Esempio n. 1
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    def chooseVariables(self):
        """Opens a dialog asking user to select columns from a data File that has
        been selected. THese are then returned as a string suitable for Y cols input"""
        columns = self.physics.variables.keys()
        columns.sort()
        values = zip(range(0, len(columns)), columns)

        checklist_group = traitsui.Group(
            '10',  # insert vertical space
            traitsui.Label('Select the additional variables you wish to log'),
            traitsui.UItem('columns',
                           style='custom',
                           editor=traitsui.CheckListEditor(values=values,
                                                           cols=6)),
            traitsui.UItem('selectAllButton'))

        traits_view = traitsui.View(checklist_group,
                                    title='CheckListEditor',
                                    buttons=['OK'],
                                    resizable=True,
                                    kind='livemodal')

        col = ColumnEditor(numberOfColumns=len(columns))
        try:
            col.columns = [
                columns.index(varName) for varName in self.xmlLogVariables
            ]
        except Exception as e:
            logger.error(
                "couldn't selected correct variable names. Returning empty selection"
            )
            logger.error("%s " % e.message)
            col.columns = []
        col.edit_traits(view=traits_view)
        logger.debug("value of columns selected = %s ", col.columns)
        logger.debug("value of columns selected = %s ",
                     [columns[i] for i in col.columns])
        return [columns[i] for i in col.columns]
Esempio n. 2
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class ADC(traits.HasTraits):

    refreshTime = traits.Float(
        0.1, desc="how often to update the frequencies in seconds")
    logFile = traits.File
    rpiADCLogFolder = traits.String
    averageN = traits.Int(100)
    VMax = traits.Enum(3.3, 5.0)
    channelList = traits.List(
        [1, 3, 5, 6],
        desc="list of channels to show frequencies for and query")
    channelValues = [(0, 'Ch 0'), (1, 'Ch 1'), (2, 'Ch 2'), (3, 'Ch 3'),
                     (4, 'Ch 4'), (5, 'Ch 5'), (6, 'Ch 6'), (7, 'Ch 7')]
    #THIS ONLY WORKS IF PyHWI can be found! it is in the python path manager for lab-Monitoring-0
    connection = rpiADCClient.Connection()
    #if there are problems check the server is running on 192.168.0.111
    icon_trait = pyface.image_resource.ImageResource('icons/wavemeter.png')
    #oscilloscope = None

    currentLocalTime = time.localtime()
    currentYear = currentLocalTime.tm_year
    currentMonth = currentLocalTime.tm_mon
    currentDay = currentLocalTime.tm_mday

    channel0 = ADCChannel(channelNumber=0,
                          connection=connection,
                          channelName="Na Cavity Lock",
                          channelMessageHigh="Na Cavity Locked",
                          channelMessageLow="Na Cavity Out of Lock",
                          criticalValue=1.5,
                          highIsGood=True,
                          highSoundFile="NaLocked.wav",
                          lowSoundFile="NaOutOfLock.wav")

    channel1 = ADCChannel(channelNumber=1,
                          connection=connection,
                          channelName="Li MOT Fluorescence",
                          channelMessageHigh="MOT Loading",
                          channelMessageLow="No MOT",
                          criticalValue=0.1)
    channel2 = ADCChannel(
        channelNumber=2,
        connection=connection,
        channelName="Li MOT Power (stable)")  #changed by Martin
    channel3 = ADCChannel(channelNumber=3,
                          connection=connection,
                          channelName="Li MOT (unstable)")
    channel4 = ADCChannel(channelNumber=4,
                          connection=connection,
                          channelName="Na MOT Power (stable)")
    channel5 = ADCChannel(channelNumber=5,
                          connection=connection,
                          channelName="Na MOT Flourescence")
    channel6 = ADCChannel(channelNumber=6,
                          connection=connection,
                          channelName="ZS light Power")
    channel7 = ADCChannel(channelNumber=7,
                          connection=connection,
                          channelName="disconnected")

    channels = {
        0: channel0,
        1: channel1,
        2: channel2,
        3: channel3,
        4: channel4,
        5: channel5,
        6: channel6,
        7: channel7
    }

