Exemplo n.º 1
0
 def create_widgets(self, parent, refresh_callback):
     self._refresh_callback = refresh_callback
     self.prefix_label = QLabel()
     font = self.prefix_label.font()
     font.setPointSize(font.pointSize() + self._size_offset)
     self.prefix_label.setFont(font)
     self.button = QPushButton()
     self.button.setIcon(get_icon('settings.png'))
     self.button.setToolTip(
         _("Edit '%s' fit parameter properties") % self.name)
     QObject.connect(self.button, SIGNAL('clicked()'),
                     lambda: self.edit_param(parent))
     self.lineedit = QLineEdit()
     QObject.connect(self.lineedit, SIGNAL('editingFinished()'),
                     self.line_editing_finished)
     self.unit_label = QLabel(self.unit)
     self.slider = QSlider()
     self.slider.setOrientation(Qt.Horizontal)
     self.slider.setRange(0, self.steps - 1)
     QObject.connect(self.slider, SIGNAL("valueChanged(int)"),
                     self.slider_value_changed)
     self.update(refresh=False)
     self.add_widgets([
         self.prefix_label, self.lineedit, self.unit_label, self.slider,
         self.button
     ])
Exemplo n.º 2
0
    def __init__(self, parent):
        super(MakeNicerWidget, self).__init__(parent)

        self.data = np.array([])  # array which holds data

        # Time domain plot
        self.tdWidget = DockablePlotWidget(self, CurveWidget)
        self.tdWidget.calcFun.addFun('fs', lambda x: x, lambda x: x)
        self.tdWidget.calcFun.addFun('µm', lambda x: x * fsDelay * 1e3,
                                     lambda x: x / fsDelay * 1e-3)
        self.tdWidget.calcFun.addFun('mm', lambda x: x * fsDelay,
                                     lambda x: x / fsDelay)
        tdPlot = self.tdWidget.get_plot()
        self.tdSignal = SignalFT(self, plot=tdPlot)
        self.tdFit = SignalFT(self, plot=tdPlot, col='r')

        # Frequency domain plot
        self.fdWidget = DockablePlotWidget(self, CurveWidget)
        self.fdWidget.calcFun.addFun('PHz', lambda x: x, lambda x: x)
        self.fdWidget.calcFun.addFun('THz', lambda x: x * 1e3,
                                     lambda x: x * 1e-3)
        self.fdWidget.calcFun.addFun('µm', lambda x: c0 / x * 1e-9,
                                     lambda x: c0 / x * 1e-9)
        self.fdWidget.calcFun.addFun('eV', lambda x: x, lambda x: x)
        fdplot = self.fdWidget.get_plot()
        self.fdSignal = SignalFT(self, plot=fdplot)
        self.fdFit = SignalFT(self, plot=fdplot, col='r')

        self.smoothNum = QSpinBox()  # gives number of smoothin points
        self.smoothNum.setMinimum(1)
        self.smoothNum.setSingleStep(2)

        # Put things together in layouts
        buttonLayout = QGridLayout()
        plotLayout = QVBoxLayout()
        layout = QHBoxLayout()
        plotLayout.addWidget(self.tdWidget)
        plotLayout.addWidget(self.fdWidget)

        buttonLayout.addWidget(QLabel('Fitting function'), 0, 0)
        buttonLayout.addWidget(
            QLineEdit("lambda x,A,f,phi: np.sin(2*np.pi*f*x+phi)"), 1, 0, 1, 2)
        buttonLayout.addWidget(QLabel('Smooth'), 2, 0)
        buttonLayout.addWidget(self.smoothNum, 2, 1)
        buttonLayout.setRowStretch(3, 20)

        layout.addLayout(buttonLayout)
        layout.addLayout(plotLayout)
        self.setLayout(layout)

        # connect signals
        self.updateTdPlot.connect(self.tdSignal.updatePlot)
        self.updateTdFitPlot.connect(self.tdFit.updatePlot)
        self.updateFdPlot.connect(lambda data: self.fdSignal.updatePlot(
            self.fdSignal.computeFFT(data)))
        self.updateFdFitPlot.connect(
            lambda data: self.fdFit.updatePlot(self.fdFit.computeFFT(data)))
        self.smoothNum.valueChanged.connect(self.smoothData)

        self.setData()
Exemplo n.º 3
0
 def __init__(self, item, parent_layout):
     super(LineEditWidget, self).__init__(item, parent_layout)
     self.edit = self.group = QLineEdit()
     self.edit.setToolTip(item.get_help())
     if hasattr(item, "min_equals_max") and item.min_equals_max():
         if item.check_item():
             self.edit.setEnabled(False)
         self.edit.setToolTip(_("Value is forced to %d") % item.get_max())
     self.edit.textChanged.connect(self.line_edit_changed)
Exemplo n.º 4
0
    def __init__(self, parent=None):
        QWidget.__init__(self, parent)
        self.layout = QHBoxLayout()
        self.widgets = []
        for i, label_text in enumerate(["start", "stop", "step"]):
            label = QLabel(label_text)
            argument_widget = QLineEdit()

            self.layout.addWidget(label)
            self.layout.addWidget(argument_widget)
            self.widgets.append(argument_widget)
        self.setLayout(self.layout)
        self.slice = slice(None)
Exemplo n.º 5
0
    def __init__( self, parent ):
        QThread.__init__(self, parent)
        self.currsecond = 0
        self.asc = True
        self.initseconds = 0
        self.stopped = True

        self.toolbar_time = parent.addToolBar( 'Time' )
        self.toolbar_time.setMovable( False )
        self.toolbar_time.setObjectName('Time')
        self.timer = QLineEdit()
        self.timer.setStyleSheet("QLineEdit { font-size: 19px; font-family: Courier New; \
                                border-style: outset; border-radius: 10px; \
                                font-weight:bold; text-align:center}")
        self.timer.setFixedWidth( 80 )
        self.timer.setReadOnly( True )
        self.timer.setAlignment( Qt.AlignHCenter )

        left_spacer = QWidget()
        left_spacer.setSizePolicy( QSizePolicy.Expanding, QSizePolicy.Expanding )
        self.toolbar_time.addWidget( left_spacer )
        self.toolbar_time.addWidget( self.timer )

        self.initialize(0)
Exemplo n.º 6
0
 def create_widgets(self, parent, refresh_callback):
     self._refresh_callback = refresh_callback
     self.prefix_label = QLabel()
     font = self.prefix_label.font()
     font.setPointSize(font.pointSize()+self._size_offset)
     self.prefix_label.setFont(font)
     self.button = QPushButton()
     self.button.setIcon(get_icon('settings.png'))
     self.button.setToolTip(
                     _("Edit '%s' fit parameter properties") % self.name)
     self.button.clicked.connect(lambda: self.edit_param(parent))
     self.lineedit = QLineEdit()
     self.lineedit.editingFinished.connect(self.line_editing_finished)
     self.unit_label = QLabel(self.unit)
     self.slider = QSlider()
     self.slider.setOrientation(Qt.Horizontal)
     self.slider.setRange(0, self.steps-1)
     self.slider.valueChanged.connect(self.slider_value_changed)
     self.update(refresh=False)
     self.add_widgets([self.prefix_label, self.lineedit, self.unit_label,
                       self.slider, self.button])
Exemplo n.º 7
0
 def __init__(self, parent):
     QWidget.__init__(self, parent)
     layout = QHBoxLayout()
     row_nb = 14
     cindex = 0
     for child in dir(QStyle):
         if child.startswith('SP_'):
             if cindex == 0:
                 col_layout = QVBoxLayout()
             icon_layout = QHBoxLayout()
             icon = get_std_icon(child)
             label = QLabel()
             label.setPixmap(icon.pixmap(32, 32))
             icon_layout.addWidget(label)
             icon_layout.addWidget(QLineEdit(child.replace('SP_', '')))
             col_layout.addLayout(icon_layout)
             cindex = (cindex + 1) % row_nb
             if cindex == 0:
                 layout.addLayout(col_layout)
     self.setLayout(layout)
     self.setWindowTitle('Standard Platform Icons')
     self.setWindowIcon(get_std_icon('TitleBarMenuButton'))
Exemplo n.º 8
0
    def __init__(self, parent):
        super().__init__(parent)

        self.camera = None
        self.cameraSettings = None
        self.aquireData = False
        self.directory = 'N:/4all/mpsd_drive/xtsfasta/Data'

        layoutWidget = QWidget()
        layout = QGridLayout()
        layoutWidget.setLayout(layout)

        ###############
        # GUI elements
        self.openCamBtn = QPushButton('Connect camera')
        self.startAquBtn = QPushButton('Start aquisiton')
        self.readoutSpeedCombo = QComboBox()
        # this really should not be hard coded but received from dll
        self.readoutSpeedCombo.addItems(["1 MHz", 
            "1.8 MHz",
            "2.3 MHz",
            "2.8 MHz",
            "250 kHz",
            "500 kHz"])
        self.exposureTimeSpin = QSpinBox()
        self.exposureTimeSpin.setRange(1, 1e6)
        self.exposureTimeSpin.setValue(1e3) # default exposure 1s
        self.exposureTimeSpin.setSingleStep(100)
        self.exposureTimeSpin.setSuffix(' ms')
        #self.exposureTimeSpin.setValidator(QIntValidator(1, 2**31)) # ms
        self.binningXCombo = QComboBox()
        self.binningXCombo.addItems(["No binning",
                  "Binning of 2 columns",
                  "Binning of 4 columns",
                  "Binning of 8 columns",
                  "Binning of 16 columns",
                  "Binning of 32 columns",
                  "Binning of 64 columns",
                  "Binning of 128 columns",
                  "Full horizontal binning"])
        self.binningYCombo = QComboBox()
        self.binningYCombo.addItems(["No binning",
                  "Binning of 2 lines",
                  "Binning of 4 lines",
                  "Binning of 8 lines",
                  "Binning of 16 lines",
                  "Binning of 32 lines",
                  "Binning of 64 lines",
                  "Binning of 128 lines",
                  "Binning of 256 lines"])
        self.temperatureSpin = QSpinBox()
        self.temperatureSpin.setRange(-100, 20)
        self.temperatureSpin.setValue(-10)
        self.temperatureSpin.setSuffix('°C')
        self.updateInterSpin = QSpinBox()
        self.updateInterSpin.setRange(1, 3600)
        self.updateInterSpin.setValue(5)
        self.updateInterSpin.setSuffix(' s')
        #self.updateInterSpin.setText("2")
        #self.updateInterEdit.setValidator(QIntValidator(1, 3600))
        self.loi = QSpinBox()
        self.loi.setRange(1, 511) # one pixel less as the camera has
        self.deltaPixels = QSpinBox()
        self.deltaPixels.setRange(0, 256)
        self.autoSave = QCheckBox("Auto save")
        self.getDirectory = QPushButton('Choose Dir')
        self.dirPath = QLineEdit(self.directory)
        self.comment = QPlainTextEdit()

