Source code for highcharts_core.options.plot_options.sunburst

from typing import Optional, List
from decimal import Decimal

from validator_collection import validators

from highcharts_core import constants, errors
from highcharts_core.decorators import class_sensitive, validate_types
from highcharts_core.options.plot_options.generic import GenericTypeOptions
from highcharts_core.options.plot_options.levels import SunburstLevelOptions, LevelSize
from highcharts_core.utility_classes.gradients import Gradient
from highcharts_core.utility_classes.patterns import Pattern
from highcharts_core.utility_classes.breadcrumbs import BreadcrumbOptions
from highcharts_core.utility_classes.shadows import ShadowOptions


[docs]class SunburstOptions(GenericTypeOptions): """General options to apply to all Sunburst series types. A Sunburst displays hierarchical data, where a level in the hierarchy is represented by a circle. The center represents the root node of the tree. The visualization bears a resemblance to both treemap and pie charts. .. figure:: ../../../_static/sunburst-example.png :alt: Sunburst Example Chart :align: center """ def __init__(self, **kwargs): self._color_index = None self._crisp = None self._shadow = None self._allow_traversing_tree = None self._border_color = None self._border_width = None self._breadcrumbs = None self._center = None self._color_by_point = None self._fill_color = None self._level_is_constant = None self._levels = None self._level_size = None self._root_id = None self._size = None self._sliced_offset = None self._start_angle = None self.color_index = kwargs.get('color_index', None) self.crisp = kwargs.get('crisp', None) self.shadow = kwargs.get('shadow', None) self.allow_traversing_tree = kwargs.get('allow_traversing_tree', None) self.border_color = kwargs.get('border_color', None) self.border_width = kwargs.get('border_width', None) self.breadcrumbs = kwargs.get('breadcrumbs', None) self.center = kwargs.get('center', None) self.color_by_point = kwargs.get('color_by_point', None) self.fill_color = kwargs.get('fill_color', None) self.level_is_constant = kwargs.get('level_is_constant', None) self.levels = kwargs.get('levels', None) self.level_size = kwargs.get('level_size', None) self.root_id = kwargs.get('root_id', None) self.size = kwargs.get('size', None) self.sliced_offset = kwargs.get('sliced_offset', None) self.start_angle = kwargs.get('start_angle', None) super().__init__(**kwargs) @property def allow_traversing_tree(self) -> Optional[bool]: """If ``True``, the user can click on a point which is a parent and zoom in on its children. Defaults to ``False``. :rtype: :class:`bool <python:bool>` or :obj:`None <python:None>` """ return self._allow_traversing_tree @allow_traversing_tree.setter def allow_traversing_tree(self, value): if value is None: self._allow_traversing_tree = None else: self._allow_traversing_tree = bool(value) @property def border_color(self) -> Optional[str | Gradient | Pattern]: """The color of the border surrounding each slice. When :obj:`None <python:None>`, the border takes the same color as the slice fill. This can be used together with a :meth:`border_width <PieOptions.border_width>` to fill drawing gaps created by antialiazing artefacts in borderless pies. Defaults to ``'#ffffff'``. :rtype: :class:`str <python:str>` or :obj:`None <python:None>` """ return self._border_color @border_color.setter def border_color(self, value): from highcharts_core import utility_functions self._border_color = utility_functions.validate_color(value) @property def border_width(self) -> Optional[int | float | Decimal]: """The width of the border surrounding each slice. Defaults to ``1``. When setting the border width to ``0``, there may be small gaps between the slices due to SVG antialiasing artefacts. To work around this, keep the border width at ``0.5`` or ``1``, but set the :meth:`border_color <PieOptions.border_color>` to :obj:`None <python:None>` instead. :rtype: numeric or :obj:`None <python:None>` """ return self._border_width @border_width.setter def border_width(self, value): self._border_width = validators.numeric(value, allow_empty = True, minimum = 0) @property def breadcrumbs(self) -> Optional[BreadcrumbOptions]: """Options for the breadcrumbs, the navigation at the top leading the way up through the traversed levels. Defaults to :obj:`None <python:None>`. """ return self._breadcrumbs @breadcrumbs.setter @class_sensitive(BreadcrumbOptions) def breadcrumbs(self, value): self._breadcrumbs = value @property def center(self) -> Optional[List[str | int | float | Decimal | constants.EnforcedNullType]]: """The center of the sunburst chart relative to the plot area. Can be percentages or pixel values. The default behaviour if :obj:`None <python:None>` is to center the pie so that all slices and data labels are within the plot area. As a consequence, the pie may actually jump around in a chart with dynamic values, as the data labels move. In that case, the center should be explicitly set, for