def _create_header_window(self, info): vbox = Widgets.VBox() vbox.set_margins(2, 2, 2, 2) color_alternate = self.settings.get('color_alternate_rows', True) table = Widgets.TreeView(auto_expand=True, use_alt_row_color=color_alternate) self.table = table table.setup_table(self.columns, 1, 'key') vbox.add_widget(table, stretch=1) # create sort toggle cb = Widgets.CheckBox("Sortable") cb.add_callback('activated', lambda w, tf: self.set_sortable_cb(info)) hbox = Widgets.HBox() hbox.add_widget(cb, stretch=0) hbox.add_widget(Widgets.Label(''), stretch=1) vbox.add_widget(hbox, stretch=0) # toggle sort if self.settings.get('sortable', False): cb.set_state(True) info.setvals(widget=vbox, table=table, sortw=cb) return vbox
def build_axes(self): self.selected_axis = None if (not self.gui_up) or (self.hbox_axes is None): return self.hbox_axes.remove_all() self.clear_plot() image = self.fitsimage.get_image() if image is not None: # Add Checkbox widgets # `image.naxispath` returns only mdim axes nx = len(image.naxispath) maxi = nx + 2 for i in range(1, maxi + 1): chkbox = Widgets.CheckBox('NAXIS{}'.format(i)) self.hbox_axes.add_widget(chkbox) # Disable axes for 2D images if nx <= 0: self.selected_axis = None chkbox.set_enabled(False) continue # Add callback self.axes_callback_handler(chkbox, i) # Add filler self.hbox_axes.add_widget(Widgets.Label(''), stretch=1) else: self.hbox_axes.add_widget(Widgets.Label('No NAXIS info'))
def build_gui(self, container): vbox = Widgets.VBox() vbox.set_border_width(1) vbox.set_spacing(1) nb = Widgets.StackWidget() vbox.add_widget(nb, stretch=1) self.nb = nb # create sort toggle hbox = Widgets.HBox() cb = Widgets.CheckBox("Sortable") cb.set_state(self.flg_sort) cb.add_callback('activated', lambda w, tf: self.set_sortable_cb(tf)) hbox.add_widget(cb, stretch=0) cb = Widgets.CheckBox("Include primary header") cb.set_state(self.flg_prihdr) cb.add_callback('activated', lambda w, tf: self.set_prihdr_cb(tf)) self.w.chk_prihdr = cb hbox.add_widget(cb, stretch=0) hbox.add_widget(Widgets.Label(''), stretch=1) vbox.add_widget(hbox, stretch=0) btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) btn = Widgets.Button("Close") btn.add_callback('activated', lambda w: self.close()) btns.add_widget(btn) btn = Widgets.Button("Help") btn.add_callback('activated', lambda w: self.help()) btns.add_widget(btn, stretch=0) btns.add_widget(Widgets.Label(''), stretch=1) vbox.add_widget(btns, stretch=0) container.add_widget(vbox, stretch=1) self.gui_up = True
def build_axes(self): if (not self.gui_up) or (self.hbox_axes is None): return self.hbox_axes.remove_all() self.selected_axis = None self.clear_plot() image = self.fitsimage.get_image() if image is not None: # Add Checkbox widgets # `image.naxispath` returns only mdim axes for i in range(1, len(image.naxispath)+3): chkbox = Widgets.CheckBox('NAXIS%d' % i) self.hbox_axes.add_widget(chkbox) # Disable axes for 2D images if len(image.naxispath) <= 0: chkbox.set_enabled(False) else: # Add callback self.axes_callback_handler(chkbox, i)
def build_axes(self): self.selected_axis = None if (not self.gui_up) or (self.hbox_axes is None): return self.hbox_axes.remove_all() image = self.fitsimage.get_image() if image is not None: # Add Checkbox widgets # `image.naxispath` returns only mdim axes for i in range(1, len(image.naxispath)+3): chkbox = Widgets.CheckBox('NAXIS%d' % i) self.hbox_axes.add_widget(chkbox) # Disable axes 1,2 if i < 3: chkbox.set_enabled(False) continue # Add callback self.axes_callback_handler(chkbox, i) self.redraw_slit('clear')
def __init__(self, logger): self.logger = logger self.drawcolors = colors.get_colors() self.dc = get_canvas_types() from ginga.gw import Widgets, Viewers, GwHelp self.app = Widgets.Application(logger=logger) self.app.add_callback('shutdown', self.quit) self.top = self.app.make_window("Ginga example2") self.top.add_callback('close', self.closed) vbox = Widgets.VBox() vbox.set_border_width(2) vbox.set_spacing(1) fi = Viewers.CanvasView(logger=logger) fi.enable_autocuts('on') fi.set_autocut_params('zscale') fi.enable_autozoom('on') fi.set_zoom_algorithm('rate') fi.set_zoomrate(1.4) fi.show_pan_mark(True) fi.set_callback('drag-drop', self.drop_file) fi.set_callback('none-move', self.motion) fi.set_bg(0.2, 0.2, 0.2) fi.ui_setActive(True) self.fitsimage = fi bd = fi.get_bindings() bd.enable_all(True) # add a color bar fi.private_canvas.add(self.dc.ColorBar(side='bottom', offset=10)) # add little mode indicator that shows modal states in # lower left hand corner fi.private_canvas.add(self.dc.ModeIndicator(corner='ur', fontsize=14)) # little hack necessary to get correct operation of the mode indicator # in all circumstances bm = fi.get_bindmap() bm.add_callback('mode-set', lambda *args: fi.redraw(whence=3)) # canvas that we will draw on canvas = self.dc.DrawingCanvas() canvas.enable_draw(True) canvas.enable_edit(True) canvas.set_drawtype('rectangle', color='lightblue') canvas.setSurface(fi) self.canvas = canvas # add canvas to view fi.get_canvas().add(canvas) canvas.ui_setActive(True) canvas.register_for_cursor_drawing(fi) self.drawtypes = canvas.get_drawtypes() self.drawtypes.sort() fi.set_desired_size(512, 512) iw = Viewers.GingaViewerWidget(viewer=fi) vbox.add_widget(iw, stretch=1) self.readout = Widgets.Label("") vbox.add_widget(self.readout, stretch=0) hbox = Widgets.HBox() hbox.set_border_width(2) wdrawtype = Widgets.ComboBox() for name in self.drawtypes: wdrawtype.append_text(name) index = self.drawtypes.index('rectangle') wdrawtype.set_index(index) wdrawtype.add_callback('activated', lambda w, idx: self.set_drawparams()) self.wdrawtype = wdrawtype wdrawcolor = Widgets.ComboBox() for