Last Updated : 10 Jul, 2020
Bokeh is a Python interactive data visualization. It renders its plots using HTML and JavaScript. It targets modern web browsers for presentation providing elegant, concise construction of novel graphics with high-performance interactivity. Bokeh can be used to plot wedges on a graph. Plotting wedges on a graph can be done using the
wedge()
method of the
plotting
module.
plotting.figure.wedge()Syntax : wedge(parameters) Parameters :Example 1 :Returns : an object of class
- x : x-coordinates of the wedge markers
- y : y-coordinates of the wedge markers
- radius : radius of the wedge markers
- radius_units : unit of the radius of the wedge markers, default is radian
- start_angle : angle to start the wedge markers
- start_angle_units : unit of the angle to start the wedge markers, default is radian
- end_angle : angle to end the wedge markers
- end_angle_units : unit of the angle to end the wedge markers
- direction : direction of strokes, default is anticlock
GlyphRenderer
In this example we will be using the default values for plotting the graph.
Python3
# importing the modules
from bokeh.plotting import figure, output_file, show
# file to save the model
output_file("gfg.html")
# instantiating the figure object
graph = figure(title = "Bokeh Wedge Graph")
# the points to be plotted
x = 0
y = 0
# radius of the wedge
radius = 15
# start angle of the wedge
start_angle = 1
# end angle of the wedge
end_angle = 2
# plotting the graph
graph.wedge(x, y,
radius = radius,
start_angle = start_angle,
end_angle = end_angle)
# displaying the model
show(graph)
Output : Example 2 :
In this example we will be plotting multiple wedges with various other parameters.
Python3
# importing the modules
from bokeh.plotting import figure, output_file, show
# file to save the model
output_file("gfg.html")
# instantiating the figure object
graph = figure(title = "Bokeh Wedge Graph")
# name of the x-axis
graph.xaxis.axis_label = "x-axis"
# name of the y-axis
graph.yaxis.axis_label = "y-axis"
# the points to be plotted
x = [0, 5, 0]
y = [0, 5, 5]
# radius of the wedges
radius = [15, 10, 5]
# start angle of the wedges
start_angle = [1, 2, 3]
# end angle of the wedges
end_angle = [2, 4, 6]
# color value of the wedges
color = ["yellow", "red", "purple"]
# fill alpha value of the wedges
fill_alpha = [0.9, 0.7, 0.5]
# plotting the graph
graph.wedge(x, y,
radius = radius,
start_angle = start_angle,
end_angle = end_angle,
color = color,
fill_alpha = fill_alpha)
# displaying the model
show(graph)
Output :
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