[−][src]Struct vega_lite_4::NormalizedSpecSpec
A specification of the view that gets repeated.
Any specification in Vega-Lite.
Unit spec that can have a composite mark and row or column channels (shorthand for a facet spec).
A full layered plot specification, which may contains encoding
and projection
properties that will be applied to underlying unit (single-view) specifications.
Base interface for a repeat specification.
Base interface for a facet specification.
Base interface for a generalized concatenation specification.
Base interface for a vertical concatenation specification.
Base interface for a horizontal concatenation specification.
A unit specification, which can contain either primitive marks or composite marks.
A specification of the view that gets faceted.
Fields
align: Option<VegaliteAlign>
The alignment to apply to grid rows and columns. The supported string values are "all"
,
"each"
, and "none"
.
- For
"none"
, a flow layout will be used, in which adjacent subviews are simply placed one after the other. - For"each"
, subviews will be aligned into a clean grid structure, but each row or column may be of variable size. - For"all"
, subviews will be aligned and each row or column will be sized identically based on the maximum observed size. String values for this property will be applied to both grid rows and columns.
Alternatively, an object value of the form {"row": string, "column": string}
can be
used to supply different alignments for rows and columns.
Default value: "all"
.
bounds: Option<Bounds>
The bounds calculation method to use for determining the extent of a sub-plot. One of
full
(the default) or flush
.
- If set to
full
, the entire calculated bounds (including axes, title, and legend) will be used. - If set toflush
, only the specified width and height values for the sub-view will be used. Theflush
setting can be useful when attempting to place sub-plots without axes or legends into a uniform grid structure.
Default value: "full"
center: Option<Center>
Boolean flag indicating if subviews should be centered relative to their respective rows or columns.
An object value of the form {"row": boolean, "column": boolean}
can be used to supply
different centering values for rows and columns.
Default value: false
Boolean flag indicating if subviews should be centered relative to their respective rows or columns.
Default value: false
data: RemovableValue<UrlData>
An object describing the data source. Set to null
to ignore the parent's data source.
If no data is set, it is derived from the parent.
description: Option<String>
Description of this mark for commenting purpose.
encoding: Option<SpecEncoding>
A key-value mapping between encoding channels and definition of fields.
A shared key-value mapping between encoding channels and definition of fields in the underlying layers.
height: Option<HeightUnion>
The height of a visualization.
- For a plot with a continuous y-field, height should be a number. - For a plot with
either a discrete y-field or no y-field, height can be either a number indicating a fixed
height or an object in the form of
{step: number}
defining the height per discrete step. (No y-field is equivalent to having one discrete step.) - To enable responsive sizing on height, it should be set to"container"
.
Default value: Based on config.view.continuousHeight
for a plot with a continuous
y-field and config.view.discreteHeight
otherwise.
Note: For plots with row
and column
channels, this represents the
height of a single view and the "container"
option cannot be used.
See also: height
documentation.
Deprecated: Please avoid using width in a unit spec that's a part of a layer spec.
mark: Option<AnyMark>
A string describing the mark type (one of "bar"
, "circle"
, "square"
, "tick"
,
"line"
, "area"
, "point"
, "rule"
, "geoshape"
, and "text"
) or a mark
definition object.
name: Option<String>
Name of the visualization for later reference.
projection: Option<Projection>
An object defining properties of geographic projection, which will be applied to shape
path for "geoshape"
marks and to latitude
and "longitude"
channels for other
marks.
An object defining properties of the geographic projection shared by underlying layers.
resolve: Option<Resolve>
Scale, axis, and legend resolutions for view composition specifications.
selection: Option<HashMap<String, SelectionDef>>
A key-value mapping between selection names and definitions.
spacing: Option<Spacing>
The spacing in pixels between sub-views of the composition operator. An object of the
form {"row": number, "column": number}
can be used to set different spacing values for
rows and columns.
Default value: Depends on "spacing"
property of the view composition
configuration (20
by
default)
The spacing in pixels between sub-views of the concat operator.
Default value: 10
title: Option<TitleUnion>
Title for the plot.
transform: Option<Vec<Transform>>
An array of data transformations such as filter and new field calculation.
view: Option<ViewBackground>
An object defining the view background's fill and stroke.
Default value: none (transparent)
Deprecated: Please avoid using width in a unit spec that's a part of a layer spec.
width: Option<HeightUnion>
The width of a visualization.
