Beispiel #1
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 def setup_widget_layout(self):
     vlayout = QVBoxLayout(self)
     vlayout.addWidget(self.toolbar)
     vlayout.addLayout(self.plot_layout)
     self.setLayout(vlayout)
     if self.edit:
         self.button_layout = QHBoxLayout()
         self.install_button_layout()
         vlayout.addLayout(self.button_layout)
Beispiel #2
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class CurveDialog(QDialog, CurveWidgetMixin):
    """
    Construct a CurveDialog object: plotting dialog box with integrated 
    plot manager
    
        * wintitle: window title
        * icon: window icon
        * edit: editable state
        * toolbar: show/hide toolbar
        * options: options sent to the :py:class:`plotpy.curve.CurvePlot` object
          (dictionary)
        * parent: parent widget
        * panels (optional): additionnal panels (list, tuple)
    """
    def __init__(self, wintitle="plotpy plot", icon="plotpy.svg", edit=False,
                 toolbar=False, options=None, parent=None, panels=None):
        if not PYQT5:
            QDialog.__init__(self, parent)
        self.edit = edit
        self.button_box = None
        self.button_layout = None
        if PYQT5:
            super(CurveDialog, self).__init__(parent, wintitle=wintitle,
                    icon=icon, toolbar=toolbar, options=options, panels=panels)
        else:
            CurveWidgetMixin.__init__(self, wintitle=wintitle, icon=icon, 
                                      toolbar=toolbar, options=options,
                                      panels=panels)
        self.setWindowFlags(Qt.Window)
        
    def setup_widget_layout(self):
        vlayout = QVBoxLayout(self)
        vlayout.addWidget(self.toolbar)
        vlayout.addLayout(self.plot_layout)
        self.setLayout(vlayout)
        if self.edit:
            self.button_layout = QHBoxLayout()
            self.install_button_layout()
            vlayout.addLayout(self.button_layout)
        
    def install_button_layout(self):
        """
        Install standard buttons (OK, Cancel) in dialog button box layout 
        (:py:attr:`plotpy.plot.CurveDialog.button_layout`)
        
        This method may be overriden to customize the button box
        """
        bbox = QDialogButtonBox(QDialogButtonBox.Ok | QDialogButtonBox.Cancel)
        bbox.accepted.connect(self.accept)
        bbox.rejected.connect(self.reject)
        self.button_layout.addWidget(bbox)
        self.button_box = bbox
Beispiel #3
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    def install_button_layout(self):
        bbox = QDialogButtonBox(QDialogButtonBox.Ok | QDialogButtonBox.Cancel)
        bbox.accepted.connect(self.accept)
        bbox.rejected.connect(self.reject)
        self.button_list += [bbox.button(QDialogButtonBox.Ok)]

        self.button_layout = QHBoxLayout()
        self.button_layout.addStretch()
        self.button_layout.addWidget(bbox)

        vlayout = self.layout()
        vlayout.addSpacing(10)
        vlayout.addLayout(self.button_layout)
Beispiel #4
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class FitDialog(QDialog, FitWidgetMixin):
    def __init__(self,
                 wintitle=None,
                 icon="plotpy.svg",
                 edit=True,
                 toolbar=False,
                 options=None,
                 parent=None,
                 panels=None,
                 param_cols=1,
                 legend_anchor='TR',
                 auto_fit=False):
        if not PYQT5:
            QDialog.__init__(self, parent)
        self.edit = edit
        self.button_layout = None
        if PYQT5:
            super(FitDialog, self).__init__(parent,
                                            wintitle=wintitle,
                                            icon=icon,
                                            toolbar=toolbar,
                                            options=options,
                                            panels=panels,
                                            param_cols=param_cols,
                                            legend_anchor=legend_anchor,
                                            auto_fit=auto_fit)
        else:
            FitWidgetMixin.__init__(self, wintitle, icon, toolbar, options,
                                    panels, param_cols, legend_anchor,
                                    auto_fit)
        self.setWindowFlags(Qt.Window)

    def setup_widget_layout(self):
        FitWidgetMixin.setup_widget_layout(self)
        if self.edit:
            self.install_button_layout()

    def install_button_layout(self):
        bbox = QDialogButtonBox(QDialogButtonBox.Ok | QDialogButtonBox.Cancel)
        bbox.accepted.connect(self.accept)
        bbox.rejected.connect(self.reject)
        self.button_list += [bbox.button(QDialogButtonBox.Ok)]

        self.button_layout = QHBoxLayout()
        self.button_layout.addStretch()
        self.button_layout.addWidget(bbox)

        vlayout = self.layout()
        vlayout.addSpacing(10)
        vlayout.addLayout(self.button_layout)
Beispiel #5
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def get_image_layout(imagename, text="", tooltip="", alignment=Qt.AlignLeft):
    """
    Construct a QHBoxLayout including image from the file with specified name,
    left-aligned text [with specified tooltip]
    Return (layout, label)
    """
    layout = QHBoxLayout()
    if alignment in (Qt.AlignCenter, Qt.AlignRight):
        layout.addStretch()
    layout.addWidget(get_image_label(imagename))
    label = QLabel(text)
    label.setToolTip(tooltip)
    layout.addWidget(label)
    if alignment in (Qt.AlignCenter, Qt.AlignLeft):
        layout.addStretch()
    return (layout, label)
Beispiel #6
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    def setup_widget_layout(self):
        self.fit_layout = QHBoxLayout()
        self.params_layout = QGridLayout()
        params_group = create_groupbox(self,
                                       _("Fit parameters"),
                                       layout=self.params_layout)
        if self.auto_fit_enabled:
            auto_group = self.create_autofit_group()
            self.fit_layout.addWidget(auto_group)
        self.fit_layout.addWidget(params_group)
        self.plot_layout.addLayout(self.fit_layout, 1, 0)

