Source code for holoviews.plotting.bokeh.plot

from collections import defaultdict
from itertools import groupby

import numpy as np
import param
from bokeh.layouts import gridplot
from bokeh.models import (
    Axis,
    ColorBar,
    Column,
    ColumnDataSource,
    Div,
    Legend,
    Row,
    Title,
)
from bokeh.models.layouts import TabPanel, Tabs

from ...core import (
    AdjointLayout,
    Element,
    Empty,
    GridSpace,
    HoloMap,
    Layout,
    NdLayout,
    Store,
)
from ...core.options import SkipRendering
from ...core.util import (
    _STANDARD_CALENDARS,
    cftime_to_timestamp,
    cftime_types,
    get_method_owner,
    is_param_method,
    unique_iterator,
    wrap_tuple,
    wrap_tuple_streams,
)
from ...selection import NoOpSelectionDisplay
from ..links import Link
from ..plot import (
    CallbackPlot,
    DimensionedPlot,
    GenericAdjointLayoutPlot,
    GenericCompositePlot,
    GenericElementPlot,
    GenericLayoutPlot,
    GenericOverlayPlot,
)
from ..util import attach_streams, collate, displayable
from .links import LinkCallback
from .util import (
    cds_column_replace,
    decode_bytes,
    empty_plot,
    filter_toolboxes,
    get_default,
    make_axis,
    merge_tools,
    select_legends,
    sync_legends,
    theme_attr_json,
    update_shared_sources,
)


[docs]class BokehPlot(DimensionedPlot, CallbackPlot): """ Plotting baseclass for the Bokeh backends, implementing the basic plotting interface for Bokeh based plots. """ shared_datasource = param.Boolean(default=True, doc=""" Whether Elements drawing the data from the same object should share their Bokeh data source allowing for linked brushing and other linked behaviors.""") title = param.String(default="{label} {group} {dimensions}", doc=""" The formatting string for the title of this plot, allows defining a label group separator and dimension labels.""") title_format = param.String(default=None, doc="Alias for title.") toolbar = param.ObjectSelector(default='above', objects=["above", "below", "left", "right", None], doc=""" The toolbar location, must be one of 'above', 'below', 'left', 'right', None.""") width = param.Integer(default=None, bounds=(0, None), doc=""" The width of the component (in pixels). This can be either fixed or preferred width, depending on width sizing policy.""") height = param.Integer(default=None, bounds=(0, None), doc=""" The height of the component (in pixels). This can be either fixed or preferred height, depending on height sizing policy.""") _merged_tools = ['pan', 'box_zoom', 'box_select', 'lasso_select', 'poly_select', 'ypan', 'xpan'] _title_template = ( '<span style=' '"color:{color};font-family:{font};' 'font-style:{fontstyle};font-weight:{fontstyle};' # italic/bold 'font-size:{fontsize}">' '{title}</span>' ) backend = 'bokeh' selection_display = NoOpSelectionDisplay() @property def id(self): return self.root.ref['id'] if self.root else None
[docs] def get_data(self, element, ranges, style): """ Returns the data from an element in the appropriate format for initializing or updating a ColumnDataSource and a dictionary which maps the expected keywords arguments of a glyph to the column in the datasource. """ raise NotImplementedError
def _update_selected(self, cds): from .callbacks import Selection1DCallback cds.selected.indices = self.selected for cb in self.callbacks: if isinstance(cb, Selection1DCallback): for s in cb.streams: s.update(index=self.selected) def _init_datasource(self, data): """ Initializes a data source to be passed into the bokeh glyph. """ data = self._postprocess_data(data) cds = ColumnDataSource(data=data) if hasattr(self, 'selected') and self.selected is not None: self._update_selected(cds) return cds def _postprocess_data(self, data): """ Applies necessary type transformation to the data before it is set on a ColumnDataSource. """ new_data = {} for k, values in data.items(): values = decode_bytes(values) # Bytes need decoding to strings # Certain datetime types need to be converted if len(values) and isinstance(values[0], cftime_types): if any(v.calendar not in _STANDARD_CALENDARS for v in values): self.param.warning( 'Converting