    def __init__(self, **traitsDict):
        """Called when object initialises. Starts timer etc. """
        print "Instantiating GUI.."
        super(ADC, self).__init__(**traitsDict)
        self.connection.connect()
        self.oscilloscope = Oscilloscope(connection=self.connection,
                                         resolution=self.refreshTime,
                                         visibleChannels=self.channelList)
        self.start_timer()

    def start_timer(self):
        """Called in init if user selected live update mode, otherwise called from menu action.
        Every self.wizard.updateRateSeconds, self._refresh_data_action will be called"""
        print "Timer Object Started. Will update ADC Information every %s seconds" % self.refreshTime
        self.timer = Timer(
            float(self.refreshTime) * 1000, self._refresh_Visible_channels)

    def _refreshTime_changed(self):
        self.timer.setInterval(float(self.refreshTime) * 1000)
        print "will update ADC every %s seconds" % (float(self.refreshTime))
        self.oscilloscope.resolution = self.refreshTime  #use refresh time to set resolution of oscilloscope

    def _logFile_changed(self):
        self._create_log_file()

    def _channelList_changed(self):
        """push changes to visible channels in oscilloscope """
        self.oscilloscope.visibleChannels = self.channelList

    def _logFile_default(self):
        """default log file has date stamp. log file is changed once a day """
        print "choosing default log file"
        return os.path.join(
            self.rpiADCLogFolder,
            time.strftime("rpiADC-%Y-%m-%d.csv", self.currentLocalTime))

    def getGroupFolder(self):
        """returns the location of the group folder. supports both
         linux and windows. assumes it is mounted to /media/ursa/AQOGroupFolder
         for linux"""
        if platform.system() == "Windows":
            groupFolder = os.path.join("\\\\ursa", "AQOGroupFolder")
        if platform.system() == "Linux":
            groupFolder = os.path.join("/media", "ursa", "AQOGroupFolder")
        return groupFolder

    def _rpiADCLogFolder_default(self):
        return os.path.join(self.getGroupFolder(), "Experiment Humphry",
                            "Experiment Control And Software", "rpiADC",
                            "data")

    def _create_log_file(self):
        if not os.path.exists(os.path.join(self.rpiADCLogFolder,
                                           self.logFile)):
            with open(self.logFile, 'a+') as csvFile:
                csvWriter = csv.writer(csvFile)
                csvWriter.writerow([
                    "epochSeconds", "Channel 0", "Channel 1", "Channel 2",
                    "Channel 3", "Channel 4", "Channel 5", "Channel 6",
                    "Channel 7"
                ])

    def checkDateForFileName(self):
        """gets current date and time and checks if we should change file name
        if we should it creates the new file and the name"""
        #self.currentLocalTime was already changed in log Temperatures
        if self.currentLocalTime.tm_mday != self.currentDay:
            #the day has changed we should start a new log file!
            self.logFile = self._logFile_default()
            self._create_log_file()

    def _log_channels(self):
        self.currentLocalTime = time.localtime()
        self.checkDateForFileName()
        self.currentMonth = self.currentLocalTime.tm_mon
        self.currentDay = self.currentLocalTime.tm_mday

        if not os.path.exists(os.path.join(self.rpiADCLogFolder,
                                           self.logFile)):
            self._create_log_file()

        voltages = [self.channels[i]._voltage_get() for i in range(0, 8)]
        with open(self.logFile, 'a+') as csvFile:
            csvWriter = csv.writer(csvFile)
            csvWriter.writerow([time.time()] + voltages)

    def _refresh_Visible_channels(self):
        self.connection.getResults()  #updates dictionary in connection object
        for channelNumber in self.channelList:
            channel = self.channels[channelNumber]
            channel._voltage_update()
        self.oscilloscope.updateArrays()
        self.oscilloscope.updateArrayPlotData()
        self._log_channels()

    settingsGroup = traitsui.VGroup(
        traitsui.Item("logFile", label="Log File"),
        traitsui.HGroup(
            traitsui.Item('refreshTime', label='refreshTime'),
            traitsui.Item(
                'averageN',
                label='averaging Number',
                tooltip=
                "Number of measurements taken and averaged for value shown"),
            traitsui.Item('VMax',
                          label='Maximum Voltage Setting',
                          tooltip="Whether the box is set to 3.3V or 5V max")),
    )

