コード例 #1
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    def test_heatmap_recipe(self):
        source = ServerDataSource(data_url="fn://bivariate",
                                  owner_username="******")
        plot = square('A',
                      'B',
                      source=source,
                      plot_width=600,
                      plot_height=400,
                      title="Test Title")

        plot2 = ar_downsample.heatmap(plot,
                                      palette="Reds9",
                                      reserve_val=0,
                                      points=True,
                                      client_color=True,
                                      title="Test Title 2")
        source2 = self._find_source(plot2)

        self.assertEquals("Test Title 2", plot2.title)
        self.assertEquals(type(source2), ServerDataSource)

        transform = source2.transform
        self.assertEquals(type(transform['info']), ar_downsample.Const)
        self.assertEquals(type(transform['agg']), ar_downsample.Count)
        self.assertEquals(type(transform['shader']), ar_downsample.Seq)
        self.assertEquals(transform['shader'].out, "image")
コード例 #2
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    def test_replot_result_type(self):
        ar_downsample._loadAR()
        source = ServerDataSource(data_url="fn://bivariate",
                                  owner_username="******")
        plot = square('A', 'B', source=source)

        expected = {
            "image": "Image",
            "image_rgb": "ImageRGBA",
            "multi_line": "MultiLine"
        }

        shaders = dict()

        for name in dir(ar_downsample):
            item = getattr(ar_downsample, name)
            if isinstance(item, ar_downsample.Shader):
                shaders[item] = item.out

        for shader_class in shaders:
            shader = shader_class()
            rslt = ar_downsample.replot(plot, shader=shader)
            self.assertEquals(
                expected[shader.out],
                self._glyphspec(rslt)['type'],
                "Error with {0}. Expected {1}, recieved {2}".format(
                    str(shader_class), expected[shader.out],
                    self._glyphspec(rslt)))
コード例 #3
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ファイル: serverconfig.py プロジェクト: zazu94/bokeh
 def data_source(self, name, dataframe=None, array=None):
     if dataframe is not None:
         fname = self._prep_data_source_df(name, dataframe)
         target_name = name + ".pandas"
     else:
         fname = self._prep_data_source_numpy(name, array)
         target_name = name + ".table"
     url = urljoin(self.root_url,
                   "bokeh/data/upload/%s/%s" % (self.username, target_name))
     with open(fname) as f:
         result = self.http_session.post(url,
                                         files={'file': (target_name, f)})
     return ServerDataSource(owner_username=self.username,
                             data_url=result.content)
コード例 #4
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 def data_source(self, name, dataframe=None, array=None):
     """Makes a server data source and uploads it to the server
     The server must be configured with a data directory
     for this to work
     """
     if dataframe is not None:
         fname = self._prep_data_source_df(name, dataframe)
         target_name = name + ".pandas"
     else:
         fname = self._prep_data_source_numpy(name, array)
         target_name = name + ".table"
     url = urljoin(self.root_url,
                   "bokeh/data/upload/%s/%s" % (self.username, target_name))
     with open(fname) as f:
         result = self.http_session.post(url, files={'file' : (target_name, f)})
     return ServerDataSource(owner_username=self.username, data_url=result.content)
コード例 #5
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    def test_replot_remove(self):
        self.assertIsNotNone(self.bokeh_server,
                             "Server failed to start, cannot tests")
        ar_downsample._loadAR()
        output_server("Census")
        source = ServerDataSource(data_url="fn://bivariate",
                                  owner_username="******")
        plot = square('A', 'B', source=source)
        ar_downsample.replot(plot, remove_original=False)

        self.assertTrue(plot in curdoc().context.children, "Not retained")
        ar_downsample.replot(plot, remove_original=True)
        self.assertTrue(plot not in curdoc().context.children, "Not removed")

        try:
            ar_downsample.replot(plot, remove_original=True)
        except:
            self.assertTrue(False, "Error reploting plot not in curdoc")
コード例 #6
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ファイル: start.py プロジェクト: MShaffar19/lab7genomics
def make_object():
    source = ServerDataSource(data_url="IonXpress_004_rawlib.sam",
                              owner_username="******",
                              transform={
                                  'resample': 'genomic_coverage',
                                  'primary_column': 'coverage',
                                  'domain_name': 'chr5'
                              },
                              data={})
    x_range = Range1d(start=0, end=249250621)
    plot1 = line('chr5',
                 'counts',
                 tools="pan,wheel_zoom,box_zoom,reset,previewsave",
                 plot_width=800,
                 plot_height=350,
                 source=source,
                 x_range=x_range)
    plot2 = make_plot(x_range)
    return VBox(children=[plot1, plot2])
コード例 #7
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    def test_contour_recipe(self):
        source = ServerDataSource(data_url="fn://bivariate",
                                  owner_username="******")
        plot = square('A',
                      'B',
                      source=source,
                      plot_width=600,
                      plot_height=400,
                      title="Test Title")

        plot2 = ar_downsample.contours(plot, title="Contour")
        source2 = self._find_source(plot2)

        self.assertEquals("Contour", plot2.title)
        self.assertEquals(type(source2), ServerDataSource)

        transform = source2.transform
        self.assertEquals(type(transform['info']), ar_downsample.Const)
        self.assertEquals(type(transform['agg']), ar_downsample.Count)
        self.assertEquals(type(transform['shader']), ar_downsample.Seq)
        self.assertEquals(transform['shader'].out, "multi_line")
コード例 #8
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    def test_replot_property_transfer(self):
        self.assertIsNotNone(self.bokeh_server,
                             "Server failed to start, cannot tests")
        ar_downsample._loadAR()
        output_server("Census")
        source = ServerDataSource(data_url="fn://bivariate",
                                  owner_username="******")

