def _fcn_grid_tupdate(self): """Update grid titles properties.""" if hasattr(self, '_grid'): self._grid.font_size = float(self._grid_titles_fz.value()) # fz col = textline2color(str(self._grid_titles_color.text()))[1] self._grid.tcolor = col # title color self._grid.tvisible = self._grid_titles.isChecked() # title
def _fcn_grid_tupdate(self): """Update grid titles properties.""" if hasattr(self, '_grid'): self._grid.font_size = float(self._grid_titles_fz.value()) # fz col = textline2color(str(self._grid_titles_color.text()))[1] self._grid.tcolor = col # title color self._grid.tvisible = self._grid_titles.isChecked() # title
def _fcn_source_proj(self, _, **kwargs): """Apply source projection.""" project_on = str(self._s_proj_on.currentText()) b_obj = self.atlas if project_on == 'brain' else self.roi radius = self._s_proj_radius.value() contribute = self._s_proj_contribute.isChecked() mask_color = textline2color(str(self._s_proj_mask_color.text()))[1] project = str(self._s_proj_type.currentText()) self.sources.project_sources(b_obj, project=project, radius=radius, contribute=contribute, mask_color=mask_color, **kwargs) self.cbqt.setEnabled('roi', hasattr(self.roi, 'mesh'))
def _fcn_annot_appear(self): """Control annotations appearance.""" pos = self._signal._annot_mark._data['a_position'] self._signal._annot_mark._data = np.array([]) color = textline2color(self._annot_color.text())[1] self._signal._annot_text.font_size = self._annot_txtsz.value() self._signal._annot_text.color = color self._signal._annot_mark.set_data(pos=pos, face_color=color, size=self._annot_marksz.value(), edge_width=0.) self._signal._annot_text.update() self._signal._annot_text.visible = self._annot_viz.isChecked() self._signal._annot_mark.visible = self._annot_viz.isChecked()
def _fcn_annot_appear(self): """Control annotations appearance.""" pos = self._signal._annot_mark._data['a_position'] self._signal._annot_mark._data = np.array([]) color = textline2color(self._annot_color.text())[1] self._signal._annot_text.font_size = self._annot_txtsz.value() self._signal._annot_text.color = color self._signal._annot_mark.set_data(pos=pos, face_color=color, size=self._annot_marksz.value(), edge_width=0.) self._signal._annot_text.update() self._signal._annot_text.visible = self._annot_viz.isChecked() self._signal._annot_mark.visible = self._annot_viz.isChecked()
def _fcn_source_proj(self, _, **kwargs): """Apply source projection.""" project_on = str(self._s_proj_on.currentText()) b_obj = self.atlas if project_on == 'brain' else self.roi radius = self._s_proj_radius.value() contribute = self._s_proj_contribute.isChecked() mask_color = textline2color(str(self._s_proj_mask_color.text()))[1] project = str(self._s_proj_type.currentText()) self.sources.project_sources(b_obj, project=project, radius=radius, contribute=contribute, mask_color=mask_color, **kwargs) self.cbqt.setEnabled('roi', hasattr(self.roi, 'mesh'))
def _fcn_set_bgcolor(self): """Change background color.""" bgcolor = textline2color(str(self._set_bgcolor.text()))[1] self._grid_canvas.bgcolor = bgcolor self._signal_canvas.bgcolor = bgcolor
def _fcn_source_edgecolor(self): """Update source edge color.""" color = textline2color(str(self._s_edge_color.text()))[1] self._get_select_object().edge_color = color
def _fcn_proj_mask_color(self): """Change the color for projected masked sources.""" color = textline2color(str(self._s_proj_mask_color.text()))[1] self.atlas.mesh.mask_color = color
def _fcn_text_color(self): """Update text color.""" color = textline2color(str(self._st_color.text()))[1] self._get_select_object().text_color = color
def _fcn_axis_color(self): """Set axis color.""" col = textline2color(str(self._axis_color.text()))[1] self._signal_canvas.axis_color = col self._signal_canvas.cbar.txtcolor = col
