trait SvgTags[Builder, Output <: FragT, FragT] extends Util[Builder, Output, FragT]
Contains Tags which are only used for SVG. These are not imported by default to avoid namespace pollution.
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Type Members
-
abstract
type
ConcreteHtmlTag[T <: Output] <: TypedTag[Builder, T, FragT]
- Definition Classes
- Util
-
implicit
class
SeqNode[A] extends Modifier[Builder]
Allows you to modify a ConcreteHtmlTag by adding a Seq containing other nest-able objects to its list of children.
Allows you to modify a ConcreteHtmlTag by adding a Seq containing other nest-able objects to its list of children.
- Definition Classes
- Util
Abstract Value Members
-
implicit abstract
def
GeneratorFrag[A](xs: Generator[A])(implicit ev: (A) ⇒ Frag[Builder, FragT]): Frag[Builder, FragT]
Renders an Seq of FragT into a single FragT
Renders an Seq of FragT into a single FragT
- Definition Classes
- LowPriUtil
-
implicit abstract
def
SeqFrag[A](xs: Seq[A])(implicit ev: (A) ⇒ Frag[Builder, FragT]): Frag[Builder, FragT]
Renders an Seq of FragT into a single FragT
Renders an Seq of FragT into a single FragT
- Definition Classes
- LowPriUtil
-
implicit abstract
def
UnitFrag(u: Unit): Frag[Builder, FragT]
Lets you put Unit into a scalatags tree, as a no-op.
Lets you put Unit into a scalatags tree, as a no-op.
- Definition Classes
- LowPriUtil
-
abstract
val
altGlyph: TypedTag[Builder, Output, FragT]
The altGlyph element allows sophisticated selection of the glyphs used to render its child character data.
The altGlyph element allows sophisticated selection of the glyphs used to render its child character data.
MDN
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abstract
val
altGlyphDef: TypedTag[Builder, Output, FragT]
The altGlyphDef element defines a substitution representation for glyphs.
The altGlyphDef element defines a substitution representation for glyphs.
MDN
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abstract
val
altGlyphItem: TypedTag[Builder, Output, FragT]
The altGlyphItem element provides a set of candidates for glyph substitution by the altGlyph element.
The altGlyphItem element provides a set of candidates for glyph substitution by the altGlyph element.
MDN
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abstract
val
animate: TypedTag[Builder, Output, FragT]
The animate element is put inside a shape element and defines how an attribute of an element changes over the animation
The animate element is put inside a shape element and defines how an attribute of an element changes over the animation
MDN
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abstract
val
animateMotion: TypedTag[Builder, Output, FragT]
The animateMotion element causes a referenced element to move along a motion path.
The animateMotion element causes a referenced element to move along a motion path.
MDN
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abstract
val
animateTransform: TypedTag[Builder, Output, FragT]
The animateTransform element animates a transformation attribute on a target element, thereby allowing animations to control translation, scaling, rotation and/or skewing.
The animateTransform element animates a transformation attribute on a target element, thereby allowing animations to control translation, scaling, rotation and/or skewing.
MDN
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abstract
val
circle: TypedTag[Builder, Output, FragT]
The circle element is an SVG basic shape, used to create circles based on a center point and a radius.
The circle element is an SVG basic shape, used to create circles based on a center point and a radius.
MDN
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abstract
val
clipPath: TypedTag[Builder, Output, FragT]
The clipping path restricts the region to which paint can be applied.
The clipping path restricts the region to which paint can be applied. Conceptually, any parts of the drawing that lie outside of the region bounded by the currently active clipping path are not drawn.
MDN
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abstract
val
color-profile: TypedTag[Builder, Output, FragT]
The element allows describing the color profile used for the image.
The element allows describing the color profile used for the image.
MDN
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abstract
val
cursor: TypedTag[Builder, Output, FragT]
The cursor element can be used to define a platform-independent custom cursor.
The cursor element can be used to define a platform-independent custom cursor. A recommended approach for defining a platform-independent custom cursor is to create a PNG image and define a cursor element that references the PNG image and identifies the exact position within the image which is the pointer position (i.e., the hot spot).
