SVG uses styling properties to describe many of its document parameters. Styling properties define how the graphics elements in the SVG content are to be rendered. SVG uses styling properties for the following:
SVG shares many of its styling properties with CSS [CSS2] and XSL [XSL]. Except for any additional SVG-specific rules explicitly mentioned in this specification, the normative definition of properties that are shared with CSS and XSL is the definition of the property from the CSS2 specification [CSS2].
The following properties are shared between CSS2 and SVG. Most of these properties are also defined in XSL:
The following SVG properties are not defined in [CSS2]. The complete normative definitions for these properties are found in this specification:
A table that lists and summarizes the styling properties can be found in the Property Index.
SVG has many usage scenarios, each with different needs. Here are three common usage scenarios:
SVG content used as an exchange format (style sheet language-independent):
In some usage scenarios, reliable interoperability of SVG content across software tools is the main goal. Since support for a particular style sheet languages is not guaranteed across all implementations, it is a requirement that SVG content can be fully specified without the use of a style sheet language.
SVG content generated as the output from XSLT [XSLT]:
XSLT offers the ability to take a stream of arbitrary XML content as input, apply potentially complex transformations, and then generate SVG content as output. XSLT can be used to transform XML data extracted from databases into an SVG graphical representation of that data. It is a requirement that fully specified SVG content can be generated from XSLT.
SVG content styled with CSS [CSS2]:
CSS is a widely implemented declarative language for assigning styling properties to XML content, including SVG. It represents a combination of features, simplicity and compactness that makes it very suitable for many applications of SVG. It is a requirement that CSS styling can be applied to SVG content.
Styling properties can be assigned to SVG elements in the following two ways:
Presentation attributes
Styling properties can be assigned using SVG's presentation attributes. For each styling property defined in this specification, there is a corresponding XML presentation attribute available on all relevant SVG elements. Detailed information on the presentation attributes can be found in Specifying properties using the presentation attributes.
The presentation attributes are style sheet language independent and thus are applicable to usage scenario 1 above (i.e., tool interoperability). Because it is straightforward to assign values to XML attributes from XSLT, the presentation attributes are well-suited to usage scenario 2 above (i.e., SVG generation from XSLT). (See Styling with XSL below.)
Conforming SVG Interpreters and Conforming SVG Viewers are required to support SVG's presentation attributes.
CSS
To support usage scenario 3 above, SVG content can be styled with CSS. For more information, see Styling with CSS.
Conforming SVG Interpreters and Conforming SVG Viewers that support CSS styling of generic (i.e., text-based) XML content are required to support CSS styling of SVG content.
For each styling property defined in this specification (see Property Index), there is a corresponding XML attribute (the presentation attribute) with the same name that is available on all relevant SVG elements. For example, SVG has a 'fill' property that defines how to paint the interior of a shape. There is a corresponding presentation attribute with the same name (i.e., fill) that can be used to specify a value for the 'fill' property on a given element.
The following example shows how the 'fill' and 'stroke' properties can be assigned to a rectangle using the fill and stroke presentation attributes. The rectangle will be filled with red and outlined with blue:
<?xml version="1.0" standalone="no"?> <!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 20000802//EN" "http://www.w3.org/TR/2000/CR-SVG-20000802/DTD/svg-20000802.dtd"> <svg width="10cm" height="5cm"> <rect x="2cm" y="1cm" width="6cm" height="3cm" fill="red" stroke="blue"/> </svg>
View this example as SVG (SVG-enabled browsers only)
The presentation attributes offer the following advantages:
In some situations, SVG content that uses the presentation attributes has potential limitations versus SVG content that is styled with a style sheet language such as CSS (see Styling with CSS). In other situations, such as when an XSLT style sheet generates SVG content from semantically rich XML source files, the limitations below may not apply. Depending on the situation, some of the following potential limitations may or may not apply to the presentation attributes:
For user agents that support CSS, the presentation attributes must be translated to corresponding CSS style rules according to rules described in section 6.4.4 of the CSS2 specification, Precedence of non-CSS presentational hints; thus, the presentation attributes will participate in the CSS2 cascade as if they were replaced by corresponding CSS style rules placed at the start of the author style sheet with a specificity of zero. In general, this means that the presentation attributes have lower priority than other CSS style rules specified in author style sheets or style attributes.
