Esempio n. 1
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def population():
    xdr = FactorRange(factors=years)
    ydr = DataRange1d(
        sources=[source_known.columns("y"),
                 source_predicted.columns("y")])

    plot = Plot(title=None,
                x_range=xdr,
                y_range=ydr,
                plot_width=800,
                plot_height=200)

    plot.add_layout(CategoricalAxis(major_label_orientation=pi / 4), 'below')

    line_known = Line(x="x", y="y", line_color="violet", line_width=2)
    line_known_glyph = plot.add_glyph(source_known, line_known)

    line_predicted = Line(x="x",
                          y="y",
                          line_color="violet",
                          line_width=2,
                          line_dash="dashed")
    line_predicted_glyph = plot.add_glyph(source_predicted, line_predicted)

    plot.add_layout(
        Legend(orientation="bottom_right",
               legends=dict(known=[line_known_glyph],
                            predicted=[line_predicted_glyph])))

    return plot
Esempio n. 2
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def make_plot(xname, yname, xax=False, yax=False, text=None):
    plot = Plot(x_range=xdr,
                y_range=ydr,
                background_fill="#efe8e2",
                border_fill='white',
                title="",
                min_border=2,
                border_symmetry=None,
                plot_width=250,
                plot_height=250)

    circle = Circle(x=xname,
                    y=yname,
                    fill_color="color",
                    fill_alpha=0.2,
                    size=4,
                    line_color="color")
    plot.add_glyph(source, circle)

    xticker = BasicTicker()
    if xax:
        xaxis = LinearAxis()
        plot.add_layout(xaxis, 'below')
        xticker = xaxis.ticker
    plot.add_layout(Grid(dimension=0, ticker=xticker))

    yticker = BasicTicker()
    if yax:
        yaxis = LinearAxis()
        plot.add_layout(yaxis, 'left')
        yticker = yaxis.ticker
    plot.add_layout(Grid(dimension=1, ticker=yticker))

    plot.add_tools(PanTool(), WheelZoomTool())

    if text:
        text = " ".join(text.split('_'))
        text = Text(x={
            'field': 'xcenter',
            'units': 'screen'
        },
                    y={
                        'field': 'ycenter',
                        'units': 'screen'
                    },
                    text=[text],
                    angle=pi / 4,
                    text_font_style="bold",
                    text_baseline="top",
                    text_color="#ffaaaa",
                    text_alpha=0.7,
                    text_align="center",
                    text_font_size="28pt")
        plot.add_glyph(text_source, text)

    return plot
Esempio n. 3
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def make_plot(source, xname, yname, line_color, xdr=None, ydr=None):
    """ Returns a tuple (plot, [obj1...objN]); the former can be added
    to a GridPlot, and the latter is added to the plotcontext.
    """
    if xdr is None:
        xdr = DataRange1d(sources=[source.columns(xname)])
    if ydr is None:
        ydr = DataRange1d(sources=[source.columns(yname)])

    plot = Plot(x_range=xdr, y_range=ydr, min_border=50)

    plot.add_layout(LinearAxis(), 'below')
    plot.add_layout(LinearAxis(), 'left')

    plot.add_glyph(source, Line(x=xname, y=yname, line_color=line_color))

    plot.add_tools(PanTool(), WheelZoomTool())

    return plot
Esempio n. 4
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File: grid.py Progetto: Afey/bokeh
def make_plot(source, xname, yname, line_color, xdr=None, ydr=None):
    """ Returns a tuple (plot, [obj1...objN]); the former can be added
    to a GridPlot, and the latter is added to the plotcontext.
    """
    if xdr is None:
        xdr = DataRange1d(sources=[source.columns(xname)])
    if ydr is None:
        ydr = DataRange1d(sources=[source.columns(yname)])

    plot = Plot(x_range=xdr, y_range=ydr, min_border=50)

    plot.add_layout(LinearAxis(), 'below')
    plot.add_layout(LinearAxis(), 'left')

    plot.add_glyph(source, Line(x=xname, y=yname, line_color=line_color))

    plot.add_tools(PanTool(), WheelZoomTool())

    return plot
Esempio n. 5
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def make_plot(title, xname, yname):
    plot = Plot(x_range=xdr,
                y_range=ydr,
                title=title,
                plot_width=400,
                plot_height=400,
                border_fill='white',
                background_fill='#e9e0db')

    xaxis = LinearAxis(axis_line_color=None)
    plot.add_layout(xaxis, 'below')

    yaxis = LinearAxis(axis_line_color=None)
    plot.add_layout(yaxis, 'left')

    plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
    plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

    line = Line(x='x', y='y', line_color="#666699", line_width=2)
    plot.add_glyph(lines_source, line)

    circle = Circle(x=xname,
                    y=yname,
                    size=12,
                    fill_color="#cc6633",
                    line_color="#cc6633",
                    fill_alpha=0.5)
    plot.add_glyph(circles_source, circle)

    return plot
Esempio n. 6
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def altitude_profile(data):
    plot = Plot(title="%s - Altitude Profile" % title,
                plot_width=800,
                plot_height=400)

    xaxis = LinearAxis(axis_label="Distance (km)")
    plot.add_layout(xaxis, 'below')

    yaxis = LinearAxis(axis_label="Altitude (m)")
    plot.add_layout(yaxis, 'left')

    xgrid = Grid(plot=plot, dimension=0, ticker=xaxis.ticker)
    ygrid = Grid(plot=plot, dimension=1, ticker=yaxis.ticker)
    plot.renderers.extend([xgrid, ygrid])

    plot.add_tools(PanTool(), WheelZoomTool(), ResetTool(), BoxSelectTool())