cftime.datetime from a non-standard ' 'calendar (%s) to a standard calendar for plotting. ' 'This may lead to subtle errors in formatting ' 'dates, for accurate tick formatting switch to ' 'the matplotlib backend.' % values[0].calendar) values = cftime_to_timestamp(values, 'ms') new_data[k] = values return new_data def _update_datasource(self, source, data): """ Update datasource with data for a new frame. """ if not self.document: return data = self._postprocess_data(data) empty = all(len(v) == 0 for v in data.values()) if (self.streaming and self.streaming[0].data is self.current_frame.data and self._stream_data and not empty): stream = self.streaming[0] if stream._triggering: data = {k: v[-stream._chunk_length:] for k, v in data.items()} source.stream(data, stream.length) return if cds_column_replace(source, data): source.data = data else: source.data.update(data) if hasattr(self, 'selected') and self.selected is not None: self._update_selected(source) @property def state(self): """ The plotting state that gets updated via the update method and used by the renderer to generate output. """ return self.handles['plot'] @property def current_handles(self): """ Should return a list of plot objects that have changed and should be updated. """ return [] def _get_fontsize_defaults(self): theme = self.renderer.theme defaults = { 'title': get_default(Title, 'text_font_size', theme), 'legend_title': get_default(Legend, 'title_text_font_size', theme), 'legend': get_default(Legend, 'label_text_font_size', theme), 'label': get_default(Axis, 'axis_label_text_font_size', theme), 'ticks': get_default(Axis, 'major_label_text_font_size', theme), 'cticks': get_default(ColorBar, 'major_label_text_font_size', theme), 'clabel': get_default(ColorBar, 'title_text_font_size', theme) } processed = dict(defaults) for k, v in defaults.items(): if isinstance(v, dict) and 'value' in v: processed[k] = v['value'] return processed
[docs] def cleanup(self): """ Cleans up references to the plot after the plot has been deleted. Traverses through all plots cleaning up Callbacks and Stream subscribers. """ plots = self.traverse(lambda x: x, [BokehPlot]) for plot in plots: if not isinstance(plot, (GenericCompositePlot, GenericElementPlot, GenericOverlayPlot)): continue streams = list(plot.streams) plot.streams = [] plot._document = None if plot.subplots: plot.subplots.clear() if isinstance(plot, GenericElementPlot): for callback in plot.callbacks: streams += callback.streams callback.cleanup() for stream in set(streams): stream._subscribers = [ (p, subscriber) for p, subscriber in stream._subscribers if not is_param_method(subscriber) or get_method_owner(subscriber) not in plots ]
def _fontsize(self, key, label='fontsize', common=True): """ Converts integer fontsizes to a string specifying fontsize in pt. """ size = super()._fontsize(key, label, common) return {k: v if isinstance(v, str) else f'{v}pt' for k, v in size.items()} def _get_title_div(self, key, default_fontsize='15pt', width=450): title_div = None title = self._format_title(key) if self.show_title else '' if not title: return title_div title_json = theme_attr_json(self.renderer.theme, 'Title') color = title_json.get('text_color', None) font = title_json.get('text_font', 'Arial') fontstyle = title_json.get('text_font_style', 'bold') fontsize = self._fontsize('title').get('fontsize', default_fontsize) if fontsize == default_fontsize: # if default fontsize = title_json.get('text_font_size', default_fontsize) if 'em' in fontsize: # it's smaller than it shosuld be so add 0.25 fontsize = str(float(fontsize[:-2]) + 0.25) + 'em' title_tags = self._title_template.format( color=color, font=font, fontstyle=fontstyle, fontsize=fontsize, title=title) if 'title' in self.handles: title_div = self.handles['title'] else: # so it won't wrap long titles easily title_div = Div(width=width, styles={"white-space": "nowrap"}) title_div.text = title_tags return title_div