User agents that do not support CSS must ignore any CSS style rules defined in CSS style sheets and style attributes. In this case, the CSS cascade does not apply. (Inheritance of properties, however, does apply. See Property inheritance.)
The following entities are defined in the DTD for all of the presentation attributes in SVG:
<!-- The following presentation attributes apply to container elements. --> <!ENTITY % PresentationAttributes-Containers "enable-background %EnableBackgroundValue; #IMPLIED " > <!-- The following presentation attributes apply to 'feFlood' elements. --> <!ENTITY % PresentationAttributes-feFlood "flood-color %SVGColor; #IMPLIED flood-opacity %OpacityValue; #IMPLIED " > <!-- The following presentation attributes apply to filling and stroking operations. --> <!ENTITY % PresentationAttributes-FillStroke "fill %Paint; #IMPLIED fill-opacity %OpacityValue; #IMPLIED fill-rule %ClipFillRule; #IMPLIED stroke %Paint; #IMPLIED stroke-dasharray %StrokeDashArrayValue; #IMPLIED stroke-dashoffset %StrokeDashOffsetValue; #IMPLIED stroke-linecap (butt | round | square | inherit) #IMPLIED stroke-linejoin (miter | round | bevel | inherit) #IMPLIED stroke-miterlimit %StrokeMiterLimitValue; #IMPLIED stroke-opacity %OpacityValue; #IMPLIED stroke-width %StrokeWidthValue; #IMPLIED " > <!-- The following presentation attributes have to do with selecting a font to use. --> <!ENTITY % PresentationAttributes-FontSelection "font-family %FontFamilyValue; #IMPLIED font-size %FontSizeValue; #IMPLIED font-size-adjust %FontSizeAdjustValue; #IMPLIED font-stretch (normal | wider | narrower | ultra-condensed | extra-condensed | condensed | semi-condensed | semi-expanded | expanded | extra-expanded | ultra-expanded | inherit) #IMPLIED font-style (normal | italic | oblique | inherit) #IMPLIED font-variant (normal | small-caps | inherit) #IMPLIED font-weight (normal | bold | bolder | lighter | 100 | 200 | 300 | 400 | 500 | 600 | 700 | 800 | 900 | inherit) #IMPLIED " > <!-- The following presentation attributes apply to gradient 'stop' elements. --> <!ENTITY % PresentationAttributes-Gradients "stop-color %SVGColor; #IMPLIED stop-opacity %OpacityValue; #IMPLIED " > <!-- The following presentation attributes apply to graphics elements. --> <!ENTITY % PresentationAttributes-Graphics "clip-path %ClipPathValue; #IMPLIED clip-rule %ClipFillRule; #IMPLIED color %Color; #IMPLIED color-interpolation (auto | sRGB | linearRGB | inherit) #IMPLIED color-rendering (auto | optimizeSpeed | optimizeQuality | inherit) #IMPLIED cursor %CursorValue; #IMPLIED display (inline | block | list-item | run-in | compact | marker | table | inline-table | table-row-group | table-header-group | table-footer-group | table-row | table-column-group | table-column | table-cell | table-caption | none | inherit) #IMPLIED filter %FilterValue; #IMPLIED image-rendering (auto | optimizeSpeed | optimizeQuality | inherit) #IMPLIED mask %MaskValue; #IMPLIED opacity %OpacityValue; #IMPLIED pointer-events (visiblePainted | visibleFill | visibleStroke | visibleFillStroke | visible | painted | fill | stroke | fillstroke | all | none | inherit) #IMPLIED shape-rendering (auto | optimizeSpeed | crispEdges | geometricPrecision | inherit) #IMPLIED text-rendering (auto | optimizeSpeed | optimizeLegibility | geometricPrecision | inherit) #IMPLIED visibility (visible | hidden | inherit) #IMPLIED " > <!--The following presentation attributes apply to 'feDiffuseLighting' and 'feSpecularLighting' elements. --> <!ENTITY % PresentationAttributes-LightingEffects "lighting-color %SVGColor; #IMPLIED " > <!-- The following presentation attributes apply to marker operations. --> <!ENTITY % PresentationAttributes-Markers "marker-start %MarkerValue; #IMPLIED marker-mid %MarkerValue; #IMPLIED marker-end %MarkerValue; #IMPLIED " > <!-- The following presentation attributes apply to text content elements. --> <!ENTITY % PresentationAttributes-TextContentElements "alignment-baseline (baseline | top | before-edge | text-top | text-before-edge | middle | bottom | after-edge | text-bottom | text-after-edge | ideographic | lower | hanging | mathematical | inherit) #IMPLIED baseline-shift %BaselineShiftValue; #IMPLIED direction (ltr | rtl | inherit) #IMPLIED glyph-orientation-horizontal %GlyphOrientationHorizontalValue; #IMPLIED glyph-orientation-vertical %GlyphOrientationVerticalValue; #IMPLIED letter-spacing %SpacingValue; #IMPLIED text-decoration %TextDecorationValue; #IMPLIED unicode-bidi (normal | embed | bidi-override | inherit) #IMPLIED word-spacing %SpacingValue; #IMPLIED " > <!