    X, Y = data.dist, data.alt
    y0 = min(Y)

    patches_source = ColumnDataSource(
        dict(xs=[[X[i], X[i + 1], X[i + 1], X[i]] for i in range(len(X[:-1]))],
             ys=[[y0, y0, Y[i + 1], Y[i]] for i in range(len(Y[:-1]))],
             color=data.colors[:-1]))

    patches = Patches(xs="xs", ys="ys", fill_color="color", line_color="color")
    plot.add_glyph(patches_source, patches)

    line_source = ColumnDataSource(dict(
        x=data.dist,
        y=data.alt,
    ))

    line = Line(x='x', y='y', line_color="black", line_width=1)
    plot.add_glyph(line_source, line)

    plot.x_range = DataRange1d(sources=[line_source.columns("x")])
    plot.y_range = DataRange1d(sources=[line_source.columns("y")])

    return plot
Esempio n. 7
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def make_plot(title, xname, yname):
    plot = Plot(
        x_range=xdr, y_range=ydr,
        title=title, plot_width=400, plot_height=400,
        border_fill='white', background_fill='#e9e0db'
    )

    xaxis = LinearAxis(axis_line_color=None)
    plot.add_layout(xaxis, 'below')

    yaxis = LinearAxis(axis_line_color=None)
    plot.add_layout(yaxis, 'left')

    plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
    plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

    line = Line(x='x', y='y', line_color="#666699", line_width=2)
    plot.add_glyph(lines_source, line)

    circle = Circle(
        x=xname, y=yname, size=12,
        fill_color="#cc6633", line_color="#cc6633", fill_alpha=0.5
    )
    plot.add_glyph(circles_source, circle)

    return plot
Esempio n. 8
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def make_plot():
    source = ColumnDataSource(
        dict(
            dates=[ date(2014, 3, i) for i in [1, 2, 3, 4, 5] ],
            downloads=[100, 27, 54, 64, 75],
        )
    )

    xdr = DataRange1d(sources=[source.columns("dates")])
    ydr = DataRange1d(sources=[source.columns("downloads")])

    plot = Plot(title="Product downloads", x_range=xdr, y_range=ydr, plot_width=400, plot_height=400)

    line = Line(x="dates", y="downloads", line_color="blue")
    plot.add_glyph(source, line)

    circle = Circle(x="dates", y="downloads", fill_color="red")
    plot.add_glyph(source, circle)

    xaxis = DatetimeAxis()
    plot.add_layout(xaxis, 'below')

    yaxis = LinearAxis()
    plot.add_layout(yaxis, 'left')

    plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
    plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

    plot.add_tools(HoverTool(tooltips=dict(downloads="@downloads")))

    return plot, source
Esempio n. 9
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def make_plot():
    xdr = DataRange1d(sources=[source.columns("dates")])
    ydr = DataRange1d(sources=[source.columns("downloads")])

    plot = Plot(title="Product downloads",
                x_range=xdr,
                y_range=ydr,
                plot_width=400,
                plot_height=400)

    line = Line(x="dates", y="downloads", line_color="blue")
    plot.add_glyph(source, line)

    circle = Circle(x="dates", y="downloads", fill_color="red")
    plot.add_glyph(source, circle)

    xaxis = DatetimeAxis()
    plot.add_layout(xaxis, 'below')

    yaxis = LinearAxis()
    plot.add_layout(yaxis, 'left')

    plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
    plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

    plot.add_tools(HoverTool(tooltips=dict(downloads="@downloads")))

    return plot, source
Esempio n. 10
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File: trail.py Progetto: Afey/bokeh
def altitude_profile(data):
    plot = Plot(title="%s - Altitude Profile" % title, plot_width=800, plot_height=400)

    xaxis = LinearAxis(axis_label="Distance (km)")
    plot.add_layout(xaxis, 'below')

    yaxis = LinearAxis(axis_label="Altitude (m)")
    plot.add_layout(yaxis, 'left')

    xgrid = Grid(plot=plot, dimension=0, ticker=xaxis.ticker)
    ygrid = Grid(plot=plot, dimension=1, ticker=yaxis.ticker)
    plot.renderers.extend([xgrid, ygrid])

    plot.add_tools(PanTool(), WheelZoomTool(), ResetTool(), BoxSelectTool())