        ##############
        # put elements in layout
        layout.addWidget(self.openCamBtn, 0, 0)
        layout.addWidget(self.startAquBtn, 0, 1)
        layout.addWidget(QLabel('readout speed'), 1, 0)
        layout.addWidget(self.readoutSpeedCombo, 1, 1)
        layout.addWidget(QLabel('exposure time'), 2, 0)
        layout.addWidget(self.exposureTimeSpin, 2, 1)
        layout.addWidget(QLabel('binning X'), 3, 0)
        layout.addWidget(self.binningXCombo, 3, 1)
        layout.addWidget(QLabel('binning Y'), 4, 0)
        layout.addWidget(self.binningYCombo, 4, 1)
        layout.addWidget(QLabel('temperature'), 5, 0)
        layout.addWidget(self.temperatureSpin, 5, 1)
        layout.addWidget(QLabel('update every n-seconds'), 6, 0)
        layout.addWidget(self.updateInterSpin, 6, 1)
        layout.addWidget(QLabel('Pixel of interest'), 7, 0)
        layout.addWidget(self.loi, 7, 1)
        layout.addWidget(QLabel('Δ pixels'), 8, 0)
        layout.addWidget(self.deltaPixels, 8, 1)
        layout.addWidget(self.autoSave, 9, 1)
        layout.addWidget(self.getDirectory, 10, 0)
        layout.addWidget(self.dirPath, 10, 1)
        layout.addWidget(QLabel('Comment:'), 11, 0)
        layout.addWidget(self.comment, 12, 0, 1, 2)
        layout.setRowStretch(13, 10)

        self.addWidget(layoutWidget)


        #################
        # connect elements for functionality
        self.openCamBtn.released.connect(self.__openCam)
        self.getDirectory.released.connect(self.__chooseDir)
        self.temperatureSpin.valueChanged.connect(self.__setTemperature)
        self.exposureTimeSpin.valueChanged.connect(self.__setCamParameter)
        self.readoutSpeedCombo.currentIndexChanged.connect(self.__setCamParameter)
        self.startAquBtn.released.connect(self.__startCurrImageThr)
        
        ################
        # thread for updating position
        self.currImage_thread = QThread() # create the QThread
        self.currImage_thread.start()

        # This causes my_worker.run() to eventually execute in my_thread:
        self.currImage_worker = GenericWorker(self.__getCurrImage)
        self.currImage_worker.moveToThread(self.currImage_thread)
 
        self.startAquBtn.setEnabled(False) 
        self.readoutSpeedCombo.setEnabled(False)
        self.exposureTimeSpin.setEnabled(False)
        self.binningXCombo.setEnabled(False)
        self.binningYCombo.setEnabled(False)
        self.temperatureSpin.setEnabled(False)
        self.updateInterSpin.setEnabled(False)
Exemplo n.º 9
0
class TiePieUi(QSplitter):
    '''
    Handling user interface to manage TiePie HS4/Diff Oscilloscope
    '''
    scpConnected = Signal()
    xAxeChanged = Signal(object, object)
    yAxeChanged = Signal(object, object)
    triggLevelChanged = Signal(object)

    def __init__(self, parent):
        #super(ObjectFT, self).__init__(Qt.Vertical, parent)
        super().__init__(parent)

        self.scp = None  # variable to hold oscilloscope object
        self.mutex = QMutex()

        layoutWidget = QWidget()
        layout = QGridLayout()
        layoutWidget.setLayout(layout)

        self.openDevBtn = QPushButton('Open Osci')
        # channel stuff
        self.measCh = QComboBox()
        self.chSens = QComboBox()
        self.triggCh = QComboBox()
        self.frequency = QLineEdit()
        self.frequency.setValidator(QIntValidator())
        self.recordLen = QLineEdit()
        self.recordLen.setValidator(QIntValidator())
        self.delay = QLineEdit()
        self.delay.setValidator(QDoubleValidator())
        # trigger stuff
        self.triggLevel = QLineEdit()
        self.triggLevel.setToolTip(
            'http://api.tiepie.com/libtiepie/0.5/triggering_scpch.html#triggering_scpch_level'
        )
        self.triggLevel.setText(
            '0.5'
        )  # init value otherwise there's trouble with signal changing index of sensitivity
        self.triggLevel.setValidator(QDoubleValidator(0., 1., 3))
        self.hystereses = QLineEdit()
        self.hystereses.setText('0.05')
        self.hystereses.setToolTip(
            'http://api.tiepie.com/libtiepie/0.5/triggering_scpch.html#triggering_scpch_hysteresis'
        )
        self.hystereses.setValidator(QDoubleValidator(0., 1., 3))
        self.triggKind = QComboBox()
        # do averages
        self.averages = QSpinBox()
        self.averages.setValue(1)
        self.averages.setRange(1, 10000)

        # put layout together
        layout.addWidget(self.openDevBtn, 0, 0)
        layout.addWidget(QLabel('Measuring Ch'), 1, 0)
        layout.addWidget(self.measCh, 1, 1)
        layout.addWidget(QLabel('Ch sensitivity'), 2, 0)
        layout.addWidget(self.chSens, 2, 1)
        layout.addWidget(QLabel('Sample freq. (kHz)'), 3, 0)
        layout.addWidget(self.frequency, 3, 1)
        layout.addWidget(QLabel('Record length'), 4, 0)
        layout.addWidget(self.recordLen, 4, 1)
        layout.addWidget(QLabel('Delay'), 5, 0)
        layout.addWidget(self.delay, 5, 1)
        layout.addWidget(QLabel('Trigger Ch'), 6, 0)
        layout.addWidget(self.triggCh, 6, 1)
        layout.addWidget(QLabel('Trigger Level (%)'), 7, 0)
        layout.addWidget(self.triggLevel, 7, 1)
        layout.addWidget(QLabel('Hystereses'), 8, 0)
        layout.addWidget(self.hystereses, 8, 1)
        layout.addWidget(QLabel('Trigger kind'), 9, 0)
        layout.addWidget(self.triggKind, 9, 1)
        layout.addWidget(QLabel('Averages'), 10, 0)
        layout.addWidget(self.averages, 10, 1)
        layout.setRowStretch(11, 10)
        layout.setColumnStretch(2, 10)

        self.addWidget(layoutWidget)

        # connect UI to get things working
        self.openDevBtn.released.connect(self.openDev)
        self.chSens.currentIndexChanged.connect(self._changeSens)
        self.frequency.returnPressed.connect(self._changeFreq)
        self.recordLen.returnPressed.connect(self._changeRecordLength)
        self.triggCh.currentIndexChanged.connect(self._changeTrigCh)
        self.triggLevel.returnPressed.connect(self._triggLevelChanged)
        self.triggLevel.textChanged.connect(self._check_state)
        self.hystereses.returnPressed.connect(self._setHystereses)
        self.hystereses.textChanged.connect(self._check_state)

    def openDev(self):
        # search for devices
        libtiepie.device_list.update()
        # try to open an oscilloscope with block measurement support
        for item in libtiepie.device_list:
            if item.can_open(libtiepie.DEVICETYPE_OSCILLOSCOPE):
                self.scp = item.open_oscilloscope()
                if self.scp.measure_modes & libtiepie.MM_BLOCK:
                    break
                else:
                    self.scp = None
        # init UI
        #print(self.scp.name, 'found')
        if self.scp is not None:
            # Set measure mode:
            self.scp.measure_mode = libtiepie.MM_BLOCK

            # Set sample frequency:
            self.scp.sample_frequency = 1e6  # 1 MHz

            # Set record length:
            self.scp.record_length = 10000  # 10000 samples

            # Set pre sample ratio:
            self.scp.pre_sample_ratio = 0  # 0 %

            # Set trigger timeout:
            self.scp.trigger_time_out = 100e-3  # 100 ms

            # Enable channel 1 for measurement
            # http://api.tiepie.com/libtiepie/0.5/group__scp__ch__enabled.html
            self.scp.channels[
                0].enabled = True  # by default all channels are enabled
            self.scp.range = 0.2
            self.scp.coupling = libtiepie.CK_DCV  # DC Volt

            # Disable all channel trigger sources
            for ch in self.scp.channels:
                ch.trigger.enabled = False
            # Setup channel trigger on 1
            ch = self.scp.channels[0]
            ch.trigger.enabled = True
            ch.trigger.kind = libtiepie.TK_RISINGEDGE
            ch.trigger.levels[0] = 0.5  # 50%
            ch.trigger.hystereses[0] = 0.05  # 5%

            # update UI
            # channel
            self.measCh.addItems(
                ['Ch{:d}'.format(i) for i in range(self.scp.channels.count)])
            self.chSens.addItems(
                ['{:.1f} V'.format(i) for i in self.scp.channels[0].ranges])
            self.frequency.setValidator(
                QIntValidator(1, 1e-3 * self.scp.sample_frequency_max))
            self.frequency.setText('{:d}'.format(
                int(self.scp.sample_frequency * 1e-3)))
            self.recordLen.setValidator(
                QIntValidator(1, self.scp.record_length_max))
            self.recordLen.setText('{:d}'.format(self.scp.record_length))
            # trigger
            self.triggCh.addItems(
                ['Ch{:d}'.format(i) for i in range(self.scp.channels.count)])
            # TODO: doen't work in module anymore!!
            #self.triggLevel.setText(str(ch.trigger.levels[0]))
            #self.hystereses.setText(str(ch.trigger.hystereses[0]))
            self.triggKind.addItems([
                '{:s}'.format(i) for i in libtiepie.trigger_kind_str(
                    ch.trigger.kinds).split(', ')
            ])

            self.openDevBtn.setEnabled(False)

            # tell the world that the scope is connected
            self.xAxeChanged.emit(
                0, 1 / int(self.frequency.text()) * 1e-3 *
                int(self.recordLen.text()))
            self.yAxeChanged.emit(-1 * self.scp.range, self.scp.range)
            self.triggLevelChanged.emit(ch.trigger.levels[0] * 2 *
                                        self.scp.range - self.scp.range)
            self.scpConnected.emit()

        else:
            msg = QMessageBox()
            msg.setIcon(QMessageBox.Critical)
            msg.setText('No supported device found')
            msg.exec_()

    def getData(self):
        # function called thread for updating plot
        avg = int(self.averages.text())
        with QMutexLocker(self.mutex):
            x = np.linspace(
                0, 1 / self.scp.sample_frequency * self.scp.record_length,
                self.scp.record_length)
            y = np.zeros((avg, self.scp.record_length))
            for i in range(avg):
                self.scp.start()
                while not self.scp.is_data_ready:
                    time.sleep(0.01)
                y[i, :] = self.scp.get_data()[self.measCh.currentIndex()]
        return np.column_stack((x, y.mean(axis=0)))