MDN
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abstract
val
defs: TypedTag[Builder, Output, FragT]
SVG allows graphical objects to be defined for later reuse.
SVG allows graphical objects to be defined for later reuse. It is recommended that, wherever possible, referenced elements be defined inside of a defs element. Defining these elements inside of a defs element promotes understandability of the SVG content and thus promotes accessibility. Graphical elements defined in a defs will not be directly rendered. You can use a use element to render those elements wherever you want on the viewport.
MDN
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abstract
val
desc: TypedTag[Builder, Output, FragT]
Each container element or graphics element in an SVG drawing can supply a desc description string where the description is text-only.
Each container element or graphics element in an SVG drawing can supply a desc description string where the description is text-only. When the current SVG document fragment is rendered as SVG on visual media, desc elements are not rendered as part of the graphics. Alternate presentations are possible, both visual and aural, which display the desc element but do not display path elements or other graphics elements. The desc element generally improve accessibility of SVG documents
MDN
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abstract
val
ellipse: TypedTag[Builder, Output, FragT]
The ellipse element is an SVG basic shape, used to create ellipses based on a center coordinate, and both their x and y radius.
The ellipse element is an SVG basic shape, used to create ellipses based on a center coordinate, and both their x and y radius.
Ellipses are unable to specify the exact orientation of the ellipse (if, for example, you wanted to draw an ellipse titled at a 45 degree angle), but can be rotated by using the transform attribute.
MDN
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abstract
val
feBlend: TypedTag[Builder, Output, FragT]
The feBlend filter composes two objects together ruled by a certain blending mode.
The feBlend filter composes two objects together ruled by a certain blending mode. This is similar to what is known from image editing software when blending two layers. The mode is defined by the mode attribute.
MDN
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abstract
val
feColorMatrix: TypedTag[Builder, Output, FragT]
This filter changes colors based on a transformation matrix.
This filter changes colors based on a transformation matrix. Every pixel's color value (represented by an [R,G,B,A] vector) is matrix multiplied to create a new color.
MDN
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abstract
val
feComponentTransfer: TypedTag[Builder, Output, FragT]
The color of each pixel is modified by changing each channel (R, G, B, and A) to the result of what the children feFuncR, feFuncB, feFuncG, and feFuncA return.
The color of each pixel is modified by changing each channel (R, G, B, and A) to the result of what the children feFuncR, feFuncB, feFuncG, and feFuncA return.
MDN
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abstract
val
feComposite: TypedTag[Builder, Output, FragT]
This filter primitive performs the combination of two input images pixel-wise in image space using one of the Porter-Duff compositing operations: over, in, atop, out, xor.
This filter primitive performs the combination of two input images pixel-wise in image space using one of the Porter-Duff compositing operations: over, in, atop, out, xor. Additionally, a component-wise arithmetic operation (with the result clamped between [0..1]) can be applied.
MDN
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abstract
val
feConvolveMatrix: TypedTag[Builder, Output, FragT]
the feConvolveMatrix element applies a matrix convolution filter effect.
the feConvolveMatrix element applies a matrix convolution filter effect. A convolution combines pixels in the input image with neighboring pixels to produce a resulting image. A wide variety of imaging operations can be achieved through convolutions, including blurring, edge detection, sharpening, embossing and beveling.
MDN
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abstract
val
feDiffuseLighting: TypedTag[Builder, Output, FragT]
This filter primitive lights an image using the alpha channel as a bump map.
This filter primitive lights an image using the alpha channel as a bump map. The resulting image, which is an RGBA opaque image, depends on the light color, light position and surface geometry of the input bump map.
MDN
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abstract
val
feDisplacementMap: TypedTag[Builder, Output, FragT]
This filter primitive uses the pixels values from the image from in2 to spatially displace the image from in.
This filter primitive uses the pixels values from the image from in2 to spatially displace the image from in.
MDN
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abstract
val
feDistantLighting: TypedTag[Builder, Output, FragT]
This filter primitive define a distant light source that can be used within a lighting filter primitive: feDiffuseLighting or feSpecularLighting.
