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|
//! SVG Elements.
use markup5ever::{expanded_name, local_name, namespace_url, ns, QualName};
use once_cell::sync::Lazy;
use std::collections::{HashMap, HashSet};
use std::fmt;
use std::ops::Deref;
use crate::accept_language::UserLanguage;
use crate::bbox::BoundingBox;
use crate::cond::{RequiredExtensions, RequiredFeatures, SystemLanguage};
use crate::css::{Declaration, Origin};
use crate::document::AcquiredNodes;
use crate::drawing_ctx::DrawingCtx;
use crate::error::*;
use crate::filter::Filter;
use crate::filters::{
blend::FeBlend,
color_matrix::FeColorMatrix,
component_transfer::{FeComponentTransfer, FeFuncA, FeFuncB, FeFuncG, FeFuncR},
composite::FeComposite,
convolve_matrix::FeConvolveMatrix,
displacement_map::FeDisplacementMap,
flood::FeFlood,
gaussian_blur::FeGaussianBlur,
image::FeImage,
lighting::{FeDiffuseLighting, FeDistantLight, FePointLight, FeSpecularLighting, FeSpotLight},
merge::{FeMerge, FeMergeNode},
morphology::FeMorphology,
offset::FeOffset,
tile::FeTile,
turbulence::FeTurbulence,
FilterEffect,
};
use crate::gradient::{LinearGradient, RadialGradient, Stop};
use crate::image::Image;
use crate::marker::Marker;
use crate::node::*;
use crate::pattern::Pattern;
use crate::properties::{ComputedValues, SpecifiedValues};
use crate::session::Session;
use crate::shapes::{Circle, Ellipse, Line, Path, Polygon, Polyline, Rect};
use crate::structure::{ClipPath, Group, Link, Mask, NonRendering, Svg, Switch, Symbol, Use};
use crate::style::Style;
use crate::text::{TRef, TSpan, Text};
use crate::xml::Attributes;
pub trait SetAttributes {
/// Sets per-element attributes.
///
/// Each element is supposed to iterate the `attributes`, and parse any ones it needs.
/// SVG specifies that unknown attributes should be ignored, and known attributes with invalid
/// values should be ignored so that the attribute ends up with its "initial value".
///
/// You can use the [`set_attribute`] function to do that.
fn set_attributes(&mut self, _attributes: &Attributes, _session: &Session) {}
}
/// Sets `dest` if `parse_result` is `Ok()`, otherwise just logs the error.
///
/// Implementations of the [`SetAttributes`] trait generally scan a list of attributes
/// for the ones they can handle, and parse their string values. Per the SVG spec, an attribute
/// with an invalid value should be ignored, and it should fall back to the default value.
///
/// In librsvg, those default values are set in each element's implementation of the [`Default`] trait:
/// at element creation time, each element gets initialized to its `Default`, and then each attribute
/// gets parsed. This function will set that attribute's value only if parsing was successful.
///
/// In case the `parse_result` is an error, this function will log an appropriate notice
/// via the [`Session`].
pub fn set_attribute<T>(dest: &mut T, parse_result: Result<T, ElementError>, session: &Session) {
match parse_result {
Ok(v) => *dest = v,
Err(e) => {
// FIXME: this does not provide a clue of what was the problematic element.
// We need tracking of the current parsing position to do that.
rsvg_log!(session, "ignoring attribute with invalid value: {}", e);
}
}
}
pub trait Draw {
/// Draw an element
///
/// Each element is supposed to draw itself as needed.