-- The following presentation attributes apply to 'text' elements. --> <!ENTITY % PresentationAttributes-TextElements "dominant-baseline (auto | autosense-script | no-change | reset| ideographic | lower | hanging | mathematical | inherit ) #IMPLIED text-anchor (start | middle | end | inherit) #IMPLIED writing-mode (lr-tb | rl-tb | tb-rl | lr | rl | tb | inherit) #IMPLIED " > <!-- The following presentation attributes apply to elements that establish viewports. --> <!ENTITY % PresentationAttributes-Viewports "clip %ClipValue; #IMPLIED overflow (visible | hidden | scroll | auto | inherit) #IMPLIED " > <!--The following represents the complete list of presentation attributes. --> <!ENTITY % PresentationAttributes-All "%PresentationAttributes-Containers; %PresentationAttributes-feFlood; %PresentationAttributes-FillStroke; %PresentationAttributes-FontSelection; %PresentationAttributes-Gradients; %PresentationAttributes-Graphics; %PresentationAttributes-LightingEffects; %PresentationAttributes-Markers; %PresentationAttributes-TextContentElements; %PresentationAttributes-TextElements;" >
XSL style sheets (see [XSLT]) define how to transform XML content into something else, usually other XML. When XSLT is used in conjunction with SVG, sometimes SVG content will serve as both input and output for XSL style sheets. Other times, XSL style sheets will take non-SVG content as input and generate SVG content as output.
The following example uses an external XSL style sheet to transform SVG content into modified SVG content (see Referencing external style sheets). The style sheet sets the 'fill' and 'stroke' properties on all rectangles to red and blue, respectively:
mystyle.xsl <?xml version="1.0" standalone="no"?> <xsl:stylesheet xmlns:xsl="http://www.w3.org/1999/XSL/Transform" version="1.0"> <!-- Add DOCTYPE --> <xsl:template match="/"> <xsl:text disable-output-escaping="yes"><!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 20000802//EN" "http://www.w3.org/TR/2000/CR-SVG-20000802/DTD/svg-20000802.dtd"> </xsl:text> <xsl:apply-templates/> </xsl:template> <!-- Add styling to all 'rect' elements --> <xsl:template match="rect"> <xsl:copy> <xsl:copy-of select="@*"/> <xsl:attribute name="fill">red</xsl:attribute> <xsl:attribute name="stroke">blue</xsl:attribute> </xsl:copy> </xsl:template> <!-- default is to copy input element --> <xsl:template match="*|@*|text()"> <xsl:copy> <xsl:apply-templates select="*|@*|text()"/> </xsl:copy> </xsl:template> </xsl:stylesheet> SVG file to be transformed by mystyle.xsl <?xml version="1.0" standalone="no"?> <svg width="10cm" height="5cm"> <rect x="2cm" y="1cm" width="6cm" height="3cm"/> </svg> SVG content after applying mystyle.xsl <?xml version="1.0" encoding="utf-8"?> <!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 20000802//EN" "http://www.w3.org/TR/2000/CR-SVG-20000802/DTD/svg-20000802.dtd"> <svg width="10cm" height="5cm"> <rect x="2cm" y="1cm" width="6cm" height="3cm" fill="red" stroke="blue"/> </svg>
SVG implementations that support CSS are required to support the following:
The following example shows the use of an external CSS style sheet to set the 'fill' and 'stroke' properties on all rectangles to red and blue, respectively:
mystyle.css rect { fill: red; stroke; blue } SVG file referencing mystyle.css <?xml version="1.0" standalone="no"?> <?xml-stylesheet href="mystyle.css" type="text/css"?> <!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 20000802//EN" "http://www.w3.org/TR/2000/CR-SVG-20000802/DTD/svg-20000802.dtd"> <svg width="10cm" height="5cm"> <rect x="2cm" y="1cm" width="6cm" height="3cm"/> </svg>
View this example as SVG (SVG-enabled browsers only)
CSS style sheets can be embedded within SVG content inside of a 'style' element. The following example uses an internal CSS style sheet to achieve the same result as the previous example:
<?xml version="1.0" standalone="no"?> <!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 20000802//EN" "http://www.w3.org/TR/2000/CR-SVG-20000802/DTD/svg-20000802.dtd"> <svg width="10cm" height="5cm"> <defs> <style type="text/css"><![CDATA[ rect { fill: red; stroke: blue } ]]></style> </defs> <rect x="2cm" y="1cm" width="6cm" height="3cm"/> </svg>