This filter primitive define a distant light source that can be used within a lighting filter primitive: feDiffuseLighting or feSpecularLighting.
MDN
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abstract
val
feFlood: TypedTag[Builder, Output, FragT]
The filter fills the filter subregion with the color and opacity defined by flood-color and flood-opacity.
The filter fills the filter subregion with the color and opacity defined by flood-color and flood-opacity.
MDN
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abstract
val
feFuncA: TypedTag[Builder, Output, FragT]
This filter primitive defines the transfer function for the alpha component of the input graphic of its parent feComponentTransfer element.
This filter primitive defines the transfer function for the alpha component of the input graphic of its parent feComponentTransfer element.
MDN
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abstract
val
feFuncB: TypedTag[Builder, Output, FragT]
This filter primitive defines the transfer function for the blue component of the input graphic of its parent feComponentTransfer element.
This filter primitive defines the transfer function for the blue component of the input graphic of its parent feComponentTransfer element.
MDN
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abstract
val
feFuncG: TypedTag[Builder, Output, FragT]
This filter primitive defines the transfer function for the green component of the input graphic of its parent feComponentTransfer element.
This filter primitive defines the transfer function for the green component of the input graphic of its parent feComponentTransfer element.
MDN
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abstract
val
feFuncR: TypedTag[Builder, Output, FragT]
This filter primitive defines the transfer function for the red component of the input graphic of its parent feComponentTransfer element.
This filter primitive defines the transfer function for the red component of the input graphic of its parent feComponentTransfer element.
MDN
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abstract
val
feGaussianBlur: TypedTag[Builder, Output, FragT]
The filter blurs the input image by the amount specified in stdDeviation, which defines the bell-curve.
The filter blurs the input image by the amount specified in stdDeviation, which defines the bell-curve.
MDN
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abstract
val
feImage: TypedTag[Builder, Output, FragT]
The feImage filter fetches image data from an external source and provides the pixel data as output (meaning, if the external source is an SVG image, it is rasterize).
The feImage filter fetches image data from an external source and provides the pixel data as output (meaning, if the external source is an SVG image, it is rasterize).
MDN
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abstract
val
feMerge: TypedTag[Builder, Output, FragT]
The feMerge filter allows filter effects to be applied concurrently instead of sequentially.
The feMerge filter allows filter effects to be applied concurrently instead of sequentially. This is achieved by other filters storing their output via the result attribute and then accessing it in a feMergeNode child.
MDN
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abstract
val
feMergeNode: TypedTag[Builder, Output, FragT]
The feMergeNode takes the result of another filter to be processed by its parent feMerge.
The feMergeNode takes the result of another filter to be processed by its parent feMerge.
MDN
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abstract
val
feMorphology: TypedTag[Builder, Output, FragT]
This filter is used to erode or dilate the input image.
This filter is used to erode or dilate the input image. It's usefulness lies especially in fattening or thinning effects.
MDN
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abstract
val
feOffset: TypedTag[Builder, Output, FragT]
The input image as a whole is offset by the values specified in the dx and dy attributes.
The input image as a whole is offset by the values specified in the dx and dy attributes. It's used in creating drop-shadows.
MDN
- abstract val fePointLight: TypedTag[Builder, Output, FragT]
-
abstract
val
feSpecularLighting: TypedTag[Builder, Output, FragT]
This filter primitive lights a source graphic using the alpha channel as a bump map.
This filter primitive lights a source graphic using the alpha channel as a bump map. The resulting image is an RGBA image based on the light color. The lighting calculation follows the standard specular component of the Phong lighting model. The resulting image depends on the light color, light position and surface geometry of the input bump map. The result of the lighting calculation is added. The filter primitive assumes that the viewer is at infinity in the z direction.
MDN
- abstract val feSpotlight: TypedTag[Builder, Output, FragT]
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abstract
val
feTile: TypedTag[Builder, Output, FragT]
An input image is tiled and the result used to fill a target.