    #@Slot
    def _changeSens(self, i):
        with QMutexLocker(self.mutex):
            yMax = self.scp.channels[0].ranges[i]
            self.scp.range = yMax
            self.yAxeChanged.emit(-1 * yMax, yMax)
            self.triggLevelChanged.emit(
                float(self.triggLevel.text()) * 2 * yMax - yMax)

    def _changeTrigCh(self, newTrig):
        print('new trigger channel', newTrig)
        scope = self.scp
        with QMutexLocker(self.mutex):
            # Disable all channel trigger sources
            for ch in scope.channels:
                ch.trigger.enabled = False
            # enable trigger on newly selected channel
            ch = scope.channels[newTrig]
            ch.trigger.enabled = True
            ch.trigger.kind = libtiepie.TK_RISINGEDGE
            ch.trigger.levels[0] = float(self.triggLevel.text())
            ch.trigger.hystereses[0] = float(self.hystereses.text())

    def _triggLevelChanged(self):
        with QMutexLocker(self.mutex):
            idx = self.triggCh.currentIndex()
            ch = self.scp.channels[idx]
            ch.trigger.levels[0] = float(self.triggLevel.text())
            self.triggLevelChanged.emit(
                float(self.triggLevel.text()) * 2 * self.scp.range -
                self.scp.range)

    def _changeFreq(self):
        with QMutexLocker(self.mutex):
            self.scp.sample_frequency = int(self.frequency.text()) * 1e3
            self.xAxeChanged.emit(
                0, 1 / self.scp.sample_frequency * self.scp.record_length)

    def _changeRecordLength(self):
        with QMutexLocker(self.mutex):
            self.scp.record_length = int(self.recordLen.text())
            self.xAxeChanged.emit(
                0, 1 / self.scp.sample_frequency * self.scp.record_length)

    def _setHystereses(self):
        with QMutexLocker(self.mutex):
            self.scp.hystereses = float(self.hystereses.text())

    def _check_state(self, *args, **kwargs):
        '''https://snorfalorpagus.net/blog/2014/08/09/validating-user-input-in-pyqt4-using-qvalidator/'''
        sender = self.sender()
        validator = sender.validator()
        state = validator.validate(sender.text(), 0)[0]
        if state == QValidator.Acceptable:
            color = '#FFFFFF'  # green
        elif state == QValidator.Intermediate:
            color = '#fff79a'  # yellow
        else:
            color = '#f6989d'  # red
        sender.setStyleSheet('QLineEdit { background-color: %s }' % color)
Exemplo n.º 10
0
    def __init__(self, parent):
        #super(ObjectFT, self).__init__(Qt.Vertical, parent)
        super().__init__(parent)

        self.scp = None  # variable to hold oscilloscope object
        self.mutex = QMutex()

        layoutWidget = QWidget()
        layout = QGridLayout()
        layoutWidget.setLayout(layout)

        self.openDevBtn = QPushButton('Open Osci')
        # channel stuff
        self.measCh = QComboBox()
        self.chSens = QComboBox()
        self.triggCh = QComboBox()
        self.frequency = QLineEdit()
        self.frequency.setValidator(QIntValidator())
        self.recordLen = QLineEdit()
        self.recordLen.setValidator(QIntValidator())
        self.delay = QLineEdit()
        self.delay.setValidator(QDoubleValidator())
        # trigger stuff
        self.triggLevel = QLineEdit()
        self.triggLevel.setToolTip(
            'http://api.tiepie.com/libtiepie/0.5/triggering_scpch.html#triggering_scpch_level'
        )
        self.triggLevel.setText(
            '0.5'
        )  # init value otherwise there's trouble with signal changing index of sensitivity
        self.triggLevel.setValidator(QDoubleValidator(0., 1., 3))
        self.hystereses = QLineEdit()
        self.hystereses.setText('0.05')
        self.hystereses.setToolTip(
            'http://api.tiepie.com/libtiepie/0.5/triggering_scpch.html#triggering_scpch_hysteresis'
        )
        self.hystereses.setValidator(QDoubleValidator(0., 1., 3))
        self.triggKind = QComboBox()
        # do averages
        self.averages = QSpinBox()
        self.averages.setValue(1)
        self.averages.setRange(1, 10000)

        # put layout together
        layout.addWidget(self.openDevBtn, 0, 0)
        layout.addWidget(QLabel('Measuring Ch'), 1, 0)
        layout.addWidget(self.measCh, 1, 1)
        layout.addWidget(QLabel('Ch sensitivity'), 2, 0)
        layout.addWidget(self.chSens, 2, 1)
        layout.addWidget(QLabel('Sample freq. (kHz)'), 3, 0)
        layout.addWidget(self.frequency, 3, 1)
        layout.addWidget(QLabel('Record length'), 4, 0)
        layout.addWidget(self.recordLen, 4, 1)
        layout.addWidget(QLabel('Delay'), 5, 0)
        layout.addWidget(self.delay, 5, 1)
        layout.addWidget(QLabel('Trigger Ch'), 6, 0)
        layout.addWidget(self.triggCh, 6, 1)
        layout.addWidget(QLabel('Trigger Level (%)'), 7, 0)
        layout.addWidget(self.triggLevel, 7, 1)
        layout.addWidget(QLabel('Hystereses'), 8, 0)
        layout.addWidget(self.hystereses, 8, 1)
        layout.addWidget(QLabel('Trigger kind'), 9, 0)
        layout.addWidget(self.triggKind, 9, 1)
        layout.addWidget(QLabel('Averages'), 10, 0)
        layout.addWidget(self.averages, 10, 1)
        layout.setRowStretch(11, 10)
        layout.setColumnStretch(2, 10)

        self.addWidget(layoutWidget)

        # connect UI to get things working
        self.openDevBtn.released.connect(self.openDev)
        self.chSens.currentIndexChanged.connect(self._changeSens)
        self.frequency.returnPressed.connect(self._changeFreq)
        self.recordLen.returnPressed.connect(self._changeRecordLength)
        self.triggCh.currentIndexChanged.connect(self._changeTrigCh)
        self.triggLevel.returnPressed.connect(self._triggLevelChanged)
        self.triggLevel.textChanged.connect(self._check_state)
        self.hystereses.returnPressed.connect(self._setHystereses)
        self.hystereses.textChanged.connect(self._check_state)
Exemplo n.º 11
0
    def __init__(self, parent):
        #super(ObjectFT, self).__init__(Qt.Vertical, parent)
        super().__init__(parent)

        self.meter = None
        self.collectData = True # bool for data collection thread
        self.avgData = Queue() # need data for averaging and set for holding all
        self.measure = False
        self.runDataThr = True
        self.measureData = []
        self.startTime = None


        layoutWidget = QWidget()
        layout = QGridLayout()
        layoutWidget.setLayout(layout)

        ##############
        # gui elements
        self.ipEdit = QLineEdit()
        rx = QRegExp("^(([0-9]|[1-9][0-9]|1[0-9]{2}|2[0-4][0-9]|25[0-5]).){3}([0-9]|[1-9][0-9]|1[0-9]{2}|2[0-4][0-9]|25[0-5])$")
        self.ipEdit.setValidator(QRegExpValidator(rx))
        self.ipEdit.setText('127.0.0.1')
        self.portEdit = QLineEdit()
        self.portEdit.setValidator(QIntValidator(1, 65535, self))
        self.portEdit.setText('5000')
        self.connectBtn = QPushButton('Connect')
        self.avgSpin = QSpinBox()
        self.avgSpin.setValue(1)
        self.avgSpin.setRange(1, 10000)
        self.currValDisp = QLabel('0.0')
        self.startMeasBtn = QPushButton('Start aq')
        self.stopMeasBtn  = QPushButton('Stop aq')

        ##############
        # put layout together
        layout.addWidget(QLabel('IP Address:'), 0, 0)
        layout.addWidget(self.ipEdit, 1, 0)
        layout.addWidget(QLabel('Port:'), 0, 1)
        layout.addWidget(self.portEdit, 1, 1)
        layout.addWidget(self.connectBtn, 2, 1)
        layout.addWidget(QLabel('Averages'), 4, 0)
        layout.addWidget(self.avgSpin, 5, 0)
        layout.addWidget(self.currValDisp, 5, 1)
        layout.addWidget(self.startMeasBtn, 6, 0)
        layout.addWidget(self.stopMeasBtn, 6, 1)
        layout.setRowStretch(7, 10)
        self.addWidget(layoutWidget)

        ##############
        # Network stuff
        self.tcpClient = QtNetwork.QTcpSocket()
        self.tcpClient.readyRead.connect(self.__getSocketData)
        self.tcpClient.error.connect(lambda x: print(x))

        ##############
        # make button and stuff functional
        self.connectBtn.released.connect(self.connectMeter)
        self.avgSpin.valueChanged.connect(self.changeAverage)
        self.startMeasBtn.released.connect(self._startMeasure)
        self.stopMeasBtn.released.connect(self._stopMeasure)

        ##############
        # thread for getting data from socket
        self.updateAvgTxt.connect(self.__updateAvgTxt)
        self.dataAq_Thr = QThread()
        self.dataAq_Thr.start()
        self.dataAq_worker = GenericWorker(self.__getData)
        self.dataAq_worker.moveToThread(self.dataAq_Thr)
Exemplo n.º 12
0
class FitParam(object):
    def __init__(self, name, value, min, max, logscale=False,
                 steps=5000, format='%.3f', size_offset=0, unit=''):
        self.name = name
        self.value = value
        self.min = min
        self.max = max
        self.logscale = logscale
        self.steps = steps
        self.format = format
        self.unit = unit
        self.prefix_label = None
        self.lineedit = None
        self.unit_label = None
        self.slider = None
        self.button = None
        self._widgets = []
        self._size_offset = size_offset
        self._refresh_callback = None
        self.dataset = FitParamDataSet(title=_("Curve fitting parameter"))
        
    def copy(self):
        """Return a copy of this fitparam"""
        return self.__class__(self.name, self.value, self.min, self.max,
                              self.logscale, self.steps, self.format,
                              self._size_offset, self.unit)
        
    def create_widgets(self, parent, refresh_callback):
        self._refresh_callback = refresh_callback
        self.prefix_label = QLabel()
        font = self.prefix_label.font()
        font.setPointSize(font.pointSize()+self._size_offset)
        self.prefix_label.setFont(font)
        self.button = QPushButton()
        self.button.setIcon(get_icon('settings.png'))
        self.button.setToolTip(
                        _("Edit '%s' fit parameter properties") % self.name)
        self.button.clicked.connect(lambda: self.edit_param(parent))
        self.lineedit = QLineEdit()
        self.lineedit.editingFinished.connect(self.line_editing_finished)
        self.unit_label = QLabel(self.unit)
        self.slider = QSlider()
        self.slider.setOrientation(Qt.Horizontal)
        self.slider.setRange(0, self.steps-1)
        self.slider.valueChanged.connect(self.slider_value_changed)
        self.update(refresh=False)
        self.add_widgets([self.prefix_label, self.lineedit, self.unit_label,
                          self.slider, self.button])
        
    def add_widgets(self, widgets):
        self._widgets += widgets
        
    def get_widgets(self):
        return self._widgets
        
    def set_scale(self, state):
        self.logscale = state > 0
        self.update_slider_value()
        