[docs] def sync_sources(self): """ Syncs data sources between Elements, which draw data from the same object. """ get_sources = lambda x: (id(x.current_frame.data), x) filter_fn = lambda x: (x.shared_datasource and x.current_frame is not None and not isinstance(x.current_frame.data, np.ndarray) and 'source' in x.handles) data_sources = self.traverse(get_sources, [filter_fn]) grouped_sources = groupby(sorted(data_sources, key=lambda x: x[0]), lambda x: x[0]) shared_sources = [] source_cols = {} plots = [] for _, group in grouped_sources: group = list(group) if len(group) > 1: source_data = {} for _, plot in group: source_data.update(plot.handles['source'].data) new_source = ColumnDataSource(source_data) for _, plot in group: renderer = plot.handles.get('glyph_renderer') for callback in plot.callbacks: callback.reset() if renderer is None: continue elif 'data_source' in renderer.properties(): renderer.update(data_source=new_source) else: renderer.update(source=new_source) plot.handles['source'] = plot.handles['cds'] = new_source plots.append(plot) shared_sources.append(new_source) source_cols[id(new_source)] = [c for c in new_source.data] for plot in plots: for hook in plot.hooks: hook(plot, plot.current_frame) for callback in plot.callbacks: callback.initialize(plot_id=self.id) self.handles['shared_sources'] = shared_sources self.handles['source_cols'] = source_cols
def init_links(self): links = LinkCallback.find_links(self) callbacks = [] for link, src_plot, tgt_plot in links: cb = Link._callbacks['bokeh'][type(link)] if src_plot is None or (link._requires_target and tgt_plot is None): continue # The link callback (`cb`) is instantiated (with side-effects). callbacks.append(cb(self.root, link, src_plot, tgt_plot)) return callbacks
[docs]class CompositePlot(BokehPlot): """ CompositePlot is an abstract baseclass for plot types that draw render multiple axes. It implements methods to add an overall title to such a plot. """ sizing_mode = param.ObjectSelector(default=None, objects=[ 'fixed', 'stretch_width', 'stretch_height', 'stretch_both', 'scale_width', 'scale_height', 'scale_both', None], doc=""" How the component should size itself. * "fixed" : Component is not responsive. It will retain its original width and height regardless of any subsequent browser window resize events. * "stretch_width" Component will responsively resize to stretch to the available width, without maintaining any aspect ratio. The height of the component depends on the type of the component and may be fixed or fit to component's contents. * "stretch_height" Component will responsively resize to stretch to the available height, without maintaining any aspect ratio. The width of the component depends on the type of the component and may be fixed or fit to component's contents. * "stretch_both" Component is completely responsive, independently in width and height, and will occupy all the available horizontal and vertical space, even if this changes the aspect ratio of the component. * "scale_width" Component will responsively resize to stretch to the available width, while maintaining the original or provided aspect ratio. * "scale_height" Component will responsively resize to stretch to the available height, while maintaining the original or provided aspect ratio. * "scale_both" Component will responsively resize to both the available width and height, while maintaining the original or provided aspect ratio. """) fontsize = param.Parameter(default={'title': '15pt'}, allow_None=True, doc=""" Specifies various fontsizes of the displayed text. Finer control is available by supplying a dictionary where any unmentioned keys reverts to the default sizes, e.g: {'title': '15pt'}""") def _link_dimensioned_streams(self): """ Should perform any linking required to update titles when dimensioned streams change. """ streams = [s for s in self.streams if any(k in self.dimensions for k in s.contents)] for s in streams: s.add_subscriber(self._stream_update, 1) def _stream_update(self, **kwargs): contents = [k for s in self.streams for k in s.contents] key = tuple(None if d in contents else k for d, k in zip(self.dimensions, self.current_key)) key = wrap_tuple_streams(key, self.dimensions, self.streams) self._get_title_div(key) @property def current_handles(self): """ Should return a list of plot objects that have changed and should be updated. """ return [self.handles['title']] if 'title' in self.handles else []