name in self.drawcolors: wdrawcolor.append_text(name) index = self.drawcolors.index('lightblue') wdrawcolor.set_index(index) wdrawcolor.add_callback('activated', lambda w, idx: self.set_drawparams()) self.wdrawcolor = wdrawcolor wfill = Widgets.CheckBox("Fill") wfill.add_callback('activated', lambda w, tf: self.set_drawparams()) self.wfill = wfill walpha = Widgets.SpinBox(dtype=float) walpha.set_limits(0.0, 1.0, incr_value=0.1) walpha.set_value(1.0) walpha.set_decimals(2) walpha.add_callback('value-changed', lambda w, val: self.set_drawparams()) self.walpha = walpha wclear = Widgets.Button("Clear Canvas") wclear.add_callback('activated', lambda w: self.clear_canvas()) wopen = Widgets.Button("Open File") wopen.add_callback('activated', lambda w: self.open_file()) wquit = Widgets.Button("Quit") wquit.add_callback('activated', lambda w: self.quit()) hbox.add_widget(Widgets.Label(''), stretch=1) for w in (wopen, wdrawtype, wdrawcolor, wfill, Widgets.Label('Alpha:'), walpha, wclear, wquit): hbox.add_widget(w, stretch=0) vbox.add_widget(hbox, stretch=0) mode = self.canvas.get_draw_mode() hbox = Widgets.HBox() btn1 = Widgets.RadioButton("Draw") btn1.set_state(mode == 'draw') btn1.add_callback('activated', lambda w, val: self.set_mode_cb('draw', val)) btn1.set_tooltip("Choose this to draw on the canvas") hbox.add_widget(btn1) btn2 = Widgets.RadioButton("Edit", group=btn1) btn2.set_state(mode == 'edit') btn2.add_callback('activated', lambda w, val: self.set_mode_cb('edit', val)) btn2.set_tooltip("Choose this to edit things on the canvas") hbox.add_widget(btn2) btn3 = Widgets.CheckBox("I'm using a trackpad") btn3.add_callback('activated', lambda w, tf: self.use_trackpad_cb(tf)) hbox.add_widget(btn3) hbox.add_widget(Widgets.Label(''), stretch=1) vbox.add_widget(hbox, stretch=0) self.top.set_widget(vbox) self.fs = None if hasattr(GwHelp, 'FileSelection'): self.fs = GwHelp.FileSelection(self.top.get_widget())
def __init__(self, logger): self.logger = logger self.drawcolors = colors.get_colors() self.dc = get_canvas_types() from ginga.gw import Widgets, Viewers self.app = Widgets.Application(logger=logger) #self.app.add_callback('shutdown', self.quit) self.top = self.app.make_window("Ginga example2") self.top.add_callback('close', self.closed) vbox = Widgets.VBox() vbox.set_border_width(2) vbox.set_spacing(1) hbox = Widgets.HBox() hbox.set_border_width(2) hbox.set_spacing(4) v1 = Viewers.CanvasView(logger) v1.enable_autocuts('on') v1.set_autocut_params('zscale') v1.enable_autozoom('on') v1.set_zoom_algorithm('rate') v1.set_zoomrate(1.4) v1.show_pan_mark(True) v1.set_callback('drag-drop', self.drop_file) v1.set_callback('none-move', self.motion) v1.set_bg(0.2, 0.2, 0.2) v1.ui_setActive(True) v1.set_name('tweedledee') self.viewer1 = v1 self._mi1 = ModeIndicator(v1) bd = v1.get_bindings() bd.enable_all(True) # shared canvas between the two viewers canvas = self.dc.DrawingCanvas() canvas.enable_draw(True) canvas.enable_edit(True) canvas.set_drawtype('rectangle', color='lightblue') self.canvas = canvas # Tell viewer1 to use this canvas v1.set_canvas(canvas) self.drawtypes = canvas.get_drawtypes() self.drawtypes.sort() v1.set_desired_size(300, 300) iw = Viewers.GingaViewerWidget(viewer=v1) hbox.add_widget(iw, stretch=1) # Add a second viewer viewing the same canvas v2 = Viewers.CanvasView(logger) v2.enable_autocuts('on') v2.set_autocut_params('zscale') v2.enable_autozoom('on') v2.set_zoom_algorithm('rate') v2.set_zoomrate(1.4) v2.show_pan_mark(True) v2.set_callback('drag-drop', self.drop_file) v2.set_callback('none-move', self.motion) v2.set_bg(0.2, 0.2, 0.2) v2.ui_setActive(True) v1.set_name('tweedledum') self.viewer2 = v2 self._mi2 = ModeIndicator(v2) # Tell viewer2 to use this same canvas v2.set_canvas(canvas) bd = v2.get_bindings() bd.enable_all(True) v2.set_desired_size(300, 300) iw = Viewers.GingaViewerWidget(viewer=v2) hbox.add_widget(iw, stretch=1) vbox.add_widget(hbox, stretch=1) self.readout = Widgets.Label("") vbox.add_widget(self.readout, stretch=0) hbox = Widgets.HBox() hbox.set_border_width(2) wdrawtype = Widgets.ComboBox() for name in self.drawtypes: wdrawtype.append_text(name) index = self.drawtypes.index('rectangle') wdrawtype.set_index(index) wdrawtype.add_callback('activated', lambda w, idx: self.set_drawparams()) self.wdrawtype = wdrawtype wdrawcolor = Widgets.ComboBox() for name in self.drawcolors: wdrawcolor.append_text(name) index = self.drawcolors.index('lightblue') wdrawcolor.set_index(index) wdrawcolor.add_callback('activated', lambda w, idx: self.set_drawparams()) self.wdrawcolor = wdrawcolor wfill = Widgets.CheckBox("Fill") wfill.add_callback('activated', lambda w, tf: self.set_drawparams()) self.wfill = wfill walpha = Widgets.SpinBox(dtype=float) walpha.set_limits(0.0, 1.0, incr_value=0.1) walpha.set_value(1.0) walpha.set_decimals(2) walpha.add_callback('value-changed', lambda w, val: self.set_drawparams()) self.walpha = walpha wclear = Widgets.Button("Clear Canvas") wclear.add_callback('activated', lambda w: self.clear_canvas()) wopen = Widgets.Button("Open File") wopen.add_callback('activated', lambda w: self.open_file()) wquit = Widgets.Button("Quit") wquit.add_callback('activated', lambda w: self.quit()) hbox.add_widget(Widgets.Label(''), stretch=1) for w in (wopen, wdrawtype, wdrawcolor, wfill, Widgets.Label('Alpha:'), walpha, wclear, wquit): hbox.add_widget(w, stretch=0) vbox.add_widget(hbox, stretch=0) self.top.set_widget(vbox)