example to ``["50%", "50%"]``. Defaults to ``['50%', '50%']``. :rtype: :obj:`None <python:None>` or :class:`list <python:list>` of numeric or :class:`str <python:str>` values """ return self._center @center.setter def center(self, value): if not value: self._center = None else: value = validators.iterable(value) if len(value) != 2: raise errors.HighchartsValueError(f'center expects a 2-member array. ' f'Received a {len(value)}-member ' f'array.') processed_values = [] for item in value: try: item = validators.string(item) if '%' not in item: raise errors.HighchartsValueError('center expects either numbers ' 'or percentage strings. No "%" ' 'character found in string ' 'received.') except TypeError: item = validators.numeric(item) processed_values.append(item) self._center = processed_values @property def color_by_point(self) -> Optional[bool]: """When using automatic point colors pulled from the global colors or series-specific collections, this option determines whether the chart should receive one color per series (``False``) or one color per point (``True``). Defaults to ``True``. :rtype: :class:`bool <python:bool>` or :obj:`None <python:None>` """ return self._color_by_point @color_by_point.setter def color_by_point(self, value): if value is None: self._color_by_point = None else: self._color_by_point = bool(value) @property def color_index(self) -> Optional[int]: """When operating in :term:`styled mode`, a specific color index to use for the series, so that its graphic representations are given the class name ``highcharts-color-{n}``. Defaults to :obj:`None <python:None>`. :rtype: :class:`int <python:int>` or :obj:`None <python:None>` """ return self._color_index @color_index.setter def color_index(self, value): self._color_index = validators.integer(value, allow_empty = True, minimum = 0) @property def crisp(self) -> Optional[bool]: """If ``True``, each point or column edge is rounded to its nearest pixel in order to render sharp on screen. Defaults to ``True``. .. hint:: In some cases, when there are a lot of densely packed columns, this leads to visible difference in column widths or distance between columns. In these cases, setting ``crisp`` to ``False`` may look better, even though each column is rendered blurry. :rtype: :class:`bool <python:bool>` or :obj:`None <python:None>` """ return self._crisp @crisp.setter def crisp(self, value): if value is None: self._crisp = None else: self._crisp = bool(value) @property def fill_color(self) -> Optional[str | Gradient | Pattern]: """If the total sum of the pie's values is ``0``, the series is represented as an empty circle . The ``fill_color`` setting defines the color of that circle. Use :meth:`PieOptions.border_width` to set the border thickness. Defaults to :obj:`None <python:None>`. :rtype: :obj:`None <python:None>`, :class:`Gradient`, or :class:`Pattern` """ return self._fill_color @fill_color.setter def fill_color(self, value): from highcharts_core import utility_functions self._fill_color = utility_functions.validate_color(value) @property def level_is_constant(self) -> Optional[bool]: """If ``True``, the level will be the same as the tree structure. If ``False``, the first level visible when drilling is considered to be level one. Defaults to ``True``. :rtype: :class:`bool <python:bool>` or :obj:`None <python:None>` """ return self._level_is_constant @level_is_constant.setter def level_is_constant(self, value): if value is None: self._level_is_constant = None else: self._level_is_constant = bool(value) @property def levels(self) -> Optional[List[SunburstLevelOptions]]: """Set options on specific levels. Takes precedence over series options, but not node and link options. :rtype: :obj:`None <python:None>`, or :class:`list <python:list>` of :class:`SunburstLevelOptions` """ return self._levels @levels.setter @class_sensitive(SunburstLevelOptions, force_iterable = True) def levels(self, value): self._levels = value @property def level_size(self) -> Optional[LevelSize]: """Determines the width of the ring per level. :rtype: :class:`LevelSize` or :obj:`None <python:None>` """ return self._level_size @level_size.setter @class_sensitive(LevelSize) def level_size(self, value): self._level_size = value @property def root_id(self) -> Optional[str]: """Indicates which point to use as a root in the visualization. Defaults to :obj:`None <python:None>`. :rtype: :class:`str <python:str>` or :obj:`None <python:None>` """ return self._root_id @root_id.setter def root_id(self, value): self._root_id = validators.string(value, allow_empty = True) @property def shadow(self) -> Optional[bool | ShadowOptions]: """Configuration for the shadow to apply to the tooltip. Defaults to ``False``. If ``False``, no shadow is applied. :returns: The shadow configuration to apply or a boolean setting which hides the shadow or displays the default shadow. :rtype: :class:`bool <python:bool>` or :class:`ShadowOptions` """ return self._shadow @shadow.setter def shadow(self, value): if