        vlayout = QVBoxLayout(self)
        vlayout.addWidget(self.toolbar)
        vlayout.addLayout(self.plot_layout)
        self.setLayout(vlayout)
Beispiel #7
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 def setup_widget_layout(self):
     vlayout = QVBoxLayout(self)
     vlayout.addWidget(self.toolbar)
     vlayout.addLayout(self.plot_layout)
     self.setLayout(vlayout)
     if self.edit:
         self.button_layout = QHBoxLayout()
         self.install_button_layout()
         vlayout.addLayout(self.button_layout)
Beispiel #8
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    def __init__(self, parent=None):
        super(ContrastAdjustment, self).__init__(parent)
        
        self.local_manager = None # local manager for the histogram plot
        self.manager = None # manager for the associated image plot
        
        # Storing min/max markers for each active image
        self.min_markers = {}
        self.max_markers = {}
        
        # Select point tools
        self.min_select_tool = None
        self.max_select_tool = None
        
        style = "<span style=\'color: #444444\'><b>%s</b></span>"
        layout, _label = get_image_layout(self.PANEL_ICON,
                                          style % self.PANEL_TITLE,
                                          alignment=Qt.AlignCenter)
        layout.setAlignment(Qt.AlignCenter)
        vlayout = QVBoxLayout()
        vlayout.addLayout(layout)
        self.local_manager = PlotManager(self)
        self.histogram = LevelsHistogram(parent)
        vlayout.addWidget(self.histogram)
        self.local_manager.add_plot(self.histogram)
        hlayout = QHBoxLayout()
        self.setLayout(hlayout)
        hlayout.addLayout(vlayout)
        
        self.toolbar = toolbar = QToolBar(self)
        toolbar.setOrientation(Qt.Vertical)
#        toolbar.setToolButtonStyle(Qt.ToolButtonTextBesideIcon)
        hlayout.addWidget(toolbar)
        
        # Add standard plot-related tools to the local manager
        lman = self.local_manager
        lman.add_tool(SelectTool)
        lman.add_tool(BasePlotMenuTool, "item")
        lman.add_tool(BasePlotMenuTool, "axes")
        lman.add_tool(BasePlotMenuTool, "grid")
        lman.add_tool(AntiAliasingTool)
        lman.get_default_tool().activate()
        
        self.outliers_param = EliminateOutliersParam(self.PANEL_TITLE)
Beispiel #9
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def get_image_layout(imagename, text="", tooltip="", alignment=Qt.AlignLeft):
    """
    Construct a QHBoxLayout including image from the file with specified name,
    left-aligned text [with specified tooltip]
    Return (layout, label)
    """
    layout = QHBoxLayout()
    if alignment in (Qt.AlignCenter, Qt.AlignRight):
        layout.addStretch()
    layout.addWidget(get_image_label(imagename))
    label = QLabel(text)
    label.setToolTip(tooltip)
    layout.addWidget(label)
    if alignment in (Qt.AlignCenter, Qt.AlignLeft):
        layout.addStretch()
    return (layout, label)    
Beispiel #10
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    def __init__(self):
        QMainWindow.__init__(self)
        self.setWindowTitle("Signal filtering 2 (plotpy)")
        self.setWindowIcon(get_icon('plotpy.svg'))

        hlayout = QHBoxLayout()
        central_widget = QWidget(self)
        central_widget.setLayout(hlayout)
        self.setCentralWidget(central_widget)
        #---plotpy plot manager
        self.manager = PlotManager(self)
Beispiel #11
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 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'))
Beispiel #12
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    def install_button_layout(self):        
        bbox = QDialogButtonBox(QDialogButtonBox.Ok | QDialogButtonBox.Cancel)
        bbox.accepted.connect(self.accept)
        bbox.rejected.connect(self.reject)
        self.button_list += [bbox.button(QDialogButtonBox.Ok)]

        self.button_layout = QHBoxLayout()
        self.button_layout.addStretch()
        self.button_layout.addWidget(bbox)
        
        vlayout = self.layout()
        vlayout.addSpacing(10)
        vlayout.addLayout(self.button_layout)
Beispiel #13
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class FitDialog(QDialog, FitWidgetMixin):
    def __init__(self, wintitle=None, icon="plotpy.svg", edit=True,
                 toolbar=False, options=None, parent=None, panels=None,
                 param_cols=1, legend_anchor='TR', auto_fit=False):
        if not PYQT5:
            QDialog.__init__(self, parent)
        self.edit = edit
        self.button_layout = None
        if PYQT5:
            super(FitDialog, self).__init__(parent, wintitle=wintitle,
                    icon=icon, toolbar=toolbar, options=options, panels=panels,
                    param_cols=param_cols, legend_anchor=legend_anchor,
                    auto_fit=auto_fit)
        else:
            FitWidgetMixin.__init__(self, wintitle, icon, toolbar, options,
                                    panels, param_cols, legend_anchor,
                                    auto_fit)
        self.setWindowFlags(Qt.Window)
        