def build_gui(self, container): top = Widgets.VBox() top.set_border_width(4) box, sw, orientation = Widgets.get_oriented_box(container) box.set_border_width(4) box.set_spacing(2) fr = Widgets.Frame("Pixel Values") # We just use a ginga widget to implement the pixtable pixview = Viewers.CanvasView(logger=self.logger) pixview.set_desired_size(self._wd, self._ht) bg = colors.lookup_color('#202030') pixview.set_bg(*bg) bd = pixview.get_bindings() bd.enable_zoom(True) bd.enable_pan(True) self.pixview = pixview self.pix_w = Viewers.GingaViewerWidget(pixview) fr.set_widget(self.pix_w) self.pix_w.resize(self._wd, self._ht) paned = Widgets.Splitter(orientation=orientation) paned.add_widget(fr) self._rebuild_table() btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) cbox1 = Widgets.ComboBox() index = 0 for i in self.sizes: j = 1 + i * 2 name = "%dx%d" % (j, j) cbox1.append_text(name) index += 1 index = self.sizes.index(self.pixtbl_radius) cbox1.set_index(index) cbox1.add_callback('activated', self.set_cutout_size_cb) cbox1.set_tooltip("Select size of pixel table") btns.add_widget(cbox1, stretch=0) # control for selecting a mark cbox2 = Widgets.ComboBox() for tag in self.marks: cbox2.append_text(tag) if self.mark_selected is None: cbox2.set_index(0) else: cbox2.show_text(self.mark_selected) cbox2.add_callback('activated', self.mark_select_cb) self.w.marks = cbox2 cbox2.set_tooltip("Select a mark") #cbox2.setMinimumContentsLength(8) btns.add_widget(cbox2, stretch=0) btn1 = Widgets.Button("Delete") btn1.add_callback('activated', lambda w: self.clear_mark_cb()) btn1.set_tooltip("Delete selected mark") btns.add_widget(btn1, stretch=0) btn2 = Widgets.Button("Delete All") btn2.add_callback('activated', lambda w: self.clear_all()) btn2.set_tooltip("Clear all marks") btns.add_widget(btn2, stretch=0) btns.add_widget(Widgets.Label(''), stretch=1) vbox2 = Widgets.VBox() vbox2.add_widget(btns, stretch=0) btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) btn3 = Widgets.CheckBox("Pan to mark") btn3.set_state(self.pan2mark) btn3.add_callback('activated', self.pan2mark_cb) btn3.set_tooltip("Pan follows selected mark") btns.add_widget(btn3) btns.add_widget(Widgets.Label(''), stretch=1) vbox2.add_widget(btns, stretch=0) captions = [ ('Font size:', 'label', 'Font size', 'combobox'), ] w, b = Widgets.build_info(captions) self.w.update(b) vbox2.add_widget(w, stretch=0) b.font_size.set_tooltip("Set font size for pixel display") for size in self.fontsizes: b.font_size.append_text(str(size)) b.font_size.show_text(str(self.fontsize)) b.font_size.add_callback('activated', self.set_font_size_cb) vbox2.add_widget(Widgets.Label(''), stretch=1) box.add_widget(vbox2, stretch=1) ## spacer = Widgets.Label('') ## box.add_widget(spacer, stretch=1) paned.add_widget(sw) # hack to set a reasonable starting position for the splitter _sz = max(self._wd, self._ht) paned.set_sizes([_sz, _sz]) top.add_widget(paned, stretch=1) btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) btn = Widgets.Button("Close") btn.add_callback('activated', lambda w: self.close()) btns.add_widget(btn) btn = Widgets.Button("Help") btn.add_callback('activated', lambda w: self.help()) btns.add_widget(btn, stretch=0) btns.add_widget(Widgets.Label(''), stretch=1) top.add_widget(btns, stretch=0) container.add_widget(top, stretch=1)
def build_gui(self, container): assert iqcalc.have_scipy == True, \ Exception("Please install python-scipy to use this plugin") self.pickcenter = None vtop = Widgets.VBox() vtop.set_border_width(4) box, sw, orientation = Widgets.get_oriented_box(container, fill=True) box.set_border_width(4) box.set_spacing(2) self.msg_font = self.fv.get_font("sansFont", 12) tw = Widgets.TextArea(wrap=True, editable=False) tw.set_font(self.msg_font) self.tw = tw fr = Widgets.Expander("Instructions") fr.set_widget(tw) box.add_widget(fr, stretch=0) vpaned = Widgets.Splitter(orientation=orientation) nb = Widgets.TabWidget(tabpos='bottom') self.w.nb1 = nb vpaned.add_widget(nb) cm, im = self.fv.cm, self.fv.im di = Viewers.CanvasView(logger=self.logger) width, height = 300, 300 di.set_desired_size(width, height) di.enable_autozoom('off') di.enable_autocuts('off') di.zoom_to(3) settings = di.get_settings() settings.getSetting('zoomlevel').add_callback('set', self.zoomset, di) di.set_cmap(cm) di.set_imap(im) di.set_callback('none-move', self.detailxy) di.set_bg(0.4, 0.4, 0.4) # for debugging di.set_name('pickimage') self.pickimage = di bd = di.get_bindings() bd.enable_pan(True) bd.enable_zoom(True) bd.enable_cuts(True) di.configure(width, height) iw = Viewers.GingaViewerWidget(viewer=di) iw.resize(300, 300) nb.add_widget(iw, title="Image") if have_mpl: # Contour plot hbox = Widgets.HBox() self.contour_plot = plots.ContourPlot(logger=self.logger, width=400, height=300) self.contour_plot.add_axis(axisbg='black') pw = Plot.PlotWidget(self.contour_plot) pw.resize(400, 300) hbox.add_widget(pw, stretch=1) zoom = Widgets.Slider(orientation='vertical', track=True) zoom.set_limits(1, 100, incr_value=1) zoom.set_value(self.contour_plot.plot_zoomlevel) def zoom_contour_cb(w, val): self.contour_plot.plot_zoom(val / 10.0) zoom.add_callback('value-changed', zoom_contour_cb) hbox.add_widget(zoom, stretch=0) nb.add_widget(hbox, title="Contour") # FWHM gaussians plot self.fwhm_plot = plots.FWHMPlot(logger=self.logger, width=400, height=300) self.fwhm_plot.add_axis(axisbg='white') pw = Plot.PlotWidget(self.fwhm_plot) pw.resize(400, 300) nb.add_widget(pw, title="FWHM") # Radial profile plot self.radial_plot = plots.RadialPlot(logger=self.logger, width=400, height=300) self.radial_plot.add_axis(axisbg='white') pw = Plot.PlotWidget(self.radial_plot) pw.resize(400, 300) nb.add_widget(pw, title="Radial") fr = Widgets.Frame(self._textlabel) nb = Widgets.TabWidget(tabpos='bottom') self.w.nb2 = nb # Build report panel captions = ( ('Zoom:', 'label', 'Zoom', 