An input image is tiled and the result used to fill a target. The effect is similar to the one of a pattern.
MDN
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abstract
val
feTurbulance: TypedTag[Builder, Output, FragT]
This filter primitive creates an image using the Perlin turbulence function.
This filter primitive creates an image using the Perlin turbulence function. It allows the synthesis of artificial textures like clouds or marble.
MDN
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abstract
val
filter: TypedTag[Builder, Output, FragT]
The filter element serves as container for atomic filter operations.
The filter element serves as container for atomic filter operations. It is never rendered directly. A filter is referenced by using the filter attribute on the target SVG element.
MDN
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abstract
val
font: TypedTag[Builder, Output, FragT]
The font element defines a font to be used for text layout.
The font element defines a font to be used for text layout.
MDN
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abstract
val
font-face: TypedTag[Builder, Output, FragT]
The font-face element corresponds to the CSS @font-face declaration.
The font-face element corresponds to the CSS @font-face declaration. It defines a font's outer properties.
MDN
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abstract
val
font-face-format: TypedTag[Builder, Output, FragT]
The font-face-format element describes the type of font referenced by its parent font-face-uri.
The font-face-format element describes the type of font referenced by its parent font-face-uri.
MDN
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abstract
val
font-face-name: TypedTag[Builder, Output, FragT]
The font-face-name element points to a locally installed copy of this font, identified by its name.
The font-face-name element points to a locally installed copy of this font, identified by its name.
MDN
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abstract
val
font-face-src: TypedTag[Builder, Output, FragT]
The font-face-src element corresponds to the src property in CSS @font-face descriptions.
The font-face-src element corresponds to the src property in CSS @font-face descriptions. It serves as container for font-face-name, pointing to locally installed copies of this font, and font-face-uri, utilizing remotely defined fonts.
MDN
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abstract
val
font-face-uri: TypedTag[Builder, Output, FragT]
The font-face-uri element points to a remote definition of the current font.
The font-face-uri element points to a remote definition of the current font.
MDN
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abstract
val
foreignObject: TypedTag[Builder, Output, FragT]
The foreignObject element allows for inclusion of a foreign XML namespace which has its graphical content drawn by a different user agent.
The foreignObject element allows for inclusion of a foreign XML namespace which has its graphical content drawn by a different user agent. The included foreign graphical content is subject to SVG transformations and compositing.
MDN
-
abstract
val
g: TypedTag[Builder, Output, FragT]
The g element is a container used to group objects.
The g element is a container used to group objects. Transformations applied to the g element are performed on all of its child elements. Attributes applied are inherited by child elements. In addition, it can be used to define complex objects that can later be referenced with the use element.
MDN
-
abstract
val
glyph: TypedTag[Builder, Output, FragT]
A glyph defines a single glyph in an SVG font.
A glyph defines a single glyph in an SVG font.
MDN
-
abstract
val
glyphRef: TypedTag[Builder, Output, FragT]
The glyphRef element provides a single possible glyph to the referencing altGlyph substitution.
The glyphRef element provides a single possible glyph to the referencing altGlyph substitution.
MDN
-
abstract
val
hkern: TypedTag[Builder, Output, FragT]
The horizontal distance between two glyphs can be fine-tweaked with an hkern Element.
The horizontal distance between two glyphs can be fine-tweaked with an hkern Element. This process is known as Kerning.
MDN
-
abstract
val
image: TypedTag[Builder, Output, FragT]
The SVG Image Element (image) allows a raster image into be included in an SVG document.
The SVG Image Element (image) allows a raster image into be included in an SVG document.
MDN
-
abstract
val
line: TypedTag[Builder, Output, FragT]
The line element is an SVG basic shape, used to create a line connecting two points.
The line element is an SVG basic shape, used to create a line connecting two points.
MDN
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abstract
val
linearGradient: TypedTag[Builder, Output, FragT]
linearGradient lets authors define linear gradients to fill or stroke graphical elements.
linearGradient lets authors define linear gradients to fill or stroke graphical elements.
