Plot renderers are the classes that actually draw the different kinds of plots, or plot-like elements as for instance color bars.
This section describes the concepts that are common to all kind of plots. A separate page contains an exhaustive list of all plot types defined in Chaco.
The base interface is defined in the abstract class AbstractPlotRenderer, and provides attributes and methods to set size, position, and aspect of the plotting area.
Two more specialized interface are used by most concrete implementations, namely BaseXYPlot, which is the interface for X-vs-Y plots, and Base2DPlot, which is the interface for 2D plots (e.g., image plots or contour plots).
The base interface inherits from a deep hierarchy of classes generating from the enable package, starting with enable.coordinate_box.CoordinateBox (representing a box in screen space) and enable.interactor.Interactor (which allows plot components to react to mouse and keyboard events), and down through enable.component.Component and chaco.plot_component.PlotComponent (follow this link for a description of the relationship between Chaco and enable). The class were most of the functionality is defined is enable.component.Component.
Here we give a summary of all the important properties exposed in AbstractPlotRenderer, without worrying too much about their origin in the hierarchy. Also, to avoid unnecessary cluttering of the page, attributes and methods that are of secondary importance are not listed. Please refer to the API documentation for more details.
All plot renderers are enable graphical components, and thus correspond to a rectangular area in screen space. The renderer keeps track of two areas: an inner box that only contains the plot, and an outer box that includes the padding and border area. The properties of the boxes are controlled by these attributes:
positionPosition of the internal box relative to its container, given as a list [x,y]. If there is no container, this is set to [0, 0]. “Absolute” coordinates of point (i.e., relative to top-level parent Window object) can be obtained using get_absolute_coords(*coords).
x, y, x2, y2Coordinates of the lower-left (x,y) and upper-right (x2,y2) pixel of the internal box, relative to its container.
bounds, width, heightBounds of the internal box, in pixels. bounds is a list [width, height].
outer_position, outer_x, outer_y, outer_x2, outer_y2, outer_bounds, outer_width, outer_height, set_outer_position(index, value), set_outer_bounds(index, value)Attributes for the outer box equivalent to those defined above for the inner box. Modifying the outer position attributes is the right way to move the plot without changing its padding or bounds. Similarly, modifying the outer bounds attributes leaves the lower-left position and the padding unchanged.
resizable, fixed_preferred_sizeString that defines in which dimensions the component is resizable. One of ‘’ (not resizable), ‘v’ (resizable vertically), ‘h’ (resizable horizontally), ‘hv’ (resizable in both directions, default). If the component is resizable, fixed_preferred_size can be used to specify the amount of space that the component would like to get in each dimension, as a tuple (width, height). In this case, width and height have to be understood as relative sized: if one component in a container specifies, say, a fixed preferred width of 50 and another one specifies a fixed preferred width of 100, then the latter component will always be twice as wide as the former.
aspect_ratio, auto_centerRatio of the component’s width to its height. This is used to maintain a fixed ratio between bounds when thet are changed independently, for example when resizing the window. auto_center specifies if the component should center itself in any space that is left empty (default is True).
padding_left, padding_right, padding_top, padding_bottom, padding, hpadding, vpadding
Padding space (in pixels). padding is a convenience property that returns a tuple of (left, right, top, bottom) padding. It can also be set to a single integer, in which case all four padding attributes are set to the same value.
hpadding and vpadding are read-only properties that return the total amount of horizontal and vertical padding (including the border width if the border is visible).
get_absolute_coords(*coords)Transform coordinates relative to this component’s origin to “absolute” coordinates, relative to top-level container.
These attributes control the aspect (e.g. color) of padding, background, and borders:
bgcolorThe background color of this component (default is white). This can be set to “transparent” or “none” if the component should be see-through. The color can be specified as a string or as an RGB or RGBa tuple.
fill_paddingIf True (default), fill the padding area with the background color.
border_visibleDetermines if the border is visible (default is False).
border_widthThickness of the border around the component in pixels (default is 1).
border_dashStyle of the lines tracing the border. One of ‘solid’ (default), ‘dot dash’, ‘dash’, ‘dot’, or ‘long dash’.
border_colorColor of the border. The color can be specified as a string or as an RGB or RGBa tuple.
Each plot is rendered in a sequence of layers so that different components can plot at different times. For example, a line plot is drawn before its legend, but after the axes and background grid.
The default drawing order is defined in draw_order as a list of the names of the layers. The definition of the layers is as follows:
- ‘background’: Background image, shading, and borders
- ‘image’: A special layer for plots that render as images. This is in a separate layer since these plots must all render before non-image plots
- ‘underlay’: Axes and grids
- ‘plot’: The main plot area itself
- ‘annotation’: Lines and text that are conceptually part of the “plot” but need to be rendered on top of everything else in the plot.