[docs]class GridPlot(CompositePlot, GenericCompositePlot): """ Plot a group of elements in a grid layout based on a GridSpace element object. """ axis_offset = param.Integer(default=50, doc=""" Number of pixels to adjust row and column widths and height by to compensate for shared axes.""") fontsize = param.Parameter(default={'title': '16pt'}, allow_None=True, doc=""" Specifies various fontsizes of the displayed text. Finer control is available by supplying a dictionary where any unmentioned keys reverts to the default sizes, e.g: {'title': '15pt'}""") merge_tools = param.Boolean(default=True, doc=""" Whether to merge all the tools into a single toolbar""") shared_xaxis = param.Boolean(default=False, doc=""" If enabled the x-axes of the GridSpace will be drawn from the objects inside the Grid rather than the GridSpace dimensions.""") shared_yaxis = param.Boolean(default=False, doc=""" If enabled the x-axes of the GridSpace will be drawn from the objects inside the Grid rather than the GridSpace dimensions.""") show_legend = param.Boolean(default=False, doc=""" Adds a legend based on the entries of the middle-right plot""") xaxis = param.ObjectSelector(default=True, objects=['bottom', 'top', None, True, False], doc=""" Whether and where to display the xaxis, supported options are 'bottom', 'top' and None.""") yaxis = param.ObjectSelector(default=True, objects=['left', 'right', None, True, False], doc=""" Whether and where to display the yaxis, supported options are 'left', 'right' and None.""") xrotation = param.Integer(default=0, bounds=(0, 360), doc=""" Rotation angle of the xticks.""") yrotation = param.Integer(default=0, bounds=(0, 360), doc=""" Rotation angle of the yticks.""") plot_size = param.ClassSelector(default=120, class_=(int, tuple), doc=""" Defines the width and height of each plot in the grid, either as a tuple specifying width and height or an integer for a square plot.""") sync_legends = param.Boolean(default=True, doc=""" Whether to sync the legend when muted/unmuted based on the name""") def __init__(self, layout, ranges=None, layout_num=1, keys=None, **params): if not isinstance(layout, GridSpace): raise Exception("GridPlot only accepts GridSpace.") super().__init__(layout=layout, layout_num=layout_num, ranges=ranges, keys=keys, **params) self.cols, self.rows = layout.shape self.subplots, self.layout = self._create_subplots(layout, ranges) if self.top_level: self.traverse(lambda x: attach_streams(self, x.hmap, 2), [GenericElementPlot]) if 'axis_offset' in params: self.param.warning("GridPlot axis_offset option is deprecated " "since 1.12.0 since subplots are now sized " "correctly and therefore no longer require " "an offset.") def _create_subplots(self, layout, ranges): if isinstance(self.plot_size, tuple): width, height = self.plot_size else: width, height = self.plot_size, self.plot_size subplots = {} frame_ranges = self.compute_ranges(layout, None, ranges) keys = self.keys[:1] if self.dynamic else self.keys frame_ranges = dict([(key, self.compute_ranges(layout, key, frame_ranges)) for key in keys]) collapsed_layout = layout.clone(shared_data=False, id=layout.id) for i, coord in enumerate(layout.keys(full_grid=True)): r = i % self.rows c = i // self.rows if not isinstance(coord, tuple): coord = (coord,) view = layout.data.get(coord, None) # Create subplot if view is not None: vtype = view.type if isinstance(view, HoloMap) else view.__class__ opts = self.lookup_options(view, 'plot').options else: vtype = None if type(view) in (Layout, NdLayout): raise SkipRendering("Cannot plot nested Layouts.") if not displayable(view): view = collate(view) # Create axes kwargs = {} if width is not None: kwargs['frame_width'] = width if height is not None: kwargs['frame_height'] = height if c == 0: kwargs['align'] = 'end' if c == 0 and r != 0: kwargs['xaxis'] = None if c != 0 and r == 0: kwargs['yaxis'] = None if r != 0 and c != 0: kwargs['xaxis'] = None kwargs['yaxis'] = None if 'border' not in kwargs: kwargs['border'] = 3 if self.show_legend and c == (self.cols-1) and r == (self.rows-1): kwargs['show_legend'] = True kwargs['legend_position'] = 'right' else: kwargs['show_legend'] = False if not self.shared_xaxis: kwargs['xaxis'] = None if not self.shared_yaxis: kwargs['yaxis'] = None # Create subplot plotting_class = Store.registry[self.renderer.backend].get(vtype, None) if plotting_class is None: if view is not None: self.param.warning( "Bokeh plotting class for %s type not found, " "object will not be rendered." % vtype.