayout(col2)
toprow.addWidget(self.canvas_bar)
layout = QVBoxLayout()
layout.addLayout(toprow)
layout.addWidget(self.canvas_timeseries)
# layout.addWidget(self.toolbar)
# layout.addWidget(self.button)
self.setLayout(layout)
# ---------------------------------------------------
self.wt = WorkerThread() # This is the thread object
self.wt.start()
# Connect the signal from the thread to the slot_method
self.wt.measurements_signals.connect(
self.slot_method) ### 3) connect to the slot
app.aboutToQuit.connect(
self.wt.stop) # to stop the thread when closing the GUI
timespan = 600
load = [0] * timespan
production = [550] * timespan
pdc = [0] * timespan
def slot_method(self, p, l):
print("p=", p)
print("l=", l)
self.lcdProd.display(p)
self.lcdLoad.display(l)
self.update_chart_timeseries(p, l)
self.update_chart_bar(p, l)
def SerialRead(self, b):
enable = b.isChecked()
print("enable=" + str(enable))
# self.myThread.start()
def SerialLog(self, b2):
print("b2")
def threadDone(self):
print("Done")
# def update_chart(self, produzione, carico):
# load.pop(0)
# load.append(carico)
# production.pop(0)
# production.append(produzione)
#
# self.figure.clear() #questo è importante
# plt.plot(production, color="b")
# plt.plot(load, color="r")
# #plt.set_ylim([0,max(load, production)])
# plt.ylim(ymin=0)
# plt.legend(['PV', 'Load'], loc='upper left')
# self.canvas.draw()
def update_chart_bar(self, produzione, carico): # bar
objects = ('Carico', 'Produzione', 'Immissione')
y_pos = np.arange(len(objects))
immissione = produzione - carico
performance = [carico, produzione, immissione]
self.figure_bar.clear()
plt.figure(num=self.figure_bar.number) # aggiunta da massimo maggi :)
plt.bar(y_pos, performance, align='center', alpha=0.5)
plt.xticks(y_pos, objects)
plt.ylabel('Power [W]')
plt.title('Power usage') # is printing this in the wrong canvas
self.canvas_bar.draw()
def update_chart_timeseries(self, produzione, carico): # time series
load.pop(0)
load.append(carico)
production.pop(0)
production.append(produzione)
self.figure_timeseries.clear() # questo è importante
plt.figure(
num=self.figure_timeseries.number) # aggiunta da massimo maggi :)
plt.plot(production, color="b")
plt.plot(load, color="r")
# plt.set_ylim([0,max(load, production)])
plt.ylim(ymin=0)
plt.legend(['PV', 'Load'], loc='upper left')
self.canvas_timeseries.draw()
def available_serial_ports(self):
""" Lists serial port names
:raises EnvironmentError:
On unsupported or unknown platforms
:returns:
A list of the serial ports available on the system
"""
if sys.platform.startswith('win'):
ports = ['COM%s' % (i + 1) for i in range(256)]
elif sys.platform.startswith('linux') or sys.platform.startswith(
'cygwin'):
# this excludes your current terminal "/dev/tty"
ports = glob.glob('/dev/tty[A-Za-z]*')
elif sys.platform.startswith('darwin'):
ports = glob.glob('/dev/tty.*')
else:
raise EnvironmentError('Unsupported platform')
result = []
for port in ports:
try:
s = serial.Serial(port)
s.close()
result.append(port)
except (OSError, serial.SerialException):
pass
return result
class GUV_TEST_dialog(QDialog):
def __init__(self, parent):
super().__init__(parent)
# Initial read of the config file
self.config = configparser.ConfigParser()
try:
self.config.read('config.ini')
self.last_used_scan = self.config.get('LastScan', 'last_used_scan')
#self.log_guv=self.bool_(self.config.get(self.last_used_scan,'log_guv'))
self.schroll_pts = int(
self.config.get(self.last_used_scan, 'schroll'))
self.log_guv_str = self.config.get(self.last_used_scan,
'log_guv').strip().split(',')[0]
self.log_guv_check = self.bool_(
self.config.get(self.last_used_scan,
'log_guv').strip().split(',')[1])
self.guvip = self.config.get("Instruments",
'guvport').strip().split(',')[0]
self.guvport = self.config.get("Instruments",
'guvport').strip().split(',')[1]
self.guvtype_str = self.config.get("Instruments", 'guvtype')
except configparser.NoOptionError as e:
QMessageBox.critical(
self, 'Message', ''.join(