    def set_text(self, fmt=None):
        style = "<span style=\'color: #444444\'><b>%s</b></span>"
        self.prefix_label.setText(style % self.name)
        if self.value is None:
            value_str = ''
        else:
            if fmt is None:
                fmt = self.format
            value_str = fmt % self.value
        self.lineedit.setText(value_str)
        self.lineedit.setDisabled(
                            self.value == self.min and self.max == self.min)
        
    def line_editing_finished(self):
        try:
            self.value = float(self.lineedit.text())
        except ValueError:
            self.set_text()
        self.update_slider_value()
        self._refresh_callback()
        
    def slider_value_changed(self, int_value):
        if self.logscale:
            total_delta = np.log10(1+self.max-self.min)
            self.value = self.min+10**(total_delta*int_value/(self.steps-1))-1
        else:
            total_delta = self.max-self.min
            self.value = self.min+total_delta*int_value/(self.steps-1)
        self.set_text()
        self._refresh_callback()
    
    def update_slider_value(self):
        if (self.value is None or self.min is None or self.max is None):
            self.slider.setEnabled(False)
            if self.slider.parent() and self.slider.parent().isVisible():
                self.slider.show()
        elif self.value == self.min and self.max == self.min:
            self.slider.hide()
        else:
            self.slider.setEnabled(True)
            if self.slider.parent() and self.slider.parent().isVisible():
                self.slider.show()
            if self.logscale:
                value_delta = max([np.log10(1+self.value-self.min), 0.])
                total_delta = np.log10(1+self.max-self.min)
            else:
                value_delta = self.value-self.min
                total_delta = self.max-self.min
            intval = int(self.steps*value_delta/total_delta)
            self.slider.blockSignals(True)
            self.slider.setValue(intval)
            self.slider.blockSignals(False)

    def edit_param(self, parent):
        update_dataset(self.dataset, self)
        if self.dataset.edit(parent=parent):
            restore_dataset(self.dataset, self)
            if self.value > self.max:
                self.max = self.value
            if self.value < self.min:
                self.min = self.value
            self.update()

    def update(self, refresh=True):
        self.unit_label.setText(self.unit)
        self.slider.setRange(0, self.steps-1)
        self.update_slider_value()
        self.set_text()
        if refresh:
            self._refresh_callback()
Exemplo n.º 13
0
    def __init__(self, parent):
        QSplitter.__init__(self, parent)

        self.name = 'subject'
        self.age = 26
        self.peakL = 559
        self.peakM = 530
        self.ref_LED = 10
        self.LED1 = 15
        self.LED2 = 13.9
        self.LED3 = 40.45
        self.L_OD = 0.35
        self.M_OD = 0.22

        self.setContentsMargins(10, 10, 10, 10)
        self.setOrientation(Qt.Vertical)
        
        line1 = QSplitter()
        line1.setOrientation(Qt.Horizontal)
        line2 = QSplitter()
        line2.setOrientation(Qt.Horizontal)
        line3 = QSplitter()
        line3.setOrientation(Qt.Horizontal)
        line4 = QSplitter()
        line4.setOrientation(Qt.Horizontal)
        line5 = QSplitter()
        line5.setOrientation(Qt.Horizontal)
        line6 = QSplitter()
        line6.setOrientation(Qt.Horizontal)
        line7 = QSplitter()
        line7.setOrientation(Qt.Horizontal)
        line8 = QSplitter()
        line8.setOrientation(Qt.Horizontal)

        self.txt1 = QLineEdit(str(self.name))
        self.txt1.setMaximumWidth(100)
        self.txt2 = QLineEdit(str(self.age))
        self.txt2.setMaximumWidth(100)
        self.txt3 = QLineEdit(str(self.peakL))
        self.txt3.setMaximumWidth(100)
        self.txt4 = QLineEdit(str(self.peakM))
        self.txt4.setMaximumWidth(100)
        self.txt5 = QLineEdit(str(self.ref_LED))
        self.txt5.setMaximumWidth(100)
        self.txt6 = QLineEdit()
        self.txt6.setMaximumWidth(100)
        self.txt7 = QLineEdit()
        self.txt7.setMaximumWidth(100)
        self.txt8 = QLineEdit()
        self.txt8.setMaximumWidth(100)

        label1 = QLabel('ID')
        label2 = QLabel('age')
        label3 = QLabel('peak L')
        label4 = QLabel('peak M')
        label5 = QLabel('ref LED')
        label6 = QLabel('LED1')
        label7 = QLabel('LED2')
        label8 = QLabel('LED3')

        line1.addWidget(label1)
        line2.addWidget(label2)
        line3.addWidget(label3)
        line4.addWidget(label4)
        line5.addWidget(label5)
        line6.addWidget(label6)
        line7.addWidget(label7)
        line8.addWidget(label8)

        line1.addWidget(self.txt1)
        line2.addWidget(self.txt2)
        line3.addWidget(self.txt3)
        line4.addWidget(self.txt4)
        line5.addWidget(self.txt5)
        line6.addWidget(self.txt6)
        line7.addWidget(self.txt7)
        line8.addWidget(self.txt8)

        self.load_button = QPushButton('load data')
        self.load_button.clicked.connect(self.load) 

        self.analyze_button = QPushButton('analyze')
        self.analyze_button.clicked.connect(self.analyze) 

        # add left side of the bottom panel
        left_side = QSplitter()
        left_side.setOrientation(Qt.Vertical)
        left_side.addWidget(self.load_button)
        left_side.addWidget(line1)
        left_side.addWidget(line2)
        left_side.addWidget(line3)
        left_side.addWidget(line4)
        left_side.addWidget(line5)
        left_side.addWidget(line6)
        left_side.addWidget(line7)
        left_side.addWidget(line8)
        left_side.addWidget(self.analyze_button)


        # set up right side of the bottom panel
        self.results = QListWidget(self)
        self.save_button = QPushButton('save', self.results)
        self.save_button.clicked.connect(self.save)  

        # add right side of the bottom panel
        right_side = QSplitter()
        right_side.setOrientation(Qt.Vertical)
        right_side.addWidget(self.results)
        right_side.addWidget(self.save_button)
        self.addWidget(right_side) 

        # add left and right side to bottom
        bottom = QSplitter()
        bottom.addWidget(left_side)
        bottom.addWidget(right_side)

        self.plots = CurveWidget(self, 
            xlabel='wavelength (nm)', ylabel='sensitivity')

        self.addWidget(self.plots)
        self.addWidget(bottom)

        self.show_data(PRINT=False)    

        self.setStretchFactor(0, 0)
        self.setStretchFactor(1, 1)
        self.setHandleWidth(10)
        self.setSizes([800, 1])

        self.parse_rc_file()
Exemplo n.º 14
0
class GreatEyesUi(QSplitter):
    '''
    Handling user interface to manage greateys cameras
    '''
    newPlotData = Signal(object, object)
    message = Signal(object)
    def __init__(self, parent):
        super().__init__(parent)

        self.camera = None
        self.cameraSettings = None
        self.aquireData = False
        self.directory = 'N:/4all/mpsd_drive/xtsfasta/Data'

        layoutWidget = QWidget()
        layout = QGridLayout()
        layoutWidget.setLayout(layout)

        ###############
        # GUI elements
        self.openCamBtn = QPushButton('Connect camera')
        self.startAquBtn = QPushButton('Start aquisiton')
        self.readoutSpeedCombo = QComboBox()
        # this really should not be hard coded but received from dll
        self.readoutSpeedCombo.addItems(["1 MHz", 
            "1.8 MHz",
            "2.3 MHz",
            "2.8 MHz",
            "250 kHz",
            "500 kHz"])
        self.exposureTimeSpin = QSpinBox()
        self.exposureTimeSpin.setRange(1, 1e6)
        self.exposureTimeSpin.setValue(1e3) # default exposure 1s
        self.exposureTimeSpin.setSingleStep(100)
        self.exposureTimeSpin.setSuffix(' ms')
        #self.exposureTimeSpin.setValidator(QIntValidator(1, 2**31)) # ms
        self.binningXCombo = QComboBox()
        self.binningXCombo.addItems(["No binning",
                  "Binning of 2 columns",
                  "Binning of 4 columns",
                  "Binning of 8 columns",
                  "Binning of 16 columns",
                  "Binning of 32 columns",
                  "Binning of 64 columns",
                  "Binning of 128 columns",
                  "Full horizontal binning"])
        self.binningYCombo = QComboBox()
        self.binningYCombo.addItems(["No binning",
                  "Binning of 2 lines",
                  "Binning of 4 lines",
                  "Binning of 8 lines",
                  "Binning of 16 lines",
                  "Binning of 32 lines",
                  "Binning of 64 lines",
                  "Binning of 128 lines",
                  "Binning of 256 lines"])
        self.temperatureSpin = QSpinBox()
        self.temperatureSpin.setRange(-100, 20)
        self.temperatureSpin.setValue(-10)
        self.temperatureSpin.setSuffix('°C')
        self.updateInterSpin = QSpinBox()
        self.updateInterSpin.setRange(1, 3600)
        self.updateInterSpin.setValue(5)
        self.updateInterSpin.setSuffix(' s')
        #self.updateInterSpin.setText("2")
        #self.updateInterEdit.setValidator(QIntValidator(1, 3600))
        self.loi = QSpinBox()
        self.loi.setRange(1, 511) # one pixel less as the camera has
        self.deltaPixels = QSpinBox()
        self.deltaPixels.setRange(0, 256)
        self.autoSave = QCheckBox("Auto save")
        self.getDirectory = QPushButton('Choose Dir')
        self.dirPath = QLineEdit(self.directory)
        self.comment = QPlainTextEdit()

        ##############
        # put elements in layout
        layout.addWidget(self.openCamBtn, 0, 0)
        layout.addWidget(self.startAquBtn, 0, 1)
        layout.addWidget(QLabel('readout speed'), 1, 0)
        layout.addWidget(self.readoutSpeedCombo, 1, 1)
        layout.addWidget(QLabel('exposure time'), 2, 0)
        layout.addWidget(self.exposureTimeSpin, 2, 1)
        layout.addWidget(QLabel('binning X'), 3, 0)
        layout.addWidget(self.binningXCombo, 3, 1)
        layout.addWidget(QLabel('binning Y'), 4, 0)
        layout.addWidget(self.binningYCombo, 4, 1)
        layout.addWidget(QLabel('temperature'), 5, 0)
        layout.addWidget(self.temperatureSpin, 5, 1)
        layout.addWidget(QLabel('update every n-seconds'), 6, 0)
        layout.addWidget(self.updateInterSpin, 6, 1)
        layout.addWidget(QLabel('Pixel of interest'), 7, 0)
        layout.addWidget(self.loi, 7, 1)
        layout.addWidget(QLabel('Δ pixels'), 8, 0)
        layout.addWidget(self.deltaPixels, 8, 1)
        layout.addWidget(self.autoSave, 9, 1)
        layout.addWidget(self.getDirectory, 10, 0)
        layout.addWidget(self.dirPath, 10, 1)
        layout.addWidget(QLabel('Comment:'), 11, 0)
        layout.addWidget(self.comment, 12, 0, 1, 2)
        layout.setRowStretch(13, 10)

        self.addWidget(layoutWidget)