    def setup_widget_layout(self):
        FitWidgetMixin.setup_widget_layout(self)
        if self.edit:
            self.install_button_layout()
        
    def install_button_layout(self):        
        bbox = QDialogButtonBox(QDialogButtonBox.Ok | QDialogButtonBox.Cancel)
        bbox.accepted.connect(self.accept)
        bbox.rejected.connect(self.reject)
        self.button_list += [bbox.button(QDialogButtonBox.Ok)]

        self.button_layout = QHBoxLayout()
        self.button_layout.addStretch()
        self.button_layout.addWidget(bbox)
        
        vlayout = self.layout()
        vlayout.addSpacing(10)
        vlayout.addLayout(self.button_layout)
Beispiel #14
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 def setup_widget_layout(self):
     self.fit_layout = QHBoxLayout()
     self.params_layout = QGridLayout()
     params_group = create_groupbox(self, _("Fit parameters"),
                                    layout=self.params_layout)
     if self.auto_fit_enabled:
         auto_group = self.create_autofit_group()
         self.fit_layout.addWidget(auto_group)
     self.fit_layout.addWidget(params_group)
     self.plot_layout.addLayout(self.fit_layout, 1, 0)
     
     vlayout = QVBoxLayout(self)
     vlayout.addWidget(self.toolbar)
     vlayout.addLayout(self.plot_layout)
     self.setLayout(vlayout)
Beispiel #15
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    def __init__(self, parent, options=None):
        QWidget.__init__(self, parent=parent)

        if options is None:
            options = {}
        self.imagewidget = ImageWidget(self, **options)
        self.imagewidget.register_all_image_tools()

        hlayout = QHBoxLayout()
        self.add_buttons_to_layout(hlayout)

        vlayout = QVBoxLayout()
        vlayout.addWidget(self.imagewidget)
        vlayout.addLayout(hlayout)
        self.setLayout(vlayout)
Beispiel #16
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 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'))
Beispiel #17
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    def __init__(self, parent=None):
        super(ContrastAdjustment, self).__init__(parent)

        self.local_manager = None  # local manager for the histogram plot
        self.manager = None  # manager for the associated image plot

        # Storing min/max markers for each active image
        self.min_markers = {}
        self.max_markers = {}

        # Select point tools
        self.min_select_tool = None
        self.max_select_tool = None

        style = "<span style=\'color: #444444\'><b>%s</b></span>"
        layout, _label = get_image_layout(self.PANEL_ICON,
                                          style % self.PANEL_TITLE,
                                          alignment=Qt.AlignCenter)
        layout.setAlignment(Qt.AlignCenter)
        vlayout = QVBoxLayout()
        vlayout.addLayout(layout)
        self.local_manager = PlotManager(self)
        self.histogram = LevelsHistogram(parent)
        vlayout.addWidget(self.histogram)
        self.local_manager.add_plot(self.histogram)
        hlayout = QHBoxLayout()
        self.setLayout(hlayout)
        hlayout.addLayout(vlayout)

        self.toolbar = toolbar = QToolBar(self)
        toolbar.setOrientation(Qt.Vertical)
        #        toolbar.setToolButtonStyle(Qt.ToolButtonTextBesideIcon)
        hlayout.addWidget(toolbar)

        # Add standard plot-related tools to the local manager
        lman = self.local_manager
        lman.add_tool(SelectTool)
        lman.add_tool(BasePlotMenuTool, "item")
        lman.add_tool(BasePlotMenuTool, "axes")
        lman.add_tool(BasePlotMenuTool, "grid")
        lman.add_tool(AntiAliasingTool)
        lman.get_default_tool().activate()

        self.outliers_param = EliminateOutliersParam(self.PANEL_TITLE)
Beispiel #18
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class FitWidgetMixin(CurveWidgetMixin):
    def __init__(self,
                 wintitle="plotpy plot",
                 icon="plotpy.svg",
                 toolbar=False,
                 options=None,
                 panels=None,
                 param_cols=1,
                 legend_anchor='TR',
                 auto_fit=True):
        if wintitle is None:
            wintitle = _('Curve fitting')

        self.x = None
        self.y = None
        self.fitfunc = None
        self.fitargs = None
        self.fitkwargs = None
        self.fitparams = None
        self.autofit_prm = None

        self.data_curve = None
        self.fit_curve = None
        self.legend = None
        self.legend_anchor = legend_anchor
        self.xrange = None
        self.show_xrange = False

        self.param_cols = param_cols
        self.auto_fit_enabled = auto_fit
        self.button_list = []  # list of buttons to be disabled at startup

        self.fit_layout = None
        self.params_layout = None

        CurveWidgetMixin.__init__(self,
                                  wintitle=wintitle,
                                  icon=icon,
                                  toolbar=toolbar,
                                  options=options,
                                  panels=panels)

        self.refresh()

    # QWidget API --------------------------------------------------------------
    def resizeEvent(self, event):
        QWidget.resizeEvent(self, event)
        self.get_plot().replot()