["Main FAULT while reading the config.ini file\n",
str(e)]))
raise
self.setupUi()
def bool_(self, txt):
if txt == "True":
return True
elif txt == "False":
return False
def setupUi(self):
ipport = QLabel("TCP/IP port", self)
self.ipportEdit = QLineEdit(self.guvip, self)
tcpport = QLabel("TCP port", self)
self.tcpportEdit = QLineEdit(self.guvport, self)
guvtype_lbl = QLabel("GUV type", self)
self.guvtype_cb = QComboBox(self)
mylist = ["GUV-541", "GUV-2511", "GUV-3511"]
self.guvtype_cb.addItems(mylist)
self.guvtype_cb.setCurrentIndex(mylist.index(self.guvtype_str))
##############################################
self.runstopButton = QPushButton("START", self)
self.clearButton = QPushButton("Clear", self)
##############################################
schroll_lbl = QLabel("Schroll elapsed time ", self)
self.combo0 = QComboBox(self)
mylist0 = ["100", "200", "400", "600", "800", "1000", "1500", "2000"]
self.combo0.addItems(mylist0)
self.combo0.setCurrentIndex(mylist0.index(str(self.schroll_pts)))
##############################################
self.cb_logdata = QCheckBox('Log data to file', self)
self.cb_logdata.toggle()
self.cb_logdata.setChecked(self.log_guv_check)
#self.cb_logdata.setLayoutDirection(Qt.RightToLeft)
self.file_edit = QLineEdit(self.log_guv_str, self)
self.file_edit.setStyleSheet("color: blue")
if self.cb_logdata.isChecked():
self.file_edit.setEnabled(True)
else:
self.file_edit.setEnabled(False)
self.lcd = QLCDNumber(self)
self.lcd.setStyleSheet("color: red")
self.lcd.setFixedWidth(170)
self.lcd.setFixedHeight(35)
self.lcd.setSegmentStyle(QLCDNumber.Flat)
self.lcd.setNumDigits(11)
self.time_str = time.strftime("%y%m%d-%H%M")
self.lcd.display(self.time_str)
##############################################
g0_1 = QGridLayout()
g0_1.addWidget(ipport, 0, 0)
g0_1.addWidget(self.ipportEdit, 0, 1)
g0_1.addWidget(tcpport, 0, 2)
g0_1.addWidget(self.tcpportEdit, 0, 3)
g0_1.addWidget(guvtype_lbl, 0, 4)
g0_1.addWidget(self.guvtype_cb, 0, 5)
g0_2 = QGridLayout()
g0_2.addWidget(schroll_lbl, 0, 0)
g0_2.addWidget(self.combo0, 0, 1)
g0_2.addWidget(self.runstopButton, 0, 2)
g0_2.addWidget(self.clearButton, 0, 3)
g0_2.addWidget(self.cb_logdata, 1, 0)
g0_2.addWidget(self.lcd, 1, 1)
g0_4 = QVBoxLayout()
g0_4.addLayout(g0_1)
g0_4.addLayout(g0_2)
g0_4.addWidget(self.file_edit)
##############################################
# set graph and toolbar to a new vertical group vcan
self.pw1 = pg.PlotWidget()
self.pw1.setFixedWidth(600)
##############################################
# create table
self.tableWidget = self.createTable()
##############################################
# SET ALL VERTICAL COLUMNS TOGETHER
vbox = QVBoxLayout()
vbox.addLayout(g0_4)
vbox.addWidget(self.pw1)
hbox = QVBoxLayout()
hbox.addLayout(vbox)
hbox.addWidget(self.tableWidget)
self.threadpool = QThreadPool()
print("Multithreading in the GUV dialog with maximum %d threads" %
self.threadpool.maxThreadCount())
self.isRunning = False
self.setLayout(hbox)
self.setWindowTitle("Test GUV")
# PLOT 2 settings
# create plot and add it to the figure canvas
self.p1 = self.pw1.plotItem
self.curves = []
colors = itertools.cycle(["r", "b", "g", "y", "m", "c", "w"])
for i in range(20):
mycol = next(colors)
self.curves.append(
self.p1.plot(pen=pg.mkPen(color=mycol),
symbol='s',
symbolPen=mycol,
symbolBrush=mycol,
symbolSize=4))
# create plot and add it to the figure
self.p0_1 = pg.ViewBox()
self.curve2 = pg.PlotCurveItem(pen='r')
self.p0_1.addItem(self.curve2)
# connect respective axes to the plot
#self.p1.showAxis('left')
self.p1.getAxis('left').setLabel("Power density",
units="",
color='yellow')
self.p1.showAxis('right')
self.p1.getAxis('right').setLabel("Arb unit", units="", color='red')
self.p1.scene().addItem(self.p0_1)
self.p1.getAxis('right').linkToView(self.p0_1)
self.p0_1.setXLink(self.p1)
self.p1.getAxis('bottom').setLabel("Time passed",
units="s",
color='yellow')
# Use automatic downsampling and clipping to reduce the drawing load
self.pw1.setDownsampling(mode='peak')