fn draw(
&self,
_node: &Node,
_acquired_nodes: &mut AcquiredNodes<'_>,
_cascaded: &CascadedValues<'_>,
draw_ctx: &mut DrawingCtx,
_clipping: bool,
) -> Result<BoundingBox, RenderingError> {
// by default elements don't draw themselves
Ok(draw_ctx.empty_bbox())
}
}
pub struct ElementInner<T: SetAttributes + Draw> {
element_name: QualName,
attributes: Attributes,
specified_values: SpecifiedValues,
important_styles: HashSet<QualName>,
values: ComputedValues,
required_extensions: Option<RequiredExtensions>,
required_features: Option<RequiredFeatures>,
system_language: Option<SystemLanguage>,
pub element_impl: T,
}
impl<T: SetAttributes + Draw> ElementInner<T> {
fn new(
session: &Session,
element_name: QualName,
attributes: Attributes,
element_impl: T,
) -> ElementInner<T> {
let mut e = Self {
element_name,
attributes,
specified_values: Default::default(),
important_styles: Default::default(),
values: Default::default(),
required_extensions: Default::default(),
required_features: Default::default(),
system_language: Default::default(),
element_impl,
};
e.set_conditional_processing_attributes(session);
e.set_presentation_attributes(session);
e
}
fn element_name(&self) -> &QualName {
&self.element_name
}
fn get_attributes(&self) -> &Attributes {
&self.attributes
}
fn get_id(&self) -> Option<&str> {
self.attributes.get_id()
}
fn get_class(&self) -> Option<&str> {
self.attributes.get_class()
}
fn inherit_xml_lang(&mut self, parent: Option<Node>) {
self.specified_values
.inherit_xml_lang(&mut self.values, parent);
}
fn get_specified_values(&self) -> &SpecifiedValues {
&self.specified_values
}
fn get_computed_values(&self) -> &ComputedValues {
&self.values
}
fn set_computed_values(&mut self, values: &ComputedValues) {
self.values = values.clone();
}
fn get_cond(&self, user_language: &UserLanguage) -> bool {
self.required_extensions
.as_ref()
.map(|v| v.eval())
.unwrap_or(true)
&& self
.required_features
.as_ref()
.map(|v| v.eval())
.unwrap_or(true)
&& self
.system_language
.as_ref()
.map(|v| v.eval(user_language))
.unwrap_or(true)
}
fn set_conditional_processing_attributes(&mut self, session: &Session) {
for (attr, value) in self.attributes.iter() {
match attr.expanded() {
expanded_name!("", "requiredExtensions") => {
self.required_extensions = Some(RequiredExtensions::from_attribute(value));
}
expanded_name!("", "requiredFeatures") => {
self.required_features = Some(RequiredFeatures::from_attribute(value));
}
expanded_name!("", "systemLanguage") => {
self.system_language = Some(SystemLanguage::from_attribute(value, session));
}
_ => {}
}
}
}
/// Hands the `attrs` to the node's state, to apply the presentation attributes.
fn set_presentation_attributes(&mut self, session: &Session) {
self.specified_values
.parse_presentation_attributes(session, &self.attributes);
}
// Applies a style declaration to the node's specified_values
fn apply_style_declaration(&mut self, declaration: &Declaration, origin: Origin) {
self.specified_values.set_property_from_declaration(
declaration,
origin,
&mut self.important_styles,
);
}
/// Applies CSS styles from the "style" attribute
fn set_style_attribute(&mut self, session: &Session) {
let style = self
.attributes
.iter()
.find(|(attr, _)| attr.expanded() == expanded_name!("", "style"))
.map(|(_, value)| value);
if let Some(style) = style {
self.specified_values.parse_style_declarations(
style,
Origin::Author,
&mut self.important_styles,
session,
);
}
}
}
impl<T: SetAttributes + Draw> Draw for ElementInner<T> {
fn draw(
&self,
node: &Node,
acquired_nodes: &mut AcquiredNodes<'_>,
cascaded: &CascadedValues<'_>,
draw_ctx: &mut DrawingCtx,
clipping: bool,
) -> Result<BoundingBox, RenderingError> {
let values = cascaded.get();
if values.is_displayed() {
self.element_impl
.draw(node, acquired_nodes, cascaded, draw_ctx, clipping)
} else {
Ok(draw_ctx.empty_bbox())
}
}
}
impl<T: SetAttributes + Draw> fmt::Display for ElementInner<T> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "{}", self.element_name().local)?;
write!(f, " id={}", self.get_id().unwrap_or("None"))?;
Ok(())
}
}
impl<T: SetAttributes + Draw> Deref for ElementInner<T> {
type Target = T;
#[inline]
fn deref(&self) -> &Self::Target {
&self.element_impl
}
}
/// Contents of an element node in the DOM
/// This enum uses `Box<ElementInner>` in order to make each `Element`
/// the size of a pointer.