    # CurveWidgetMixin API -----------------------------------------------------
    def setup_widget_layout(self):
        self.fit_layout = QHBoxLayout()
        self.params_layout = QGridLayout()
        params_group = create_groupbox(self,
                                       _("Fit parameters"),
                                       layout=self.params_layout)
        if self.auto_fit_enabled:
            auto_group = self.create_autofit_group()
            self.fit_layout.addWidget(auto_group)
        self.fit_layout.addWidget(params_group)
        self.plot_layout.addLayout(self.fit_layout, 1, 0)

        vlayout = QVBoxLayout(self)
        vlayout.addWidget(self.toolbar)
        vlayout.addLayout(self.plot_layout)
        self.setLayout(vlayout)

    def create_plot(self, options):
        CurveWidgetMixin.create_plot(self, options)
        for plot in self.get_plots():
            plot.SIG_RANGE_CHANGED.connect(self.range_changed)

    # Public API ---------------------------------------------------------------
    def set_data(self,
                 x,
                 y,
                 fitfunc=None,
                 fitparams=None,
                 fitargs=None,
                 fitkwargs=None):
        if self.fitparams is not None and fitparams is not None:
            self.clear_params_layout()
        self.x = x
        self.y = y
        if fitfunc is not None:
            self.fitfunc = fitfunc
        if fitparams is not None:
            self.fitparams = fitparams
        if fitargs is not None:
            self.fitargs = fitargs
        if fitkwargs is not None:
            self.fitkwargs = fitkwargs
        self.autofit_prm = AutoFitParam(title=_("Automatic fitting options"))
        self.autofit_prm.xmin = x.min()
        self.autofit_prm.xmax = x.max()
        self.compute_imin_imax()
        if self.fitparams is not None and fitparams is not None:
            self.populate_params_layout()
        self.refresh()

    def set_fit_data(self, fitfunc, fitparams, fitargs=None, fitkwargs=None):
        if self.fitparams is not None:
            self.clear_params_layout()
        self.fitfunc = fitfunc
        self.fitparams = fitparams
        self.fitargs = fitargs
        self.fitkwargs = fitkwargs
        self.populate_params_layout()
        self.refresh()

    def clear_params_layout(self):
        for i, param in enumerate(self.fitparams):
            for widget in param.get_widgets():
                if widget is not None:
                    self.params_layout.removeWidget(widget)
                    widget.hide()

    def populate_params_layout(self):
        add_fitparam_widgets_to(self.params_layout,
                                self.fitparams,
                                self.refresh,
                                param_cols=self.param_cols)

    def create_autofit_group(self):
        auto_button = QPushButton(get_icon('apply.png'), _("Run"), self)
        auto_button.clicked.connect(self.autofit)
        autoprm_button = QPushButton(get_icon('settings.png'), _("Settings"),
                                     self)
        autoprm_button.clicked.connect(self.edit_parameters)
        xrange_button = QPushButton(get_icon('xrange.png'), _("Bounds"), self)
        xrange_button.setCheckable(True)
        xrange_button.toggled.connect(self.toggle_xrange)
        auto_layout = QVBoxLayout()
        auto_layout.addWidget(auto_button)
        auto_layout.addWidget(autoprm_button)
        auto_layout.addWidget(xrange_button)
        self.button_list += [auto_button, autoprm_button, xrange_button]
        return create_groupbox(self, _("Automatic fit"), layout=auto_layout)

    def get_fitfunc_arguments(self):
        """Return fitargs and fitkwargs"""
        fitargs = self.fitargs
        if self.fitargs is None:
            fitargs = []
        fitkwargs = self.fitkwargs
        if self.fitkwargs is None:
            fitkwargs = {}
        return fitargs, fitkwargs

    def refresh(self, slider_value=None):
        """Refresh Fit Tool dialog box"""
        # Update button states
        enable = self.x is not None and self.y is not None \
                 and self.x.size > 0 and self.y.size > 0 \
                 and self.fitfunc is not None and self.fitparams is not None \
                 and len(self.fitparams) > 0
        for btn in self.button_list:
            btn.setEnabled(enable)

        if not enable:
            # Fit widget is not yet configured
            return

        fitargs, fitkwargs = self.get_fitfunc_arguments()
        yfit = self.fitfunc(self.x, [p.value for p in self.fitparams],
                            *fitargs, **fitkwargs)

        plot = self.get_plot()

        if self.legend is None:
            self.legend = make.legend(anchor=self.legend_anchor)
            plot.add_item(self.legend)

        if self.xrange is None:
            self.xrange = make.range(0., 1.)
            plot.add_item(self.xrange)
        self.xrange.set_range(self.autofit_prm.xmin, self.autofit_prm.xmax)
        self.xrange.setVisible(self.show_xrange)

        if self.data_curve is None:
            self.data_curve = make.curve([], [],
                                         _("Data"),
                                         color="b",
                                         linewidth=2)
            plot.add_item(self.data_curve)
        self.data_curve.set_data(self.x, self.y)

        if self.fit_curve is None:
            self.fit_curve = make.curve([], [],
                                        _("Fit"),
                                        color="r",
                                        linewidth=2)
            plot.add_item(self.fit_curve)
        self.fit_curve.set_data(self.x, yfit)

        plot.replot()
        plot.disable_autoscale()