        #################
        # connect elements for functionality
        self.openCamBtn.released.connect(self.__openCam)
        self.getDirectory.released.connect(self.__chooseDir)
        self.temperatureSpin.valueChanged.connect(self.__setTemperature)
        self.exposureTimeSpin.valueChanged.connect(self.__setCamParameter)
        self.readoutSpeedCombo.currentIndexChanged.connect(self.__setCamParameter)
        self.startAquBtn.released.connect(self.__startCurrImageThr)
        
        ################
        # thread for updating position
        self.currImage_thread = QThread() # create the QThread
        self.currImage_thread.start()

        # This causes my_worker.run() to eventually execute in my_thread:
        self.currImage_worker = GenericWorker(self.__getCurrImage)
        self.currImage_worker.moveToThread(self.currImage_thread)
 
        self.startAquBtn.setEnabled(False) 
        self.readoutSpeedCombo.setEnabled(False)
        self.exposureTimeSpin.setEnabled(False)
        self.binningXCombo.setEnabled(False)
        self.binningYCombo.setEnabled(False)
        self.temperatureSpin.setEnabled(False)
        self.updateInterSpin.setEnabled(False)
      


    def __openCam(self):
        self.camera = greatEyes()
        if not self.camera.connected:
            msg = QMessageBox()
            msg.setIcon(QMessageBox.Critical)
            msg.setText('Sorry, could not connect to camera :(\n' + 
                    self.camera.status)
            msg.exec_()
            return
        self.openCamBtn.setText('Connected')
        self.message.emit('Camera connected')
        self.openCamBtn.setStyleSheet('QPushButton {color: green;}')

        self.readoutSpeedCombo.setEnabled(True)
        self.exposureTimeSpin.setEnabled(True)
        self.binningXCombo.setEnabled(False)
        self.binningYCombo.setEnabled(False)
        self.temperatureSpin.setEnabled(True)
        self.updateInterSpin.setEnabled(True)

        self.openCamBtn.setEnabled(False)
        self.startAquBtn.setEnabled(True) 

    def __chooseDir(self):
        self.directory = QFileDialog.getExistingDirectory(self,
                "Choose directory",
                self.directory)
        self.dirPath.setText(self.directory)


    def __startCurrImageThr(self):
        if not self.aquireData:
            self.aquireData = True
            self.currImage_worker.start.emit()
            self.startAquBtn.setText('Stop aquisition')
            self.message.emit('Starting aqusition')
        else:
            self.__stopCurrImageThr()
            self.startAquBtn.setText('Start aquisition')
            self.message.emit('Stopping aqusition')
    def __stopCurrImageThr(self):
        self.aquireData = False
        #while(self.currPosThr.isRunning()):
        #    time.sleep(0.03)
    def __getCurrImage(self):
        #from scipy import mgrid
        #import numpy as np
        #X, Y = mgrid[-256:256, -1024:1025]
        i = self.updateInterSpin.value()
        while self.aquireData:
            # seconds over which to record a new image
            imageIntervall = self.updateInterSpin.value()
            # sleep for n seconds to check if intervall was changed
            sleepy = 1
            if i >= imageIntervall:
                # dummy image
                #z = np.exp(-0.5*(X**2+Y**2)/np.random.uniform(30000, 40000))*np.cos(0.1*X+0.1*Y)
                z = self.camera.getImage()
                timeStamp = datetime.datetime.now()
                self.cameraSettings = {
                        'temperature': self.camera.getTemperature(),
                        'exposure_time': self.exposureTimeSpin.value(),
                        'readout_speed': self.readoutSpeedCombo.currentText()
                        'time_stamp': timeStamp}
                self.newPlotData.emit(z, timeStamp)
                i = 0 # restart counter
            i += sleepy
            time.sleep(sleepy)

    def __setTemperature(self, temp):
        self.camera.setTemperture(temp)
        self.message.emit('Temperature set to {:d}°C'.format(temp))

    def __setCamParameter(self, param):
        self.camera.setCameraParameter(
                self.readoutSpeedCombo.currentIndex(), 
                self.exposureTimeSpin.value(), 
                0, 0)
        self.message.emit('Readout: {:s}, Exposure: {:d}, binningX: 0, binningY: 0'.format(self.readoutSpeedCombo.currentText(),
               self.exposureTimeSpin.value()))
Exemplo n.º 15
0
class MaestroUi(QSplitter):
    connected = Signal() # gets emitted if stage was sucessfully connected
    newPlotData = Signal(object)
    updateAvgTxt = Signal(object)
    def __init__(self, parent):
        #super(ObjectFT, self).__init__(Qt.Vertical, parent)
        super().__init__(parent)

        self.meter = None
        self.collectData = True # bool for data collection thread
        self.avgData = Queue() # need data for averaging and set for holding all
        self.measure = False
        self.runDataThr = True
        self.measureData = []
        self.startTime = None


        layoutWidget = QWidget()
        layout = QGridLayout()
        layoutWidget.setLayout(layout)

        ##############
        # gui elements
        self.ipEdit = QLineEdit()
        rx = QRegExp("^(([0-9]|[1-9][0-9]|1[0-9]{2}|2[0-4][0-9]|25[0-5]).){3}([0-9]|[1-9][0-9]|1[0-9]{2}|2[0-4][0-9]|25[0-5])$")
        self.ipEdit.setValidator(QRegExpValidator(rx))
        self.ipEdit.setText('127.0.0.1')
        self.portEdit = QLineEdit()
        self.portEdit.setValidator(QIntValidator(1, 65535, self))
        self.portEdit.setText('5000')
        self.connectBtn = QPushButton('Connect')
        self.avgSpin = QSpinBox()
        self.avgSpin.setValue(1)
        self.avgSpin.setRange(1, 10000)
        self.currValDisp = QLabel('0.0')
        self.startMeasBtn = QPushButton('Start aq')
        self.stopMeasBtn  = QPushButton('Stop aq')

        ##############
        # put layout together
        layout.addWidget(QLabel('IP Address:'), 0, 0)
        layout.addWidget(self.ipEdit, 1, 0)
        layout.addWidget(QLabel('Port:'), 0, 1)
        layout.addWidget(self.portEdit, 1, 1)
        layout.addWidget(self.connectBtn, 2, 1)
        layout.addWidget(QLabel('Averages'), 4, 0)
        layout.addWidget(self.avgSpin, 5, 0)
        layout.addWidget(self.currValDisp, 5, 1)
        layout.addWidget(self.startMeasBtn, 6, 0)
        layout.addWidget(self.stopMeasBtn, 6, 1)
        layout.setRowStretch(7, 10)
        self.addWidget(layoutWidget)

        ##############
        # Network stuff
        self.tcpClient = QtNetwork.QTcpSocket()
        self.tcpClient.readyRead.connect(self.__getSocketData)
        self.tcpClient.error.connect(lambda x: print(x))

        ##############
        # make button and stuff functional
        self.connectBtn.released.connect(self.connectMeter)
        self.avgSpin.valueChanged.connect(self.changeAverage)
        self.startMeasBtn.released.connect(self._startMeasure)
        self.stopMeasBtn.released.connect(self._stopMeasure)

        ##############
        # thread for getting data from socket
        self.updateAvgTxt.connect(self.__updateAvgTxt)
        self.dataAq_Thr = QThread()
        self.dataAq_Thr.start()
        self.dataAq_worker = GenericWorker(self.__getData)
        self.dataAq_worker.moveToThread(self.dataAq_Thr)


    def connectMeter(self):
        print('connected')
        self.tcpClient.connectToHost(self.ipEdit.text(), int(self.portEdit.text()))
        self.tcpClient.write('start\n'.encode())
        self.dataAq_worker.start.emit()

    def _startMeasure(self):
        self.measure = True
        self.measureData = [] # reinitialize measure data array
        time.sleep(0.1) # time to wait for first data to arrive
        self.startTime = datetime.now() # datetime object
        
    def _stopMeasure(self):
        self.measure = False

    #@Slot
    def __updateAvgTxt(self, text):
        '''
        update current value label
        '''
        self.currValDisp.setText(text)


    def changeAverage(self):
        shape = int(self.avgSpin.value())
        self.dispData = np.zeros(shape)
    
    def __getData(self):
        '''
        Function run in thread
        '''
        while self.runDataThr:
            tmpData = np.array(int(self.avgSpin.text())*[[datetime.now(), 0]])
            for i in range(len(tmpData)):
                tmpData[i] = self.avgData.get()
                if self.measure:
                    self.measureData.append(
                        (tmpData[i,0].isoformat().encode(),
                         (tmpData[i,0]-self.startTime).total_seconds(),
                         tmpData[i,1]))
            #print('mean', tmpData.mean())
            self.updateAvgTxt.emit(str(tmpData[:,1].mean()))
            if self.measure:
                self.newPlotData.emit(np.float_(np.asarray(self.measureData)[:,1:]))
        self.avgData.task_done()

    #@Slot()
    def __getSocketData(self):
        '''
        to be called if network buffer has more data
        push data to queue
        '''
        self.avgData.put([datetime.now(), float(self.tcpClient.readLine(1024).decode().rstrip())])

    def closeEvent(self, event):
        if self.tcpClient.isOpen():
            self.RunDataThr = False
            self.tcpClient.write('stop\n'.encode())
            time.sleep(0.1)
            self.tcpClient.close()
            print(self.tcpClient.isOpen())
        #if self.console is not None:
        #    self.console.exit_interpreter()
        event.accept()
Exemplo n.º 16
0
class CentralWidget(QSplitter):
    def __init__(self, parent):
        QSplitter.__init__(self, parent)

        self.name = 'subject'
        self.age = 26
        self.peakL = 559
        self.peakM = 530
        self.ref_LED = 10
        self.LED1 = 15
        self.LED2 = 13.9
        self.LED3 = 40.45
        self.L_OD = 0.35
        self.M_OD = 0.22

        self.setContentsMargins(10, 10, 10, 10)
        self.setOrientation(Qt.Vertical)
        
        line1 = QSplitter()
        line1.setOrientation(Qt.Horizontal)
        line2 = QSplitter()
        line2.setOrientation(Qt.Horizontal)
        line3 = QSplitter()
        line3.setOrientation(Qt.Horizontal)
        line4 = QSplitter()
        line4.setOrientation(Qt.Horizontal)
        line5 = QSplitter()
        line5.setOrientation(Qt.Horizontal)
        line6 = QSplitter()
        line6.setOrientation(Qt.Horizontal)
        line7 = QSplitter()
        line7.setOrientation(Qt.Horizontal)
        line8 = QSplitter()
        line8.setOrientation(Qt.Horizontal)

        self.txt1 = QLineEdit(str(self.name))
        self.txt1.setMaximumWidth(100)
        self.txt2 = QLineEdit(str(self.age))
        self.txt2.setMaximumWidth(100)
        self.txt3 = QLineEdit(str(self.peakL))
        self.txt3.setMaximumWidth(100)
        self.txt4 = QLineEdit(str(self.peakM))
        self.txt4.setMaximumWidth(100)
        self.txt5 = QLineEdit(str(self.ref_LED))
        self.txt5.setMaximumWidth(100)
        self.txt6 = QLineEdit()
        self.txt6.setMaximumWidth(100)
        self.txt7 = QLineEdit()
        self.txt7.setMaximumWidth(100)
        self.txt8 = QLineEdit()
        self.txt8.setMaximumWidth(100)

        label1 = QLabel('ID')
        label2 = QLabel('age')
        label3 = QLabel('peak L')
        label4 = QLabel('peak M')
        label5 = QLabel('ref LED')
        label6 = QLabel('LED1')
        label7 = QLabel('LED2')
        label8 = QLabel('LED3')

        line1.addWidget(label1)
        line2.addWidget(label2)
        line3.addWidget(label3)
        line4.addWidget(label4)
        line5.addWidget(label5)
        line6.addWidget(label6)
        line7.addWidget(label7)
        line8.addWidget(label8)

        line1.addWidget(self.txt1)
        line2.addWidget(self.txt2)
        line3.addWidget(self.txt3)
        line4.addWidget(self.txt4)
        line5.addWidget(self.txt5)
        line6.addWidget(self.txt6)
        line7.addWidget(self.txt7)
        line8.addWidget(self.txt8)

        self.load_button = QPushButton('load data')
        self.load_button.clicked.connect(self.load) 

        self.analyze_button = QPushButton('analyze')
        self.analyze_button.clicked.connect(self.analyze) 