View this example as SVG (SVG-enabled browsers only)
Note how the CSS style sheet is placed within a CDATA
construct (i.e., <![CDATA[ ... ]]>
),
which is necessary since CSS style sheets are not expressed in XML.
Implementations that support CSS are also required to support CSS inline style. Similar to the style attribute in HTML, CSS inline style can be declared within a style attribute in SVG by specifying a semicolon-separated list of property declarations, where each property declaration has the form "name: value".
The following example shows how the 'fill' and 'stroke' properties can be assigned to a rectangle using the style attribute. Just like the previous example, the rectangle will be filled with red and outlined with blue:
<?xml version="1.0" standalone="no"?> <!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 20000802//EN" "http://www.w3.org/TR/2000/CR-SVG-20000802/DTD/svg-20000802.dtd"> <svg width="10cm" height="5cm"> <rect x="2cm" y="1cm" width="6cm" height="3cm" style="fill:red; stroke:blue"/> </svg>
View this example as SVG (SVG-enabled browsers only)
In an SVG user agent that supports CSS style sheets, the following facilities from [CSS2] must be supported:
SVG defines an @color-profile at-rule [CSS2-ATRULES] for defining color profiles so that ICC color profiles can be applied to CSS-styled SVG content.
SVG shares various relevant properties and approaches common to CSS and XSL, plus the semantics of many of the processing rules.
SVG shares the following facilities with CSS and XSL:
External style sheets are referenced using the mechanism documented in "Associating Style Sheets with XML documents Version 1.0" [XML-SS].
The 'style' element allows style sheets to be embedded directly within SVG content. SVG's 'style' element has the same attributes as the corresponding element in HTML (see HTML's 'style' element).
<!ELEMENT style (#PCDATA) > <!ATTLIST style %stdAttrs; xml:space (preserve) #FIXED "preserve" type %ContentType; #REQUIRED media %MediaDesc; #IMPLIED title %Text; #IMPLIED > |
Attribute definitions:
The syntax of style data depends on the style sheet language.
Some style sheet languages might allow a wider variety of rules in the 'style' element than in the style attribute. For example, with CSS, rules can be declared within a 'style' element that cannot be declared within a style attribute.
An example showing the 'style' element is provided above (see example).
Attribute definitions:
The class attribute assigns one or more class names to an element. The element may be said to belong to these classes. A class name may be shared by several element instances. The class attribute has several roles:
In the following example, the 'text' element is used in conjunction with the class attribute to markup document messages. Messages appear in both English and French versions.
<!-- English messages --> <text class="info" lang="en">Variable declared twice</text> <text class="warning" lang="en">Undeclared variable</text> <text class="error" lang="en">Bad syntax for variable name</text> <!-- French messages --> <text class="info" lang="fr">Variable déclarée deux fois</text> <text class="warning" lang="fr">Variable indéfinie</text> <text class="error" lang="fr">Erreur de syntaxe pour variable</text>
In an SVG user agent that supports CSS styling, the following CSS style rules would tell visual user agents to display informational messages in green, warning messages in yellow, and error messages in red:
text.info { color: green } text.warning { color: yellow } text.error { color: red }
The style attribute allows per-element style rules to be specified directly on a given element. When CSS styling is used, CSS inline style is specified by including semicolon-separated property declarations of the form "name : value" within the style attribute
Attribute definitions:
The style attribute may be used to apply a particular style to an individual SVG element. If the style will be reused for several elements, authors should use the 'style' element to regroup that information. For optimal flexibility, authors should define styles in external style sheets.