__name__) else: subplot = plotting_class(view, dimensions=self.dimensions, show_title=False, subplot=True, renderer=self.renderer, root=self.root, ranges=frame_ranges, uniform=self.uniform, keys=self.keys, **dict(opts, **kwargs)) collapsed_layout[coord] = (subplot.layout if isinstance(subplot, GenericCompositePlot) else subplot.hmap) subplots[coord] = subplot return subplots, collapsed_layout
[docs] def initialize_plot(self, ranges=None, plots=None): if plots is None: plots = [] ranges = self.compute_ranges(self.layout, self.keys[-1], None) passed_plots = list(plots) plots = [[None for c in range(self.cols)] for r in range(self.rows)] for i, coord in enumerate(self.layout.keys(full_grid=True)): r = i % self.rows c = i // self.rows subplot = self.subplots.get(wrap_tuple(coord), None) if subplot is not None: plot = subplot.initialize_plot(ranges=ranges, plots=passed_plots) plots[r][c] = plot passed_plots.append(plot) else: passed_plots.append(None) plot = gridplot(plots[::-1], merge_tools=False, sizing_mode=self.sizing_mode, toolbar_location=self.toolbar) if self.sync_legends: sync_legends(plot) plot = self._make_axes(plot) if hasattr(plot, "toolbar") and self.merge_tools: plot.toolbar = merge_tools(plots) title = self._get_title_div(self.keys[-1]) if title: plot = Column(title, plot) self.handles['title'] = title self.handles['plot'] = plot self.handles['plots'] = plots if self.shared_datasource: self.sync_sources() if self.top_level: self.init_links() self.drawn = True return self.handles['plot']
def _make_axes(self, plot): width, height = self.renderer.get_size(plot) x_axis, y_axis = None, None keys = self.layout.keys(full_grid=True) if self.xaxis: flip = self.shared_xaxis rotation = self.xrotation lsize = self._fontsize('xlabel').get('fontsize') tsize = self._fontsize('xticks', common=False).get('fontsize') xfactors = list(unique_iterator([wrap_tuple(k)[0] for k in keys])) x_axis = make_axis('x', width, xfactors, self.layout.kdims[0], flip=flip, rotation=rotation, label_size=lsize, tick_size=tsize) if self.yaxis and self.layout.ndims > 1: flip = self.shared_yaxis rotation = self.yrotation lsize = self._fontsize('ylabel').get('fontsize') tsize = self._fontsize('yticks', common=False).get('fontsize') yfactors = list(unique_iterator([k[1] for k in keys])) y_axis = make_axis('y', height, yfactors, self.layout.kdims[1], flip=flip, rotation=rotation, label_size=lsize, tick_size=tsize) if x_axis and y_axis: plot = filter_toolboxes(plot) r1, r2 = ([y_axis, plot], [None, x_axis]) if self.shared_xaxis: r1, r2 = r2, r1 if self.shared_yaxis: x_axis.margin = (0, 0, 0, 50) r1, r2 = r1[::-1], r2[::-1] plot = gridplot([r1, r2], merge_tools=False) if self.merge_tools: plot.toolbar = merge_tools([r1, r2]) elif y_axis: models = [y_axis, plot] if self.shared_yaxis: models = models[::-1] plot = Row(*models) elif x_axis: models = [plot, x_axis] if self.shared_xaxis: models = models[::-1] plot = Column(*models) return plot @update_shared_sources def update_frame(self, key, ranges=None): """ Update the internal state of the Plot to represent the given key tuple (where integers represent frames). Returns this state. """ ranges = self.compute_ranges(self.layout, key, ranges) for coord in self.layout.keys(full_grid=True): subplot = self.subplots.get(wrap_tuple(coord), None) if subplot is not None: subplot.update_frame(key, ranges) title = self._get_title_div(key) if title: self.handles['title']