        # add left side of the bottom panel
        left_side = QSplitter()
        left_side.setOrientation(Qt.Vertical)
        left_side.addWidget(self.load_button)
        left_side.addWidget(line1)
        left_side.addWidget(line2)
        left_side.addWidget(line3)
        left_side.addWidget(line4)
        left_side.addWidget(line5)
        left_side.addWidget(line6)
        left_side.addWidget(line7)
        left_side.addWidget(line8)
        left_side.addWidget(self.analyze_button)


        # set up right side of the bottom panel
        self.results = QListWidget(self)
        self.save_button = QPushButton('save', self.results)
        self.save_button.clicked.connect(self.save)  

        # add right side of the bottom panel
        right_side = QSplitter()
        right_side.setOrientation(Qt.Vertical)
        right_side.addWidget(self.results)
        right_side.addWidget(self.save_button)
        self.addWidget(right_side) 

        # add left and right side to bottom
        bottom = QSplitter()
        bottom.addWidget(left_side)
        bottom.addWidget(right_side)

        self.plots = CurveWidget(self, 
            xlabel='wavelength (nm)', ylabel='sensitivity')

        self.addWidget(self.plots)
        self.addWidget(bottom)

        self.show_data(PRINT=False)    

        self.setStretchFactor(0, 0)
        self.setStretchFactor(1, 1)
        self.setHandleWidth(10)
        self.setSizes([800, 1])

        self.parse_rc_file()

    def parse_rc_file(self):
        '''
        '''
        handle = open(APP_DIR + '\\lm_ratiorc.txt', 'r')
        params = json.load(handle)
        self.save_dir = params['SAVE_DIR']

    def analyze(self):
        '''
        '''
        success = self.get_input_values()
        if success:
            # analyze
            self.show_data()

    def get_input_values(self):
        '''
        '''
        # check that values in
        try:
            if len(str(self.txt1.displayText())) < 2:
                raise ValueError('No subject name')
            self.name = str(self.txt1.displayText())
            self.age = float(self.txt2.displayText())
            self.peakL = float(self.txt3.displayText())
            self.peakM = float(self.txt4.displayText())
            self.ref_LED = float(self.txt5.displayText())
            self.LED1 = float(self.txt6.displayText())
            self.LED2 = float(self.txt7.displayText())
            self.LED3 = float(self.txt8.displayText())
            return True

        except ValueError:
            message = []
            message.append('ERROR: Make sure values were entered \nproperly.')
            self.results.addItems(message) 
            return False

    def load(self):
        '''
        '''
        # Open a file finder. Load the csv file.
        name = QFileDialog.getOpenFileName()
        try:
            f = open(name, 'r')
            raw_dat = f.read()
            f.close()
            proceed = True
        except IOError:
            message = []
            message.append('Could not open file.')
            self.results.addItems(message) 
            proceed = False       

        if proceed:
            data = {}
            lines = raw_dat.split('\n')
            for line in lines:
                if line != '':
                    d = line.split(',')
                    array = []
                    for num in d[1:]:
                        if num != '':
                            array.append(num)
                    data[d[0]] = np.asarray(array, dtype=float)

            if 'name' in data:
                self.txt1.setText(str(data['name'][0]))
            else:
                self.txt1.setText('')
            if 'age' in data:
                self.txt2.setText(str(data['age'][0]))
            else:
                self.txt2.setText('')
            if 'L_peak' in data:
                self.txt3.setText(str(data['L_peak'][0]))
            else:
                self.txt3.setText('')
            if 'M_peak' in data:
                self.txt4.setText(str(data['M_peak'][0]))
            else:
                self.txt4.setText('')
            if 'ref' in data:    
                self.txt5.setText(str(data['ref'][0]))
            else:
                self.txt5.setText('')
            if 'LED1' in data:   
                self.txt6.setText(str(np.mean(data['LED1'])))
            else:
                self.txt6.setText('')
            if 'LED2' in data:
                self.txt7.setText(str(np.mean(data['LED2'])))
            else:
                self.txt7.setText('')
            if 'LED3' in data:
                self.txt8.setText(str(np.mean(data['LED3'])))
            else:
                self.txt8.setText('')


    def save(self):
        '''
        '''
        try:
            self.show_data(save_plot=True, save_data=True, PRINT=True)
            message = []
            message.append('Success! Plot and data saved.')
            self.results.addItems(message) 
        except:
            message = []
            message.append('ERROR! Plot and data  were not \nsaved.')
            self.results.addItems(message) 

    def show_data(self, save_plot=False, save_data=False, PRINT=True):
        '''
        '''
        LM = LMratio()
        LM.set_parameters(age=self.age, L_peak=self.peakL, 
            M_peak=self.peakM)
        LM.set_LED_rel_intensities(ref=self.ref_LED, 
            light1=self.LED1, 
            light2=self.LED2, 
            light3=self.LED3)
        l_frac, error = LM.find_LMratio(PRINT=False)
        l_percent = l_frac * 100

        _data = LM.return_data()
        data_x = _data['LED_peaks']
        data_y = np.log10(
            np.array([_data['ref'], _data[1], _data[2], _data[3]]))
        
        # get fit
        spectrum = LM.return_spectrum()
        cones = LM.return_cones()
        fit = np.log10(LM.return_fit())
        L_cones = np.log10(cones['L'])
        M_cones = np.log10(cones['M'])

        items = (make.curve(spectrum, L_cones, 'L cones', 
                    color='r', linewidth=2),
                make.curve(spectrum, M_cones, 'M cones',
                    color='g', linewidth=2),
                make.curve(spectrum, fit, 'fit',
                    color='k', linewidth=2),
                make.curve(data_x, data_y, linestyle='NoPen',
                    marker="Diamond", markersize=14, markerfacecolor='k')
                )
        self.plots.plot.del_all_items()
        for item in items:
            self.plots.plot.add_item(item)
        self.plots.plot.set_plot_limits(450, 670, -2, 0)
        self.plots.plot.replot()

        if PRINT:

            message = [self.name]
            message.append('L: ' + str(round(l_percent, 1)))
            message.append('M: ' + str(round(100 - l_percent, 2)))
            message.append('error: ' + str(round(error, 4)))
            self.results.clear()
            self.results.addItems(message) 

        if save_plot or save_data:
            directory = self.save_dir + self.name + '\\'
            if not os.path.exists(directory):
                os.makedirs(directory)

            trial = 1
            file_name = directory + self.name + '_' + str(trial)
            while os.path.exists(file_name + '.csv'):
                trial += 1
                file_name = directory + self.name + '_' + str(trial)

        if save_plot:
            LM.plot_lm_ratio(
                save_name=file_name, 
                save_plot=True, show_plot=False)

        if save_data:
            LM.save_data_and_params(file_name)

        del LM
Exemplo n.º 17
0
class Timer( QThread ):
    def __init__( self, parent ):
        QThread.__init__(self, parent)
        self.currsecond = 0
        self.asc = True
        self.initseconds = 0
        self.stopped = True

        self.toolbar_time = parent.addToolBar( 'Time' )
        self.toolbar_time.setMovable( False )
        self.toolbar_time.setObjectName('Time')
        self.timer = QLineEdit()
        self.timer.setStyleSheet("QLineEdit { font-size: 19px; font-family: Courier New; \
                                border-style: outset; border-radius: 10px; \
                                font-weight:bold; text-align:center}")
        self.timer.setFixedWidth( 80 )
        self.timer.setReadOnly( True )
        self.timer.setAlignment( Qt.AlignHCenter )

        left_spacer = QWidget()
        left_spacer.setSizePolicy( QSizePolicy.Expanding, QSizePolicy.Expanding )
        self.toolbar_time.addWidget( left_spacer )
        self.toolbar_time.addWidget( self.timer )

        self.initialize(0)

    def run( self ):
        self.stopped = False
        while not self.stopped:
            time.sleep(1)
            if self.asc is True:
                self.currsecond += 1
            else :
                if self.currsecond > 0:
                    self.currsecond -= 1
                else:
                    self.emit( SIGNAL( 'SessionStop' ) )
                    self.stop()
            self.update_timer_display( self.currsecond )

    def stop( self ):
        self.stopped = True

    def initialize( self, nbseconds ):
        self.currsecond = nbseconds
        self.initseconds = nbseconds
        self.update_timer_display( nbseconds )
        if nbseconds > 0:
            self.asc = False
        else:
            self.asc = True

    @staticmethod
    def _convertInMinutes( nbseconds ):
        minutes = nbseconds / 60
        seconds = nbseconds - minutes * 60
        return minutes, seconds

    def update_timer_display( self, nbseconds ):
        minutes, seconds = self._convertInMinutes( nbseconds )
        timer_string = "%02d:%02d" % ( minutes, seconds )
        self.timer.setText( timer_string )

    def getRunningTime( self ):
        """ Return the duration of the session.
        """
        if self.asc is False:
            totalsecs = self.initseconds - self.currsecond
        else:
            totalsecs = self.currsecond