pub enum Element {
Circle(Box<ElementInner<Circle>>),
ClipPath(Box<ElementInner<ClipPath>>),
Ellipse(Box<ElementInner<Ellipse>>),
Filter(Box<ElementInner<Filter>>),
Group(Box<ElementInner<Group>>),
Image(Box<ElementInner<Image>>),
Line(Box<ElementInner<Line>>),
LinearGradient(Box<ElementInner<LinearGradient>>),
Link(Box<ElementInner<Link>>),
Marker(Box<ElementInner<Marker>>),
Mask(Box<ElementInner<Mask>>),
NonRendering(Box<ElementInner<NonRendering>>),
Path(Box<ElementInner<Path>>),
Pattern(Box<ElementInner<Pattern>>),
Polygon(Box<ElementInner<Polygon>>),
Polyline(Box<ElementInner<Polyline>>),
RadialGradient(Box<ElementInner<RadialGradient>>),
Rect(Box<ElementInner<Rect>>),
Stop(Box<ElementInner<Stop>>),
Style(Box<ElementInner<Style>>),
Svg(Box<ElementInner<Svg>>),
Switch(Box<ElementInner<Switch>>),
Symbol(Box<ElementInner<Symbol>>),
Text(Box<ElementInner<Text>>),
TRef(Box<ElementInner<TRef>>),
TSpan(Box<ElementInner<TSpan>>),
Use(Box<ElementInner<Use>>),
// Filter primitives, these start with "Fe" as element names are e.g. "feBlend"
FeBlend(Box<ElementInner<FeBlend>>),
FeColorMatrix(Box<ElementInner<FeColorMatrix>>),
FeComponentTransfer(Box<ElementInner<FeComponentTransfer>>),
FeComposite(Box<ElementInner<FeComposite>>),
FeConvolveMatrix(Box<ElementInner<FeConvolveMatrix>>),
FeDiffuseLighting(Box<ElementInner<FeDiffuseLighting>>),
FeDisplacementMap(Box<ElementInner<FeDisplacementMap>>),
FeDistantLight(Box<ElementInner<FeDistantLight>>),
FeFlood(Box<ElementInner<FeFlood>>),
FeFuncA(Box<ElementInner<FeFuncA>>),
FeFuncB(Box<ElementInner<FeFuncB>>),
FeFuncG(Box<ElementInner<FeFuncG>>),
FeFuncR(Box<ElementInner<FeFuncR>>),
FeGaussianBlur(Box<ElementInner<FeGaussianBlur>>),
FeImage(Box<ElementInner<FeImage>>),
FeMerge(Box<ElementInner<FeMerge>>),
FeMergeNode(Box<ElementInner<FeMergeNode>>),
FeMorphology(Box<ElementInner<FeMorphology>>),
FeOffset(Box<ElementInner<FeOffset>>),
FePointLight(Box<ElementInner<FePointLight>>),
FeSpecularLighting(Box<ElementInner<FeSpecularLighting>>),
FeSpotLight(Box<ElementInner<FeSpotLight>>),
FeTile(Box<ElementInner<FeTile>>),
FeTurbulence(Box<ElementInner<FeTurbulence>>),
}
macro_rules! call_inner {
// end recursion, call the method
($element:ident, $method:ident [$($args:expr),*]) => {
match $element {
Element::Circle(i) => i.$method($($args),*),
Element::ClipPath(i) => i.$method($($args),*),
Element::Ellipse(i) => i.$method($($args),*),
Element::Filter(i) => i.$method($($args),*),
Element::Group(i) => i.$method($($args),*),
Element::Image(i) => i.$method($($args),*),
Element::Line(i) => i.$method($($args),*),
Element::LinearGradient(i) => i.$method($($args),*),
Element::Link(i) => i.$method($($args),*),
Element::Marker(i) => i.$method($($args),*),
Element::Mask(i) => i.$method($($args),*),
Element::NonRendering(i) => i.$method($($args),*),
Element::Path(i) => i.$method($($args),*),
Element::Pattern(i) => i.$method($($args),*),
Element::Polygon(i) => i.$method($($args),*),
Element::Polyline(i) => i.$method($($args),*),