[docs]class LayoutPlot(CompositePlot, GenericLayoutPlot): shared_axes = param.Boolean(default=True, doc=""" Whether axes should be shared across plots""") shared_datasource = param.Boolean(default=False, doc=""" Whether Elements drawing the data from the same object should share their Bokeh data source allowing for linked brushing and other linked behaviors.""") merge_tools = param.Boolean(default=True, doc=""" Whether to merge all the tools into a single toolbar""") sync_legends = param.Boolean(default=True, doc=""" Whether to sync the legend when muted/unmuted based on the name""") show_legends = param.ClassSelector(default=None, class_=(list, int, bool), doc=""" Whether to show the legend for a particular subplot by index. If True all legends will be shown. If False no legends will be shown.""") legend_position = param.ObjectSelector(objects=["top_right", "top_left", "bottom_left", "bottom_right", 'right', 'left', 'top', 'bottom'], default="top_right", doc=""" Allows selecting between a number of predefined legend position options. Will only be applied if show_legend is not None.""") tabs = param.Boolean(default=False, doc=""" Whether to display overlaid plots in separate panes""") def __init__(self, layout, keys=None, **params): super().__init__(layout, keys=keys, **params) self.layout, self.subplots, self.paths = self._init_layout(layout) if self.top_level: self.traverse(lambda x: attach_streams(self, x.hmap, 2), [GenericElementPlot]) @param.depends('show_legends', 'legend_position', watch=True, on_init=True) def _update_show_legend(self): if self.show_legends is not None: select_legends(self.layout, self.show_legends, self.legend_position) def _init_layout(self, layout): # Situate all the Layouts in the grid and compute the gridspec # indices for all the axes required by each LayoutPlot. layout_count = 0 collapsed_layout = layout.clone(shared_data=False, id=layout.id) frame_ranges = self.compute_ranges(layout, None, None) keys = self.keys[:1] if self.dynamic else self.keys frame_ranges = dict([(key, self.compute_ranges(layout, key, frame_ranges)) for key in keys]) layout_items = layout.grid_items() layout_dimensions = layout.kdims if isinstance(layout, NdLayout) else None layout_subplots, layouts, paths = {}, {}, {} for r, c in self.coords: # Get view at layout position and wrap in AdjointLayout key, view = layout_items.get((c, r) if self.transpose else (r, c), (None, None)) view = view if isinstance(view, AdjointLayout) else AdjointLayout([view]) layouts[(r, c)] = view paths[r, c] = key # Compute the layout type from shape layout_lens = {1:'Single', 2:'Dual', 3: 'Triple'} layout_type = layout_lens.get(len(view), 'Single') # Get the AdjoinLayout at the specified coordinate positions = AdjointLayoutPlot.layout_dict[layout_type]['positions'] # Create temporary subplots to get projections types # to create the correct subaxes for all plots in the layout layout_key, _ = layout_items.get((r, c), (None, None)) if isinstance(layout, NdLayout) and layout_key: layout_dimensions = dict(zip(layout_dimensions, layout_key)) # Generate the axes and create the subplots with the appropriate # axis objects, handling any Empty objects. empty = isinstance(view.main, Empty) if empty or view.main is None: continue elif not view.traverse(lambda x: x, [Element]): self.param.warning(f'{view.main} is empty, skipping subplot.') continue else: layout_count += 1 num = 0 if empty else layout_count subplots, adjoint_layout = self._create_subplots( view, positions, layout_dimensions, frame_ranges, num=num ) # Generate the AdjointLayoutsPlot which will coordinate # plotting of AdjointLayouts in the larger grid plotopts = self.lookup_options(view, 'plot').options layout_plot = AdjointLayoutPlot(adjoint_layout, layout_type, subplots, **plotopts) layout_subplots[(r, c)] = layout_plot if layout_key: collapsed_layout[layout_key] = adjoint_layout return collapsed_layout, layout_subplots, paths def _create_subplots(self, layout, positions, layout_dimensions, ranges, num=0): """ Plot all the views contained in the AdjointLayout Object using axes appropriate to the layout configuration. All the axes are supplied by LayoutPlot - the purpose of the call is to invoke subplots with correct options and styles and hide any empty axes as necessary. """ subplots = {} adjoint_clone = layout.clone(shared_data=False, id=layout.id) main_plot = None for pos in positions: # Pos will be one of 'main', 'top' or 'right' or None element = layout.get(pos, None) if element is None or not element.traverse(lambda x: x, [Element, Empty]): continue if not displayable(element): element = collate(element) subplot_opts = dict(adjoined=main_plot) # Options common for any subplot vtype = element.type if isinstance(element, HoloMap) else element.