def test__glyph_receives_renderer_arg(arg, values): for value in values: with mock.patch('bokeh.plotting.helpers.GlyphRenderer', autospec=True) as gr_mock: fn = bph._glyph_function(Marker) fn(Figure(), x=0, y=0, **{arg: value}) _, kwargs = gr_mock.call_args assert arg in kwargs and kwargs[arg] == value
def test__glyph_receives_renderer_arg(arg, values): for value in values: with mock.patch('bokeh.plotting.helpers.GlyphRenderer', autospec=True) as gr_mock: fn = _glyph_function(Marker) fn(Figure(), x=0, y=0, **{arg: value}) _, kwargs = gr_mock.call_args assert arg in kwargs and kwargs[arg] == value
import bokeh.plotting from bokeh.plotting.helpers import _glyph_function import bokeh.models from bokeh.core.properties import DistanceSpec class Barb(bokeh.models.Marker): __implementation__ = "barb.ts" _args = ('x', 'y', 'u', 'v') u = DistanceSpec(units_default="screen") v = DistanceSpec(units_default="screen") # Extend bokeh.plotting.Figure to support .barb() if not hasattr(bokeh.plotting.Figure, 'barb'): bokeh.plotting.Figure.barb = _glyph_function(Barb)
class Chart(Plot): """ The main Chart class, the core of the ``Bokeh.charts`` interface. """ __view_model__ = "Plot" __subtype__ = "Chart" xlabel = String(None, help=""" A label for the x-axis. (default: None) """) ylabel = String(None, help=""" A label for the y-axis. (default: None) """) xscale = Either(Auto, Enum(Scale), help=""" What kind of scale to use for the x-axis. """) yscale = Either(Auto, Enum(Scale), help=""" What kind of scale to use for the y-axis. """) _defaults = defaults __deprecated_attributes__ = ('filename', 'server', 'notebook', 'width', 'height', 'xgrid', 'ygrid', 'legend' 'background_fill', 'border_fill', 'logo', 'tools', 'title_text_baseline', 'title_text_align', 'title_text_alpha', 'title_text_color', 'title_text_font_style', 'title_text_font_size', 'title_text_font', 'title_standoff') _xgrid = True _ygrid = True _legend = True @Plot.xgrid.setter def xgrid(self, value): warnings.warn( "Non-functional 'xgrid' setter has been removed; use 'xgrid' keyword argument to Chart instead" ) @Plot.ygrid.setter def ygrid(self, value): warnings.warn( "Non-functional 'ygrid' setter has been removed; use 'ygrid' keyword argument to Chart instead" ) @Plot.legend.setter def legend(self, value): warnings.warn( "Non-functional 'legend' setter has been removed; use 'legend' keyword argument to Chart instead" ) def __init__(self, *args, **kwargs): # pop tools as it is also a property that doesn't match the argument # supported types tools = kwargs.pop('tools', None) for name in ['xgrid', 'ygrid', 'legend']: if name in kwargs: kwargs["_" + name] = kwargs[name] del kwargs[name] if 'responsive' in kwargs and 'sizing_mode' in kwargs: raise ValueError( "Chart initialized with both 'responsive' and 'sizing_mode' supplied, supply only one" ) if 'responsive' in kwargs: kwargs['sizing_mode'] = _convert_responsive(kwargs['responsive']) del kwargs['responsive'] self._active_drag = kwargs.pop('active_drag', 'auto') self._active_inspect = kwargs.pop('active_inspect', 'auto') self._active_scroll = kwargs.pop('active_scroll', 'auto') self._active_tap = kwargs.pop('active_tap', 'auto') title_text = kwargs.pop("title", None) super(Chart, self).__init__(*args, **kwargs) self.title.text = title_text defaults.apply(self) if tools is not None: self._tools = tools # TODO (fpliger): we do this to still support deprecated document but # should go away when __deprecated_attributes__ is empty for k in self.__deprecated_attributes__: if k in kwargs: setattr(self, k, kwargs[k]) self._glyphs = [] self._built = False self._builders = [] self._renderer_map = [] self._ranges = defaultdict(list) self._labels = defaultdict(list) self._scales = defaultdict(list) self._tooltips = [] if hasattr(self, '_tools'): self.create_tools(self._tools, self._active_drag, self._active_inspect, self._active_scroll, self._active_tap) def add_renderers(self, builder, renderers): self.renderers += renderers self._renderer_map.extend({r._id: builder for r in renderers}) def add_builder(self, builder): self._builders.append(builder) builder.create(self) def add_ranges(self, dim, range): self._ranges[dim].append(range) def add_labels(self, dim, label): self._labels[dim].append(label) def add_scales(self, dim, scale): self._scales[dim].append(scale) def add_tooltips(self, tooltips): self._tooltips += tooltips def _get_labels(self, dim): if not getattr(self, dim + 'label') and len(self._labels[dim]) > 0: return self._labels[dim][0] else: return getattr(self, dim + 'label') def create_axes(self): self._xaxis = self.make_axis('x', "below", self._scales['x'][0], self._get_labels('x')) self._yaxis = self.make_axis('y', "left", self._scales['y'][0], self._get_labels('y')) def create_grids(self, xgrid=True, ygrid=True): if xgrid: self.make_grid(0, self._xaxis.ticker) if ygrid: self.make_grid(1, self._yaxis.ticker) def create_tools(self, tools, active_drag, active_inspect, active_scroll, active_tap): """Create tools if given tools=True input. Only adds tools if given boolean and does not already have tools added to