    selectionGroup = traitsui.Group(
        traitsui.Item('channelList',
                      editor=traitsui.CheckListEditor(values=channelValues,
                                                      cols=4),
                      style='custom',
                      label='Show'))

    groupLeft = traitsui.VGroup(
        traitsui.Item('channel0',
                      editor=traitsui.InstanceEditor(),
                      style='custom',
                      show_label=False,
                      visible_when="(0 in channelList)"),
        traitsui.Item('channel1',
                      editor=traitsui.InstanceEditor(),
                      style='custom',
                      show_label=False,
                      visible_when="(1 in channelList)"),
        traitsui.Item('channel2',
                      editor=traitsui.InstanceEditor(),
                      style='custom',
                      show_label=False,
                      visible_when="(2 in channelList)"),
        traitsui.Item('channel3',
                      editor=traitsui.InstanceEditor(),
                      style='custom',
                      show_label=False,
                      visible_when="(3 in channelList)"))

    groupRight = traitsui.VGroup(
        traitsui.Item('channel4',
                      editor=traitsui.InstanceEditor(),
                      style='custom',
                      show_label=False,
                      visible_when="(4 in channelList)"),
        traitsui.Item('channel5',
                      editor=traitsui.InstanceEditor(),
                      style='custom',
                      show_label=False,
                      visible_when="(5 in channelList)"),
        traitsui.Item('channel6',
                      editor=traitsui.InstanceEditor(),
                      style='custom',
                      show_label=False,
                      visible_when="(6 in channelList)"),
        traitsui.Item('channel7',
                      editor=traitsui.InstanceEditor(),
                      style='custom',
                      show_label=False,
                      visible_when="(7 in channelList)"))

    groupOscilloscope = traitsui.Group(
        traitsui.Item('oscilloscope',
                      editor=traitsui.InstanceEditor(),
                      style='custom',
                      show_label=False))

    groupAll = traitsui.VGroup(
        settingsGroup, selectionGroup,
        traitsui.VSplit(traitsui.HGroup(groupLeft, groupRight),
                        groupOscilloscope))

    traits_view = traitsui.View(groupAll,
                                resizable=True,
                                title="ADC Monitor",
                                handler=ADCHandler(),
                                icon=icon_trait)
Esempio n. 3
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                       style='custom'),
        title='Conjoint warning',
        height=300,
        width=600,
        resizable=True,
        buttons=[_traitsui.OKButton],
    )


selection_view = _traitsui.Group(
    _traitsui.Group(
        _traitsui.Group(
            _traitsui.Label('Design:'),
            _traitsui.Item(
                'controller.selected_design',
                editor=_traitsui.CheckListEditor(
                    name='controller.available_design_sets'),
                style='simple',
                show_label=False,
            ),
            _traitsui.Label('Variables:'),
            _traitsui.Item(
                'controller.sel_design_var',
                editor=_traitsui.CheckListEditor(
                    name='controller.design_vars'),
                style='custom',
                show_label=False,
            ),
            show_border=True,
        ),
        _traitsui.Group(
            _traitsui.Label('Consumer characteristics:'),
Esempio n. 4
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    def _show_missing_warning(self):
        dlg = ErrorMessage()
        dlg.err_msg = 'This matrix has missing values'
        dlg.err_val = (
            "At the current version of ConsumerCheck PCA does not handle missing values. There are three options to work around this problem:\n"
            "  1. Impute the missing values with the imputation method of your choice outside ConsumerCheck and re-import the data\n"
            "  2. Remove the column with the missing values and re-import the data\n"
            "  3. Remove the row with the missing values and re-import the data"
        )
        dlg.edit_traits(parent=self.win_handle, kind='modal')


selection_view = _traitsui.Group(
    _traitsui.Item(
        'controller.selected_ds',
        editor=_traitsui.CheckListEditor(name='controller.available_ds'),
        style='custom',
        show_label=False,
        width=200,
        height=200,
    ),
    label='Select data set',
    show_border=True,
)

pca_plugin_view = make_plugin_view('Pca', pca_nodes, selection_view, pca_view)

if __name__ == '__main__':
    print("PCA GUI test start")
    from tests.conftest import iris_ds, synth_dsc, zero_var_ds
    one_branch = False
Esempio n. 5
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class ComponentFit(SpanSelectorInSignal1D):
    fit = t.Button()
    only_current = t.List(t.Bool(True))