MDN
-
abstract
def
makeAbstractTypedTag[T <: Output](tag: String, void: Boolean, namespaceConfig: Namespace): ConcreteHtmlTag[T]
- Definition Classes
- Util
-
abstract
val
marker: TypedTag[Builder, Output, FragT]
The marker element defines the graphics that is to be used for drawing arrowheads or polymarkers on a given path, line, polyline or polygon element.
The marker element defines the graphics that is to be used for drawing arrowheads or polymarkers on a given path, line, polyline or polygon element.
MDN
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abstract
val
mask: TypedTag[Builder, Output, FragT]
In SVG, you can specify that any other graphics object or g element can be used as an alpha mask for compositing the current object into the background.
In SVG, you can specify that any other graphics object or g element can be used as an alpha mask for compositing the current object into the background. A mask is defined with the mask element. A mask is used/referenced using the mask property.
MDN
-
abstract
val
metadata: TypedTag[Builder, Output, FragT]
Metadata is structured data about data.
Metadata is structured data about data. Metadata which is included with SVG content should be specified within metadata elements. The contents of the metadata should be elements from other XML namespaces such as RDF, FOAF, etc.
MDN
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abstract
val
missing-glyph: TypedTag[Builder, Output, FragT]
The missing-glyph's content is rendered, if for a given character the font doesn't define an appropriate glyph.
The missing-glyph's content is rendered, if for a given character the font doesn't define an appropriate glyph.
MDN
-
abstract
val
mpath: TypedTag[Builder, Output, FragT]
the mpath sub-element for the animateMotion element provides the ability to reference an external path element as the definition of a motion path.
the mpath sub-element for the animateMotion element provides the ability to reference an external path element as the definition of a motion path.
MDN
-
abstract
val
path: TypedTag[Builder, Output, FragT]
The path element is the generic element to define a shape.
The path element is the generic element to define a shape. All the basic shapes can be created with a path element.
-
abstract
val
pattern: TypedTag[Builder, Output, FragT]
A pattern is used to fill or stroke an object using a pre-defined graphic object which can be replicated ("tiled") at fixed intervals in x and y to cover the areas to be painted.
A pattern is used to fill or stroke an object using a pre-defined graphic object which can be replicated ("tiled") at fixed intervals in x and y to cover the areas to be painted. Patterns are defined using the pattern element and then referenced by properties fill and stroke on a given graphics element to indicate that the given element shall be filled or stroked with the referenced pattern.
MDN
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abstract
val
polygon: TypedTag[Builder, Output, FragT]
The polygon element defines a closed shape consisting of a set of connected straight line segments.
The polygon element defines a closed shape consisting of a set of connected straight line segments.
MDN
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abstract
val
polyline: TypedTag[Builder, Output, FragT]
The polyline element is an SVG basic shape, used to create a series of straight lines connecting several points.
The polyline element is an SVG basic shape, used to create a series of straight lines connecting several points. Typically a polyline is used to create open shapes
MDN
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abstract
val
radialGradient: TypedTag[Builder, Output, FragT]
radialGradient lets authors define radial gradients to fill or stroke graphical elements.
radialGradient lets authors define radial gradients to fill or stroke graphical elements.
MDN
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abstract
val
rect: TypedTag[Builder, Output, FragT]
The rect element is an SVG basic shape, used to create rectangles based on the position of a corner and their width and height.
The rect element is an SVG basic shape, used to create rectangles based on the position of a corner and their width and height. It may also be used to create rectangles with rounded corners.
MDN
-
abstract
val
set: TypedTag[Builder, Output, FragT]
The set element provides a simple means of just setting the value of an attribute for a specified duration.
The set element provides a simple means of just setting the value of an attribute for a specified duration. It supports all attribute types, including those that cannot reasonably be interpolated, such as string and boolean values. The set element is non-additive. The additive and accumulate attributes are not allowed, and will be ignored if specified.
MDN
-
abstract
val
stop: TypedTag[Builder, Output, FragT]
The ramp of colors to use on a gradient is defined by the stop elements that are child elements to either the lineargradient element or the radialGradient element.