'llabel'), ('Object_X', 'label', 'Object_X', 'llabel', 'Object_Y', 'label', 'Object_Y', 'llabel'), ('RA:', 'label', 'RA', 'llabel', 'DEC:', 'label', 'DEC', 'llabel'), ('Equinox:', 'label', 'Equinox', 'llabel', 'Background:', 'label', 'Background', 'llabel'), ('Sky Level:', 'label', 'Sky Level', 'llabel', 'Brightness:', 'label', 'Brightness', 'llabel'), ('FWHM X:', 'label', 'FWHM X', 'llabel', 'FWHM Y:', 'label', 'FWHM Y', 'llabel'), ('FWHM:', 'label', 'FWHM', 'llabel', 'Star Size:', 'label', 'Star Size', 'llabel'), ('Sample Area:', 'label', 'Sample Area', 'llabel', 'Default Region', 'button'), ('Pan to pick', 'button'), ) w, b = Widgets.build_info(captions, orientation=orientation) self.w.update(b) b.zoom.set_text(self.fv.scale2text(di.get_scale())) self.wdetail = b b.default_region.add_callback('activated', lambda w: self.reset_region()) b.default_region.set_tooltip("Reset region size to default") b.pan_to_pick.add_callback('activated', lambda w: self.pan_to_pick_cb()) b.pan_to_pick.set_tooltip("Pan image to pick center") vbox1 = Widgets.VBox() vbox1.add_widget(w, stretch=0) # spacer vbox1.add_widget(Widgets.Label(''), stretch=0) # Pick field evaluation status hbox = Widgets.HBox() hbox.set_spacing(4) hbox.set_border_width(4) label = Widgets.Label() #label.set_alignment(0.05, 0.5) self.w.eval_status = label hbox.add_widget(self.w.eval_status, stretch=0) hbox.add_widget(Widgets.Label(''), stretch=1) vbox1.add_widget(hbox, stretch=0) # Pick field evaluation progress bar and stop button hbox = Widgets.HBox() hbox.set_spacing(4) hbox.set_border_width(4) btn = Widgets.Button("Stop") btn.add_callback('activated', lambda w: self.eval_intr()) btn.set_enabled(False) self.w.btn_intr_eval = btn hbox.add_widget(btn, stretch=0) self.w.eval_pgs = Widgets.ProgressBar() hbox.add_widget(self.w.eval_pgs, stretch=1) vbox1.add_widget(hbox, stretch=0) nb.add_widget(vbox1, title="Readout") # Build settings panel captions = ( ('Show Candidates', 'checkbutton'), ('Radius:', 'label', 'xlbl_radius', 'label', 'Radius', 'spinbutton'), ('Threshold:', 'label', 'xlbl_threshold', 'label', 'Threshold', 'entry'), ('Min FWHM:', 'label', 'xlbl_min_fwhm', 'label', 'Min FWHM', 'spinbutton'), ('Max FWHM:', 'label', 'xlbl_max_fwhm', 'label', 'Max FWHM', 'spinbutton'), ('Ellipticity:', 'label', 'xlbl_ellipticity', 'label', 'Ellipticity', 'entry'), ('Edge:', 'label', 'xlbl_edge', 'label', 'Edge', 'entry'), ('Max side:', 'label', 'xlbl_max_side', 'label', 'Max side', 'spinbutton'), ('Coordinate Base:', 'label', 'xlbl_coordinate_base', 'label', 'Coordinate Base', 'entry'), ('Redo Pick', 'button'), ) w, b = Widgets.build_info(captions, orientation=orientation) self.w.update(b) b.radius.set_tooltip("Radius for peak detection") b.threshold.set_tooltip("Threshold for peak detection (blank=default)") b.min_fwhm.set_tooltip("Minimum FWHM for selection") b.max_fwhm.set_tooltip("Maximum FWHM for selection") b.ellipticity.set_tooltip("Minimum ellipticity for selection") b.edge.set_tooltip("Minimum edge distance for selection") b.show_candidates.set_tooltip("Show all peak candidates") b.max_side.set_tooltip("Maximum dimension to search for peaks") b.coordinate_base.set_tooltip("Base of pixel coordinate system") # radius control #b.radius.set_digits(2) #b.radius.set_numeric(True) b.radius.set_limits(5.0, 200.0, incr_value=1.0) def chg_radius(w, val): self.radius = float(val) self.w.xlbl_radius.set_text(str(self.radius)) return True b.xlbl_radius.set_text(str(self.radius)) b.radius.add_callback('value-changed', chg_radius) # threshold control def chg_threshold(w): threshold = None ths = w.get_text().strip() if len(ths) > 0: threshold = float(ths) self.threshold = threshold self.w.xlbl_threshold.set_text(str(self.threshold)) return True b.xlbl_threshold.set_text(str(self.threshold)) b.threshold.add_callback('activated', chg_threshold) # min fwhm #b.min_fwhm.set_digits(2) #b.min_fwhm.set_numeric(True) b.min_fwhm.set_limits(0.1, 200.0, incr_value=0.1) b.min_fwhm.set_value(self.min_fwhm) def chg_min(w, val): self.min_fwhm = float(val) self.w.xlbl_min_fwhm.set_text(str(self.min_fwhm)) return True b.xlbl_min_fwhm.set_text(str(self.min_fwhm)) b.min_fwhm.add_callback('value-changed', chg_min) # max fwhm #b.max_fwhm.set_digits(2) #b.max_fwhm.set_numeric(True) b.max_fwhm.set_limits(0.1, 200.0, incr_value=0.1) b.max_fwhm.set_value(self.max_fwhm) def chg_max(w, val): self.max_fwhm = float(val) self.w.xlbl_max_fwhm.set_text(str(self.max_fwhm)) return True b.xlbl_max_fwhm.set_text(str(self.max_fwhm)) b.max_fwhm.add_callback('value-changed', chg_max) # Ellipticity control def chg_ellipticity(w): minellipse = None val = w.get_text().strip() if len(val) > 0: minellipse = float(val) self.min_ellipse = minellipse self.w.xlbl_ellipticity.set_text(str(self.min_ellipse)) return True b.xlbl_ellipticity.set_text(str(self.min_ellipse)) b.ellipticity.add_callback('activated', chg_ellipticity) # Edge control def chg_edgew(w): edgew = None val = w.get_text().strip() if len(val) > 0: edgew = float(val) self.edgew = edgew self.w.xlbl_edge.set_text(str(self.edgew)) return True b.xlbl_edge.set_text(str(self.edgew)) b.edge.add_callback('activated', chg_edgew) #b.max_side.set_digits(0) #b.max_side.set_numeric(True) b.max_side.set_limits(5, 10000, incr_value=10) b.max_side.set_value(self.max_side) def chg_max_side(w, val): self.max_side = int(val) self.w.xlbl_max_side.set_text(str(self.max_side)) return True b.xlbl_max_side.set_text(str(self.max_side)) b.max_side.add_callback('value-changed', chg_max_side) b.redo_pick.add_callback('activated', lambda w: self.redo()) b.show_candidates.set_state(self.show_candidates) b.show_candidates.add_callback('activated', self.show_candidates_cb) self.w.xlbl_coordinate_base.set_text(str(self.pixel_coords_offset)) b.coordinate_base.set_text(str(self.pixel_coords_offset)) b.coordinate_base.add_callback('activated', self.coordinate_base_cb) vbox3 = Widgets.VBox() vbox3.add_widget(w, stretch=0) vbox3.add_widget(Widgets.Label(''), stretch=1) nb.add_widget(vbox3, title="Settings") # Build controls panel vbox3 = Widgets.VBox() captions = ( ('Sky cut', 'button', 'Delta sky:', 'label', 'xlbl_delta_sky', 'label', 'Delta sky', 'entry'), ('Bright cut', 'button', 'Delta bright:', 'label', 'xlbl_delta_bright', 'label', 'Delta bright', 'entry'), ) w, b = Widgets.build_info(captions, orientation=orientation) self.w.update(b) b.sky_cut.set_tooltip("Set image low cut to Sky Level") b.delta_sky.set_tooltip("Delta to apply to low cut") b.bright_cut.set_tooltip("Set image high cut to Sky Level+Brightness") b.delta_bright.set_tooltip("Delta to apply to high cut") b.sky_cut.set_enabled(False) self.w.btn_sky_cut = b.sky_cut self.w.btn_sky_cut.add_callback('activated', lambda w: self.sky_cut()) self.w.sky_cut_delta = b.delta_sky b.xlbl_delta_sky.set_text(str(self.delta_sky)) b.delta_sky.set_text(str(self.delta_sky)) def chg_delta_sky(w): delta_sky = 0.0 val = w.get_text().strip() if len(val) > 0: delta_sky = float(val) self.delta_sky = delta_sky self.w.xlbl_delta_sky.set_text(str(self.delta_sky)) return True b.delta_sky.add_callback('activated', chg_delta_sky) b.bright_cut.set_enabled(False) self.w.btn_bright_cut = b.bright_cut self.w.btn_bright_cut.add_callback('activated', lambda w: self.bright_cut()) self.w.bright_cut_delta = b.delta_bright b.xlbl_delta_bright.set_text(str(self.delta_bright)) b.delta_bright.set_text(str(self.delta_bright)) def chg_delta_bright(w): delta_bright = 0.0 val = w.get_text().strip() if len(val) > 0: delta_bright = float(val) self.delta_bright = delta_bright self.w.xlbl_delta_bright.set_text(str(self.delta_bright)) return True b.delta_bright.add_callback('activated', chg_delta_bright) vbox3.add_widget(w, stretch=0) vbox3.add_widget(Widgets.Label(''), stretch=1) nb.add_widget(vbox3, title="Controls") vbox3 = Widgets.VBox() msg_font = self.fv.get_font("fixedFont", 10) tw = Widgets.TextArea(wrap=False, editable=True) tw.set_font(msg_font) self.w.report = tw sw1 = Widgets.ScrollArea() sw1.set_widget(tw) vbox3.add_widget(sw1, stretch=1) tw.append_text(self._make_report_header()) btns = Widgets.HBox() btns.set_spacing(4) btn = Widgets.Button("Add Pick") btn.add_callback('activated', lambda w: self.add_pick_cb()) btns.add_widget(btn) btn = Widgets.CheckBox("Record Picks automatically") btn.set_state(self.do_record) btn.add_callback('activated', self.record_cb) btns.add_widget(btn) btns.add_widget(Widgets.Label(''), stretch=1) vbox3.add_widget(btns, stretch=0) btns = Widgets.HBox() btns.set_spacing(4) btn = Widgets.CheckBox("Log Records") btn.set_state(self.do_report_log) btn.add_callback('activated', self.do_report_log_cb) btns.add_widget(btn) btns.add_widget(Widgets.Label("File:")) ent = Widgets.TextEntry() ent.set_text(self.report_log) ent.add_callback('activated', self.set_report_log_cb) btns.add_widget(ent, stretch=1) vbox3.add_widget(btns, stretch=0) nb.add_widget(vbox3, title="Report") ## sw2 = Widgets.ScrollArea() ## sw2.set_widget(nb) ## fr.set_widget(sw2) fr.set_widget(nb) vpaned.add_widget(fr) mode = self.canvas.get_draw_mode() hbox = Widgets.HBox() btn1 = Widgets.RadioButton("Move") btn1.set_state(mode == 'move') btn1.add_callback('activated', lambda w, val: self.set_mode_cb('move', val)) btn1.set_tooltip("Choose this to position pick") self.w.btn_move = btn1 hbox.add_widget(btn1) btn2 = Widgets.RadioButton("Draw", group=btn1) btn2.set_state(mode == 'draw') btn2.add_callback('activated', lambda w, val: self.set_mode_cb('draw', val)) btn2.set_tooltip("Choose this to draw a replacement pick") self.w.btn_draw = btn2 hbox.add_widget(btn2) btn3 = Widgets.RadioButton("Edit", group=btn1) btn3.set_state(mode == 'edit') btn3.add_callback('activated', lambda w, val: self.set_mode_cb('edit', val)) btn3.set_tooltip("Choose this to edit a pick") self.w.btn_edit = btn3 hbox.add_widget(btn3) hbox.add_widget(Widgets.Label(''), stretch=1) #box.add_widget(hbox, stretch=0) vpaned.add_widget(hbox) box.add_widget(vpaned, stretch=1) vtop.add_widget(sw, stretch=5) ## spacer = Widgets.Label('') ## vtop.add_widget(spacer, stretch=0) btns = Widgets.HBox() btns.set_spacing(4) btn = Widgets.Button("Close") btn.add_callback('activated', lambda w: self.close()) btns.add_widget(btn) btns.add_widget(Widgets.Label(''), stretch=1) vtop.add_widget(btns, stretch=0) container.add_widget(vtop, stretch=5)
def build_gui(self, container): top = Widgets.VBox() top.set_border_width(4) vbox, sw, orientation = Widgets.get_oriented_box(container) vbox.set_margins(4, 4, 4, 4) vbox.set_spacing(2) self.plot = plots.Plot(logger=self.logger, width=400, height=300) ax = self.plot.add_axis() ax.grid(False) w = Plot.PlotWidget(self.plot) w.resize(400, 300) vbox.add_widget(w, stretch=0) fr = Widgets.Frame("Axes controls") self.hbox_axes = Widgets.HBox() self.hbox_axes.set_border_width(4) self.hbox_axes.set_spacing(1) fr.set_widget(self.hbox_axes) vbox.add_widget(fr, stretch=0) btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) # control for selecting a mark cbox2 = Widgets.ComboBox() for tag in self.marks: cbox2.append_text(tag) if self.mark_selected is None: cbox2.set_index(0) else: cbox2.show_text(self.mark_selected) cbox2.add_callback('activated', self.mark_select_cb) self.w.marks = cbox2 cbox2.set_tooltip("Select a mark") btns.add_widget(cbox2, stretch=0) btn1 = Widgets.CheckBox("Pan to