- For a plot with a continuous x-field, width should be a number. - For a plot with
either a discrete x-field or no x-field, width can be either a number indicating a fixed
width or an object in the form of
{step: number}
defining the width per discrete step. (No x-field is equivalent to having one discrete step.) - To enable responsive sizing on width, it should be set to"container"
.
Default value: Based on config.view.continuousWidth
for a plot with a continuous
x-field and config.view.discreteWidth
otherwise.
Note: For plots with row
and column
channels, this represents the
width of a single view and the "container"
option cannot be used.
See also: width
documentation.
Deprecated: Please avoid using width in a unit spec that's a part of a layer spec.
layer: Option<Vec<LayerElement>>
Layer or single view specifications to be layered.
Note: Specifications inside layer
cannot use row
and column
channels as
layering facet specifications is not allowed. Instead, use the facet
operator and place a layer inside a
facet.
columns: Option<f64>
The number of columns to include in the view composition layout.
Default value: undefined
-- An infinite number of columns (a single row) will be
assumed. This is equivalent to hconcat
(for concat
) and to using the column
channel
(for facet
and repeat
).
Note:
-
This property is only for: - the general (wrappable)
concat
operator (nothconcat
/vconcat
) - thefacet
andrepeat
operator with one field/repetition definition (without row/column nesting) -
Setting the
columns
to1
is equivalent tovconcat
(forconcat
) and to using therow
channel (forfacet
andrepeat
).
repeat: Option<RepeatUnion>
Definition for fields to be repeated. One of: 1) An array of fields to be repeated. If
"repeat"
is an array, the field can be referred to as {"repeat": "repeat"}
. The
repeated views are laid out in a wrapped row. You can set the number of columns to
control the wrapping. 2) An object that maps "row"
and/or "column"
to the listed
fields to be repeated along the particular orientations. The objects {"repeat": "row"}
and {"repeat": "column"}
can be used to refer to the repeated field respectively.
spec: Option<Box<NormalizedSpecSpec>>
A specification of the view that gets repeated.
A specification of the view that gets faceted.
facet: Option<FacetFieldName>
Definition for how to facet the data. One of: 1) a field definition for faceting the
plot by one field 2) An
object that maps row
and column
channels to their field
definitions
concat: Option<Vec<Spec>>
A list of views to be concatenated.
vconcat: Option<Vec<Spec>>
A list of views to be concatenated and put into a column.
hconcat: Option<Vec<Spec>>
A list of views to be concatenated and put into a row.
Trait Implementations
impl Clone for NormalizedSpecSpec
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pub fn clone(&self) -> NormalizedSpecSpec
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pub fn clone_from(&mut self, source: &Self)
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impl Debug for NormalizedSpecSpec
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impl Default for NormalizedSpecSpec
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pub fn default() -> NormalizedSpecSpec
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impl<'de> Deserialize<'de> for NormalizedSpecSpec
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pub fn deserialize<__D>(__deserializer: __D) -> Result<Self, __D::Error> where
__D: Deserializer<'de>,
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__D: Deserializer<'de>,
impl Serialize for NormalizedSpecSpec
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Auto Trait Implementations
impl RefUnwindSafe for NormalizedSpecSpec
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impl Send for NormalizedSpecSpec
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impl Sync for NormalizedSpecSpec
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impl Unpin for NormalizedSpecSpec
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impl UnwindSafe for NormalizedSpecSpec
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Blanket Implementations
impl<T> Any for T where
T: 'static + ?Sized,
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T: 'static + ?Sized,
impl<T> Borrow<T> for T where
T: ?Sized,
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T: ?Sized,
impl<T> BorrowMut<T> for T where
T: ?Sized,
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T: ?Sized,
pub fn borrow_mut(&mut self) -> &mut T
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impl<T> DeserializeOwned for T where
T: for<'de> Deserialize<'de>,
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T: for<'de> Deserialize<'de>,
impl<T> From<T> for T
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impl<T, U> Into<U> for T where
U: From<T>,
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U: From<T>,
impl<T> ToOwned for T where
T: Clone,
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T: Clone,
type Owned = T
The resulting type after obtaining ownership.
pub fn to_owned(&self) -> T
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pub fn clone_into(&self, target: &mut T)
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impl<T, U> TryFrom<U> for T where
U: Into<T>,
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U: Into<T>,
type Error = Infallible
The type returned in the event of a conversion error.
pub fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>
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impl<T, U> TryInto<U> for T where
U: TryFrom<T>,
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U: TryFrom<T>,