The ramp of colors to use on a gradient is defined by the stop elements that are child elements to either the lineargradient element or the radialGradient element.
MDN
-
implicit abstract
def
stringAttrX: AttrValue[Builder, String]
- Attributes
- protected[this]
- Definition Classes
- Util
-
implicit abstract
def
stringPixelStyleX: PixelStyleValue[Builder, String]
- Attributes
- protected[this]
- Definition Classes
- Util
-
implicit abstract
def
stringStyleX: StyleValue[Builder, String]
- Attributes
- protected[this]
- Definition Classes
- Util
-
abstract
val
svg: TypedTag[Builder, Output, FragT]
When it is not the root element, the svg element can be used to nest a standalone SVG fragment inside the current document (which can be an HTML document).
When it is not the root element, the svg element can be used to nest a standalone SVG fragment inside the current document (which can be an HTML document). This standalone fragment has its own viewPort and its own coordinate system.
MDN
-
abstract
val
switch: TypedTag[Builder, Output, FragT]
The switch element evaluates the requiredFeatures, requiredExtensions and systemLanguage attributes on its direct child elements in order, and then processes and renders the first child for which these attributes evaluate to true.
The switch element evaluates the requiredFeatures, requiredExtensions and systemLanguage attributes on its direct child elements in order, and then processes and renders the first child for which these attributes evaluate to true. All others will be bypassed and therefore not rendered. If the child element is a container element such as a g, then the entire subtree is either processed/rendered or bypassed/not rendered.
MDN
-
abstract
val
symbol: TypedTag[Builder, Output, FragT]
The symbol element is used to define graphical template objects which can be instantiated by a use element.
The symbol element is used to define graphical template objects which can be instantiated by a use element. The use of symbol elements for graphics that are used multiple times in the same document adds structure and semantics. Documents that are rich in structure may be rendered graphically, as speech, or as braille, and thus promote accessibility. note that a symbol element itself is not rendered. Only instances of a symbol element (i.e., a reference to a symbol by a use element) are rendered.
MDN
-
abstract
def
tag(s: String, void: Boolean = false): TypedTag[Builder, Output, FragT]
- Definition Classes
- Util
-
abstract
val
text: TypedTag[Builder, Output, FragT]
The text element defines a graphics element consisting of text.
The text element defines a graphics element consisting of text. Note that it is possible to apply a gradient, pattern, clipping path, mask or filter to text.
MDN
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abstract
val
textPath: TypedTag[Builder, Output, FragT]
In addition to text drawn in a straight line, SVG also includes the ability to place text along the shape of a path element.
In addition to text drawn in a straight line, SVG also includes the ability to place text along the shape of a path element. To specify that a block of text is to be rendered along the shape of a path, include the given text within a textPath element which includes an xlink:href attribute with a reference to a path element.
MDN
-
abstract
val
tref: TypedTag[Builder, Output, FragT]
The textual content for a text can be either character data directly embedded within the text element or the character data content of a referenced element, where the referencing is specified with a tref element.
The textual content for a text can be either character data directly embedded within the text element or the character data content of a referenced element, where the referencing is specified with a tref element.
MDN
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abstract
val
tspan: TypedTag[Builder, Output, FragT]
Within a text element, text and font properties and the current text position can be adjusted with absolute or relative coordinate values by including a tspan element.
Within a text element, text and font properties and the current text position can be adjusted with absolute or relative coordinate values by including a tspan element.
MDN
-
abstract
val
use: TypedTag[Builder, Output, FragT]
The use element takes nodes from within the SVG document, and duplicates them somewhere else.
The use element takes nodes from within the SVG document, and duplicates them somewhere else. The effect is the same as if the nodes were deeply cloned into a non-exposed DOM, and then pasted where the use element is, much like anonymous content and XBL. Since the cloned nodes are not exposed, care must be taken when using CSS to style a use element and its hidden descendants. CSS attributes are not guaranteed to be inherited by the hidden, cloned DOM unless you explicitly request it using CSS inheritance.