def _fcn_set_signal(self, *args, force=False): """Set signal.""" # =================== FORM AND COLOR =================== form_bck = self._signal.form form = str(self._sig_form.currentText()) form_index = int(self._sig_form.currentIndex()) self._PlottingForm.setCurrentIndex(form_index) color = textline2color(str(self._sig_color.text()))[0] # Enable amplitude control only for line // marker : self._sig_amp.setEnabled(form in ['line', 'marker']) # ================== LINE / MARKER / HISTOGRAM / TF ================== lw = float(self._sig_lw.value()) nbins = int(self._sig_nbins.value()) size = float(self._sig_size.value()) symbol = str(self._sig_symbol.currentText()) norm = int(self._sig_norm.currentIndex()) is_baseline = self._sig_baseline.isChecked() _baseline = (int(self._sig_base_start.value()), int(self._sig_base_end.value())) baseline = None if not is_baseline else _baseline is_averaging = self._sig_averaging.isChecked() window = None if not is_averaging else self._sig_av_win.value() overlap = float(self._sig_av_overlap.value()) is_clim = self._sig_tf_clim.isChecked() _clim = (self._sig_climin.value(), self._sig_climax.value()) clim = _clim if is_clim else None cmap = str(self._sig_tf_cmap.currentText()) cmap += '_r' * self._sig_tf_rev.isChecked() interpolation = str(self._sig_tf_interp.currentText()) nperseg = int(self._sig_nperseg.value()) noverlap = int(self._sig_noverlap.value()) # =================== THRESHOLD =================== thm = (self._sig_th_min.value(), self._sig_th_max.value()) th = thm if self._sig_th.isChecked() else None # =================== SET DATA // TEXT=================== index = int(self._sig_index.value()) self._signal.set_data(self._data, index, color, lw, nbins, symbol, size, form, th, norm, window, overlap, baseline, clim, cmap, interpolation, nperseg, noverlap) self._txt_shape.setText(str(self._signal)) # =================== CAMERA =================== if force or (form != form_bck): self._sig_amp.setChecked(False) self.update_cameras(update='signal') self._sig_tf_apply.setEnabled(False) # =================== RESIZE =================== main = self._signal_canvas.wc cbar = self._signal_canvas.wc_cbar title = self._signal_canvas._titleObj xaxis = self._signal_canvas.xaxis is_form = form in ['tf'] if is_form and (self._previous_form != form): self._signal_canvas.grid.add_widget(cbar, row=1, col=2) self._signal_canvas.grid.resize_widget(main, 1, 1) self._signal_canvas.grid.resize_widget(xaxis, 1, 1) self._signal_canvas.grid.resize_widget(title, 1, 2) elif not is_form: self._signal_canvas.grid.remove_widget(cbar) self._signal_canvas.grid.resize_widget(main, 1, 2) self._signal_canvas.grid.resize_widget(xaxis, 1, 2) self._signal_canvas.grid.resize_widget(title, 1, 3) # =================== CLIM // CBAR =================== self._signal_canvas.wc_cbar.visible = is_form if form == 'tf': # Fix clim (min, max): clim_max = abs(np.max(self._signal._tf._clim)) self._sig_climin.setMinimum(-clim_max) self._sig_climin.setMaximum(clim_max) self._sig_climax.setMinimum(-clim_max) self._sig_climax.setMaximum(clim_max) # Colorbar upate : self._cbar_update(self._signal._tf) self._signal_canvas.update() self._previous_form = form
def _fcn_ts_color(self): """Time series color.""" color = textline2color(str(self._ts_color.text()))[1] self._get_select_object().color = color
def _fcn_ts_color(self): """Time series color.""" color = textline2color(str(self._ts_color.text()))[1] self._get_select_object().color = color
def _fcn_proj_mask_color(self): """Change the color for projected masked sources.""" color = textline2color(str(self._s_proj_mask_color.text()))[1] self.atlas.mesh.mask_color = color
def _fcn_text_color(self): """Update text color.""" color = textline2color(str(self._st_color.text()))[1] self._get_select_object().text_color = color
def _fcn_source_edgecolor(self): """Update source edge color.""" color = textline2color(str(self._s_edge_color.text()))[1] self._get_select_object().edge_color = color