Configuring Plot Tools

Bokeh comes with a number of interactive tools. There are three categories of tool interactions:

For each type of gesture, one tool can be active at any given time, and the active tool is indicated on the toolbar by a highlight next to to the tool icon. Actions are immediate or modal operations that are only activated when their button in the toolbar is pressed. Inspectors are passive tools that report information or annotate the plot in some way.

Positioning the Toolbar

By default, Bokeh plots come with a toolbar above the plot. In this section you will learn how to specify a different location for the toolbar, or to remove it entirely.

The toolbar location can be specified by passing the toolbar_location parameter to the figure() function or to any bokeh.charts Chart function. Valid values are:

  • "above"
  • "below"
  • "left"
  • "right"

If you would like to hide the toolbar entirely, pass None.

Below is some code that positions the toolbar below the plot. Try running the code and changing the toolbar_location value.

from bokeh.plotting import figure, output_file, show

output_file("toolbar.html")

# create a new plot with the toolbar below
p = figure(plot_width=400, plot_height=400,
           title=None, toolbar_location="below")

p.circle([1, 2, 3, 4, 5], [2, 5, 8, 2, 7], size=10)

show(p)

Specifying Tools

At the lowest bokeh.models level, tools are added to a Plot by passing instances of Tool objects to the add_tools method:

plot = Plot()
plot.add_tools(LassoSelectTool())
plot.add_tools(WheelZoomTool())

This explicit way of adding tools works with any Bokeh Plot or Plot subclass, such as Figure or Chart.

Tools can be specified by passing the tools parameter to the figure() function or to any bokeh.charts Chart function. The tools parameter accepts a list of tool objects, for instance:

tools = [BoxZoomTool(), ResetTool()]

Tools can also be supplied conveniently with a comma-separate string containing tool shortcut names:

tools = "pan,wheel_zoom,box_zoom,reset"

However, this method does not allow setting properties of the tools.

Finally, it is also always possible to add new tools to a plot by passing a tool object to the add_tools method of a plot. This can also be done in conjunction with the tools keyword described above:

plot = figure(tools="pan,wheel_zoom,box_zoom,reset")
plot.add_tools(BoxSelectTool(dimensions=["width"]))

Setting the Active Tools

Bokeh toolbars can have (at most) one active tool from each kind of gesture (drag, scroll, tap). By default, Bokeh will use a default pre-defined order of preference to choose one of each kind from the set of configured tools, to be active.

However it is possible to exert control over which tool is active. At the lowest bokeh.models level, this is accomplished by using the active_drag, active_scroll, and active_tap properties of Toolbar. These properties can take the following values:

  • None — there is no active tool of this kind
  • "auto" — Bokeh chooses a tool of this kind to be active (possibly none)
  • a Tool instance — Bokeh sets the given tool to be the active tool

As an example:

# configure so that no drag tools are active
plot.toolbar.active_drag = None

# configure so that Bokeh chooses what (if any) scroll tool is active
plot.toolbar.active_scroll = "auto"

# configure so that a specific PolySelect tap tool is active
plot.toolbar.active_tap = poly_select

The default value for all of these properties is "auto".

Active tools can be specified by passing the these properties as keyword arguments to the figure() function or to any bokeh.charts Chart function. In this case, it is also possible to pass any one of the string names for, ease of configuration:

# configures the lasso tool to be active
plot = figure(tools="pan,lasso_select,box_select", active_drag="lasso_select")

Built-in Tools

Pan/Drag Tools

These tools are employed by panning (on touch devices) or left-dragging (on mouse devices). Only one pan/drag tool may be active at a time. Where applicable, Pan/Drag tools will respect any max and min values set on ranges.

BoxSelectTool

  • name: 'box_select'
  • icon: box_select_icon

The box selection tool allows the user to define a rectangular selection region by left-dragging a mouse, or dragging a finger across the plot area. The box select tool may be configured to select across only one dimension by setting the dimensions property to a list containing width or height.

Note

To make a multiple selection, press the SHIFT key. To clear the selection, press the ESC key.

BoxZoomTool

  • name: 'box_zoom'
  • icon: box_zoom_icon

The box zoom tool allows the user to define a rectangular region to zoom the plot bounds too, by left-dragging a mouse, or dragging a finger across the plot area.

LassoSelectTool

  • name: 'lasso_select'
  • icon: lasso_select_icon

The lasso selection tool allows the user to define an arbitrary region for selection by left-dragging a mouse, or dragging a finger across the plot area.

Note

To make a multiple selection, press the SHIFT key. To clear the selection, press the ESC key.