self. """ if isinstance(tools, bool) and tools: tools = DEFAULT_TOOLS elif isinstance(tools, bool): # in case tools == False just exit return if len(self.toolbar.tools) == 0: # if no tools customization let's create the default tools tool_objs, tool_map = _process_tools_arg(self, tools) self.add_tools(*tool_objs) _process_active_tools(self.toolbar, tool_map, active_drag, active_inspect, active_scroll, active_tap) def start_plot(self): """Add the axis, grids and tools """ self.create_axes() self.create_grids(self._xgrid, self._ygrid) if self.toolbar.tools: self.create_tools(self._tools, self._active_drag, self._active_inspect, self._active_scroll, self._active_tap) if len(self._tooltips) > 0: self.add_tools(HoverTool(tooltips=self._tooltips)) def add_legend(self, chart_legends): """Add the legend to your plot, and the plot to a new Document. It also add the Document to a new Session in the case of server output. Args: legends(List(Tuple(String, List(GlyphRenderer)): A list of tuples that maps text labels to the legend to corresponding renderers that should draw sample representations for those labels. """ location = None if self._legend is True: location = "top_left" else: location = self._legend items = [] for legend in chart_legends: items.append( LegendItem(label=value(legend[0]), renderers=legend[1])) if location: legend = Legend(location=location, items=items) self.add_layout(legend) def make_axis(self, dim, location, scale, label): """Create linear, date or categorical axis depending on the location, scale and with the proper labels. Args: location(str): the space localization of the axis. It can be ``left``, ``right``, ``above`` or ``below``. scale (str): the scale on the axis. It can be ``linear``, ``datetime`` or ``categorical``. label (str): the label on the axis. Return: Axis: Axis instance """ # ToDo: revisit how to handle multiple ranges # set the last range to the chart's range if len(self._ranges[dim]) == 0: raise ValueError('Ranges must be added to derive axis type.') data_range = self._ranges[dim][-1] setattr(self, dim + '_range', data_range) if scale == "auto": if isinstance(data_range, FactorRange): scale = 'categorical' else: scale = 'linear' if scale == "linear": axis = LinearAxis(axis_label=label) elif scale == "datetime": axis = DatetimeAxis(axis_label=label) elif scale == "categorical": axis = CategoricalAxis(major_label_orientation=np.pi / 4, axis_label=label) else: axis = LinearAxis(axis_label=label) self.add_layout(axis, location) return axis def make_grid(self, dimension, ticker): """Create the grid just passing the axis and dimension. Args: dimension(int): the dimension of the axis, ie. xaxis=0, yaxis=1. ticker (obj): the axis.ticker object Return: Grid: A Grid instance """ grid = Grid(dimension=dimension, ticker=ticker) self.add_layout(grid) return grid annular_wedge = _glyph_function(glyphs.AnnularWedge) annulus = _glyph_function(glyphs.Annulus) arc = _glyph_function(glyphs.Arc) asterisk = _glyph_function(markers.Asterisk) bezier = _glyph_function(glyphs.Bezier) circle = _glyph_function(markers.Circle) circle_cross = _glyph_function(markers.CircleCross) circle_x = _glyph_function(markers.CircleX) cross = _glyph_function(markers.Cross) diamond = _glyph_function(markers.Diamond) diamond_cross = _glyph_function(markers.DiamondCross) ellipse = _glyph_function(glyphs.Ellipse) hbar = _glyph_function(glyphs.HBar) image = _glyph_function(glyphs.Image) image_rgba = _glyph_function(glyphs.ImageRGBA) image_url = _glyph_function(glyphs.ImageURL) inverted_triangle = _glyph_function(markers.InvertedTriangle) line = _glyph_function(glyphs.Line) multi_line = _glyph_function(glyphs.MultiLine) oval = _glyph_function(glyphs.Oval) patch = _glyph_function(glyphs.Patch) patches = _glyph_function(glyphs.Patches) quad = _glyph_function(glyphs.Quad) quadratic = _glyph_function(glyphs.Quadratic) ray = _glyph_function(glyphs.Ray) rect = _glyph_function(glyphs.Rect) segment = _glyph_function(glyphs.Segment) square = _glyph_function(markers.Square) square_cross = _glyph_function(markers.SquareCross) square_x = _glyph_function(markers.SquareX) text = _glyph_function(glyphs.Text) triangle = _glyph_function(markers.Triangle) vbar = _glyph_function(glyphs.VBar) wedge = _glyph_function(glyphs.Wedge) x = _glyph_function(markers.X)
import sys, math, json, time, threading, websocket, datetime import numpy as np from functools import partial from bokeh.io import curdoc, show from bokeh.layouts import column, row from bokeh.models import Button, ColumnDataSource, Slider, BasicTickFormatter, BasicTicker #from bokeh.models.glyphs import Ray from bokeh.models.widgets import Panel, Tabs from bokeh.plotting.figure import Figure from bokeh.plotting import figure from DepthGraph import DepthGraph from bokeh.plotting.helpers import _glyph_function Figure.depth = _glyph_function(DepthGraph) class Trade_pair(): def __init__(self, base, quote): self.pair_string = base + "_" + quote self.base = base self.quote = quote self.sells = [] self.buys = [] self.update_buffer = [] self.prev_update = 0 self.status = "OFF" self.connect_ws()