- ‘selection’: Selected content are rendered above normal plot elements to make them stand out. This can be disabled by setting use_selection to False (default).
- ‘border’: Plot borders
- ‘annotation’: Lines and text that are conceptually part of the “plot” but need to be rendered on top of everything else in the plot
- ‘overlay’: Legends, selection regions, and other tool-drawn visual elements
Concrete plot renderers set their default draw layer in draw_layer (default is ‘plot’). Note that if this component is placed in a container, in most cases the container’s draw order is used, since the container calls each of its contained components for each rendering pass.
One can add new elements to a plot by appending them to the underlays or overlays lists. Components in these lists are drawn underneath/above the plots as part of the ‘underlay’/’overlay’ layers. They also receive mouse and keyboard events.
Plot renderers also inherit from enable.interactor.Interactor, and as such are able to react to keyboard and mouse events. However, interactions are usually defined as tools and overlays. Therefore, this part of the interface is described at those pages.
TODO: add reference to interaction interface
Since plot renderers take care of displaying graphics, they keep references to the larger graphical context:
containerReference to a container object (None if no container is defined). The renderer defines its position relative to this.
windowReference to the top-level enable Window.
viewportsList of viewport that are viewing this component
use_backbufferIf True, the plot renders itself to an offscreen buffer that is cached for later use. If False (default), then the component will never render itself back-buffered, even if asked to do so.
invalidate_and_redraw()Convenience method to invalidate our contents and request redraw. This method is sometimes useful when modifying a Chaco plot in an ipython shell.
X-Y Plots interface¶
The class chaco.base_xy_plot.BaseXYPlot defines a more concrete interface for X-vs-Y plots. First of all, it handles data sources and data mappers to convert real data into screen coordinates. Second, it defines shortcuts for plot axes, labels and background grids.
Axis, labels, and grids¶
BaseXYPlot defines a few properties that are shortcuts to find axis and grid objects in the underlays and overlays layers of the plot:
hgrid, vgridLook into the underlays and overlays layers (in this order) for a PlotGrid object of horizontals / vertical orientation and return it. Return None if none is found.
x_axis, y_axisLook into the underlays and overlays layers (in this order) for a PlotAxis object positioned to the bottom or top, or to the left or right of plot, respectively. Return the axis, or None if none is found.
labelsReturn a list of all PlotLabel objects in the overlays and underlays layers.
TODO: add links to axis and grid documentation
BaseXYPlot also provides support for “hit tests”, i.e., for finding the data point or plot line closest to a given screen coordinate. This is typically used to implement interactive tools, for example to select a plot point with a mouse click.
The main functionality is implemented in the method hittest(screen_pt, threshold=7.0, return_distance=False), which accepts screen coordinates (x,y) as input argument screen_pt and returns either 1) screen coordinates of the closest point on the plot, or 2) the start and end coordinates of the closest plot line segment, as a tuple ((x1,y1), (x2,y2)). Which of the two behaviors is active is controlled by the attribute hittest_type, which is one of ‘point’ (default), or ‘line’. If the closest point or line is further than threshold pixels away, the methods returns None.
Alternatively, users may call the methods get_closest_point and get_closest_line.
Two more attributes are worth mentioning:
This is inherited from the AbstractPlotRenderer interface, but is now set to ‘transparent` by default.
If this attribute is True, the plot uses downsampling for faster display (default is False). In other words, the number of display points depends on the plot size and range, and not on the total number of data points available.
At the moment, only LinePlot defines a downsampling function, while other plots raise a NotImplementedError when this feature is activated.
2D Plots interface¶
The class chaco.base_2d_plot.Base2DPlot is the interface for plots that display data defined on a 2D grid, like for example image and contour plots. Just like its companion interface, BaseXYPlot, it handles data sources and data mappers, along with convenient shortcuts to find axes, labels and grids.
Unlike other plot renderers, 2D plots draw on the ‘image’ layer, i.e., above any underlay element.
2D plots need two sources of data: one for the coordinates of the 2D grid on which data is displayed, stored in the attribute index (a subclass of GridDataSource); and one for the values of the data at each point of the grid, value (a subclass of ImageData). The index data source also needs a 2D mapper, index_mapper, to map data coordinates to the screen.
The orientation on screen is set by orientation (either ‘h’ – the default – or ‘v’), which controls which of the two coordinates defined in index is mapped to the X axis. It is possible to access a mapper for the coordinates corresponding to the individual screen coordinates independently of orientation using the properties x_mapper and y_mapper.
Finally, index_range is a shortcut to the 2D range of the grid data.
The attribute alpha defines the global transparency value for the whole plot. It ranges from 0.0 for transparent to 1.0 (default) for full intensity.