    X, Y = data.dist, data.alt
    y0 = min(Y)

    patches_source = ColumnDataSource(dict(
        xs = [ [X[i], X[i+1], X[i+1], X[i]] for i in range(len(X[:-1])) ],
        ys = [ [y0,   y0,     Y[i+1], Y[i]] for i in range(len(Y[:-1])) ],
        color = data.colors[:-1]
    ))

    patches = Patches(xs="xs", ys="ys", fill_color="color", line_color="color")
    plot.add_glyph(patches_source, patches)

    line_source = ColumnDataSource(dict(
        x = data.dist,
        y = data.alt,
    ))

    line = Line(x='x', y='y', line_color="black", line_width=1)
    plot.add_glyph(line_source, line)

    plot.x_range = DataRange1d(sources=[line_source.columns("x")])
    plot.y_range = DataRange1d(sources=[line_source.columns("y")])

    return plot
Esempio n. 11
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def population():
    xdr = FactorRange(factors=years)
    ydr = DataRange1d(sources=[source_known.columns("y"), source_predicted.columns("y")])

    plot = Plot(title=None, x_range=xdr, y_range=ydr, plot_width=800, plot_height=200)

    plot.add_layout(CategoricalAxis(major_label_orientation=pi/4), 'below')

    line_known = Line(x="x", y="y", line_color="violet", line_width=2)
    line_known_glyph = plot.add_glyph(source_known, line_known)

    line_predicted = Line(x="x", y="y", line_color="violet", line_width=2, line_dash="dashed")
    line_predicted_glyph = plot.add_glyph(source_predicted, line_predicted)

    plot.add_layout(
        Legend(
            orientation="bottom_right",
            legends=dict(known=[line_known_glyph], predicted=[line_predicted_glyph])
        )
    )

    return plot
Esempio n. 12
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def large_plot():
    source = ColumnDataSource(data=dict(x=[0, 1], y=[0, 1]))

    xdr = Range1d(start=0, end=1)
    xdr.tags.append("foo")
    xdr.tags.append("bar")

    ydr = Range1d(start=10, end=20)
    ydr.tags.append("foo")

    plot = Plot(x_range=xdr, y_range=ydr)

    ydr2 = Range1d(start=0, end=100)
    plot.extra_y_ranges = {"liny": ydr2}

    circle = Circle(x="x", y="y", fill_color="red", size=5, line_color="black")
    plot.add_glyph(source, circle, name="mycircle")

    line = Line(x="x", y="y")
    plot.add_glyph(source, line, name="myline")

    rect = Rect(x="x", y="y", width=1, height=1, fill_color="green")
    plot.add_glyph(source, rect, name="myrect")

    plot.add_layout(DatetimeAxis(), 'below')
    plot.add_layout(LogAxis(), 'left')
    plot.add_layout(LinearAxis(y_range_name="liny"), 'left')

    plot.add_layout(Grid(dimension=0), 'left')
    plot.add_layout(Grid(dimension=1), 'left')

    plot.add_tools(
        BoxZoomTool(),
        PanTool(),
        PreviewSaveTool(),
        ResetTool(),
        ResizeTool(),
        WheelZoomTool(),
    )

    return plot
Esempio n. 13
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def pyramid():
    xdr = DataRange1d(sources=[
        source_pyramid.columns("male"),
        source_pyramid.columns("female")
    ])
    ydr = DataRange1d(sources=[source_pyramid.columns("groups")])

    plot = Plot(title=None,
                x_range=xdr,
                y_range=ydr,
                plot_width=600,
                plot_height=600)

    xaxis = LinearAxis()
    plot.add_layout(xaxis, 'below')
    yaxis = LinearAxis(ticker=SingleIntervalTicker(interval=5))
    plot.add_layout(yaxis, 'left')

    plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
    plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

    male_quad = Quad(left="male",
                     right=0,
                     bottom="groups",
                     top="shifted",
                     fill_color="#3B8686")
    male_quad_glyph = plot.add_glyph(source_pyramid, male_quad)

    female_quad = Quad(left=0,
                       right="female",
                       bottom="groups",
                       top="shifted",
                       fill_color="#CFF09E")
    female_quad_glyph = plot.add_glyph(source_pyramid, female_quad)

    plot.add_layout(
        Legend(
            legends=dict(Male=[male_quad_glyph], Female=[female_quad_glyph])))

    return plot
Esempio n. 14
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def pyramid():
    xdr = DataRange1d(sources=[source_pyramid.columns("male"), source_pyramid.columns("female")])
    ydr = DataRange1d(sources=[source_pyramid.columns("groups")])

    plot = Plot(title=None, x_range=xdr, y_range=ydr, plot_width=600, plot_height=600)

    xaxis = LinearAxis()
    plot.add_layout(xaxis, 'below')
    yaxis = LinearAxis(ticker=SingleIntervalTicker(interval=5))
    plot.add_layout(yaxis, 'left')

    plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
    plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

    male_quad = Quad(left="male", right=0, bottom="groups", top="shifted", fill_color="#3B8686")
    male_quad_glyph = plot.add_glyph(source_pyramid, male_quad)

    female_quad = Quad(left=0, right="female", bottom="groups", top="shifted", fill_color="#CFF09E")
    female_quad_glyph = plot.add_glyph(source_pyramid, female_quad)

    plot.add_layout(Legend(legends=dict(Male=[male_quad_glyph], Female=[female_quad_glyph])))

    return plot
Esempio n. 15
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def make_plot(xname, yname, xax=False, yax=False, text=None):
    plot = Plot(
        x_range=xdr, y_range=ydr, background_fill="#efe8e2",
        border_fill='white', title="", min_border=2, border_symmetry=None,
        plot_width=250, plot_height=250)

    circle = Circle(x=xname, y=yname, fill_color="color", fill_alpha=0.2, size=4, line_color="color")
    plot.add_glyph(source, circle)

    xticker = BasicTicker()
    if xax:
        xaxis = LinearAxis()
        plot.add_layout(xaxis, 'below')
        xticker = xaxis.ticker
    plot.add_layout(Grid(dimension=0, ticker=xticker))

    yticker = BasicTicker()
    if yax:
        yaxis = LinearAxis()
        plot.add_layout(yaxis, 'left')
        yticker = yaxis.ticker
    plot.add_layout(Grid(dimension=1, ticker=yticker))

    plot.add_tools(PanTool(), WheelZoomTool())

    if text:
        text = " ".join(text.split('_'))
        text = Text(
            x={'field':'xcenter', 'units':'screen'},
            y={'field':'ycenter', 'units':'screen'},
            text=[text], angle=pi/4, text_font_style="bold", text_baseline="top",
            text_color="#ffaaaa", text_alpha=0.7, text_align="center", text_font_size="28pt"
        )
        plot.add_glyph(text_source, text)

    return plot
Esempio n. 16
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def large_plot():
    source = ColumnDataSource(data=dict(x=[0, 1], y=[0, 1]))

    xdr = Range1d(start=0, end=1)
    xdr.tags.append("foo")
    xdr.tags.append("bar")

    ydr = Range1d(start=10, end=20)
    ydr.tags.append("foo")

    plot = Plot(x_range=xdr, y_range=ydr)

    ydr2 = Range1d(start=0, end=100)
    plot.extra_y_ranges = {"liny": ydr2}

    circle = Circle(x="x", y="y", fill_color="red", size=5, line_color="black")
    plot.add_glyph(source, circle, name="mycircle")

    line = Line(x="x", y="y")
    plot.add_glyph(source, line, name="myline")

    rect = Rect(x="x", y="y", width=1, height=1, fill_color="green")
    plot.add_glyph(source, rect, name="myrect")

    plot.add_layout(DatetimeAxis(), 'below')
    plot.add_layout(LogAxis(), 'left')
    plot.add_layout(LinearAxis(y_range_name="liny"), 'left')

    plot.add_layout(Grid(dimension=0), 'left')
    plot.add_layout(Grid(dimension=1), 'left')

    plot.add_tools(
        BoxZoomTool(), PanTool(), PreviewSaveTool(), ResetTool(), ResizeTool(), WheelZoomTool(),
    )

    return plot
Esempio n. 17
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def make_tab(title, glyph):
    plot = Plot(title=title, x_range=xdr, y_range=ydr)

    plot.add_glyph(source, glyph)

    xaxis = LinearAxis()
    plot.add_layout(xaxis, 'below')

    yaxis = LinearAxis()
    plot.add_layout(yaxis, 'left')

    plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
    plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

    tab = Panel(child=plot, title=title)

    return tab
Esempio n. 18
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File: glyphs.py Progetto: Afey/bokeh
def make_tab(title, glyph):
    plot = Plot(title=title, x_range=xdr, y_range=ydr)

    plot.add_glyph(source, glyph)

    xaxis = LinearAxis()
    plot.add_layout(xaxis, 'below')

    yaxis = LinearAxis()
    plot.add_layout(yaxis, 'left')

    plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
    plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

    tab = Panel(child=plot, title=title)

    return tab
Esempio n. 19
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def make_plot(name, glyph):
    plot = Plot(x_range=xdr, y_range=ydr, min_border=80)

    plot.add_glyph(source, glyph)

    xaxis = LinearAxis()
    plot.add_layout(xaxis, 'below')

    yaxis = LinearAxis()
    plot.add_layout(yaxis, 'left')

    plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
    plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

    plot.add_tools(PanTool(), WheelZoomTool())

    document.add(plot)
    session.store_document(document)
Esempio n. 20
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def make_plot(name, glyph):
    plot = Plot(x_range=xdr, y_range=ydr, min_border=80)

    plot.add_glyph(source, glyph)