An example showing the style attribute is provided above (see example).
The contentStyleType attribute on the 'svg' element specifies the default style sheet language for the given document fragment.
Whether or not the user agent supports CSS, property inheritance in SVG follows the property inheritance rules defined in the CSS2 specification. The normative definition for property inheritance is section 6.2 of the CSS2 specification (see Inheritance).
The definition of each property indicates whether the property can inherit the value of its parent.
In SVG, as in CSS2, most elements inherit computed values [CSS2-COMPUTED]. For cases where something other than computed values are inherited, the property definition will describe the inheritance rules. For specified values [CSS2-SPECIFIED] which are expressed in user units, in pixels (e.g., "20px") or in absolute values [CSS2-COMPUTED], the computed value equals the specified value. For specified values which use certain relative units (i.e., em, ex and percentages), the computed value will have the same units as the value to which it is relative. Thus, if the parent element has a 'font-size' of "10pt" and the current element has a 'font-size' of "120%", then the computed value for 'font-size' on the current element will be "12pt". In cases where the referenced value for relative units is not expressed in any of the standard SVG units (i.e., CSS units or user units), such as when a percentage is used relative to the current viewport or an object bounding box, then the computed value will be in user units.
Note that SVG has some facilities wherein a property which is specified on an ancestor element might effect its descendant element, even if the descendant element has a different assigned value for that property. For example, if a 'clip-path' property is specified on an ancestor element, and the current element has a 'clip-path' of 'none', the ancestor's clipping path still applies to the current element because the semantics of SVG state that the clipping path used on a given element is the intersection of all clipping paths specified on itself and all ancestor elements. The key concept is that property assignment (with possible property inheritance) happens first. After properties values have been assigned to the various elements, then the user agent applies the semantics of each assigned property, which might result in the property assignment of an ancestor element affecting the rendering of its descendants.
The following define the scope/range of style sheets:
The user agent shall maintain a user agent style sheet [CSS2-CASCADE-RULES] for elements in the SVG namespace for visual media [CSS2-VISUAL]. The user agent style sheet below is expressed using CSS syntax; however, user agents are required to support the behavior that corresponds to this default style sheet even if CSS style sheets are not supported in the user agent:
svg, symbol, marker, pattern, view, use, image, mask { overflow: hidden } svg { width:attr(width); height:attr(height) }
The first line of the above user agent style sheet will cause the initial clipping path to be established at the bounds of the initial viewport. Furthermore, it will cause new clipping paths to be established at the bounds of the listed elements, all of which are elements that establish a new viewport. (Refer to the description of SVG's use of the 'overflow' property for more information.)
The second line of the above user agent style sheet will cause the width and height attributes on the 'svg' element to be used as the default values for the 'width' and 'height' properties during [CSS2-LAYOUT].
For the purposes of aural media, SVG represents a stylable XML grammar. In user agents that support CSS aural style sheets, aural style properties [CSS2-AURAL] can be applied as defined in [CSS2].
Aural style properties can be applied to any SVG element that can contain character data content, including 'desc', 'title, 'tspan'. 'tref'. 'glyphRun' and 'textPath'. On user agents that support aural style sheets, the following [CSS2] properties can be applied:
For user agents that support aural style sheets and also support
[DOM2], the user agent is required
to support the DOM interfaces defined in [DOM2-CSS]
that correspond to aural properties [CSS2-AURAL].
(See Relationship with DOM2 CSS object model.)
The following interfaces are defined below: SVGStyleElement.
The SVGStyleElement interface corresponds to the 'style' element.
interface SVGStyleElement : SVGElement { attribute DOMString xmlspace; // raises DOMException on setting attribute DOMString type; // raises DOMException on setting attribute DOMString media; // raises DOMException on setting attribute DOMString title; // raises DOMException on setting };
DOMException |
NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly.
|
DOMException |
NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly.
|
DOMException |
NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly.
|
DOMException |
NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly.
|