    view = tu.View(
        tu.Item('fit', show_label=False),
        tu.Item('only_current',
                show_label=False,
                style='custom',
                editor=tu.CheckListEditor(values=[(True, 'Only current')])),
        buttons=[OurCloseButton],
        title='Fit single component',
        handler=SpanSelectorInSignal1DHandler,
    )

    def __init__(self,
                 model,
                 component,
                 signal_range=None,
                 estimate_parameters=True,
                 fit_independent=False,
                 only_current=True,
                 **kwargs):
        if model.signal.axes_manager.signal_dimension != 1:
            raise SignalDimensionError(
                model.signal.axes_manager.signal_dimension, 1)

        self.signal = model.signal
        self.axis = self.signal.axes_manager.signal_axes[0]
        self.span_selector = None
        self.only_current = [True] if only_current else []  # CheckListEditor
        self.model = model
        self.component = component
        self.signal_range = signal_range
        self.estimate_parameters = estimate_parameters
        self.fit_independent = fit_independent
        self.fit_kwargs = kwargs
        if signal_range == "interactive":
            if not hasattr(self.model, '_plot'):
                self.model.plot()
            elif self.model._plot is None:
                self.model.plot()
            elif self.model._plot.is_active() is False:
                self.model.plot()
            self.span_selector_switch(on=True)

    def _fit_fired(self):
        if (self.signal_range != "interactive"
                and self.signal_range is not None):
            self.model.set_signal_range(*self.signal_range)
        elif self.signal_range == "interactive":
            self.model.set_signal_range(self.ss_left_value,
                                        self.ss_right_value)

        # Backup "free state" of the parameters and fix all but those
        # of the chosen component
        if self.fit_independent:
            active_state = []
            for component_ in self.model:
                active_state.append(component_.active)
                if component_ is not self.component:
                    component_.active = False
                else:
                    component_.active = True
        else:
            free_state = []
            for component_ in self.model:
                for parameter in component_.parameters:
                    free_state.append(parameter.free)
                    if component_ is not self.component:
                        parameter.free = False

        # Setting reasonable initial value for parameters through
        # the components estimate_parameters function (if it has one)
        only_current = len(self.only_current) > 0  # CheckListEditor
        if self.estimate_parameters:
            if hasattr(self.component, 'estimate_parameters'):
                if (self.signal_range != "interactive"
                        and self.signal_range is not None):
                    self.component.estimate_parameters(
                        self.signal,
                        self.signal_range[0],
                        self.signal_range[1],
                        only_current=only_current)
                elif self.signal_range == "interactive":
                    self.component.estimate_parameters(
                        self.signal,
                        self.ss_left_value,
                        self.ss_right_value,
                        only_current=only_current)

        if only_current:
            self.model.fit(**self.fit_kwargs)
        else:
            self.model.multifit(**self.fit_kwargs)

        # Restore the signal range
        if self.signal_range is not None:
            self.model.channel_switches = (
                self.model.backup_channel_switches.copy())

        self.model.update_plot()

        if self.fit_independent:
            for component_ in self.model:
                component_.active = active_state.pop(0)
        else:
            # Restore the "free state" of the components
            for component_ in self.model:
                for parameter in component_.parameters:
                    parameter.free = free_state.pop(0)

    def apply(self):
        self._fit_fired()
Esempio n. 6
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        view = func(res)
        loop = owner.plots_act
        owner.calcc.open_window(view, loop, res)
    elif isinstance(owner, IndDiffController):
        func = getattr(owner, pfn)
        func()


no_view = _traitsui.View()

ind_diff_view = _traitsui.View(
    _traitsui.Group(
        _traitsui.Group(
            _traitsui.Item(
                'dummify_variables',
                editor=_traitsui.CheckListEditor(name='consumer_variables'),
                style='custom',
                show_label=False),
            label="Dummify consumer characteristics used in PLSR",
        ),
        _traitsui.Group(
            _traitsui.Item('selected_liking_pc',
                           editor=_traitsui.CheckListEditor(name='n_Y_pc'),
                           style='custom',
                           show_label=False),
            label="Principal components of consumer liking used in PLSR",
        ),
        _traitsui.Item('ev_export_dummified', show_label=False),
        label="Settings for 'Study idividual differences' models",
        show_border=True,
    ),