    xaxis = LinearAxis()
    plot.add_layout(xaxis, 'below')

    yaxis = LinearAxis()
    plot.add_layout(yaxis, 'left')

    plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
    plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

    plot.add_tools(PanTool(), WheelZoomTool())

    document.add(plot)
    session.store_document(document)
Esempio n. 21
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source = ColumnDataSource(dict(
    names  = list(css3_colors.Name),
    groups = list(css3_colors.Group),
    colors = list(css3_colors.Color),
))

xdr = FactorRange(factors=list(css3_colors.Group.unique()))
ydr = FactorRange(factors=list(reversed(css3_colors.Name)))

plot = Plot(title="CSS3 Color Names", x_range=xdr, y_range=ydr, plot_width=600, plot_height=2000)

rect = Rect(x="groups", y="names", width=1, height=1, fill_color="colors", line_color=None)
plot.add_glyph(source, rect)

xaxis_above = CategoricalAxis(major_label_orientation=pi/4)
plot.add_layout(xaxis_above, 'above')

xaxis_below = CategoricalAxis(major_label_orientation=pi/4)
plot.add_layout(xaxis_below, 'below')

plot.add_layout(CategoricalAxis(), 'left')

doc = Document()
doc.add(plot)

if __name__ == "__main__":
    filename = "colors.html"
    with open(filename, "w") as f:
        f.write(file_html(doc, INLINE, "CSS3 Color Names"))
    print("Wrote %s" % filename)
    view(filename)
Esempio n. 22
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class Population(object):

    year = 2010
    location = "World"

    def __init__(self):
        from bokeh.objects import ColumnDataSource
        from bokeh.document import Document
        from bokeh.session import Session
        from bokeh.sampledata.population import load_population

        self.document = Document()
        self.session = Session()
        self.session.use_doc('population')
        self.session.load_document(self.document)

        self.df = load_population()
        self.source_pyramid = ColumnDataSource(data=dict())

    def render(self):
        self.pyramid_plot()
        self.create_layout()
        self.document.add(self.layout)
        self.update_pyramid()

    def pyramid_plot(self):
        from bokeh.objects import (Plot, DataRange1d, LinearAxis, Grid, Legend,
                                   SingleIntervalTicker)
        from bokeh.glyphs import Quad

        xdr = DataRange1d(sources=[
            self.source_pyramid.columns("male"),
            self.source_pyramid.columns("female")
        ])
        ydr = DataRange1d(sources=[self.source_pyramid.columns("groups")])

        self.plot = Plot(title=None,
                         x_range=xdr,
                         y_range=ydr,
                         plot_width=600,
                         plot_height=600)

        xaxis = LinearAxis()
        self.plot.add_layout(xaxis, 'below')
        yaxis = LinearAxis(ticker=SingleIntervalTicker(interval=5))
        self.plot.add_layout(yaxis, 'left')

        self.plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
        self.plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

        male_quad = Quad(left="male",
                         right=0,
                         bottom="groups",
                         top="shifted",
                         fill_color="#3B8686")
        male_quad_glyph = self.plot.add_glyph(self.source_pyramid, male_quad)

        female_quad = Quad(left=0,
                           right="female",
                           bottom="groups",
                           top="shifted",
                           fill_color="#CFF09E")
        female_quad_glyph = self.plot.add_glyph(self.source_pyramid,
                                                female_quad)

        self.plot.add_layout(
            Legend(legends=dict(Male=[male_quad_glyph],
                                Female=[female_quad_glyph])))

    def on_year_change(self, obj, attr, old, new):
        self.year = int(new)
        self.update_pyramid()

    def on_location_change(self, obj, attr, old, new):
        self.location = new
        self.update_pyramid()

    def create_layout(self):
        from bokeh.widgets import Select, HBox, VBox

        years = list(map(str, sorted(self.df.Year.unique())))
        locations = sorted(self.df.Location.unique())

        year_select = Select(title="Year:", value="2010", options=years)
        location_select = Select(title="Location:",
                                 value="World",
                                 options=locations)

        year_select.on_change('value', self.on_year_change)
        location_select.on_change('value', self.on_location_change)

        controls = HBox(children=[year_select, location_select])
        self.layout = VBox(children=[controls, self.plot])

    def update_pyramid(self):
        pyramid = self.df[(self.df.Location == self.location)
                          & (self.df.Year == self.year)]

        male = pyramid[pyramid.Sex == "Male"]
        female = pyramid[pyramid.Sex == "Female"]

        total = male.Value.sum() + female.Value.sum()

        male_percent = -male.Value / total
        female_percent = female.Value / total

        groups = male.AgeGrpStart.tolist()
        shifted = groups[1:] + [groups[-1] + 5]

        self.source_pyramid.data = dict(
            groups=groups,
            shifted=shifted,
            male=male_percent,
            female=female_percent,
        )
        self.session.store_document(self.document)
Esempio n. 23
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    source.data = dict(x=x, fy=fy, ty=ty)
    slider.value = order