    def range_changed(self, xrange_obj, xmin, xmax):
        self.autofit_prm.xmin, self.autofit_prm.xmax = xmin, xmax
        self.compute_imin_imax()

    def toggle_xrange(self, state):
        self.xrange.setVisible(state)
        plot = self.get_plot()
        plot.replot()
        if state:
            plot.set_active_item(self.xrange)
        self.show_xrange = state

    def edit_parameters(self):
        if self.autofit_prm.edit(parent=self):
            self.xrange.set_range(self.autofit_prm.xmin, self.autofit_prm.xmax)
            plot = self.get_plot()
            plot.replot()
            self.compute_imin_imax()

    def compute_imin_imax(self):
        self.i_min = self.x.searchsorted(self.autofit_prm.xmin)
        self.i_max = self.x.searchsorted(self.autofit_prm.xmax, side='right')

    def errorfunc(self, params):
        x = self.x[self.i_min:self.i_max]
        y = self.y[self.i_min:self.i_max]
        fitargs, fitkwargs = self.get_fitfunc_arguments()
        return y - self.fitfunc(x, params, *fitargs, **fitkwargs)

    def autofit(self):
        meth = self.autofit_prm.method
        x0 = np.array([p.value for p in self.fitparams])
        if meth == "lq":
            x = self.autofit_lq(x0)
        elif meth == "simplex":
            x = self.autofit_simplex(x0)
        elif meth == "powel":
            x = self.autofit_powel(x0)
        elif meth == "bfgs":
            x = self.autofit_bfgs(x0)
        elif meth == "l_bfgs_b":
            x = self.autofit_l_bfgs(x0)
        elif meth == "cg":
            x = self.autofit_cg(x0)
        else:
            return
        for v, p in zip(x, self.fitparams):
            p.value = v
        self.refresh()
        for prm in self.fitparams:
            prm.update()

    def get_norm_func(self):
        prm = self.autofit_prm
        err_norm = eval(prm.err_norm)

        def func(params):
            err = np.linalg.norm(self.errorfunc(params), err_norm)
            return err

        return func

    def autofit_simplex(self, x0):
        prm = self.autofit_prm
        from scipy.optimize import fmin
        x = fmin(self.get_norm_func(), x0, xtol=prm.xtol, ftol=prm.ftol)
        return x

    def autofit_powel(self, x0):
        prm = self.autofit_prm
        from scipy.optimize import fmin_powell
        x = fmin_powell(self.get_norm_func(), x0, xtol=prm.xtol, ftol=prm.ftol)
        return x

    def autofit_bfgs(self, x0):
        prm = self.autofit_prm
        from scipy.optimize import fmin_bfgs
        x = fmin_bfgs(self.get_norm_func(),
                      x0,
                      gtol=prm.gtol,
                      norm=eval(prm.norm))
        return x

    def autofit_l_bfgs(self, x0):
        prm = self.autofit_prm
        bounds = [(p.min, p.max) for p in self.fitparams]
        from scipy.optimize import fmin_l_bfgs_b
        x, _f, _d = fmin_l_bfgs_b(self.get_norm_func(),
                                  x0,
                                  pgtol=prm.gtol,
                                  approx_grad=1,
                                  bounds=bounds)
        return x

    def autofit_cg(self, x0):
        prm = self.autofit_prm
        from scipy.optimize import fmin_cg
        x = fmin_cg(self.get_norm_func(),
                    x0,
                    gtol=prm.gtol,
                    norm=eval(prm.norm))
        return x

    def autofit_lq(self, x0):
        prm = self.autofit_prm

        def func(params):
            err = self.errorfunc(params)
            return err

        from scipy.optimize import leastsq
        x, _ier = leastsq(func, x0, xtol=prm.xtol, ftol=prm.ftol)
        return x

    def get_values(self):
        """Convenience method to get fit parameter values"""
        return [param.value for param in self.fitparams]
Beispiel #19
0
 def __init__(self):
     QWidget.__init__(self)
     self.setWindowTitle("Signal filtering (plotpy)")
     self.setWindowIcon(get_icon('plotpy.svg'))
     hlayout = QHBoxLayout()
     self.setLayout(hlayout)
Beispiel #20
0
 def setup_widget(self):
     layout = QHBoxLayout()
     layout.addWidget(self.cs_plot)
     layout.addWidget(self.toolbar)
     layout.setContentsMargins(0, 0, 0, 0)
     self.setLayout(layout)
Beispiel #21
0
 def __init__(self):
     QHBoxLayout.__init__(self)
     self.widgets = []
Beispiel #22
0
 def addWidget(self, widget):
     QHBoxLayout.addWidget(self, widget)
     self.widgets.append(widget)
Beispiel #23
0
    def __init__(self, parent):
        QWidget.__init__(self, parent)
        font = QFont(get_family(MONOSPACE), 10, QFont.Normal)

        info_icon = QLabel()
        icon = get_std_icon('MessageBoxInformation').pixmap(24, 24)
        info_icon.setPixmap(icon)
        info_icon.setFixedWidth(32)
        info_icon.setAlignment(Qt.AlignTop)
        self.desc_label = QLabel()
        self.desc_label.setWordWrap(True)
        self.desc_label.setAlignment(Qt.AlignTop)
        self.desc_label.setFont(font)
        group_desc = QGroupBox(_("Description"), self)
        layout = QHBoxLayout()
        layout.addWidget(info_icon)
        layout.addWidget(self.desc_label)
        group_desc.setLayout(layout)