self.pw1.setClipToView(True)
# Initialize and set titles and axis names for both plots
self.clear_vars_graphs()
self.combo0.activated[str].connect(self.onActivated0)
self.guvtype_cb.activated[str].connect(self.onActivated1)
self.cb_logdata.toggled.connect(self.logdata)
# run or cancel the main script
self.runstopButton.clicked.connect(self.runstop)
self.clearButton.clicked.connect(self.set_clear)
self.clearButton.setEnabled(False)
def logdata(self):
if self.cb_logdata.isChecked():
self.time_str = time.strftime("%y%m%d-%H%M")
head, tail = os.path.split(str(self.file_edit.text()))
self.log_guv_str = ''.join(
[head, '/log_', self.guvtype_str, '_', self.time_str])
self.lcd.display(self.time_str)
self.file_edit.setText(self.log_guv_str)
self.file_edit.setEnabled(True)
else:
self.file_edit.setEnabled(False)
def onActivated0(self, text):
old_st = self.schroll_pts
self.schroll_pts = int(str(text))
if old_st > self.schroll_pts:
self.set_clear()
def onActivated1(self, text):
old_guvtype = self.guvtype_str
self.guvtype_str = str(text)
if old_guvtype != self.guvtype_str:
head, tail = os.path.split(str(self.file_edit.text()))
self.log_guv_str = ''.join(
[head, '/log_', self.guvtype_str, '_', self.time_str])
self.file_edit.setText(self.log_guv_str)
self.set_clear()
'''
self.config.set(self.last_used_scan, 'guvtype', self.guvtype_str)
with open('config.ini', 'w') as configfile:
self.config.write(configfile)
'''
def createTable(self):
tableWidget = QTableWidget()
#tableWidget.setFixedWidth(175)
# set row count
#tableWidget.setRowCount(20)
# set column count
tableWidget.setColumnCount(2)
# hide grid
tableWidget.setShowGrid(False)
# hide vertical header
vh = tableWidget.verticalHeader()
vh.setVisible(False)
# set the font
font = QFont("Courier New", 9)
tableWidget.setFont(font)
tableWidget.setStyleSheet("color: blue")
# place content into individual table fields
#tableWidget.setItem(0,0, QTableWidgetItem("abe"))
tableWidget.setHorizontalHeaderLabels(
["Time[s]", "Channel power density"])
#tableWidget.setVerticalHeaderLabels(["aa","bb","cc","dd"])
# set horizontal header properties
hh = tableWidget.horizontalHeader()
hh.setStretchLastSection(True)
# set column width to fit contents
tableWidget.resizeColumnsToContents()
# enable sorting
#tableWidget.setSortingEnabled(True)
return tableWidget
def set_cancel(self):
self.worker.abort()
self.clearButton.setEnabled(True)
self.runstopButton.setText("START")
def set_clear(self):
self.clear_vars_graphs()
self.clearButton.setEnabled(False)
self.clearButton.setText("Cleared")
def runstop(self):
sender = self.sender()
if sender.text() == "START":
self.set_run()
elif sender.text() == "STOP":
self.set_cancel()
def set_run(self):
if self.cb_logdata.isChecked():
# Check if folder exists and if not create it
head, tail = os.path.split(str(self.file_edit.text()))
if head:
if head[0] == '/':
QMessageBox.critical(
self, 'Message',
'Path name should not start with a forward slash (/)')
return
else:
QMessageBox.critical(self, 'Message',
'No path to folder(s) provided!')
return
try:
os.makedirs(os.path.dirname(str(self.file_edit.text())),
exist_ok=True)
except Exception as e:
QMessageBox.critical(
self, 'Message',
''.join(["Folder named ", head, " not valid!\n",
str(e)]))
return
self.log_guv_str = str(self.file_edit.text())
self.config.set(self.last_used_scan, 'log_guv',
','.join([self.log_guv_str,
str(True)]))
else:
self.config.set(self.last_used_scan, 'log_guv',
','.join([self.log_guv_str,
str(False)]))
with open('config.ini', 'w') as configfile:
self.config.write(configfile)
try:
self.GUV = GUV.GUV([
str(self.ipportEdit.text()),
str(self.tcpportEdit.text()), self.guvtype_str
], False, self.config)
except Exception as e:
reply = QMessageBox.critical(
self, ''.join([self.guvtype_str, ' TEST MODE']), ''.join([
self.guvtype_str,
" could not return valid echo signal. Check the port name and check the connection.\n",
str(e),
"\n\nShould the program proceeds into the TEST MODE?"