    session.store_document(document)


source = ColumnDataSource(data=dict(x=[], fy=[], ty=[]))

xdr = DataRange1d(sources=[source.columns("x")])
ydr = DataRange1d(sources=[source.columns("fy")])

plot = Plot(x_range=xdr, y_range=ydr, plot_width=800, plot_height=400)

line_f = Line(x="x", y="fy", line_color="blue", line_width=2)
line_f_glyph = plot.add_glyph(source, line_f)
plot.add_layout(line_f_glyph)

line_t = Line(x="x", y="ty", line_color="red", line_width=2)
line_t_glyph = plot.add_glyph(source, line_t)
plot.add_layout(line_t_glyph)

xaxis = LinearAxis()
plot.add_layout(xaxis, 'below')

yaxis = LinearAxis()
plot.add_layout(yaxis, 'left')

xgrid = Grid(dimension=0, ticker=xaxis.ticker)
ygrid = Grid(dimension=1, ticker=yaxis.ticker)

legend = Legend(orientation="bottom_left")
Esempio n. 24
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x = np.linspace(-2 * pi, 2 * pi, 1000)
y = sin(x)
z = cos(x)

source = ColumnDataSource(data=dict(x=x, y=y))

xdr = DataRange1d(sources=[source.columns("x")])
ydr = DataRange1d(sources=[source.columns("y")])

plot = Plot(x_range=xdr, y_range=ydr, min_border=50)

line_glyph = Line(x="x", y="y", line_color="blue")
plot.add_glyph(source, line_glyph)

plot.add_layout(LinearAxis(), 'below')
plot.add_layout(LinearAxis(), 'left')

pan = PanTool()
wheel_zoom = WheelZoomTool()
preview_save = PreviewSaveTool()

plot.add_tools(pan, wheel_zoom, preview_save)

doc = Document()
doc.add(plot)

if __name__ == "__main__":
    filename = "line.html"
    with open(filename, "w") as f:
        f.write(file_html(doc, INLINE, "Line Glyph Example"))
Esempio n. 25
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# Create an array of times, starting at the current time, and extending
# for len(x) number of hours.
times = np.arange(len(x)) * 3600000 + time.time()

source = ColumnDataSource(
    data=dict(x=x, y=y, times=times)
)

xdr = DataRange1d(sources=[source.columns("times")])
ydr = DataRange1d(sources=[source.columns("y")])

plot = Plot(x_range=xdr, y_range=ydr, min_border=80)

circle = Circle(x="times", y="y", fill_color="red", size=5, line_color="black")
plot.add_glyph(source, circle)

plot.add_layout(DatetimeAxis(), 'below')
plot.add_layout(DatetimeAxis(), 'left')

plot.add_tools(PanTool(), WheelZoomTool())

doc = Document()
doc.add(plot)

if __name__ == "__main__":
    filename = "dateaxis.html"
    with open(filename, "w") as f:
        f.write(file_html(doc, INLINE, "Date Axis Example"))
    print("Wrote %s" % filename)
    view(filename)
Esempio n. 26
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    # used. Since no explicit default is provided, this picks up the
    # default in FillProps, which is "gray".
    fill_color="color",

    # An alternative form that explicitly sets a default value:
    #fill_color={"default": "red", "field": "color"},

    # Note that line_color is set to a fixed value. This can be any of
    # the SVG named 147 colors, or a hex color string starting with "#",
    # or a string "rgb(r,g,b)" or "rgba(r,g,b,a)".
    # Any other string will be interpreted as a field name to look up
    # on the datasource.
    line_color="black")

plot.add_glyph(source, circle)

plot.add_layout(LinearAxis(), 'below')
plot.add_layout(LinearAxis(), 'left')

plot.add_tools(PanTool(), WheelZoomTool())

doc = Document()
doc.add(plot)

if __name__ == "__main__":
    filename = "colorspec.html"
    with open(filename, "w") as f:
        f.write(file_html(doc, INLINE, "Demonstration of ColorSpec"))
    print("Wrote %s" % filename)
    view(filename)
Esempio n. 27
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        sepal_length=flowers["sepal_length"],
        sepal_width=flowers["sepal_width"],
        color=flowers["color"],
    )
)

xdr = DataRange1d(sources=[source.columns("petal_length")])
ydr = DataRange1d(sources=[source.columns("petal_width")])

plot = Plot(x_range=xdr, y_range=ydr, min_border=80, title="Iris Data")

circle = Circle(x="petal_length", y="petal_width", size=10, fill_color="color", fill_alpha=0.2, line_color="color")
plot.add_glyph(source, circle)

xaxis = LinearAxis(axis_label="petal length", bounds=(1, 7), major_tick_in=0)
plot.add_layout(xaxis, "below")

yaxis = LinearAxis(axis_label="petal width", bounds=(0, 2.5), major_tick_in=0)
plot.add_layout(yaxis, "left")

plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

plot.add_tools(PanTool(), WheelZoomTool())

doc = Document()
doc.add(plot)

if __name__ == "__main__":
    filename = "iris.html"
    with open(filename, "w") as f:
Esempio n. 28
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    ]
    source.data = dict(x=x, fy=fy, ty=ty)
    slider.value = order

    session.store_document(document)

source = ColumnDataSource(data=dict(x=[], fy=[], ty=[]))

xdr = DataRange1d(sources=[source.columns("x")])
ydr = DataRange1d(sources=[source.columns("fy")])

plot = Plot(x_range=xdr, y_range=ydr, plot_width=800, plot_height=400)

line_f = Line(x="x", y="fy", line_color="blue", line_width=2)
line_f_glyph = plot.add_glyph(source, line_f)
plot.add_layout(line_f_glyph)

line_t = Line(x="x", y="ty", line_color="red", line_width=2)
line_t_glyph = plot.add_glyph(source, line_t)
plot.add_layout(line_t_glyph)

xaxis = LinearAxis()
plot.add_layout(xaxis, 'below')

yaxis = LinearAxis()
plot.add_layout(yaxis, 'left')

xgrid = Grid(dimension=0, ticker=xaxis.ticker)
ygrid = Grid(dimension=1, ticker=yaxis.ticker)

legend = Legend(orientation="bottom_left")
Esempio n. 29
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from bokeh.resources import INLINE

x = arange(-2 * pi, 2 * pi, 0.1)
y = sin(x)
y2 = linspace(0, 100, len(y))

source = ColumnDataSource(data=dict(x=x, y=y, y2=y2))

plot = Plot(x_range=Range1d(start=-6.5, end=6.5), y_range=Range1d(start=-1.1, end=1.1), min_border=80)

plot.extra_y_ranges = {"foo": Range1d(start=0, end=100)}

circle = Circle(x="x", y="y", fill_color="red", size=5, line_color="black")
plot.add_glyph(source, circle)

plot.add_layout(LinearAxis(), "below")
plot.add_layout(LinearAxis(), "left")


circle2 = Circle(x="x", y="y2", fill_color="blue", size=5, line_color="black")
plot.add_glyph(source, circle2, y_range_name="foo")

plot.add_layout(LinearAxis(y_range_name="foo"), "left")

plot.add_tools(PanTool(), WheelZoomTool())

doc = Document()
doc.add(plot)

if __name__ == "__main__":
    filename = "twin_axis.html"
Esempio n. 30
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y = sin(x)

# Create an array of times, starting at the current time, and extending
# for len(x) number of hours.
times = np.arange(len(x)) * 3600000 + time.time()

source = ColumnDataSource(data=dict(x=x, y=y, times=times))

xdr = DataRange1d(sources=[source.columns("times")])
ydr = DataRange1d(sources=[source.columns("y")])

plot = Plot(x_range=xdr, y_range=ydr, min_border=80)

circle = Circle(x="times", y="y", fill_color="red", size=5, line_color="black")
plot.add_glyph(source, circle)

plot.add_layout(DatetimeAxis(), 'below')
plot.add_layout(DatetimeAxis(), 'left')

plot.add_tools(PanTool(), WheelZoomTool())

doc = Document()
doc.add(plot)

if __name__ == "__main__":
    filename = "dateaxis.html"
    with open(filename, "w") as f:
        f.write(file_html(doc, INLINE, "Date Axis Example"))
    print("Wrote %s" % filename)
    view(filename)
Esempio n. 31
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from bokeh.objects import Plot, DataRange1d, LinearAxis, ColumnDataSource, PanTool, WheelZoomTool
from bokeh.resources import INLINE

x = arange(-2 * pi, 2 * pi, 0.1)
y = sin(x)

source = ColumnDataSource(data=dict(x=x, y=y))

xdr = DataRange1d(sources=[source.columns("x")])
ydr = DataRange1d(sources=[source.columns("y")])

plot = Plot(x_range=xdr, y_range=ydr, min_border=80)

circle = Circle(x="x", y="y", fill_color="red", size=5, line_color="black")
plot.add_glyph(source, circle)

plot.add_layout(LinearAxis(), "below")
plot.add_layout(LinearAxis(), "left")

plot.add_tools(PanTool(), WheelZoomTool())

doc = Document()
doc.add(plot)

if __name__ == "__main__":
    filename = "glyph1.html"
    with open(filename, "w") as f:
        f.write(file_html(doc, INLINE, "Glyph Plot"))
    print("Wrote %s" % filename)
    view(filename)
Esempio n. 32
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source = ColumnDataSource(data=dict(x=x, y=y, r=r))

xdr = DataRange1d(sources=[source.columns("x")])
ydr = DataRange1d(sources=[source.columns("y")])

plot = Plot(x_range=xdr, y_range=ydr, min_border=80)

circle = Circle(
    x="x", y="y", size="r",
    fill_color="red", line_color="black"
)
plot.add_glyph(source, circle)

