This IPython Notebook contains simple examples of many of the basic vectorizable glyph functions that Bokeh provides. To clear all previously rendered cell outputs, select from the menu: Cell -> All Output -> Clear



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import numpy as np
from bokeh.plotting import figure, show, output_notebook
from bokeh.layouts import gridplot
output_notebook()



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N = 9
x = np.linspace(-2, 2, N)
y = x**2
sizes = np.linspace(10, 20, N)
xpts = np.array([-.09, -.12, .0, .12, .09])
ypts = np.array([-.1, .02, .1, .02, -.1])
figures = []



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p = figure(title="annular_wedge")
p.annular_wedge(x, y, 10, 20, 0.6, 4.1, color="#8888ee",
    inner_radius_units="screen", outer_radius_units="screen")
figures.append(p)



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p = figure(title="annulus")
p.annulus(x, y, 10, 20, color="#7FC97F",
    inner_radius_units="screen", outer_radius_units = "screen")
figures.append(p)



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p = figure(title="arc")
p.arc(x, y, 20, 0.6, 4.1,
    radius_units="screen", color="#BEAED4", line_width=3)
figures.append(p)



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p = figure(title="bezier")
p.bezier(x, y, x+0.2, y, x+0.1, y+0.1, x-0.1, y-0.1,
    color="#D95F02", line_width=2)
figures.append(p)



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p = figure(title="circle")
p.circle(x, y, radius=0.1, color="#3288BD")
figures.append(p)



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p = figure(title="ellipse")
p.ellipse(x, y, 15, 25, angle=-0.7, color="#1D91C0",
    width_units="screen", height_units="screen")
figures.append(p)



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p = figure(title="line")
p.line(x, y, color="#F46D43")
figures.append(p)



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p = figure(title="multi_line")
p.multi_line([xpts+xx for xx in x], [ypts+yy for yy in y], color="#8073AC", line_width=2)
figures.append(p)



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p = figure(title="multi_polygons")
p.multi_polygons([[[xpts*2+xx, xpts+xx]] for xx in x], [[[ypts*3+yy, ypts+yy]] for yy in y], color="#FB9A99")
figures.append(p)



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p = figure(title="oval")
p.oval(x, y, 15, 25, angle=-0.7, color="#1D91C0", 
    width_units="screen", height_units="screen")
figures.append(p)



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p = figure(title="patch")
p.patch(x, y, color="#A6CEE3")
figures.append(p)



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p = figure(title="patches")
p.patches([xpts+xx for xx in x], [ypts+yy for yy in y], color="#FB9A99")
figures.append(p)



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p = figure(title="quad")
p.quad(x, x-0.1, y, y-0.1, color="#B3DE69")
figures.append(p)



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p = figure(title="quadratic")
p.quadratic(x, y, x+0.2, y, x+0.1, y+0.1, color="#4DAF4A", line_width=3)
figures.append(p)



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p = figure(title="ray")
p.ray(x, y, 45, -0.7, color="#FB8072", line_width=2)
figures.append(p)



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p = figure(title="rect")
p.rect(x, y, 10, 20, color="#CAB2D6", width_units="screen", height_units="screen")
figures.append(p)



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p = figure(title="segment")
p.segment(x, y, x-0.1, y-0.1, color="#F4A582", line_width=3)
figures.append(p)



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p = figure(title="square")
p.square(x, y, size=sizes, color="#74ADD1")
figures.append(p)



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p = figure(title="wedge")
p.wedge(x, y, 15, 0.6, 4.1, radius_units="screen", color="#B3DE69")
figures.append(p)



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p = figure(title="circle_x")
p.scatter(x, y, marker="circle_x", size=sizes, color="#DD1C77", fill_color=None)
figures.append(p)



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p = figure(title="triangle")
p.scatter(x, y, marker="triangle", size=sizes, color="#99D594", line_width=2)
figures.append(p)



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p = figure(title="circle")
p.scatter(x, y, marker="o", size=sizes, color="#80B1D3", line_width=3)
figures.append(p)



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p = figure(title="cross")
p.scatter(x, y, marker="cross", size=sizes, color="#E6550D", line_width=2)
figures.append(p)



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p = figure(title="diamond")
p.scatter(x, y, marker="diamond", size=sizes, color="#1C9099", line_width=2)
figures.append(p)



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p = figure(title="inverted_triangle")
p.scatter(x, y, marker="inverted_triangle", size=sizes, color="#DE2D26")
figures.append(p)



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p = figure(title="square_x")
p.scatter(x, y, marker="square_x", size=sizes, color="#FDAE6B",
    fill_color=None, line_width=2)
figures.append(p)



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p = figure(title="asterisk")
p.scatter(x, y, marker="asterisk", size=sizes, color="#F0027F", 
    line_width=2)
figures.append(p)



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p = figure(title="square_cross")
p.scatter(x, y, marker="square_cross", size=sizes, color="#7FC97F",
    fill_color=None, line_width=2)
figures.append(p)



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p = figure(title="diamond_cross")
p.scatter(x, y, marker="diamond_cross", size=sizes, color="#386CB0",
    fill_color=None, line_width=2)
figures.append(p)



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p = figure(title="circle_cross")
p.scatter(x, y, marker="circle_cross", size=sizes, color="#FB8072",
    fill_color=None, line_width=2)
figures.append(p)



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show(gridplot(figures, ncols=3, plot_width=200, plot_height=200))



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