]), QMessageBox.Yes | QMessageBox.No)
if reply == QMessageBox.Yes:
self.GUV = GUV.GUV([
str(self.ipportEdit.text()),
str(self.tcpportEdit.text()), self.guvtype_str
], True, self.config)
else:
return
#self.set_clear()
self.runstopButton.setEnabled(True)
self.runstopButton.setText("STOP")
self.clearButton.setEnabled(False)
self.combo0.setEnabled(False)
self.ipportEdit.setEnabled(False)
self.tcpportEdit.setEnabled(False)
self.guvtype_cb.setEnabled(False)
self.cb_logdata.setEnabled(False)
self.file_edit.setEnabled(False)
self.isRunning = True
setrun_obj = type('setscan_obj', (object, ), {'guv': self.GUV})
self.worker = GUV_Worker(setrun_obj)
self.worker.signals.update0.connect(self.update0)
self.worker.signals.finished.connect(self.finished)
# Execute
self.threadpool.start(self.worker)
def update0(self, times, volts):
self.tal += 1
times = [i + self.stoptime for i in times]
# set row height
self.tableWidget.setRowCount(self.tal + 1)
self.tableWidget.setRowHeight(self.tal, 12)
# add row elements
self.tableWidget.setItem(self.tal, 0,
QTableWidgetItem(format(times[0], '.2e')))
self.tableWidget.setItem(
self.tal, 1,
QTableWidgetItem(', '.join(
[format(float(i), '.2e') for i in volts])))
if self.tal > self.schroll_pts:
self.times[:-1] = self.times[
1:] # shift data in the array one sample left
self.times[-1] = times
self.plot_volts_tr[:-1] = self.plot_volts_tr[
1:] # shift data in the array one sample left
self.plot_volts_tr[-1] = volts
else:
self.times.append(times)
self.plot_volts_tr.append(volts)
## Handle view resizing
def updateViews():
## view has resized; update auxiliary views to match
self.p0_1.setGeometry(self.p1.vb.sceneBoundingRect())
#p3.setGeometry(p1.vb.sceneBoundingRect())
## need to re-update linked axes since this was called
## incorrectly while views had different shapes.
## (probably this should be handled in ViewBox.resizeEvent)
self.p0_1.linkedViewChanged(self.p1.vb, self.p0_1.XAxis)
#p3.linkedViewChanged(p1.vb, p3.XAxis)
updateViews()
self.p1.vb.sigResized.connect(updateViews)
times_ = list(map(list, zip(*self.times)))
plot_volts_tr_ = list(map(list, zip(*self.plot_volts_tr)))
for i in range(len(times_)):
self.curves[i].setData(times_[i], plot_volts_tr_[i])
#self.curve2.setData(self.times, self.plot_volts_tr)
def finished(self):
self.stoptime = self.times[-1][-1]
self.isRunning = False
self.ipportEdit.setEnabled(True)
self.tcpportEdit.setEnabled(True)
self.guvtype_cb.setEnabled(True)
self.cb_logdata.setEnabled(True)
if self.cb_logdata.isChecked():
self.file_edit.setEnabled(True)
else:
self.file_edit.setEnabled(False)
self.combo0.setEnabled(True)
self.clearButton.setEnabled(True)
self.clearButton.setText("Clear")
def clear_vars_graphs(self):
# PLOT 2 initial canvas settings
self.stoptime = 0
self.tal = -1
self.times = []
self.plot_volts_tr = []
for i in range(20):
self.curves[i].clear()
self.curve2.clear()
self.tableWidget.clearContents()
def closeEvent(self, event):
reply = QMessageBox.question(self, 'Message',
"Quit now? Changes will not be saved!",
QMessageBox.Yes | QMessageBox.No)
if reply == QMessageBox.Yes:
if hasattr(self, 'GUV'):
if self.isRunning:
QMessageBox.warning(
self, 'Message',
"Run in progress. Cancel the scan then quit!")
event.ignore()
return
event.accept()
else:
event.ignore()