__class__ plot_type = Store.registry[self.renderer.backend].get(vtype, None) plotopts = self.lookup_options(element, 'plot').options side_opts = {} if pos != 'main': plot_type = AdjointLayoutPlot.registry.get(vtype, plot_type) if pos == 'right': yaxis = 'right-bare' if plot_type and 'bare' in plot_type.yaxis else 'right' width = plot_type.width if plot_type else 0 side_opts = dict(height=main_plot.height, yaxis=yaxis, width=width, invert_axes=True, labelled=['y'], xticks=1, xaxis=main_plot.xaxis) else: xaxis = 'top-bare' if plot_type and 'bare' in plot_type.xaxis else 'top' height = plot_type.height if plot_type else 0 side_opts = dict(width=main_plot.width, xaxis=xaxis, height=height, labelled=['x'], yticks=1, yaxis=main_plot.yaxis) # Override the plotopts as required # Customize plotopts depending on position. plotopts = dict(side_opts, **plotopts) plotopts.update(subplot_opts) if vtype is Empty: adjoint_clone[pos] = element subplots[pos] = None continue elif plot_type is None: self.param.warning( "Bokeh plotting class for %s type not found, object " " will not be rendered." % vtype.__name__) continue num = num if len(self.coords) > 1 else 0 subplot = plot_type(element, keys=self.keys, dimensions=self.dimensions, layout_dimensions=layout_dimensions, ranges=ranges, subplot=True, root=self.root, uniform=self.uniform, layout_num=num, renderer=self.renderer, **dict({'shared_axes': self.shared_axes}, **plotopts)) subplots[pos] = subplot if isinstance(plot_type, type) and issubclass(plot_type, GenericCompositePlot): adjoint_clone[pos] = subplots[pos].layout else: adjoint_clone[pos] = subplots[pos].hmap if pos == 'main': main_plot = subplot return subplots, adjoint_clone def _compute_grid(self): """ Computes an empty grid to position the plots on by expanding any AdjointLayouts into multiple rows and columns. """ widths = [] for c in range(self.cols): c_widths = [] for r in range(self.rows): subplot = self.subplots.get((r, c), None) nsubplots = 1 if subplot is None else len(subplot.layout) c_widths.append(2 if nsubplots > 1 else 1) widths.append(max(c_widths)) heights = [] for r in range(self.rows): r_heights = [] for c in range(self.cols): subplot = self.subplots.get((r, c), None) nsubplots = 1 if subplot is None else len(subplot.layout) r_heights.append(2 if nsubplots > 2 else 1) heights.append(max(r_heights)) # Generate empty grid rows = sum(heights) cols = sum(widths) grid = [[None]*cols for _ in range(rows)] return grid
[docs] def initialize_plot(self, plots=None, ranges=None): ranges = self.compute_ranges(self.layout, self.keys[-1], None) opts = self.layout.opts.get('plot', self.backend) opts = {} if opts is None else opts.kwargs plot_grid = self._compute_grid() passed_plots = [] if plots is None else plots r_offset = 0 col_offsets = defaultdict(int) tab_plots = [] stretch_width = False stretch_height = False for r in range(self.rows): # Compute row offset row = [(k, sp) for k, sp in self.subplots.items() if k[0] == r] row_padded = any(len(sp.layout) > 2 for k, sp in row) if row_padded: r_offset += 1 for c in range(self.cols): subplot = self.subplots.get((r, c), None) # Compute column offset col = [(k, sp) for k, sp in self.subplots.items() if k[1] == c] col_padded = any(len(sp.layout) > 1 for k, sp in col) if col_padded: col_offsets[r] += 1 c_offset = col_offsets.get(r, 0) if subplot is None: continue shared_plots = list(passed_plots) if self.shared_axes else None subplots = subplot.initialize_plot(ranges=ranges, plots=shared_plots) nsubplots = len(subplots) modes = {sp.sizing_mode for sp in subplots if sp.sizing_mode not in (None, 'auto', 'fixed')} sizing_mode = self.sizing_mode if modes: responsive_width = any(s in m for m in modes for s in ('width', 'both')) responsive_height = any(s in m for m in modes for s in ('height', 'both')) stretch_width |= responsive_width