xaxis = LinearAxis()
plot.add_layout(xaxis, 'below')

yaxis = LinearAxis()
plot.add_layout(yaxis, 'left')

plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

plot.add_tools(PanTool(), WheelZoomTool())

document.add(plot)
session.store_document(document)

link = session.object_link(document.context)
print ("please visit %s to see plots" % link)
view(link)
Esempio n. 33
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class Population(object):

    year = 2010
    location = "World"

    def __init__(self):
        from bokeh.objects import ColumnDataSource
        from bokeh.document import Document
        from bokeh.session import Session
        from bokeh.sampledata.population import load_population

        self.document = Document()
        self.session = Session()
        self.session.use_doc('population_reveal')
        self.session.load_document(self.document)

        self.df = load_population()
        self.source_pyramid = ColumnDataSource(data=dict())

        # just render at the initialization
        self._render()

    def _render(self):
        self.pyramid_plot()
        self.create_layout()
        self.document.add(self.layout)
        self.update_pyramid()

    def pyramid_plot(self):
        from bokeh.objects import (Plot, DataRange1d, LinearAxis, Grid,
                                   Legend, SingleIntervalTicker)
        from bokeh.glyphs import Quad

        xdr = DataRange1d(sources=[self.source_pyramid.columns("male"),
                                   self.source_pyramid.columns("female")])
        ydr = DataRange1d(sources=[self.source_pyramid.columns("groups")])

        self.plot = Plot(title="Widgets", x_range=xdr, y_range=ydr,
                         plot_width=600, plot_height=600)

        xaxis = LinearAxis()
        self.plot.add_layout(xaxis, 'below')
        yaxis = LinearAxis(ticker=SingleIntervalTicker(interval=5))
        self.plot.add_layout(yaxis, 'left')

        self.plot.add_layout(Grid(dimension=0, ticker=xaxis.ticker))
        self.plot.add_layout(Grid(dimension=1, ticker=yaxis.ticker))

        male_quad = Quad(left="male", right=0, bottom="groups", top="shifted",
                         fill_color="#3B8686")
        male_quad_glyph = self.plot.add_glyph(self.source_pyramid, male_quad)

        female_quad = Quad(left=0, right="female", bottom="groups", top="shifted",
                           fill_color="#CFF09E")
        female_quad_glyph = self.plot.add_glyph(self.source_pyramid, female_quad)

        self.plot.add_layout(Legend(legends=dict(Male=[male_quad_glyph],
                                                 Female=[female_quad_glyph])))

    def on_year_change(self, obj, attr, old, new):
        self.year = int(new)
        self.update_pyramid()

    def on_location_change(self, obj, attr, old, new):
        self.location = new
        self.update_pyramid()

    def create_layout(self):
        from bokeh.widgets import Select, HBox, VBox

        years = list(map(str, sorted(self.df.Year.unique())))
        locations = sorted(self.df.Location.unique())

        year_select = Select(title="Year:", value="2010", options=years)
        location_select = Select(title="Location:", value="World", options=locations)

        year_select.on_change('value', self.on_year_change)
        location_select.on_change('value', self.on_location_change)

        controls = HBox(year_select, location_select)
        self.layout = VBox(controls, self.plot)

    def update_pyramid(self):
        pyramid = self.df[(self.df.Location == self.location) & (self.df.Year == self.year)]

        male = pyramid[pyramid.Sex == "Male"]
        female = pyramid[pyramid.Sex == "Female"]

        total = male.Value.sum() + female.Value.sum()

        male_percent = -male.Value / total
        female_percent = female.Value / total

        groups = male.AgeGrpStart.tolist()
        shifted = groups[1:] + [groups[-1] + 5]

        self.source_pyramid.data = dict(
            groups=groups,
            shifted=shifted,
            male=male_percent,
            female=female_percent,
        )
        self.session.store_document(self.document)
Esempio n. 34
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x = arange(-2*pi, 2*pi, 0.1)
y = sin(x)
y2 = linspace(0, 100, len(y))

source = ColumnDataSource(
    data=dict(x=x, y=y, y2=y2)
)

plot = Plot(x_range=Range1d(start=-6.5, end=6.5), y_range=Range1d(start=-1.1, end=1.1), min_border=80)

plot.extra_y_ranges = {"foo": Range1d(start=0, end=100)}

circle = Circle(x="x", y="y", fill_color="red", size=5, line_color="black")
plot.add_glyph(source, circle)

plot.add_layout(LinearAxis(), 'below')
plot.add_layout(LinearAxis(), 'left')


circle2 = Circle(x="x", y="y2", fill_color="blue", size=5, line_color="black")
plot.add_glyph(source, circle2, y_range_name="foo")

plot.add_layout(LinearAxis(y_range_name="foo"), 'left')

plot.add_tools(PanTool(), WheelZoomTool())

doc = Document()
doc.add(plot)

if __name__ == "__main__":
    filename = "twin_axis.html"