Element::RadialGradient(i) => i.$method($($args),*),
Element::Rect(i) => i.$method($($args),*),
Element::Stop(i) => i.$method($($args),*),
Element::Style(i) => i.$method($($args),*),
Element::Svg(i) => i.$method($($args),*),
Element::Switch(i) => i.$method($($args),*),
Element::Symbol(i) => i.$method($($args),*),
Element::Text(i) => i.$method($($args),*),
Element::TRef(i) => i.$method($($args),*),
Element::TSpan(i) => i.$method($($args),*),
Element::Use(i) => i.$method($($args),*),
Element::FeBlend(i) => i.$method($($args),*),
Element::FeColorMatrix(i) => i.$method($($args),*),
Element::FeComponentTransfer(i) => i.$method($($args),*),
Element::FeComposite(i) => i.$method($($args),*),
Element::FeConvolveMatrix(i) => i.$method($($args),*),
Element::FeDiffuseLighting(i) => i.$method($($args),*),
Element::FeDisplacementMap(i) => i.$method($($args),*),
Element::FeDistantLight(i) => i.$method($($args),*),
Element::FeFlood(i) => i.$method($($args),*),
Element::FeFuncA(i) => i.$method($($args),*),
Element::FeFuncB(i) => i.$method($($args),*),
Element::FeFuncG(i) => i.$method($($args),*),
Element::FeFuncR(i) => i.$method($($args),*),
Element::FeGaussianBlur(i) => i.$method($($args),*),
Element::FeImage(i) => i.$method($($args),*),
Element::FeMerge(i) => i.$method($($args),*),
Element::FeMergeNode(i) => i.$method($($args),*),
Element::FeMorphology(i) => i.$method($($args),*),
Element::FeOffset(i) => i.$method($($args),*),
Element::FePointLight(i) => i.$method($($args),*),
Element::FeSpecularLighting(i) => i.$method($($args),*),
Element::FeSpotLight(i) => i.$method($($args),*),
Element::FeTile(i) => i.$method($($args),*),
Element::FeTurbulence(i) => i.$method($($args),*),
}
};
// munch munch
($element:ident, $method:ident [$($args:expr),*] $arg:expr, $($rest:tt)*) => {
call_inner!($element, $method [$($args,)*$arg] $($rest)*)
};
// entry point with args
($element:ident, $method:ident, $arg:expr, $($args:expr),*) => {
call_inner!($element, $method [$arg] $($args,)*)
};
// entry point with one arg
($element:ident, $method:ident, $arg:expr) => {
call_inner!($element, $method [$arg])
};
// entry point without args
($element:ident, $method:ident) => {
call_inner!($element, $method [])
};
}
impl Element {
/// Takes an XML element name and consumes a list of attribute/value pairs to create an [`Element`].
///
/// This operation does not fail. Unknown element names simply produce a [`NonRendering`]
/// element.
pub fn new(session: &Session, name: &QualName, mut attrs: Attributes) -> Element {
let (create_fn, flags): (ElementCreateFn, ElementCreateFlags) = if name.ns == ns!(svg) {
match ELEMENT_CREATORS.get(name.local.as_ref()) {
// hack in the SVG namespace for supported element names
Some(&(create_fn, flags)) => (create_fn, flags),
// Whenever we encounter a element name we don't understand, represent it as a
// non-rendering element. This is like a group, but it doesn't do any rendering
// of children. The effect is that we will ignore all children of unknown elements.