stretch_height |= responsive_height if responsive_width and responsive_height: sizing_mode = 'stretch_both' elif responsive_width: sizing_mode = 'stretch_width' elif responsive_height: sizing_mode = 'stretch_height' # If tabs enabled lay out AdjointLayout on grid if self.tabs: title = subplot.subplots['main']._format_title(self.keys[-1], dimensions=False) if not title: title = ' '.join(self.paths[r,c]) if nsubplots == 1: grid = subplots[0] else: children = [subplots] if nsubplots == 2 else [[subplots[2], None], subplots[:2]] grid = gridplot(children, merge_tools=False, toolbar_location=self.toolbar, sizing_mode=sizing_mode) if self.merge_tools: grid.toolbar = merge_tools(children) tab_plots.append((title, grid)) continue # Situate plot in overall grid if nsubplots > 2: plot_grid[r+r_offset-1][c+c_offset-1] = subplots[2] plot_column = plot_grid[r+r_offset] if nsubplots > 1: plot_column[c+c_offset-1] = subplots[0] plot_column[c+c_offset] = subplots[1] else: plot_column[c+c_offset-int(col_padded)] = subplots[0] passed_plots.append(subplots[0]) if 'sizing_mode' in opts: sizing_mode = opts['sizing_mode'] elif stretch_width and stretch_height: sizing_mode = 'stretch_both' elif stretch_width: sizing_mode = 'stretch_width' elif stretch_height: sizing_mode = 'stretch_height' else: sizing_mode = None # Wrap in appropriate layout model if self.tabs: plots = filter_toolboxes([p for t, p in tab_plots]) panels = [TabPanel(child=child, title=t) for t, child in tab_plots] layout_plot = Tabs(tabs=panels, sizing_mode=sizing_mode) else: plot_grid = filter_toolboxes(plot_grid) layout_plot = gridplot( children=plot_grid, toolbar_location=self.toolbar, merge_tools=False, sizing_mode=sizing_mode ) if self.sync_legends: sync_legends(layout_plot) if self.merge_tools: layout_plot.toolbar = merge_tools(plot_grid) title = self._get_title_div(self.keys[-1]) if title: self.handles['title'] = title layout_plot = Column(title, layout_plot, sizing_mode=sizing_mode) self.handles['plot'] = layout_plot self.handles['plots'] = plots if self.shared_datasource: self.sync_sources() if self.top_level: self.init_links() self.drawn = True return self.handles['plot']
@update_shared_sources def update_frame(self, key, ranges=None): """ Update the internal state of the Plot to represent the given key tuple (where integers represent frames). Returns this state. """ ranges = self.compute_ranges(self.layout, key, ranges) for r, c in self.coords: subplot = self.subplots.get((r, c), None) if subplot is not None: subplot.update_frame(key, ranges) title = self._get_title_div(key) if title: self.handles['title'] = title
[docs]class AdjointLayoutPlot(BokehPlot, GenericAdjointLayoutPlot): registry = {} def __init__(self, layout, layout_type, subplots, **params): # The AdjointLayout ViewableElement object self.layout = layout # Type may be set to 'Embedded Dual' by a call it grid_situate self.layout_type = layout_type self.view_positions = self.layout_dict[self.layout_type]['positions'] # The supplied (axes, view) objects as indexed by position super().__init__(subplots=subplots, **params)
[docs] def initialize_plot(self, ranges=None, plots=None): """ Plot all the views contained in the AdjointLayout Object using axes appropriate to the layout configuration. All the axes are supplied by LayoutPlot - the purpose of the call is to invoke subplots with correct options and styles and hide any empty axes as necessary. """ if plots is None: plots = [] if plots is None: plots = [] adjoined_plots = [] for pos in self.view_positions: # Pos will be one of 'main', 'top' or 'right' or None subplot = self.subplots.get(pos, None) # If no view object or empty position, disable the axis if subplot is None: adjoined_plots.append(empty_plot(0, 0)) else: passed_plots = plots + adjoined_plots adjoined_plots.append(subplot.initialize_plot(ranges=ranges, plots=passed_plots)) self.drawn = True if not adjoined_plots: adjoined_plots = [None] return adjoined_plots
def update_frame(self, key, ranges=None): plot = None for pos in ['main', 'right', 'top']: subplot = self.subplots.get(pos) if subplot is not None: plot = subplot.update_frame(key, ranges) return plot