PanTool

  • name: 'pan', 'xpan', 'ypan',
  • icon: pan_icon

The pan tool allows the user to pan the plot by left-dragging a mouse or dragging a finger across the plot region.

It is also possible to constrain the pan tool to only act on either just the x-axis or just the y-axis by setting the dimensions property to a list containing width or height. Additionally, there are tool aliases 'xpan' and 'ypan', respectively.

ResizeTool

  • name: 'resize_select'
  • icon: resize_icon

The resize tool allows the user to left-drag a mouse or drag a finger to resize the entire plot.

Click/Tap Tools

These tools are employed by tapping (on touch devices) or left-clicking (on mouse devices). Only one click/tap tool may be active at a time.

PolySelectTool

  • name: 'poly_select'
  • icon: poly_select_icon

The polygon selection tool allows the user to define an arbitrary polygonal region for selection by left-clicking a mouse, or tapping a finger at different locations.

Note

Complete the selection by making a double left-click or tapping. To make a multiple selection, press the SHIFT key. To clear the selection, press the ESC key.

TapSelectTool

  • name: 'tap'
  • icon: tap_select_icon

The tap selection tool allows the user to select at single points by clicking a left mouse button, or tapping with a finger.

Note

To make a multiple selection, press the SHIFT key. To clear the selection, press the ESC key.

Scroll/Pinch Tools

These tools are employed by pinching (on touch devices) or scrolling (on mouse devices). Only one scroll/pinch tool may be active at a time.

WheelZoomTool

  • name: 'wheel_zoom', 'xwheel_zoom', 'ywheel_zoom'
  • icon: wheel_zoom_icon

The wheel zoom tool will zoom the plot in and out, centered on the current mouse location. It will respect any min and max values and ranges preventing zooming in and out beyond these.

It is also possible to constraint the wheel zoom tool to only act on either just the x-axis or just the y-axis by setting the dimensions property to a list containing width or height. Additionally, there are tool aliases 'xwheel_zoom' and 'ywheel_zoom', respectively.

Actions

Actions are operations that are activated only when their button in the toolbar is tapped or clicked. They are typically modal or immediate-acting.

UndoTool

  • name: 'undo'
  • icon: undo_icon

The undo tool allows to restore previous state of the plot.

RedoTool

  • name: 'redo'
  • icon: redo_icon

The redo tool reverses the last action performed by undo tool.

ResetTool

  • name: 'reset'
  • icon: reset_icon

The reset tool will restore the plot ranges to their original values.

SaveTool

  • name: 'save'
  • icon: save_icon

The save tool pops up a modal dialog that allows the user to save a PNG image of the plot.

Inspectors

  • menu icon: inspector_icon

Inspectors are passive tools that annotate or otherwise report information about the plot, based on the current cursor position. Any number of inspectors may be active at any given time. The inspectors menu in the toolbar allows users to toggle the active state of any inspector.

CrosshairTool

  • name: 'crosshair'

Th crosshair tool draws a crosshair annotation over the plot, centered on the current mouse position. The crosshair tool may be configured to draw across only one dimension by setting the dimensions property to a list containing width or height.

HoverTool

  • name: 'hover'

The hover tool pops up a tooltip div whenever the cursor is over a glyph. The information comes from the glyphs data source and is configurable through a simple tooltips dictionary that maps displayed names to columns in the data source, or to special known variables


Below is some code that shows how to specify which tools to add to the toolbar.

Try running the code and changing the name of tools being added to the tools with valid values

from bokeh.plotting import figure, output_file, show

output_file("toolbar.html")

# Add hover to this comma-separated string and see what changes
TOOLS = 'box_zoom,box_select,crosshair,resize,reset'

# create a new plot with the toolbar below
p = figure(plot_width=400, plot_height=400, title=None, tools=TOOLS)

p.circle([1, 2, 3, 4, 5], [2, 5, 8, 2, 7], size=10)
show(p)

or with a list of the tool instances:

from bokeh.plotting import figure, output_file, show
from bokeh.models import HoverTool, BoxSelectTool

output_file("toolbar.html")
TOOLS = [BoxSelectTool(), HoverTool()]

p = figure(plot_width=400, plot_height=400, title=None, tools=TOOLS)

p.circle([1, 2, 3, 4, 5], [2, 5, 8, 2, 7], size=10)

show(p)

Setting Tool Visuals

Hover Tool

The hover tool is a passive inspector tool. It is generally on at all times, but can be configured in the inspector’s menu associated with the toolbar.

The hover tool displays informational tooltips whenever the cursor is directly over a glyph. The data to show comes from the glyph’s data source, and what is to be displayed is configurable through a tooltips attribute that maps display names to columns in the data source, or to special known variables.