mark") btn1.set_state(self.pan2mark) btn1.add_callback('activated', self.pan2mark_cb) btn1.set_tooltip("Pan follows selected mark") btns.add_widget(btn1) btns.add_widget(Widgets.Label(''), stretch=1) btn2 = Widgets.Button("Delete") self.del_btn = btn2 btn2.add_callback('activated', lambda w: self.clear_mark_cb()) btn2.set_tooltip("Delete selected mark") btn2.set_enabled(False) btns.add_widget(btn2, stretch=0) btn3 = Widgets.Button("Delete All") self.del_all_btn = btn3 btn3.add_callback('activated', lambda w: self.clear_all()) btn3.set_tooltip("Clear all marks") btn3.set_enabled(False) btns.add_widget(btn3, stretch=0) vbox2 = Widgets.VBox() vbox2.add_widget(btns, stretch=0) vbox2.add_widget(Widgets.Label(''), stretch=1) fr = Widgets.Frame("Mark controls") fr.set_widget(vbox2) vbox.add_widget(fr, stretch=1) # scroll bars will allow lots of content to be accessed top.add_widget(sw, stretch=1) # A button box that is always visible at the bottom btns = Widgets.HBox() btns.set_spacing(3) # Add a close button for the convenience of the user btn = Widgets.Button("Close") btn.add_callback('activated', lambda w: self.close()) btns.add_widget(btn, stretch=0) btn = Widgets.Button("Help") btn.add_callback('activated', lambda w: self.help()) btns.add_widget(btn, stretch=0) btns.add_widget(Widgets.Label(''), stretch=1) top.add_widget(btns, stretch=0) # Add our GUI to the container container.add_widget(top, stretch=1) self.gui_up = True self.build_axes()
def build_gui(self, container): top = Widgets.VBox() top.set_border_width(4) vbox, sw, orientation = Widgets.get_oriented_box(container, fill=True) vbox.set_border_width(4) vbox.set_spacing(2) self.msgFont = self.fv.getFont("sansFont", 12) tw = Widgets.TextArea(wrap=True, editable=False) tw.set_font(self.msgFont) self.tw = tw fr = Widgets.Expander("Instructions") fr.set_widget(tw) vbox.add_widget(fr, stretch=0) fr = Widgets.Frame("Pixel Values") # Make the values table as a text widget msgFont = self.fv.getFont('fixedFont', 10) tw = Widgets.TextArea(wrap=False, editable=False) #tw.cfg_expand(1, 1) tw.set_font(msgFont) self.tw = tw ## sw1 = Widgets.ScrollArea() ## sw1.set_widget(tw) vbox2 = Widgets.VBox() vbox2.add_widget(tw) ## vbox2.add_widget(sw1) ## vbox2.add_widget(Widgets.Label(''), stretch=1) fr.set_widget(vbox2) vbox.add_widget(fr, stretch=1) btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) cbox1 = Widgets.ComboBox() index = 0 for i in self.sizes: j = 1 + i * 2 name = "%dx%d" % (j, j) cbox1.append_text(name) index += 1 index = self.sizes.index(self.pixtbl_radius) cbox1.set_index(index) cbox1.add_callback('activated', self.set_cutout_size) cbox1.set_tooltip("Select size of pixel table") btns.add_widget(cbox1, stretch=0) # control for selecting a mark cbox2 = Widgets.ComboBox() for tag in self.marks: cbox2.append_text(tag) if self.mark_selected is None: cbox2.set_index(0) else: cbox2.show_text(self.mark_selected) cbox2.add_callback('activated', self.mark_select_cb) self.w.marks = cbox2 cbox2.set_tooltip("Select a mark") #cbox2.setMinimumContentsLength(8) btns.add_widget(cbox2, stretch=0) btn1 = Widgets.Button("Delete") btn1.add_callback('activated', lambda w: self.clear_mark_cb()) btn1.set_tooltip("Delete selected mark") btns.add_widget(btn1, stretch=0) btn2 = Widgets.Button("Delete All") btn2.add_callback('activated', lambda w: self.clear_all()) btn2.set_tooltip("Clear all marks") btns.add_widget(btn2, stretch=0) btns.add_widget(Widgets.Label(''), stretch=1) vbox2 = Widgets.VBox() vbox2.add_widget(btns, stretch=0) btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) btn3 = Widgets.CheckBox("Pan to mark") btn3.set_state(self.pan2mark) btn3.add_callback('activated', self.pan2mark_cb) btn3.set_tooltip("Pan follows selected mark") btns.add_widget(btn3) btns.add_widget(Widgets.Label(''), stretch=1) vbox2.add_widget(btns, stretch=0) vbox2.add_widget(Widgets.Label(''), stretch=1) vbox.add_widget(vbox2, stretch=1) ## spacer = Widgets.Label('') ## vbox.add_widget(spacer, stretch=1) top.add_widget(sw, stretch=1) btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) btn = Widgets.Button("Close") btn.add_callback('activated', lambda w: self.close()) btns.add_widget(btn) btns.add_widget(Widgets.Label(''), stretch=1) top.add_widget(btns, stretch=0) container.add_widget(top, stretch=1)
w = Widgets.TextEntry() w.set_text("Hello, World!") vbox.add_widget(w, stretch=1) elif wname == 'textentryset': w = Widgets.TextEntrySet() w.set_text("Hello, World!") vbox.add_widget(w, stretch=1) elif wname == 'textarea': w = Widgets.TextArea(editable=True) w.set_text("Hello, World!") vbox.add_widget(w, stretch=1) elif wname == 'checkbox': w = Widgets.CheckBox("Check me") vbox.add_widget(w, stretch=1) elif wname == 'togglebutton': w = Widgets.ToggleButton("Toggle me") vbox.add_widget(w, stretch=1) elif wname == 'radiobutton': w = Widgets.RadioButton("Option 1") vbox.add_widget(w) vbox.add_widget(Widgets.RadioButton("Option 2", group=w)) vbox.add_widget(Widgets.RadioButton("Option 3", group=w)) elif wname == 'combobox': w = Widgets.ComboBox() for name in ["Larry", "Curly", "Moe"]:
