from jyquickhelper import add_notebook_menu
add_notebook_menu()
from bokeh.io import output_notebook, output_file
# The first line is only needed because bokeh creates a file <python>/Lib/run/runpy.html
# during the unit test. This line overrides this parameters. This should not be
# needed otherwise.
output_file("bokeh_temp.html")
output_notebook()
import numpy as np
from bokeh.plotting import figure, show, output_file
from bokeh.models import HoverTool, ColumnDataSource
from bokeh.sampledata.les_mis import data
nodes = data['nodes']
names = [node['name'] for node in sorted(data['nodes'], key=lambda x: x['group'])]
N = len(nodes)
counts = np.zeros((N, N))
for link in data['links']:
counts[link['source'], link['target']] = link['value']
counts[link['target'], link['source']] = link['value']
colormap = ["#444444", "#a6cee3", "#1f78b4", "#b2df8a", "#33a02c", "#fb9a99",
"#e31a1c", "#fdbf6f", "#ff7f00", "#cab2d6", "#6a3d9a"]
xname = []
yname = []
color = []
alpha = []
for i, node1 in enumerate(nodes):
for j, node2 in enumerate(nodes):
xname.append(node1['name'])
yname.append(node2['name'])
alpha.append(min(counts[i,j]/4.0, 0.9) + 0.1)
if node1['group'] == node2['group']:
color.append(colormap[node1['group']])
else:
color.append('lightgrey')
source = ColumnDataSource(data=dict(
xname=xname,
yname=yname,
colors=color,
alphas=alpha,
count=counts.flatten(),
))
p = figure(title="Les Mis Occurrences",
x_axis_location="above",
tools="hover,save,box_zoom,box_select,crosshair,reset",
x_range=list(reversed(names)), y_range=names)
p.plot_width = 800
p.plot_height = 800
p.grid.grid_line_color = None
p.axis.axis_line_color = None
p.axis.major_tick_line_color = None
p.axis.major_label_text_font_size = "5pt"
p.axis.major_label_standoff = 0
p.xaxis.major_label_orientation = np.pi/3
p.rect('xname', 'yname', 0.9, 0.9, source=source,
color='colors', alpha='alphas', line_color=None)
p.select_one(HoverTool).tooltips = [
('names', '@yname, @xname'),
('count', '@count'),
]
show(p) # show the plot
Go to interaction.
from bokeh.plotting import figure, gridplot, output_file, show
x = list(range(11))
y0 = x
y1 = [10-xx for xx in x]
y2 = [abs(xx-5) for xx in x]
# create a new plot
s1 = figure(width=250, plot_height=250, title=None)
s1.circle(x, y0, size=10, color="navy", alpha=0.5)
# create a new plot and share both ranges
s2 = figure(width=250, height=250, x_range=s1.x_range, y_range=s1.y_range, title=None)
s2.triangle(x, y1, size=10, color="firebrick", alpha=0.5)
# create a new plot and share only one range
s3 = figure(width=250, height=250, x_range=s1.x_range, title=None)
s3.square(x, y2, size=10, color="olive", alpha=0.5)
p = gridplot([[s1, s2, s3]], toolbar_location=None)
# show the results
show(p)
from bokeh.models.widgets import Panel, Tabs
from bokeh.io import output_file, show
from bokeh.plotting import figure
p1 = figure(plot_width=300, plot_height=300)
p1.circle([1, 2, 3, 4, 5], [6, 7, 2, 4, 5], size=20, color="navy", alpha=0.5)
tab1 = Panel(child=p1, title="circle")
p2 = figure(plot_width=300, plot_height=300)
p2.line([1, 2, 3, 4, 5], [6, 7, 2, 4, 5], line_width=3, color="navy", alpha=0.5)
tab2 = Panel(child=p2, title="line")
tabs = Tabs(tabs=[ tab1, tab2 ])
show(tabs)
from datetime import date
from random import randint
from bokeh.models import ColumnDataSource
from bokeh.models.widgets import DataTable, DateFormatter, TableColumn
from bokeh.io import output_file, show
data = dict(
dates=[date(2014, 3, i+1) for i in range(10)],
downloads=[randint(0, 100) for i in range(10)],
)
source = ColumnDataSource(data)
columns = [
TableColumn(field="dates", title="Date", formatter=DateFormatter()),
TableColumn(field="downloads", title="Downloads"),
]
data_table = DataTable(source=source, columns=columns, width=400, height=280)
show(data_table)