MDN
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abstract
val
view: TypedTag[Builder, Output, FragT]
A view is a defined way to view the image, like a zoom level or a detail view.
A view is a defined way to view the image, like a zoom level or a detail view.
MDN
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abstract
val
vkern: TypedTag[Builder, Output, FragT]
The vertical distance between two glyphs in top-to-bottom fonts can be fine-tweaked with an vkern Element.
The vertical distance between two glyphs in top-to-bottom fonts can be fine-tweaked with an vkern Element. This process is known as Kerning.
MDN
Concrete Value Members
-
final
def
!=(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
-
final
def
##(): Int
- Definition Classes
- AnyRef → Any
-
final
def
==(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
-
implicit
def
ArrayFrag[A](xs: Array[A])(implicit ev: (A) ⇒ Frag[Builder, FragT]): Frag[Builder, FragT]
Renders an Seq of FragT into a single FragT
Renders an Seq of FragT into a single FragT
- Definition Classes
- LowPriUtil
-
implicit
def
ArrayNode[A](xs: Array[A])(implicit ev: (A) ⇒ Modifier[Builder]): SeqNode[A]
Allows you to modify a ConcreteHtmlTag by adding an Array containing other nest-able objects to its list of children.
Allows you to modify a ConcreteHtmlTag by adding an Array containing other nest-able objects to its list of children.
- Definition Classes
- Util
-
implicit
def
OptionFrag[A](xs: Option[A])(implicit ev: (A) ⇒ Frag[Builder, FragT]): Frag[Builder, FragT]
Renders an Option of FragT into a single FragT
Renders an Option of FragT into a single FragT
- Definition Classes
- LowPriUtil
-
implicit
def
OptionNode[A](xs: Option[A])(implicit ev: (A) ⇒ Modifier[Builder]): SeqNode[A]
Allows you to modify a ConcreteHtmlTag by adding an Option containing other nest-able objects to its list of children.
Allows you to modify a ConcreteHtmlTag by adding an Option containing other nest-able objects to its list of children.
- Definition Classes
- Util
-
final
def
asInstanceOf[T0]: T0
- Definition Classes
- Any
-
def
attr(s: String, ns: Namespace = null, raw: Boolean = false): Attr
Constructs an Attr attribute object from a string; can be used inline:
-
def
clone(): AnyRef
- Attributes
- protected[lang]
- Definition Classes
- AnyRef
- Annotations
- @throws( ... ) @native() @HotSpotIntrinsicCandidate()
-
def
css(s: String): Style
Constructs a CSS Style from a string, can be used inline
-
final
def
eq(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
-
def
equals(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
-
def
frag(frags: Frag[Builder, FragT]*): Frag[Builder, FragT]
- Definition Classes
- Util
-
final
def
getClass(): Class[_]
- Definition Classes
- AnyRef → Any
- Annotations
- @native() @HotSpotIntrinsicCandidate()
-
def
hashCode(): Int
- Definition Classes
- AnyRef → Any
- Annotations
- @native() @HotSpotIntrinsicCandidate()
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final
def
isInstanceOf[T0]: Boolean
- Definition Classes
- Any
-
def
modifier(mods: Modifier[Builder]*): Modifier[Builder]
- Definition Classes
- Util
-
final
def
ne(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
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final
def
notify(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native() @HotSpotIntrinsicCandidate()
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final
def
notifyAll(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native() @HotSpotIntrinsicCandidate()
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final
def
synchronized[T0](arg0: ⇒ T0): T0
- Definition Classes
- AnyRef
-
def
toString(): String
- Definition Classes
- AnyRef → Any
-
final
def
wait(arg0: Long, arg1: Int): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws( ... )
-
final
def
wait(arg0: Long): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws( ... ) @native()
-
final
def
wait(): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws( ... )
Deprecated Value Members
-
def
finalize(): Unit
- Attributes
- protected[lang]
- Definition Classes
- AnyRef
- Annotations
- @throws( classOf[java.lang.Throwable] ) @Deprecated @deprecated
- Deprecated
(Since version ) see corresponding Javadoc for more information.