        # minutes, seconds = self._convertInMinutes( totalsecs )
        return totalsecs
Exemplo n.º 18
0
    def __init__(self, parent, new_size, old_size, text="",
                 keep_original_size=False):
        QDialog.__init__(self, parent)
        
        intfunc = lambda tup: [int(val) for val in tup]
        if intfunc(new_size) == intfunc(old_size):
            self.keep_original_size = True
        else:
            self.keep_original_size = keep_original_size
        self.width, self.height = new_size
        self.old_width, self.old_height = old_size
        self.ratio = self.width/self.height

        layout = QVBoxLayout()
        self.setLayout(layout)
        
        formlayout = QFormLayout()
        layout.addLayout(formlayout)
        
        if text:
            label = QLabel(text)
            label.setAlignment(Qt.AlignHCenter)
            formlayout.addRow(label)
        
        self.w_edit = w_edit = QLineEdit(self)
        w_valid = QIntValidator(w_edit)
        w_valid.setBottom(1)
        w_edit.setValidator(w_valid)
                     
        self.h_edit = h_edit = QLineEdit(self)
        h_valid = QIntValidator(h_edit)
        h_valid.setBottom(1)
        h_edit.setValidator(h_valid)
        
        zbox = QCheckBox(_("Original size"), self)

        formlayout.addRow(_("Width (pixels)"), w_edit)
        formlayout.addRow(_("Height (pixels)"), h_edit)
        formlayout.addRow('', zbox)
        
        formlayout.addRow(_("Original size:"), QLabel("%d x %d" % old_size))
        self.z_label = QLabel()
        formlayout.addRow(_("Zoom factor:"), self.z_label)
        
        # Button box
        self.bbox = bbox = QDialogButtonBox(QDialogButtonBox.Ok|
                                            QDialogButtonBox.Cancel)
        bbox.accepted.connect(self.accept)
        bbox.rejected.connect(self.reject)
        layout.addWidget(bbox)

        self.w_edit.setText(str(self.width))
        self.h_edit.setText(str(self.height))
        self.update_widgets()
        
        self.setWindowTitle(_("Resize"))
        
        w_edit.textChanged.connect(self.width_changed)
        h_edit.textChanged.connect(self.height_changed)
        zbox.toggled.connect(self.toggled_no_zoom)
        zbox.setChecked(self.keep_original_size)
Exemplo n.º 19
0
Arquivo: fit.py Projeto: gyenney/Tools
class FitParam(object):
    def __init__(self,
                 name,
                 value,
                 min,
                 max,
                 logscale=False,
                 steps=5000,
                 format='%.3f',
                 size_offset=0,
                 unit=''):
        self.name = name
        self.value = value
        self.min = min
        self.max = max
        self.logscale = logscale
        self.steps = steps
        self.format = format
        self.unit = unit
        self.prefix_label = None
        self.lineedit = None
        self.unit_label = None
        self.slider = None
        self.button = None
        self._widgets = []
        self._size_offset = size_offset
        self._refresh_callback = None
        self.dataset = FitParamDataSet(title=_("Curve fitting parameter"))

    def copy(self):
        """Return a copy of this fitparam"""
        return self.__class__(self.name, self.value, self.min, self.max,
                              self.logscale, self.steps, self.format,
                              self._size_offset, self.unit)

    def create_widgets(self, parent, refresh_callback):
        self._refresh_callback = refresh_callback
        self.prefix_label = QLabel()
        font = self.prefix_label.font()
        font.setPointSize(font.pointSize() + self._size_offset)
        self.prefix_label.setFont(font)
        self.button = QPushButton()
        self.button.setIcon(get_icon('settings.png'))
        self.button.setToolTip(
            _("Edit '%s' fit parameter properties") % self.name)
        self.button.clicked.connect(lambda: self.edit_param(parent))
        self.lineedit = QLineEdit()
        self.lineedit.editingFinished.connect(self.line_editing_finished)
        self.unit_label = QLabel(self.unit)
        self.slider = QSlider()
        self.slider.setOrientation(Qt.Horizontal)
        self.slider.setRange(0, self.steps - 1)
        self.slider.valueChanged.connect(self.slider_value_changed)
        self.update(refresh=False)
        self.add_widgets([
            self.prefix_label, self.lineedit, self.unit_label, self.slider,
            self.button
        ])

    def add_widgets(self, widgets):
        self._widgets += widgets

    def get_widgets(self):
        return self._widgets

    def set_scale(self, state):
        self.logscale = state > 0
        self.update_slider_value()

    def set_text(self, fmt=None):
        style = "<span style=\'color: #444444\'><b>%s</b></span>"
        self.prefix_label.setText(style % self.name)
        if self.value is None:
            value_str = ''
        else:
            if fmt is None:
                fmt = self.format
            value_str = fmt % self.value
        self.lineedit.setText(value_str)
        self.lineedit.setDisabled(self.value == self.min
                                  and self.max == self.min)

    def line_editing_finished(self):
        try:
            self.value = float(self.lineedit.text())
        except ValueError:
            self.set_text()
        self.update_slider_value()
        self._refresh_callback()

    def slider_value_changed(self, int_value):
        if self.logscale:
            total_delta = np.log10(1 + self.max - self.min)
            self.value = self.min + 10**(total_delta * int_value /
                                         (self.steps - 1)) - 1
        else:
            total_delta = self.max - self.min
            self.value = self.min + total_delta * int_value / (self.steps - 1)
        self.set_text()
        self._refresh_callback()

    def update_slider_value(self):
        if (self.value is None or self.min is None or self.max is None):
            self.slider.setEnabled(False)
            if self.slider.parent() and self.slider.parent().isVisible():
                self.slider.show()
        elif self.value == self.min and self.max == self.min:
            self.slider.hide()
        else:
            self.slider.setEnabled(True)
            if self.slider.parent() and self.slider.parent().isVisible():
                self.slider.show()
            if self.logscale:
                value_delta = max([np.log10(1 + self.value - self.min), 0.])
                total_delta = np.log10(1 + self.max - self.min)
            else:
                value_delta = self.value - self.min
                total_delta = self.max - self.min
            intval = int(self.steps * value_delta / total_delta)
            self.slider.blockSignals(True)
            self.slider.setValue(intval)
            self.slider.blockSignals(False)

    def edit_param(self, parent):
        update_dataset(self.dataset, self)
        if self.dataset.edit(parent=parent):
            restore_dataset(self.dataset, self)
            if self.value > self.max:
                self.max = self.value
            if self.value < self.min:
                self.min = self.value
            self.update()

    def update(self, refresh=True):
        self.unit_label.setText(self.unit)
        self.slider.setRange(0, self.steps - 1)
        self.update_slider_value()
        self.set_text()
        if refresh:
            self._refresh_callback()
Exemplo n.º 20
0
    def __init__(self, parent):
        #super(ObjectFT, self).__init__(Qt.Vertical, parent)
        super().__init__(parent)

        self.stage = None
        self.offset = 0.  # offset from 0 where t0 is (mm)
        self.newOff = 0.
        self.stageRange = (0, 0)

        layoutWidget = QWidget()
        layout = QGridLayout()
        layoutWidget.setLayout(layout)

        # put layout together
        self.openStageBtn = QPushButton("Open stage")
        self.initStageBtn = QPushButton("Init stage")

        #absolute move
        #current position
        self.currentPos = QLabel('')
        #self.currentPos.setValidator(QDoubleValidator())
        #relative move (mm)
        self.deltaMove_mm = QLineEdit()
        self.deltaMove_mm.setText('0')
        self.deltaMove_mm.setValidator(QDoubleValidator())
        self.deltaMovePlus_mm = QPushButton('+')
        self.deltaMoveMinus_mm = QPushButton('-')
        #relative move (fs)
        self.deltaMove_fs = QLineEdit()
        self.deltaMovePlus_fs = QPushButton('+')
        self.deltaMoveMinus_fs = QPushButton('-')
        #velocity
        self.velocityLabel = QLabel('Velocity:')
        self.velocity = QSlider(Qt.Horizontal)
        self.velocity.setMinimum(0)
        self.velocity.setMaximum(
            2000)  # unit in µm; TODO: try to get max vel. from controller

        # scan from (fs)
        self.scanFrom = QLineEdit()
        self.scanFrom.setText('-100')
        self.scanFrom.setValidator(QIntValidator())
        # scan to (fs)
        self.scanTo = QLineEdit()
        self.scanTo.setText('100')
        self.scanTo.setValidator(QIntValidator())
        # scan stepsize (fs)
        self.scanStep = QLineEdit()
        self.scanStep.setText('10')
        self.scanStep.setValidator(QDoubleValidator())
        # center here button
        self.centerBtn = QPushButton('Center here')
        self.centerBtn.setToolTip('Center scan at current stage position')
        self.startScanBtn = QPushButton("Start scan")
        self.stopScanBtn = QPushButton("Stop scan")
        self.niceBtn = QPushButton('Make it nice')
        # spacer line
        hLine = QFrame()
        hLine.setFrameStyle(QFrame.HLine)
        hLine.setSizePolicy(QSizePolicy.Minimum, QSizePolicy.Expanding)

        # put layout together
        layout.addWidget(self.openStageBtn, 0, 0)
        layout.addWidget(self.initStageBtn, 0, 1)
        layout.addWidget(QLabel("Current pos (mm):"), 1, 0)
        layout.addWidget(self.currentPos, 1, 1)
        layout.addWidget(self.velocityLabel, 2, 0)
        layout.addWidget(self.velocity, 3, 0, 1, 2)
        layout.addWidget(QLabel('Move relative (mm)'), 4, 0)
        layout.addWidget(self.deltaMove_mm, 5, 0, 1, 2)
        layout.addWidget(self.deltaMoveMinus_mm, 6, 0)
        layout.addWidget(self.deltaMovePlus_mm, 6, 1)
        layout.addWidget(QLabel('Move relative (fs)'), 7, 0)
        layout.addWidget(self.deltaMove_fs, 8, 0, 1, 2)
        layout.addWidget(self.deltaMoveMinus_fs, 9, 0)
        layout.addWidget(self.deltaMovePlus_fs, 9, 1)

        layout.addWidget(hLine, 10, 0, 1, 2)
        layout.addWidget(QLabel('Scan from (fs)'), 11, 0)
        layout.addWidget(self.scanFrom, 11, 1)
        layout.addWidget(QLabel('Scan to (fs)'), 12, 0)
        layout.addWidget(self.scanTo, 12, 1)
        layout.addWidget(QLabel('Stepsize (fs)'), 13, 0)
        layout.addWidget(self.scanStep, 13, 1)
        layout.addWidget(self.startScanBtn, 14, 0)
        layout.addWidget(self.stopScanBtn, 14, 1)
        layout.addWidget(self.centerBtn, 15, 1)
        layout.addWidget(self.niceBtn, 16, 1)
        layout.setRowStretch(17, 10)
        layout.setColumnStretch(2, 10)

        self.addWidget(layoutWidget)

        # make button and stuff functional
        self.openStageBtn.released.connect(self.connectStage)
        self.initStageBtn.released.connect(self.initStage)
        self.scanFrom.returnPressed.connect(self._xAxeChanged)
        self.scanTo.returnPressed.connect(self._xAxeChanged)
        self.centerBtn.released.connect(self._centerHere)
        self.deltaMovePlus_mm.released.connect(
            lambda x=1: self.moveRel_mm(float(self.deltaMove_mm.text())))
        self.deltaMoveMinus_mm.released.connect(
            lambda x=-1: self.moveRel_mm(float(self.deltaMove_mm.text()), x))