        if CodeEditor is None:
            self.editor = QTextEdit(self)
            self.editor.setFont(font)
        else:
            self.editor = CodeEditor(self)
            self.editor.setup_editor(linenumbers=True, font=font)
            self.editor.set_color_scheme("Spyder")
        self.editor.setReadOnly(True)
        group_code = QGroupBox(_("Source code"), self)
        layout = QVBoxLayout()
        layout.addWidget(self.editor)
        group_code.setLayout(layout)

        self.run_button = QPushButton(get_icon("apply.png"),
                                      _("Run this script"), self)
        self.quit_button = QPushButton(get_icon("exit.png"), _("Quit"), self)
        hlayout = QHBoxLayout()
        hlayout.addWidget(self.run_button)
        hlayout.addStretch()
        hlayout.addWidget(self.quit_button)

        vlayout = QVBoxLayout()
        vlayout.addWidget(group_desc)
        vlayout.addWidget(group_code)
        vlayout.addLayout(hlayout)
        self.setLayout(vlayout)
Beispiel #24
0
 def __init__(self, parent):
     QWidget.__init__(self, parent)
     font = QFont(get_family(MONOSPACE), 10, QFont.Normal)
     
     info_icon = QLabel()
     icon = get_std_icon('MessageBoxInformation').pixmap(24, 24)
     info_icon.setPixmap(icon)
     info_icon.setFixedWidth(32)
     info_icon.setAlignment(Qt.AlignTop)
     self.desc_label = QLabel()
     self.desc_label.setWordWrap(True)
     self.desc_label.setAlignment(Qt.AlignTop)
     self.desc_label.setFont(font)
     group_desc = QGroupBox(_("Description"), self)
     layout = QHBoxLayout()
     layout.addWidget(info_icon)
     layout.addWidget(self.desc_label)
     group_desc.setLayout(layout)
     
     if CodeEditor is None:
         self.editor = QTextEdit(self)
         self.editor.setFont(font)
     else:
         self.editor = CodeEditor(self)
         self.editor.setup_editor(linenumbers=True, font=font)
         self.editor.set_color_scheme("Spyder")
     self.editor.setReadOnly(True)
     group_code = QGroupBox(_("Source code"), self)
     layout = QVBoxLayout()
     layout.addWidget(self.editor)
     group_code.setLayout(layout)
     
     self.run_button = QPushButton(get_icon("apply.png"),
                                   _("Run this script"), self)
     self.quit_button = QPushButton(get_icon("exit.png"), _("Quit"), self)
     hlayout = QHBoxLayout()
     hlayout.addWidget(self.run_button)
     hlayout.addStretch()
     hlayout.addWidget(self.quit_button)
     
     vlayout = QVBoxLayout()
     vlayout.addWidget(group_desc)
     vlayout.addWidget(group_code)
     vlayout.addLayout(hlayout)
     self.setLayout(vlayout)
Beispiel #25
0
class CurveDialog(QDialog, CurveWidgetMixin):
    """
    Construct a CurveDialog object: plotting dialog box with integrated 
    plot manager
    
        * wintitle: window title
        * icon: window icon
        * edit: editable state
        * toolbar: show/hide toolbar
        * options: options sent to the :py:class:`plotpy.curve.CurvePlot` object
          (dictionary)
        * parent: parent widget
        * panels (optional): additionnal panels (list, tuple)
    """
    def __init__(self,
                 wintitle="plotpy plot",
                 icon="plotpy.svg",
                 edit=False,
                 toolbar=False,
                 options=None,
                 parent=None,
                 panels=None):
        if not PYQT5:
            QDialog.__init__(self, parent)
        self.edit = edit
        self.button_box = None
        self.button_layout = None
        if PYQT5:
            super(CurveDialog, self).__init__(parent,
                                              wintitle=wintitle,
                                              icon=icon,
                                              toolbar=toolbar,
                                              options=options,
                                              panels=panels)
        else:
            CurveWidgetMixin.__init__(self,
                                      wintitle=wintitle,
                                      icon=icon,
                                      toolbar=toolbar,
                                      options=options,
                                      panels=panels)
        self.setWindowFlags(Qt.Window)

    def setup_widget_layout(self):
        vlayout = QVBoxLayout(self)
        vlayout.addWidget(self.toolbar)
        vlayout.addLayout(self.plot_layout)
        self.setLayout(vlayout)
        if self.edit:
            self.button_layout = QHBoxLayout()
            self.install_button_layout()
            vlayout.addLayout(self.button_layout)

    def install_button_layout(self):
        """
        Install standard buttons (OK, Cancel) in dialog button box layout 
        (:py:attr:`plotpy.plot.CurveDialog.button_layout`)
        