        plot_width = 612
        plot_height = 408
        plot_title = "Test title"

        plot = square('A',
                      'B',
                      source=source,
                      plot_width=plot_width,
                      plot_height=plot_height,
                      title=plot_title)
        ar_plot = ar_downsample.replot(plot)

        self.assertEquals(ar_plot.plot_width, plot_width,
                          "Plot width not transfered")
        self.assertEquals(ar_plot.plot_height, plot_height,
                          "Plot height not transfered")
        self.assertEquals(ar_plot.title, plot_title,
                          "Plot title not transfered")

        plot_width = 612
        plot_height = 408
        plot_title = "Test title"
        ar_plot = ar_downsample.replot(plot,
                                       title=plot_title,
                                       plot_width=plot_width,
                                       plot_height=plot_height)
        self.assertEquals(ar_plot.plot_width, plot_width,
                          "Plot width override failed")
        self.assertEquals(ar_plot.plot_height, plot_height,
                          "Plot height override failed")
        self.assertEquals(ar_plot.title, plot_title,
                          "Plot title override failed")
コード例 #9
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    def test_source(self):
        ar_downsample._loadAR()
        source = ServerDataSource(data_url="fn://bivariate",
                                  owner_username="******")
        plot = square('A', 'B', source=source)

        agg = ar_downsample.CountCategories()
        info = ar_downsample.Const(val=1)
        shader = ar_downsample.InterpolateColor()

        new_source = ar_downsample.source(plot,
                                          agg=agg,
                                          info=info,
                                          shader=shader)
        self.assertIsNotNone(new_source.transform)
        trans = new_source.transform

        self.assertEquals(trans['resample'], 'abstract rendering')
        self.assertEquals(trans['agg'], agg)
        self.assertEquals(trans['info'], info)
        self.assertEquals(trans['shader'], shader)
        self.assertEquals(trans['glyphspec'], self._glyphspec(plot))
        self.assertEquals(trans['points'], False)
コード例 #10
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ファイル: remote_image.py プロジェクト: zazu94/bokeh
N = 1000

x = np.linspace(0, 10, N)
y = np.linspace(0, 10, N)
xx, yy = np.meshgrid(x, y)
d = np.sin(xx) * np.cos(yy)

output_server("remote_image")
source = ServerDataSource(data_url="/defaultuser/array.table/array",
                          owner_username="******",
                          data={
                              'x': [0],
                              'y': [0],
                              'global_x_range': [0, 10],
                              'global_y_range': [0, 10],
                              'global_offset_x': [0],
                              'global_offset_y': [0],
                              'dw': [10],
                              'dh': [10],
                              'palette': ["Spectral-11"]
                          })

image(source=source,
      image="image",
      x="x",
      y="y",
      dw="dw",
      dh="dh",
      width=200,
      height=200,
コード例 #11
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# The plot server must be running
# Go to http://localhost:5006/bokeh to view this plot

import numpy as np
from bokeh.plotting import *
from bokeh.objects import ServerDataSource
"""
In order to run this example, you have to execute
./bokeh-server -D remotedata

the remote data directory in the bokeh checkout has the sample data for this example

In addition, you must install ArrayManagement from this branch (soon to be master)
https://github.com/ContinuumIO/ArrayManagement
"""
output_server("remotedata")
source = ServerDataSource(data_url="/defaultuser/AAPL.hdf5",
                          owner_username="******")
line('date',
     'close',
     x_axis_type="datetime",
     color='#A6CEE3',
     tools="pan,wheel_zoom,box_zoom,reset,previewsave",
     source=source,
     legend='AAPL')
show()
コード例 #12
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ファイル: census.py プロジェクト: velociraptors/bokeh
from bokeh.plotting import square, output_server, show
from bokeh.objects import ServerDataSource
import bokeh.transforms.ar_downsample as ar
"""
In order to run this example, you have to execute
./bokeh-server -D remotedata

the remote data directory in the bokeh checkout has the sample data for this example

In addition, you must install ArrayManagement from this branch (soon to be master)
https://github.com/ContinuumIO/ArrayManagement
"""

output_server("Census")
# 2010 US Census tracts
source = ServerDataSource(data_url="/defaultuser/CensusTracts.hdf5",
                          owner_username="******")
plot = square('LON',
              'LAT',
              source=source,
              plot_width=600,
              plot_height=400,
              title="Census Tracts")

ar.heatmap(plot,
           palette=["Reds-9"],
           reserve_val=0,
           points=True,
           client_color=True,
           title="Census Tracts (Client Colors)")
ar.heatmap(plot,
           low=(255, 200, 200),
コード例 #13
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import numpy as np
from bokeh.plotting import square, output_server, image, show
from bokeh.objects import ServerDataSource

import bokeh.transforms.ar_downsample as ar

output_server("abstractrender")
source = ServerDataSource(data_url="fn://gauss", owner_username="******")
plot = square('oneA', 'oneB', color='#FF00FF', source=source)

#Server-side colored heatmap
ar.heatmap(plot,
           spread=3,
           transform=None,
           title="Server-rendered, uncorrected")
ar.heatmap(plot,
           spread=3,
           transform="Log",
           title="Server-rendered, log transformed")
ar.heatmap(plot, spread=3, title="Server-rendered, perceptually corrected")

ar.replot(plot,
          agg=ar.Count(),
          info=ar.Const(val=1),
          shader=ar.Spread(factor=3) + ar.Cuberoot() +
          ar.InterpolateColor(low=(255, 200, 200), high=(255, 0, 0)),
          points=True,
          title="Manually process: perceptually corrected",
          reserve_val=0)

# Client-side colored heatmap