def build_gui(self, container): top = Widgets.VBox() top.set_border_width(4) vbox, sw, orientation = Widgets.get_oriented_box(container, fill=True) vbox.set_border_width(4) vbox.set_spacing(2) self.msg_font = self.fv.get_font("sansFont", 12) tw = Widgets.TextArea(wrap=True, editable=False) tw.set_font(self.msg_font) self.tw = tw fr = Widgets.Expander("Instructions") fr.set_widget(tw) vbox.add_widget(fr, stretch=0) fr = Widgets.Frame("Pixel Values") # We just use a ginga widget to implement the pixtable pixview = Viewers.CanvasView(logger=self.logger) width, height = 300, 300 pixview.set_desired_size(width, height) bg = colors.lookup_color('#202030') pixview.set_bg(*bg) bd = pixview.get_bindings() self.pixview = pixview self.pix_w = Viewers.ScrolledView(pixview) self.pix_w.resize(width, height) fr.set_widget(self.pix_w) vbox.add_widget(fr, stretch=1) self._rebuild_table() btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) cbox1 = Widgets.ComboBox() index = 0 for i in self.sizes: j = 1 + i * 2 name = "%dx%d" % (j, j) cbox1.append_text(name) index += 1 index = self.sizes.index(self.pixtbl_radius) cbox1.set_index(index) cbox1.add_callback('activated', self.set_cutout_size_cb) cbox1.set_tooltip("Select size of pixel table") btns.add_widget(cbox1, stretch=0) # control for selecting a mark cbox2 = Widgets.ComboBox() for tag in self.marks: cbox2.append_text(tag) if self.mark_selected is None: cbox2.set_index(0) else: cbox2.show_text(self.mark_selected) cbox2.add_callback('activated', self.mark_select_cb) self.w.marks = cbox2 cbox2.set_tooltip("Select a mark") #cbox2.setMinimumContentsLength(8) btns.add_widget(cbox2, stretch=0) btn1 = Widgets.Button("Delete") btn1.add_callback('activated', lambda w: self.clear_mark_cb()) btn1.set_tooltip("Delete selected mark") btns.add_widget(btn1, stretch=0) btn2 = Widgets.Button("Delete All") btn2.add_callback('activated', lambda w: self.clear_all()) btn2.set_tooltip("Clear all marks") btns.add_widget(btn2, stretch=0) btns.add_widget(Widgets.Label(''), stretch=1) vbox2 = Widgets.VBox() vbox2.add_widget(btns, stretch=0) btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) btn3 = Widgets.CheckBox("Pan to mark") btn3.set_state(self.pan2mark) btn3.add_callback('activated', self.pan2mark_cb) btn3.set_tooltip("Pan follows selected mark") btns.add_widget(btn3) btns.add_widget(Widgets.Label(''), stretch=1) vbox2.add_widget(btns, stretch=0) captions = [ ('Font size:', 'label', 'Font size', 'combobox'), ] w, b = Widgets.build_info(captions) self.w.update(b) vbox2.add_widget(w, stretch=0) b.font_size.set_tooltip("Set font size for pixel display") for size in (8, 9, 10, 11, 12, 14, 16): b.font_size.append_text(str(size)) b.font_size.show_text(str(self.fontsize)) b.font_size.add_callback('activated', self.set_font_size_cb) vbox2.add_widget(Widgets.Label(''), stretch=1) vbox.add_widget(vbox2, stretch=1) ## spacer = Widgets.Label('') ## vbox.add_widget(spacer, stretch=1) top.add_widget(sw, stretch=1) btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) btn = Widgets.Button("Close") btn.add_callback('activated', lambda w: self.close()) btns.add_widget(btn) btns.add_widget(Widgets.Label(''), stretch=1) top.add_widget(btns, stretch=0) container.add_widget(top, stretch=1)
def build_gui(self, container): top = Widgets.VBox() top.set_border_width(4) box, sw, orientation = Widgets.get_oriented_box(container) box.set_border_width(4) box.set_spacing(2) fr = Widgets.Frame("Pixel Values") # We just use a ginga widget to implement the pixtable pixview = Viewers.CanvasView(logger=self.logger) pixview.set_desired_size(self._wd, self._ht) bg = colors.lookup_color('#202030') pixview.set_bg(*bg) bd = pixview.get_bindings() bd.enable_zoom(True) bd.enable_pan(True) self.pixview = pixview self.pix_w = Viewers.GingaViewerWidget(pixview) fr.set_widget(self.pix_w) self.pix_w.resize(self._wd, self._ht) paned = Widgets.Splitter(orientation=orientation) self.w.splitter = paned paned.add_widget(fr) self._rebuild_table() btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) cbox1 = Widgets.ComboBox() index = 0 for i in self.sizes: j = 1 + i * 2 name = "%dx%d" % (j, j) cbox1.append_text(name) index += 1 index = self.sizes.index(self.pixtbl_radius) cbox1.set_index(index) cbox1.add_callback('activated', self.set_cutout_size_cb) cbox1.set_tooltip("Select size of pixel table") btns.add_widget(cbox1, stretch=0) # control for selecting a mark cbox2 = Widgets.ComboBox() for tag in self.marks: cbox2.append_text(tag) if self.mark_selected is None: cbox2.set_index(0) else: cbox2.show_text(self.mark_selected) cbox2.add_callback('activated', self.mark_select_cb) self.w.marks = cbox2 cbox2.set_tooltip("Select a mark") #cbox2.setMinimumContentsLength(8) btns.add_widget(cbox2, stretch=0) btn1 = Widgets.Button("Delete") btn1.add_callback('activated', lambda w: self.clear_mark_cb()) btn1.set_tooltip("Delete selected mark") btn1.set_enabled(len(self.marks) > 1) self.w.btn_delete = btn1 btns.add_widget(btn1, stretch=0) btn2 = Widgets.Button("Delete All") btn2.add_callback('activated', lambda w: self.clear_all()) btn2.set_tooltip("Clear all marks") btns.add_widget(btn2, stretch=0) btn2.set_enabled(len(self.marks) > 1) self.w.btn_delete_all = btn2 btns.add_widget(Widgets.Label(''), stretch=1) vbox2 = Widgets.VBox() vbox2.add_widget(btns, stretch=0) btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) btn3 = Widgets.CheckBox("Pan to mark") btn3.set_state(self.pan2mark) btn3.add_callback('activated', self.pan2mark_cb) btn3.set_tooltip("Pan follows selected mark") btns.add_widget(btn3) btns.add_widget(Widgets.Label(''), stretch=1) vbox2.add_widget(btns, stretch=0) captions = [ ('Font size:', 'label', 'Font size', 'combobox', 'Caption:', 'label', 'Caption', 'entry'), ] w, b = Widgets.build_info(captions) self.w.update(b) vbox2.add_widget(w, stretch=0) b.font_size.set_tooltip("Set font size for pixel display") for size in self.fontsizes: b.font_size.append_text(str(size)) b.font_size.show_text(str(self.fontsize)) b.font_size.add_callback('activated', self.set_font_size_cb) b.caption.set_tooltip("Text to append to the marker") vbox2.add_widget(Widgets.Label(''), stretch=1) box.add_widget(vbox2, stretch=1) ## spacer = Widgets.Label('') ## box.add_widget(spacer, stretch=1) paned.add_widget(sw) paned.set_sizes(self._split_sizes) top.add_widget(paned, stretch=1) mode = self.canvas.get_draw_mode() hbox = Widgets.HBox() btn1 = Widgets.RadioButton("Move") btn1.set_state(mode == 'move') btn1.add_callback('activated', lambda w, val: self.set_mode_cb('move', val)) btn1.set_tooltip("Choose this to add or move a mark") self.w.btn_move = btn1 hbox.add_widget(btn1) btn2 = Widgets.RadioButton("Draw", group=btn1) btn2.set_state(mode == 'draw') btn2.add_callback('activated', lambda w, val: self.set_mode_cb('draw', val)) btn2.set_tooltip("Choose this to draw a new or replacement mark") self.w.btn_draw = btn2 hbox.add_widget(btn2) btn3 = Widgets.RadioButton("Edit", group=btn1) btn3.set_state(mode == 'edit') btn3.add_callback('activated', lambda w, val: self.set_mode_cb('edit', val)) btn3.set_tooltip("Choose this to edit a mark") self.w.btn_edit = btn3 hbox.add_widget(btn3) hbox.add_widget(Widgets.Label(''), stretch=1) top.add_widget(hbox, stretch=0) btns = Widgets.HBox() btns.set_border_width(4) btns.set_spacing(4) btn = Widgets.Button("Close") btn.add_callback('activated', lambda w: self.close()) btns.add_widget(btn) btn = Widgets.Button("Help") btn.add_callback('activated', lambda w: self.help()) btns.add_widget(btn, stretch=0) btns.add_widget(Widgets.Label(''), stretch=1) top.add_widget(btns, stretch=0) container.add_widget(top, stretch=1) self.gui_up = True
def build_gui(self, container): vbox = Widgets.VBox() vbox.set_border_width(4) vbox.set_spacing(2) gr = Widgets.GridBox() gr.set_column_spacing(4) i = 0 ## self.w.observer = Widgets.TextEntry() ## self.w.observer.set_length(12) ## gr.add_widget(Widgets.Label('Observer'), 0, i) ## gr.add_widget(self.w.observer, 1, i) ## self.w.observer.set_tooltip("Name of observer doing this observation") ## self.w.observer.set_text("Nobody") ## i += 1 self.w.date = Widgets.TextEntry() self.w.date.set_length(12) gr.add_widget(Widgets.Label('Local date'), 0, i) gr.add_widget(self.w.date, 1, i) self.w.date.set_tooltip("Local date at beginning of interval") i += 1 self.w.start_time = Widgets.TextEntry() self.w.start_time.set_length(8) gr.add_widget(Widgets.Label('Start Time'), 0, i) gr.add_widget(self.w.start_time, 1, i) self.w.start_time.set_tooltip("Local time for interval") i += 1 self.w.len_time = Widgets.TextEntry() self.w.len_time.set_length(8) gr.add_widget(Widgets.Label('Length (min)'), 0, i) gr.add_widget(self.w.len_time, 1, i) self.w.len_time.set_text('70') self.w.len_time.set_tooltip("Length of interval in MINUTES") i += 1 self.w.az = Widgets.TextEntry() self.w.az.set_length(8) gr.add_widget(Widgets.Label('Az'), 0, i) gr.add_widget(self.w.az, 1, i) self.w.az.set_text('-90.0') self.w.az.set_tooltip("Current azimuth of telescope") i += 1 self.w.el = Widgets.TextEntry() self.w.el.set_length(8) gr.add_widget(Widgets.Label('El'), 0, i) gr.add_widget(self.w.el, 1, i) self.w.el.set_text('89.9') self.w.el.set_tooltip("Current elevation of telescope") i += 1 self.w.filter = Widgets.TextEntry() self.w.filter.set_length(5) gr.add_widget(Widgets.Label('Filter'), 0, i) gr.add_widget(self.w.filter, 1, i) self.w.filter.set_text('g') self.w.filter.set_tooltip("Currently installed filter for HSC") i += 1 self.w.fltr_exch = Widgets.CheckBox("Filter Exch") gr.add_widget(Widgets.Label('Allow'), 0, i) gr.add_widget(self.w.fltr_exch, 1, i) self.w.fltr_exch.set_state(True) self.w.fltr_exch.set_tooltip("Allow filter exchange in scheduling?") i += 1 self.w.allow_delay = Widgets.CheckBox("Delay") gr.add_widget(Widgets.Label('Allow'), 0, i) gr.add_widget(self.w.allow_delay, 1, i) self.w.allow_delay.set_state(True) self.w.allow_delay.set_tooltip("Allow delays in scheduling?") i += 1 self.w.seeing = Widgets.TextEntry() self.w.seeing.set_length(5) gr.add_widget(Widgets.Label('Seeing'), 0, i) gr.add_widget(self.w.seeing, 1, i) self.w.seeing.set_text('1.0') self.w.seeing.set_tooltip("Current best estimate of seeing") i += 1 self.w.trans = Widgets.TextEntry() self.w.trans.set_length(5) gr.add_widget(Widgets.Label('Transparency'), 0, i) gr.add_widget(self.w.trans, 1, i) self.w.trans.set_text('0.85') self.w.trans.set_tooltip("Current best estimate of sky transparency") i += 1 btn = Widgets.Button('Update') btn.add_callback('activated', self.update_cb) btn.set_tooltip("Update time, current pointing and active filter") gr.add_widget(btn, 1, i) i += 1 gr.add_widget(Widgets.Label(''), 1, i, stretch=4) vbox.add_widget(gr) hbox = Widgets.HBox() fr = Widgets.Frame("Possible OBs") self.tree1 = Widgets.TreeView(sortable=True, use_alt_row_color=True, selection='single') self.tree1.add_callback('selected', self.select_ob_cb) fr.set_widget(self.tree1) hbox.add_widget(self.tree1, stretch=1) vbx2 = Widgets.VBox() vbx2.set_border_width(4) vbx2.set_spacing(6) ## cb = Widgets.CheckBox("Show bad") ## cb.set_tooltip("Include OBs that cannot execute now") ## cb.add_callback('activated', self._toggle_show_bad) ## vbx2.add_widget(cb, stretch=0) btn = Widgets.Button("Get OBs") btn.set_tooltip("Find OBs that can execute within the period") btn.add_callback('activated', self.find_executable_obs_cb) vbx2.add_widget(btn, stretch=0) if self.use_qc_plans: btn = Widgets.Button("Load Plan") btn.set_tooltip("Load a queue coordinator plan") btn.add_callback('activated', self.load_plan_cb) vbx2.add_widget(btn, stretch=0) fr = Widgets.Frame() self.plan_lbl = Widgets.Label("(no plan)") fr.set_widget(self.plan_lbl) vbx2.add_widget(fr, stretch=0) self.model.add_callback('qc-plan-loaded', self._plan_loaded_cb) # add stretch spacer vbx2.add_widget(Widgets.Label(''), stretch=1) hbox.add_widget(vbx2, stretch=0) vbox.add_widget(hbox, stretch=1) container.add_widget(vbox, stretch=1)