None => (create_non_rendering, ElementCreateFlags::Default),
}
} else {
(create_non_rendering, ElementCreateFlags::Default)
};
if flags == ElementCreateFlags::IgnoreClass {
attrs.clear_class();
};
// sizes::print_sizes();
create_fn(session, name, attrs)
}
pub fn element_name(&self) -> &QualName {
call_inner!(self, element_name)
}
pub fn get_attributes(&self) -> &Attributes {
call_inner!(self, get_attributes)
}
pub fn get_id(&self) -> Option<&str> {
call_inner!(self, get_id)
}
pub fn get_class(&self) -> Option<&str> {
call_inner!(self, get_class)
}
pub fn inherit_xml_lang(&mut self, parent: Option<Node>) {
call_inner!(self, inherit_xml_lang, parent)
}
pub fn get_specified_values(&self) -> &SpecifiedValues {
call_inner!(self, get_specified_values)
}
pub fn get_computed_values(&self) -> &ComputedValues {
call_inner!(self, get_computed_values)
}
pub fn set_computed_values(&mut self, values: &ComputedValues) {
call_inner!(self, set_computed_values, values);
}
pub fn get_cond(&self, user_language: &UserLanguage) -> bool {
call_inner!(self, get_cond, user_language)
}
pub fn apply_style_declaration(&mut self, declaration: &Declaration, origin: Origin) {
call_inner!(self, apply_style_declaration, declaration, origin)
}
pub fn set_style_attribute(&mut self, session: &Session) {
call_inner!(self, set_style_attribute, session);
}
pub fn as_filter_effect(&self) -> Option<&dyn FilterEffect> {
match self {
Element::FeBlend(ref fe) => Some(&fe.element_impl),
Element::FeColorMatrix(ref fe) => Some(&fe.element_impl),
Element::FeComponentTransfer(ref fe) => Some(&fe.element_impl),
Element::FeComposite(ref fe) => Some(&fe.element_impl),
Element::FeConvolveMatrix(ref fe) => Some(&fe.element_impl),
Element::FeDiffuseLighting(ref fe) => Some(&fe.element_impl),
Element::FeDisplacementMap(ref fe) => Some(&fe.element_impl),
Element::FeFlood(ref fe) => Some(&fe.element_impl),
Element::FeGaussianBlur(ref fe) => Some(&fe.element_impl),
Element::FeImage(ref fe) => Some(&fe.element_impl),
Element::FeMerge(ref fe) => Some(&fe.element_impl),
Element::FeMorphology(ref fe) => Some(&fe.element_impl),
Element::FeOffset(ref fe) => Some(&fe.element_impl),
Element::FeSpecularLighting(ref fe) => Some(&fe.element_impl),
Element::FeTile(ref fe) => Some(&fe.element_impl),
Element::FeTurbulence(ref fe) => Some(&fe.element_impl),
_ => None,
}
}
/// Returns whether an element of a particular type is only accessed by reference
// from other elements' attributes. The element could in turn cause other nodes
// to get referenced, potentially causing reference cycles.
pub fn is_accessed_by_reference(&self) -> bool {
matches!(
self,
Element::ClipPath(_)
| Element::Filter(_)
| Element::LinearGradient(_)
| Element::Marker(_)
| Element::Mask(_)
| Element::Pattern(_)
| Element::RadialGradient(_)
)
}
}
impl Draw for Element {
fn draw(
&self,
node: &Node,
acquired_nodes: &mut AcquiredNodes<'_>,
cascaded: &CascadedValues<'_>,
draw_ctx: &mut DrawingCtx,
clipping: bool,
) -> Result<BoundingBox, RenderingError> {
call_inner!(
self,
draw,
node,
acquired_nodes,
cascaded,
draw_ctx,
clipping
)
}
}
impl fmt::Display for Element {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
call_inner!(self, fmt, f)
}
}
macro_rules! e {
($name:ident, $element_type:ident) => {
pub fn $name(
session: &Session,
element_name: &QualName,
attributes: Attributes,
) -> Element {
let mut element_impl = <$element_type>::default();
element_impl.set_attributes(&attributes, session);
let element = Element::$element_type(Box::new(ElementInner::new(
session,
element_name.clone(),
attributes,
element_impl,
)));
element
}
};
}
#[rustfmt::skip]
mod creators {
use super::*;
e!(create_circle, Circle);
e!(create_clip_path, ClipPath);
e!(create_defs, NonRendering);
e!(create_ellipse, Ellipse);