        ################
        # thread for updating position
        #self.currPosThr = GenericThread(self.__getCurrPos)
        self.updateCurrPos.connect(self.__updateCurrPos)
        self.currPos_thread = QThread()  # create the QThread
        self.currPos_thread.start()

        # This causes my_worker.run() to eventually execute in my_thread:
        self.currPos_worker = GenericWorker(self.__getCurrPos)
        self.currPos_worker.moveToThread(self.currPos_thread)
Exemplo n.º 21
0
class PiStageUi(QSplitter):
    stageConnected = Signal(
    )  # gets emitted if stage was sucessfully connected
    stopScan = Signal()
    xAxeChanged = Signal(object, object)
    updateCurrPos = Signal(object)

    def __init__(self, parent):
        #super(ObjectFT, self).__init__(Qt.Vertical, parent)
        super().__init__(parent)

        self.stage = None
        self.offset = 0.  # offset from 0 where t0 is (mm)
        self.newOff = 0.
        self.stageRange = (0, 0)

        layoutWidget = QWidget()
        layout = QGridLayout()
        layoutWidget.setLayout(layout)

        # put layout together
        self.openStageBtn = QPushButton("Open stage")
        self.initStageBtn = QPushButton("Init stage")

        #absolute move
        #current position
        self.currentPos = QLabel('')
        #self.currentPos.setValidator(QDoubleValidator())
        #relative move (mm)
        self.deltaMove_mm = QLineEdit()
        self.deltaMove_mm.setText('0')
        self.deltaMove_mm.setValidator(QDoubleValidator())
        self.deltaMovePlus_mm = QPushButton('+')
        self.deltaMoveMinus_mm = QPushButton('-')
        #relative move (fs)
        self.deltaMove_fs = QLineEdit()
        self.deltaMovePlus_fs = QPushButton('+')
        self.deltaMoveMinus_fs = QPushButton('-')
        #velocity
        self.velocityLabel = QLabel('Velocity:')
        self.velocity = QSlider(Qt.Horizontal)
        self.velocity.setMinimum(0)
        self.velocity.setMaximum(
            2000)  # unit in µm; TODO: try to get max vel. from controller

        # scan from (fs)
        self.scanFrom = QLineEdit()
        self.scanFrom.setText('-100')
        self.scanFrom.setValidator(QIntValidator())
        # scan to (fs)
        self.scanTo = QLineEdit()
        self.scanTo.setText('100')
        self.scanTo.setValidator(QIntValidator())
        # scan stepsize (fs)
        self.scanStep = QLineEdit()
        self.scanStep.setText('10')
        self.scanStep.setValidator(QDoubleValidator())
        # center here button
        self.centerBtn = QPushButton('Center here')
        self.centerBtn.setToolTip('Center scan at current stage position')
        self.startScanBtn = QPushButton("Start scan")
        self.stopScanBtn = QPushButton("Stop scan")
        self.niceBtn = QPushButton('Make it nice')
        # spacer line
        hLine = QFrame()
        hLine.setFrameStyle(QFrame.HLine)
        hLine.setSizePolicy(QSizePolicy.Minimum, QSizePolicy.Expanding)

        # put layout together
        layout.addWidget(self.openStageBtn, 0, 0)
        layout.addWidget(self.initStageBtn, 0, 1)
        layout.addWidget(QLabel("Current pos (mm):"), 1, 0)
        layout.addWidget(self.currentPos, 1, 1)
        layout.addWidget(self.velocityLabel, 2, 0)
        layout.addWidget(self.velocity, 3, 0, 1, 2)
        layout.addWidget(QLabel('Move relative (mm)'), 4, 0)
        layout.addWidget(self.deltaMove_mm, 5, 0, 1, 2)
        layout.addWidget(self.deltaMoveMinus_mm, 6, 0)
        layout.addWidget(self.deltaMovePlus_mm, 6, 1)
        layout.addWidget(QLabel('Move relative (fs)'), 7, 0)
        layout.addWidget(self.deltaMove_fs, 8, 0, 1, 2)
        layout.addWidget(self.deltaMoveMinus_fs, 9, 0)
        layout.addWidget(self.deltaMovePlus_fs, 9, 1)

        layout.addWidget(hLine, 10, 0, 1, 2)
        layout.addWidget(QLabel('Scan from (fs)'), 11, 0)
        layout.addWidget(self.scanFrom, 11, 1)
        layout.addWidget(QLabel('Scan to (fs)'), 12, 0)
        layout.addWidget(self.scanTo, 12, 1)
        layout.addWidget(QLabel('Stepsize (fs)'), 13, 0)
        layout.addWidget(self.scanStep, 13, 1)
        layout.addWidget(self.startScanBtn, 14, 0)
        layout.addWidget(self.stopScanBtn, 14, 1)
        layout.addWidget(self.centerBtn, 15, 1)
        layout.addWidget(self.niceBtn, 16, 1)
        layout.setRowStretch(17, 10)
        layout.setColumnStretch(2, 10)

        self.addWidget(layoutWidget)

        # make button and stuff functional
        self.openStageBtn.released.connect(self.connectStage)
        self.initStageBtn.released.connect(self.initStage)
        self.scanFrom.returnPressed.connect(self._xAxeChanged)
        self.scanTo.returnPressed.connect(self._xAxeChanged)
        self.centerBtn.released.connect(self._centerHere)
        self.deltaMovePlus_mm.released.connect(
            lambda x=1: self.moveRel_mm(float(self.deltaMove_mm.text())))
        self.deltaMoveMinus_mm.released.connect(
            lambda x=-1: self.moveRel_mm(float(self.deltaMove_mm.text()), x))

        ################
        # thread for updating position
        #self.currPosThr = GenericThread(self.__getCurrPos)
        self.updateCurrPos.connect(self.__updateCurrPos)
        self.currPos_thread = QThread()  # create the QThread
        self.currPos_thread.start()

        # This causes my_worker.run() to eventually execute in my_thread:
        self.currPos_worker = GenericWorker(self.__getCurrPos)
        self.currPos_worker.moveToThread(self.currPos_thread)
        # my_worker.finished.connect(self.xxx)

        #self.threadPool.append(my_thread)
        #self.my_worker = my_worker

    def connectStage(self):
        gcs = GCSDevice()
        try:
            gcs.InterfaceSetupDlg()
            msg = QMessageBox()
            msg.setIcon(QMessageBox.Information)
            msg.setText(gcs.qIDN())
            msg.exec_()
            self.stage = gcs
            self.openStageBtn.setEnabled(False)
        except:
            msg = QMessageBox()
            msg.setIcon(QMessageBox.Critical)
            msg.setText('Could not connect stage')
            msg.exec_()

    def initStage(self):
        # TODO put this in thread and show egg clock
        if self.stage is not None:
            ## Create and display the splash screen
            #splash_pix = QPixmap('icons/piController.png')
            #splash = QSplashScreen(splash_pix, Qt.WindowStaysOnTopHint)
            #splash.setMask(splash_pix.mask())
            #splash.show()
            # TODO: give choice to select stage
            pitools.startup(self.stage, stages='M-112.1DG-NEW', refmode='FNL')
            #splash.close()
            # TODO: show dialog for waiting
            self.velocityLabel.setText('Velocity: {:f}mm/s'.format(
                self.stage.qVEL()['1']))
            self.velocity.setValue(int(1000 * self.stage.qVEL()['1']))
            self.stageConnected.emit()
            self._xAxeChanged()
            self.currentPos.setText('{:.7f}'.format(self.stage.qPOS()['1']))
            self.__startCurrPosThr()
            self.stageRange = (self.stage.qTMN()['1'], self.stage.qTMX()['1'])
            self.scanStep.validator().setBottom(0)
            self.initStageBtn.setEnabled(False)
        else:
            msg = QMessageBox()
            msg.setIcon(QMessageBox.Critical)
            msg.setText('No stage connected')
            msg.exec_()

    def gotoPos_mm(self, x):
        '''Move stage to absolute position in mm'''
        if self.stageRange[0] <= x <= self.stageRange[1]:
            self.stage.MOV(self.stage.axes, x)
            while not pitools.ontarget(self.stage, '1')['1']:
                time.sleep(0.05)
        else:
            print('Requested postition', x, 'outside of range',
                  self.stageRange)

    def gotoPos_fs(self, x):
        '''Move stage to absolute position in mm'''
        self.gotoPos_mm(self._calcAbsPos(x))

    def moveRel_mm(self, x=0, sign=1):
        '''Moves stage relative to current position'''
        # TODO raise message if outside of range
        currPos = float(self.currentPos.text())
        if self.stageRange[0] <= sign * x + currPos <= self.stageRange[1]:
            self.stage.MVR(self.stage.axes, sign * x)
        else:
            print('Requested postition', x, 'outside of range',
                  self.stageRange)

    def moveRel_fs(self, x=0, sign=1):
        '''Moves stage relative to current position; expexts fs'''
        # TODO raise message if outside of range
        self.moveRel_mm(self._calcAbsPos(x), sign)

    def _calcAbsPos(self, x):
        '''Calculate absolute position on stage from given femtosecond value
           gets x in fs and returns position mm'''
        return (x * fsDelay) + self.offset

    def getDelays_mm(self):
        '''expects fs and returns mm'''
        von = self._calcAbsPos(float(self.scanFrom.text()))
        bis = self._calcAbsPos(float(self.scanTo.text()))
        #stepSize = int(self.scanStep.text())
        stepSize = float(self.scanStep.text()) * fsDelay
        return np.linspace(von, bis, (np.abs(von) + bis) / stepSize)

    def getDelays_fs(self):
        '''expects fs and returns mm'''
        von = float(self.scanFrom.text())
        bis = float(self.scanTo.text())
        #stepSize = int(self.scanStep.text())
        stepSize = float(self.scanStep.text())
        return np.linspace(von, bis, (np.abs(von) + bis) / stepSize)

    def _xAxeChanged(self):
        self.xAxeChanged.emit(int(self.scanFrom.text()),
                              int(self.scanTo.text()))

    def setCenter(self):
        '''Slot which recieves the new center position
           in fs and sets offset in mm
        '''
        if self.newOff != 0:
            self.offset += (self.newOff * fsDelay)
            print('offset', self.offset, self.newOff)
            self.newOff = 0.

    def newOffset(self, newOffset):
        self.newOff = newOffset

    def _centerHere(self):
        self.offset = self.stage.qPOS()['1']

    def __startCurrPosThr(self):
        self.stopCurrPosThr = False
        #self.currPosThr.start()
        self.currPos_worker.start.emit()

    def __stopCurrPosThr(self):
        self.stopCurrPosThr = True
        while (self.currPosThr.isRunning()):
            time.sleep(0.03)

    def __getCurrPos(self):
        oldPos = self.stage.qPOS()['1']
        while not self.stopCurrPosThr:
            newPos = self.stage.qPOS()['1']
            if oldPos != newPos:
                oldPos = newPos
                self.updateCurrPos.emit(newPos)
            time.sleep(0.5)

    def __updateCurrPos(self, newPos):
        self.currentPos.setText('{:.7f}'.format(newPos))