def test_empty(self): ds = GridDataSource() self.assert_(ds.sort_order == ('none', 'none')) self.assert_(ds.index_dimension == 'image') self.assert_(ds.value_dimension == 'scalar') self.assert_(ds.metadata == {"selections":[], "annotations":[]}) xdata, ydata = ds.get_data() assert_ary_(xdata.get_data(), array([])) assert_ary_(ydata.get_data(), array([])) self.assert_(ds.get_bounds() == ((0,0),(0,0)))
def test_init(self): test_xd = array([1,2,3]) test_yd = array([1.5, 0.5, -0.5, -1.5]) test_sort_order = ('ascending', 'descending') ds = GridDataSource(xdata=test_xd, ydata=test_yd, sort_order=test_sort_order) self.assert_(ds.sort_order == test_sort_order) xd, yd = ds.get_data() assert_ary_(xd.get_data(), test_xd) assert_ary_(yd.get_data(), test_yd) self.assert_(ds.get_bounds() == ((min(test_xd),min(test_yd)), (max(test_xd),max(test_yd))))
class PlotUI(HasTraits): #Traits view definitions: traits_view = View( Group(Item('container', editor=ComponentEditor(size=(800,600)), show_label=False)), buttons=NoButtons, resizable=True) plot_edit_view = View( Group(Item('num_levels'), Item('colormap')), buttons=["OK","Cancel"]) num_levels = Int(15) colormap = Enum(color_map_name_dict.keys()) #--------------------------------------------------------------------------- # Private Traits #--------------------------------------------------------------------------- _image_index = Instance(GridDataSource) _image_value = Instance(ImageData) _cmap = Trait(jet, Callable) #--------------------------------------------------------------------------- # Public View interface #--------------------------------------------------------------------------- def __init__(self, *args, **kwargs): super(PlotUI, self).__init__(*args, **kwargs) self.create_plot() def create_plot(self): # Create the mapper, etc self._image_index = GridDataSource(array([]), array([]), sort_order=("ascending","ascending")) image_index_range = DataRange2D(self._image_index) self._image_index.on_trait_change(self._metadata_changed, "metadata_changed") self._image_value = ImageData(data=array([]), value_depth=1) image_value_range = DataRange1D(self._image_value) # Create the contour plots self.polyplot = ContourPolyPlot(index=self._image_index, value=self._image_value, index_mapper=GridMapper(range= image_index_range), color_mapper=\ self._cmap(image_value_range), levels=self.num_levels) self.lineplot = ContourLinePlot(index=self._image_index, value=self._image_value, index_mapper=GridMapper(range= self.polyplot.index_mapper.range), levels=self.num_levels) # Add a left axis to the plot left = PlotAxis(orientation='left', title= "y", mapper=self.polyplot.index_mapper._ymapper, component=self.polyplot) self.polyplot.overlays.append(left) # Add a bottom axis to the plot bottom = PlotAxis(orientation='bottom', title= "x", mapper=self.polyplot.index_mapper._xmapper, component=self.polyplot) self.polyplot.overlays.append(bottom) # Add some tools to the plot self.polyplot.tools.append(PanTool(self.polyplot, constrain_key="shift")) self.polyplot.overlays.append(ZoomTool(component=self.polyplot, tool_mode="box", always_on=False)) self.polyplot.overlays.append(LineInspector(component=self.polyplot, axis='index_x', inspect_mode="indexed", write_metadata=True, is_listener=False, color="white")) self.polyplot.overlays.append(LineInspector(component=self.polyplot, axis='index_y', inspect_mode="indexed", write_metadata=True, color="white", is_listener=False)) # Add these two plots to one container contour_container = OverlayPlotContainer(padding=20, use_backbuffer=True, unified_draw=True) contour_container.add(self.polyplot) contour_container.add(self.lineplot) # Create a colorbar cbar_index_mapper = LinearMapper(range=image_value_range) self.colorbar = ColorBar(index_mapper=cbar_index_mapper, plot=self.polyplot, padding_top=self.polyplot.padding_top, padding_bottom=self.polyplot.padding_bottom, padding_right=40, resizable='v', width=30) self.pd = ArrayPlotData(line_index = array([]), line_value = array([]), scatter_index = array([]), scatter_value = array([]), scatter_color = array([])) self.cross_plot = Plot(self.pd, resizable="h") self.cross_plot.height = 100 self.cross_plot.padding = 20 self.cross_plot.plot(("line_index", "line_value"), line_style="dot") self.cross_plot.plot(("scatter_index","scatter_value","scatter_color"), type="cmap_scatter", name="dot", color_mapper=self._cmap(image_value_range), marker="circle", marker_size=8) self.cross_plot.index_range = self.polyplot.index_range.x_range self.pd.set_data("line_index2", array([])) self.pd.set_data("line_value2", array([])) self.pd.set_data("scatter_index2", array([])) self.pd.set_data("scatter_value2", array([])) self.pd.set_data("scatter_color2", array([])) self.cross_plot2 = Plot(self.pd, width = 140, orientation="v", resizable="v", padding=20, padding_bottom=160) self.cross_plot2.plot(("line_index2", "line_value2"), line_style="dot") self.cross_plot2.plot(("scatter_index2","scatter_value2","scatter_color2"), type="cmap_scatter", name="dot", color_mapper=self._cmap(image_value_range), marker="circle", marker_size=8) self.cross_plot2.index_range = self.polyplot.index_range.y_range # Create a container and add components self.container = HPlotContainer(padding=40, fill_padding=True, bgcolor = "white", use_backbuffer=False) inner_cont = VPlotContainer(padding=0, use_backbuffer=True) inner_cont.add(self.cross_plot) inner_cont.add(contour_container) self.container.add(self.colorbar) self.container.add(inner_cont) self.container.add(self.cross_plot2) def update(self, model): self.minz = model.minz self.maxz = model.maxz self.colorbar.index_mapper.range.low = self.minz self.colorbar.index_mapper.range.high = self.maxz self._image_index.set_data(model.xs, model.ys) self._image_value.data = model.zs self.pd.set_data("line_index", model.xs) self.pd.set_data("line_index2", model.ys) self.container.invalidate_draw() self.container.request_redraw() #--------------------------------------------------------------------------- # Event handlers #--------------------------------------------------------------------------- def _metadata_changed(self, old, new): """ This function takes out a cross section from the image data, based on the line inspector selections, and updates the line and scatter plots.""" self.cross_plot.value_range.low = self.minz self.cross_plot.value_range.high = self.maxz self.cross_plot2.value_range.low = self.minz self.cross_plot2.value_range.high = self.maxz if self._image_index.metadata.has_key("selections"): x_ndx, y_ndx = self._image_index.metadata["selections"] if y_ndx and x_ndx: self.pd.set_data("line_value", self._image_value.data[y_ndx,:]) self.pd.set_data("line_value2", self._image_value.data[:,x_ndx]) xdata, ydata = self._image_index.get_data() xdata, ydata = xdata.get_data(), ydata.get_data() self.pd.set_data("scatter_index", array([xdata[x_ndx]])) self.pd.set_data("scatter_index2", array([ydata[y_ndx]])) self.pd.set_data("scatter_value", array([self._image_value.data[y_ndx, x_ndx]])) self.pd.set_data("scatter_value2", array([self._image_value.data[y_ndx, x_ndx]])) self.pd.set_data("scatter_color", array([self._image_value.data[y_ndx, x_ndx]])) self.pd.set_data("scatter_color2", array([self._image_value.data[y_ndx, x_ndx]])) else: self.pd.set_data("scatter_value", array([])) self.pd.set_data("scatter_value2", array([])) self.pd.set_data("line_value", array([])) self.pd.set_data("line_value2", array([])) def _colormap_changed(self): self._cmap = color_map_name_dict[self.colormap] if hasattr(self, "polyplot"): value_range = self.polyplot.color_mapper.range self.polyplot.color_mapper = self._cmap(value_range) value_range = self.cross_plot.color_mapper.range self.cross_plot.color_mapper = self._cmap(value_range) # FIXME: change when we decide how best to update plots using # the shared colormap in plot object self.cross_plot.plots["dot"][0].color_mapper = self._cmap(value_range) self.cross_plot2.plots["dot"][0].color_mapper = self._cmap(value_range) self.container.request_redraw() def _num_levels_changed(self): if self.num_levels > 3: self.polyplot.levels = self.num_levels self.lineplot.levels = self.num_levels