isinstance(value, bool): self._shadow = value elif not value: self._shadow = None else: value = validate_types(value, types = ShadowOptions) self._shadow = value @property def size(self) -> Optional[str | int]: """The diameter of the pie relative to the plot area, expressed as a percentage or pixel value given as an integer. If :obj:`None <python:None>`, scales the pie to the plot area and gives room for data labels within the plot area. .. note:: :meth:`PieOptions.sliced_offset` is also included in the default size calculation. As a consequence, the size of the pie may vary when points are updated and data labels more around. In that case it is best to set a fixed value, for example ``"75%"``. :rtype: :class:`str <python:str>`, :class:`int <python:int>`, or :obj:`None <python:None>` """ return self._size @size.setter def size(self, value): if value is None: self._size = None else: try: value = validators.string(value) if '%' not in value: raise errors.HighchartsValueError(f'size expects either a number or ' f'a % string. Received: {value}') except TypeError: value = validators.integer(value, minimum = 0) self._size = value @property def sliced_offset(self) -> Optional[int | float | Decimal]: """If a point is sliced, moved out from the center, how many pixels should it be moved? Defaults to ``10``. :rtype: numeric or :obj:`None <python:None>` """ return self._sliced_offset @sliced_offset.setter def sliced_offset(self, value): self._sliced_offset = validators.numeric(value, allow_empty = True) @property def start_angle(self) -> Optional[int | float | Decimal]: """The start angle of the dependency wheel, in degrees where ``0`` is up. Defaults to ``0``. :rtype: numeric or :obj:`None <python:None>` """ return self._start_angle @start_angle.setter def start_angle(self, value): self._start_angle = validators.numeric(value, allow_empty = True, minimum = 0, maximum = 360) @classmethod def _get_kwargs_from_dict(cls, as_dict): kwargs = { 'accessibility': as_dict.get('accessibility', None), 'allow_point_select': as_dict.get('allowPointSelect', None), 'animation': as_dict.get('animation', None), 'class_name': as_dict.get('className', None), 'clip': as_dict.get('clip', None), 'color': as_dict.get('color', None), 'cursor': as_dict.get('cursor', None), 'custom': as_dict.get('custom', None), 'dash_style': as_dict.get('dashStyle', None), 'data_labels': as_dict.get('dataLabels', None), 'description': as_dict.get('description', None), 'enable_mouse_tracking': as_dict.get('enableMouseTracking', None), 'events': as_dict.get('events', None), 'include_in_data_export': as_dict.get('includeInDataExport', None), 'keys': as_dict.get('keys', None), 'label': as_dict.get('label', None), 'linked_to': as_dict.get('linkedTo', None), 'marker': as_dict.get('marker', None), 'on_point': as_dict.get('onPoint', None), 'opacity': as_dict.get('opacity', None), 'point': as_dict.get('point', None), 'point_description_formatter': as_dict.get('pointDescriptionFormatter', None), 'selected': as_dict.get('selected', None), 'show_checkbox': as_dict.get('showCheckbox', None), 'show_in_legend': as_dict.get('showInLegend', None), 'skip_keyboard_navigation': as_dict.get('skipKeyboardNavigation', None), 'states': as_dict.get('states', None), 'sticky_tracking': as_dict.get('stickyTracking', None), 'threshold': as_dict.get('threshold', None), 'tooltip': as_dict.get('tooltip', None), 'turbo_threshold': as_dict.get('turboThreshold', None), 'visible': as_dict.get('visible', None), 'allow_traversing_tree': as_dict.get('allowTraversingTree', None), 'border_color': as_dict.get('borderColor', None), 'border_width': as_dict.get('borderWidth', None), 'breadcrumbs': as_dict.get('breadcrumbs', None), 'center': as_dict.get('center', None), 'color_by_point': as_dict.get('colorByPoint', None), 'color_index': as_dict.get('colorIndex', None), 'crisp': as_dict.get('crisp', None), 'fill_color': as_dict.get('fillColor', None), 'level_is_constant': as_dict.get('levelIsConstant', None), 'levels': as_dict.get('levels', None), 'level_size': as_dict.get('levelSize', None), 'root_id': as_dict.get('rootId', None), 'shadow': as_dict.get('shadow', None), 'size': as_dict.get('size', None), 'sliced_offset': as_dict.get('slicedOffset', None), 'start_angle': as_dict.get('startAngle', None) } return kwargs def _to_untrimmed_dict(self, in_cls = None) -> dict: untrimmed = { 'allowTraversingTree': self.allow_traversing_tree, 'borderColor': self.border_color, 'borderWidth': self.border_width, 'breadcrumbs': self.breadcrumbs, 'center': self.center, 'colorByPoint': self.color_by_point, 'colorIndex': self.color_index, 'crisp': self.crisp, 'fillColor': self.fill_color, 'levelIsConstant': self.level_is_constant, 'levels': self.levels, 'levelSize': self.level_size, 'rootId': self.root_id, 'shadow': self.shadow, 'size': self.size, 'slicedOffset': self.sliced_offset, 'startAngle': self.start_angle } parent_as_dict = super()._to_untrimmed_dict(in_cls = in_cls) for key in parent_as_dict: untrimmed[key] = parent_as_dict[key] return untrimmed