Source code for ipecharts.option.grid

from ipywidgets import (
    Widget, DOMWidget, widget_serialization, register
)
from ipywidgets.widgets.trait_types import TypedTuple
from traitlets import (
    Unicode, Int, CInt, Instance, ForwardDeclaredInstance, This, Enum,
    Tuple, List, Dict, Float, CFloat, Bool, Union, Any,
)
from ..basewidget import BaseWidget


[docs] class Grid(BaseWidget): """ :warning: **Autogenerated class** Drawing grid in rectangular coordinate. In a single grid, at most two X and Y axes each is allowed. [Line chart](#series-line), [bar chart](#series-bar), and [scatter chart (bubble chart)](#series-scatter) can be drawn in grid. In ECharts 2.x, there could only be one single grid component at most in a single echarts instance. But in ECharts 3, there is no limitation. **Following is an example of Anscombe Quartet:** """ def __init__(self, **kwargs): super().__init__(**kwargs) _model_name = Unicode("GridModel").tag(sync=True) id = Unicode(None, allow_none=True, help="""Component ID, not specified by default. If specified, it can be used to refer the component in option or API.""").tag(sync=True) show = Bool(None, allow_none=True, help="""Whether to show the grid in rectangular coordinate.""").tag(sync=True) zlevel = Float(None, allow_none=True, help="""`zlevel` value of all graphical elements in . `zlevel` is used to make layers with Canvas. Graphical elements with different `zlevel` values will be placed in different Canvases, which is a common optimization technique. We can put those frequently changed elements (like those with animations) to a separate `zlevel`. Notice that too many Canvases will increase memory cost, and should be used carefully on mobile phones to avoid crash. Canvases with bigger `zlevel` will be placed on Canvases with smaller `zlevel`.""").tag(sync=True) z = Float(None, allow_none=True, help="""`z` value of all graphical elements in , which controls order of drawing graphical components. Components with smaller `z` values may be overwritten by those with larger `z` values. `z` has a lower priority to `zlevel`, and will not create new Canvas.""").tag(sync=True) left = Union([Unicode(default_value=None, allow_none=True),Float(default_value=None, allow_none=True),], default_value=None, allow_none=True, help="""Distance between grid component and the left side of the container. `left` can be a pixel value like `20`; it can also be a percentage value relative to container width like `'20%'`; and it can also be `'left'`, `'center'`, or `'right'`. If the `left` value is set to be `'left'`, `'center'`, or `'right'`, then the component will be aligned automatically based on position.""").tag(sync=True) top = Union([Unicode(default_value=None, allow_none=True),Float(default_value=None, allow_none=True),], default_value=None, allow_none=True, help="""Distance between grid component and the top side of the container. `top` can be a pixel value like `20`; it can also be a percentage value relative to container width like `'20%'`; and it can also be `'top'`, `'middle'`, or `'bottom'`. If the `top` value is set to be `'top'`, `'middle'`, or `'bottom'`, then the component will be aligned automatically based on position.""").tag(sync=True) right = Union([Unicode(default_value=None, allow_none=True),Float(default_value=None, allow_none=True),], default_value=None, allow_none=True, help="""Distance between grid component and the right side of the container. `right` can be a pixel value like `20`; it can also be a percentage value relative to container width like `'20%'`.""").tag(sync=True) bottom = Union([Unicode(default_value=None, allow_none=True),Float(default_value=None, allow_none=True),], default_value=None, allow_none=True, help="""Distance between grid component and the bottom side of the container. `bottom` can be a pixel value like `20`; it can also be a percentage value relative to container width like `'20%'`.""").tag(sync=True) width = Union([Unicode(default_value=None, allow_none=True),Float(default_value=None, allow_none=True),], default_value=None, allow_none=True, help="""Width of grid component. Adaptive by default.""").tag(sync=True) height = Union([Unicode(default_value=None, allow_none=True),Float(default_value=None, allow_none=True),], default_value=None, allow_none=True, help="""Height of grid component. Adaptive by default.""").tag(sync=True) containLabel = Bool(None, allow_none=True, help="""Whether the grid region contains [axis tick label](#yAxis.axisLabel) of axis. * When containLabel is `false`: + `grid.left` `grid.right` `grid.top` `grid.bottom` `grid.width` `grid.height` decide the location and size of the rectangle that is made of by xAxis and yAxis. + Setting to `false` will help when multiple grids need to be aligned at their axes. * When containLabel is `true`: + `grid.left` `grid.right` `grid.top` `grid.bottom` `grid.width` `grid.height` decide the location and size of the rectangle that contains the axes and the labels of the axes. + Setting to `true` will help when the length of axis labels is dynamic and is hard to approximate. This will avoid labels from overflowing the container or overlapping other components.""").tag(sync=True) backgroundColor = Any(None, allow_none=True, help="""Background color of grid, which is transparent by default. > Color can be represented in RGB, for example `'rgb(128, 128, 128)'`. RGBA can be used when you need alpha channel, for example `'rgba(128, 128, 128, 0.5)'`. You may also use hexadecimal format, for example `'#ccc'`. **Attention**: Works only if `show: true` is set.""").tag(sync=True) borderColor = Any(None, allow_none=True, help="""Border color of grid. Support the same color format as backgroundColor. **Attention**: Works only if `show: true` is set.""").tag(sync=True) borderWidth = Float(None, allow_none=True, help="""Border width of grid. **Attention**: Works only if `show: true` is set.""").tag(sync=True) shadowBlur = Float(None, allow_none=True, help="""Size of shadow blur. This attribute should be used along with `shadowColor`,`shadowOffsetX`, `shadowOffsetY` to set shadow to component. For example: ``` { shadowColor: 'rgba(0, 0, 0, 0.5)', shadowBlur: 10 } ``` **Attention**: This property works only if `show: true` is configured and `backgroundColor` is defined other than `transparent`.""").tag(sync=True) shadowColor = Any(None, allow_none=True, help="""Shadow color. Support same format as `color`. **Attention**: This property works only if `show: true` configured.""").tag(sync=True) shadowOffsetX = Float(None, allow_none=True, help="""Offset distance on the horizontal direction of shadow. **Attention**: This property works only if `show: true` configured.""").tag(sync=True) shadowOffsetY = Float(None, allow_none=True, help="""Offset distance on the vertical direction of shadow. **Attention**: This property works only if `show: true` configured.""").tag(sync=True) tooltip = Dict(default_value=None, allow_none=True, help="""tooltip settings in the coordinate system component. **General Introduction:** tooltip can be configured on different places: * Configured on global: [tooltip](#tooltip) * Configured in a coordinate system: [grid.tooltip](#grid.tooltip), [polar.tooltip](#polar.tooltip), [single.tooltip](#single.tooltip) * Configured in a series: [series.tooltip](#series.tooltip) * Configured in each item of `series.data`: [series.data.tooltip](#series.data.tooltip)""").tag(sync=True)