Field names starting with “@” are interpreted as columns on the data source. Field names starting with “$” are special, known fields, e.g. $x will display the x-coordinate under the current mouse position. More information about those fields can be found in the HoverTool reference.

Basic Tooltips

The hover tool will generate a default “tabular” tooltip of field names and their associated values. These field names and values are supplied as a list of (field name, value) tuples. For instance, the tooltip list below on the left will produce the basic default tooltip below on the right:


hover.tooltips = [
    ("index", "$index"),
    ("(x,y)", "($x, $y)"),
    ("radius", "@radius"),
    ("fill color", "$color[hex, swatch]:fill_color"),
    ("foo", "@foo"),
    ("bar", "@bar"),
]
hover_basic

Here is a complete example of how to configure and use the hover tool with default tooltip:

from bokeh.plotting import figure, output_file, show, ColumnDataSource
from bokeh.models import HoverTool

output_file("toolbar.html")

source = ColumnDataSource(
        data=dict(
            x=[1, 2, 3, 4, 5],
            y=[2, 5, 8, 2, 7],
            desc=['A', 'b', 'C', 'd', 'E'],
        )
    )

hover = HoverTool(
        tooltips=[
            ("index", "$index"),
            ("(x,y)", "($x, $y)"),
            ("desc", "@desc"),
        ]
    )

p = figure(plot_width=400, plot_height=400, tools=[hover],
           title="Mouse over the dots")

p.circle('x', 'y', size=20, source=source)

show(p)

Custom Tooltip

It is also possible to supply a custom tooltip template. To do this, pass an HTML string, with the Bokeh tooltip field name symbols wherever substitutions are desired. An example is shown below:

from bokeh.plotting import figure, output_file, show, ColumnDataSource
from bokeh.models import HoverTool

output_file("toolbar.html")

source = ColumnDataSource(
        data=dict(
            x=[1, 2, 3, 4, 5],
            y=[2, 5, 8, 2, 7],
            desc=['A', 'b', 'C', 'd', 'E'],
            imgs = [
                'http://bokeh.pydata.org/static/snake.jpg',
                'http://bokeh.pydata.org/static/snake2.png',
                'http://bokeh.pydata.org/static/snake3D.png',
                'http://bokeh.pydata.org/static/snake4_TheRevenge.png',
                'http://bokeh.pydata.org/static/snakebite.jpg'
            ]
        )
    )

hover = HoverTool(
        tooltips="""
        <div>
            <div>
                <img
                    src="@imgs" height="42" alt="@imgs" width="42"
                    style="float: left; margin: 0px 15px 15px 0px;"
                    border="2"
                ></img>
            </div>
            <div>
                <span style="font-size: 17px; font-weight: bold;">@desc</span>
                <span style="font-size: 15px; color: #966;">[$index]</span>
            </div>
            <div>
                <span style="font-size: 15px;">Location</span>
                <span style="font-size: 10px; color: #696;">($x, $y)</span>
            </div>
        </div>
        """
    )

p = figure(plot_width=400, plot_height=400, tools=[hover],
           title="Mouse over the dots")

p.circle('x', 'y', size=20, source=source)

show(p)

Selection Overlays

Selection Overlays can also be configured. See the Tool Overlays section for more information.

Controlling Level of Detail

Although the HTML canvas can comfortably display tens or even hundreds of thousands of glyphs, doing so can have adverse affects on interactive performance. In order to accommodate large-ish (but not enormous) data sizes, Bokeh plots offer “Level of Detail” (LOD) capability in the client.

Note

Another option, when dealing with very large data volumes, is to use the Bokeh Server to perform downsampling on data before it is sent to the browser. Such an approach is unavoidable past a certain data size. See Running a Bokeh Server for more information.

The basic idea is that during interactive operations (e.g., panning or zooming), the plot only draws some small fraction of data points. This hopefully allows the general sense of the interaction to be preserved mid-flight, while maintaining interactive performance. There are four properties on Plot objects that control LOD behavior:

lod_factor

property type: lod_factor:Int

Decimation factor to use when applying level-of-detail decimation.

lod_interval

property type: lod_interval:Int

Interval (in ms) during which an interactive tool event will enable level-of-detail downsampling.

lod_threshold

property type: lod_threshold:Int

A number of data points, above which level-of-detail downsampling may be performed by glyph renderers. Set to None to disable any level-of-detail downsampling.

lod_timeout

property type: lod_timeout:Int

Timeout (in ms) for checking whether interactive tool events are still occurring. Once level-of-detail mode is enabled, a check is made every lod_timeout ms. If no interactive tool events have happened, level-of-detail mode is disabled.