        This method may be overriden to customize the button box
        """
        bbox = QDialogButtonBox(QDialogButtonBox.Ok | QDialogButtonBox.Cancel)
        bbox.accepted.connect(self.accept)
        bbox.rejected.connect(self.reject)
        self.button_layout.addWidget(bbox)
        self.button_box = bbox
Beispiel #26
0
 def addWidget(self, widget):
     QHBoxLayout.addWidget(self, widget)
     self.widgets.append(widget)
Beispiel #27
0
class FitWidgetMixin(CurveWidgetMixin):
    def __init__(self, wintitle="plotpy plot", icon="plotpy.svg",
                 toolbar=False, options=None, panels=None, param_cols=1,
                 legend_anchor='TR', auto_fit=True):
        if wintitle is None:
            wintitle = _('Curve fitting')

        self.x = None
        self.y = None
        self.fitfunc = None
        self.fitargs = None
        self.fitkwargs = None
        self.fitparams = None
        self.autofit_prm = None
        
        self.data_curve = None
        self.fit_curve = None
        self.legend = None
        self.legend_anchor = legend_anchor
        self.xrange = None
        self.show_xrange = False
        
        self.param_cols = param_cols
        self.auto_fit_enabled = auto_fit      
        self.button_list = [] # list of buttons to be disabled at startup

        self.fit_layout = None
        self.params_layout = None
        
        CurveWidgetMixin.__init__(self, wintitle=wintitle, icon=icon, 
                                  toolbar=toolbar, options=options,
                                  panels=panels)
        
        self.refresh()
        
    # QWidget API --------------------------------------------------------------
    def resizeEvent(self, event):
        QWidget.resizeEvent(self, event)
        self.get_plot().replot()
        
    # CurveWidgetMixin API -----------------------------------------------------
    def setup_widget_layout(self):
        self.fit_layout = QHBoxLayout()
        self.params_layout = QGridLayout()
        params_group = create_groupbox(self, _("Fit parameters"),
                                       layout=self.params_layout)
        if self.auto_fit_enabled:
            auto_group = self.create_autofit_group()
            self.fit_layout.addWidget(auto_group)
        self.fit_layout.addWidget(params_group)
        self.plot_layout.addLayout(self.fit_layout, 1, 0)
        
        vlayout = QVBoxLayout(self)
        vlayout.addWidget(self.toolbar)
        vlayout.addLayout(self.plot_layout)
        self.setLayout(vlayout)
        
    def create_plot(self, options):
        CurveWidgetMixin.create_plot(self, options)
        for plot in self.get_plots():
            plot.SIG_RANGE_CHANGED.connect(self.range_changed)
        
    # Public API ---------------------------------------------------------------  
    def set_data(self, x, y, fitfunc=None, fitparams=None,
                 fitargs=None, fitkwargs=None):
        if self.fitparams is not None and fitparams is not None:
            self.clear_params_layout()
        self.x = x
        self.y = y
        if fitfunc is not None:
            self.fitfunc = fitfunc
        if fitparams is not None:
            self.fitparams = fitparams
        if fitargs is not None:
            self.fitargs = fitargs
        if fitkwargs is not None:
            self.fitkwargs = fitkwargs
        self.autofit_prm = AutoFitParam(title=_("Automatic fitting options"))
        self.autofit_prm.xmin = x.min()
        self.autofit_prm.xmax = x.max()
        self.compute_imin_imax()
        if self.fitparams is not None and fitparams is not None:
            self.populate_params_layout()
        self.refresh()
        
    def set_fit_data(self, fitfunc, fitparams, fitargs=None, fitkwargs=None):
        if self.fitparams is not None:
            self.clear_params_layout()
        self.fitfunc = fitfunc
        self.fitparams = fitparams
        self.fitargs = fitargs
        self.fitkwargs = fitkwargs
        self.populate_params_layout()
        self.refresh()
        
    def clear_params_layout(self):
        for i, param in enumerate(self.fitparams):
            for widget in param.get_widgets():
                if widget is not None:
                    self.params_layout.removeWidget(widget)
                    widget.hide()
        
    def populate_params_layout(self):
        add_fitparam_widgets_to(self.params_layout, self.fitparams,
                                self.refresh, param_cols=self.param_cols)
    
    def create_autofit_group(self):        
        auto_button = QPushButton(get_icon('apply.png'), _("Run"), self)
        auto_button.clicked.connect(self.autofit)
        autoprm_button = QPushButton(get_icon('settings.png'), _("Settings"),
                                     self)
        autoprm_button.clicked.connect(self.edit_parameters)
        xrange_button = QPushButton(get_icon('xrange.png'), _("Bounds"), self)
        xrange_button.setCheckable(True)
        xrange_button.toggled.connect(self.toggle_xrange)
        auto_layout = QVBoxLayout()
        auto_layout.addWidget(auto_button)
        auto_layout.addWidget(autoprm_button)
        auto_layout.addWidget(xrange_button)
        self.button_list += [auto_button, autoprm_button, xrange_button]
        return create_groupbox(self, _("Automatic fit"), layout=auto_layout)
        
    def get_fitfunc_arguments(self):
        """Return fitargs and fitkwargs"""
        fitargs = self.fitargs
        if self.fitargs is None:
            fitargs = []
        fitkwargs = self.fitkwargs
        if self.fitkwargs is None:
            fitkwargs = {}
        return fitargs, fitkwargs
        
    def refresh(self, slider_value=None):
        """Refresh Fit Tool dialog box"""
        # Update button states
        enable = self.x is not None and self.y is not None \
                 and self.x.size > 0 and self.y.size > 0 \
                 and self.fitfunc is not None and self.fitparams is not None \
                 and len(self.fitparams) > 0
        for btn in self.button_list:
            btn.setEnabled(enable)
            
        if not enable:
            # Fit widget is not yet configured
            return

        fitargs, fitkwargs = self.get_fitfunc_arguments()
        yfit = self.fitfunc(self.x, [p.value for p in self.fitparams],
                            *fitargs, **fitkwargs)
                            
        plot = self.get_plot()
        
        if self.legend is None:
            self.legend = make.legend(anchor=self.legend_anchor)
            plot.add_item(self.legend)
        
        if self.xrange is None:
            self.xrange = make.range(0., 1.)
            plot.add_item(self.xrange)
        self.xrange.set_range(self.autofit_prm.xmin, self.autofit_prm.xmax)
        self.xrange.setVisible(self.show_xrange)
        
        if self.data_curve is None:
            self.data_curve = make.curve([], [],
                                         _("Data"), color="b", linewidth=2)
            plot.add_item(self.data_curve)
        self.data_curve.set_data(self.x, self.y)
        
        if self.fit_curve is None:
            self.fit_curve = make.curve([], [],
                                        _("Fit"), color="r", linewidth=2)
            plot.add_item(self.fit_curve)
        self.fit_curve.set_data(self.x, yfit)
        
        plot.replot()
        plot.disable_autoscale()
        
    def range_changed(self, xrange_obj, xmin, xmax):
        self.autofit_prm.xmin, self.autofit_prm.xmax = xmin, xmax
        self.compute_imin_imax()
        
    def toggle_xrange(self, state):
        self.xrange.setVisible(state)
        plot = self.get_plot()
        plot.replot()
        if state:
            plot.set_active_item(self.xrange)
        self.show_xrange = state
        
    def edit_parameters(self):
        if self.autofit_prm.edit(parent=self):
            self.xrange.set_range(self.autofit_prm.xmin, self.autofit_prm.xmax)
            plot = self.get_plot()
            plot.replot()
            self.compute_imin_imax()
        
    def compute_imin_imax(self):
        self.i_min = self.x.searchsorted(self.autofit_prm.xmin)
        self.i_max = self.x.searchsorted(self.autofit_prm.xmax, side='right')
        
    def errorfunc(self, params):
        x = self.x[self.i_min:self.i_max]
        y = self.y[self.i_min:self.i_max]
        fitargs, fitkwargs = self.get_fitfunc_arguments()
        return y - self.fitfunc(x, params, *fitargs, **fitkwargs)

    def autofit(self):
        meth = self.autofit_prm.method
        x0 = np.array([p.value for p in self.fitparams])
        if meth == "lq":
            x = self.autofit_lq(x0)
        elif meth=="simplex":
            x = self.autofit_simplex(x0)
        elif meth=="powel":
            x = self.autofit_powel(x0)
        elif meth=="bfgs":
            x = self.autofit_bfgs(x0)
        elif meth=="l_bfgs_b":
            x = self.autofit_l_bfgs(x0)
        elif meth=="cg":
            x = self.autofit_cg(x0)
        else:
            return
        for v, p in zip(x, self.fitparams):
            p.value = v
        self.refresh()
        for prm in self.fitparams:
            prm.update()

    def get_norm_func(self):
        prm = self.autofit_prm
        err_norm = eval(prm.err_norm)
        def func(params):
            err = np.linalg.norm(self.errorfunc(params), err_norm)
            return err
        return func

    def autofit_simplex(self, x0):
        prm = self.autofit_prm
        from scipy.optimize import fmin
        x = fmin(self.get_norm_func(), x0, xtol=prm.xtol, ftol=prm.ftol)
        return x

    def autofit_powel(self, x0):
        prm = self.autofit_prm
        from scipy.optimize import fmin_powell
        x = fmin_powell(self.get_norm_func(), x0, xtol=prm.xtol, ftol=prm.ftol)
        return x

    def autofit_bfgs(self, x0):
        prm = self.autofit_prm
        from scipy.optimize import fmin_bfgs
        x = fmin_bfgs(self.get_norm_func(), x0, gtol=prm.gtol,
                      norm=eval(prm.norm))
        return x

    def autofit_l_bfgs(self, x0):
        prm = self.autofit_prm
        bounds = [(p.min, p.max) for p in self.fitparams]
        from scipy.optimize import fmin_l_bfgs_b
        x, _f, _d = fmin_l_bfgs_b(self.get_norm_func(), x0, pgtol=prm.gtol,
                          approx_grad=1, bounds=bounds)
        return x
        
    def autofit_cg(self, x0):
        prm = self.autofit_prm
        from scipy.optimize import fmin_cg
        x = fmin_cg(self.get_norm_func(), x0, gtol=prm.gtol,
                    norm=eval(prm.norm))
        return x

    def autofit_lq(self, x0):
        prm = self.autofit_prm
        def func(params):
            err = self.errorfunc(params)
            return err
        from scipy.optimize import leastsq
        x, _ier = leastsq(func, x0, xtol=prm.xtol, ftol=prm.ftol)
        return x

    def get_values(self):
        """Convenience method to get fit parameter values"""
        return [param.value for param in self.fitparams]
Beispiel #28
0
 def __init__(self):
     QHBoxLayout.__init__(self)
     self.widgets = []