e!(create_fe_blend, FeBlend);
e!(create_fe_color_matrix, FeColorMatrix);
e!(create_fe_component_transfer, FeComponentTransfer);
e!(create_fe_func_a, FeFuncA);
e!(create_fe_func_b, FeFuncB);
e!(create_fe_func_g, FeFuncG);
e!(create_fe_func_r, FeFuncR);
e!(create_fe_composite, FeComposite);
e!(create_fe_convolve_matrix, FeConvolveMatrix);
e!(create_fe_diffuse_lighting, FeDiffuseLighting);
e!(create_fe_distant_light, FeDistantLight);
e!(create_fe_displacement_map, FeDisplacementMap);
e!(create_fe_flood, FeFlood);
e!(create_fe_gaussian_blur, FeGaussianBlur);
e!(create_fe_image, FeImage);
e!(create_fe_merge, FeMerge);
e!(create_fe_merge_node, FeMergeNode);
e!(create_fe_morphology, FeMorphology);
e!(create_fe_offset, FeOffset);
e!(create_fe_point_light, FePointLight);
e!(create_fe_specular_lighting, FeSpecularLighting);
e!(create_fe_spot_light, FeSpotLight);
e!(create_fe_tile, FeTile);
e!(create_fe_turbulence, FeTurbulence);
e!(create_filter, Filter);
e!(create_group, Group);
e!(create_image, Image);
e!(create_line, Line);
e!(create_linear_gradient, LinearGradient);
e!(create_link, Link);
e!(create_marker, Marker);
e!(create_mask, Mask);
e!(create_non_rendering, NonRendering);
e!(create_path, Path);
e!(create_pattern, Pattern);
e!(create_polygon, Polygon);
e!(create_polyline, Polyline);
e!(create_radial_gradient, RadialGradient);
e!(create_rect, Rect);
e!(create_stop, Stop);
e!(create_style, Style);
e!(create_svg, Svg);
e!(create_switch, Switch);
e!(create_symbol, Symbol);
e!(create_text, Text);
e!(create_tref, TRef);
e!(create_tspan, TSpan);
e!(create_use, Use);
/* Hack to make multiImage sort-of work
*
* disabled for now, as markup5ever doesn't have local names for
* multiImage, subImage, subImageRef. Maybe we can just... create them ourselves?
*
* Is multiImage even in SVG2?
*/
/*
e!(create_multi_image, Switch);
e!(create_sub_image, Group);
e!(create_sub_image_ref, Image);
*/
}
use creators::*;
type ElementCreateFn =
fn(session: &Session, element_name: &QualName, attributes: Attributes) -> Element;
#[derive(Copy, Clone, PartialEq)]
enum ElementCreateFlags {
Default,
IgnoreClass,
}
// Lines in comments are elements that we don't support.
#[rustfmt::skip]
static ELEMENT_CREATORS: Lazy<HashMap<&'static str, (ElementCreateFn, ElementCreateFlags)>> = Lazy::new(|| {
use ElementCreateFlags::*;
let creators_table: Vec<(&str, ElementCreateFn, ElementCreateFlags)> = vec![
// name, supports_class, create_fn
("a", create_link, Default),
/* ("altGlyph", ), */
/* ("altGlyphDef", ), */
/* ("altGlyphItem", ), */
/* ("animate", ), */
/* ("animateColor", ), */
/* ("animateMotion", ), */
/* ("animateTransform", ), */
("circle", create_circle, Default),
("clipPath", create_clip_path, Default),
/* ("color-profile", ), */
/* ("cursor", ), */
("defs", create_defs, Default),
/* ("desc", ), */
("ellipse", create_ellipse, Default),
("feBlend", create_fe_blend, Default),
("feColorMatrix", create_fe_color_matrix, Default),
("feComponentTransfer", create_fe_component_transfer, Default),
("feComposite", create_fe_composite, Default),
("feConvolveMatrix", create_fe_convolve_matrix, Default),
("feDiffuseLighting", create_fe_diffuse_lighting, Default),
("feDisplacementMap", create_fe_displacement_map, Default),
("feDistantLight", create_fe_distant_light, IgnoreClass),
("feFuncA", create_fe_func_a, IgnoreClass),
("feFuncB", create_fe_func_b, IgnoreClass),
("feFuncG", create_fe_func_g, IgnoreClass),
("feFuncR", create_fe_func_r, IgnoreClass),
("feFlood", create_fe_flood, Default),
("feGaussianBlur", create_fe_gaussian_blur, Default),
("feImage", create_fe_image, Default),
("feMerge", create_fe_merge, Default),
("feMergeNode", create_fe_merge_node, IgnoreClass),
("feMorphology", create_fe_morphology, Default),
("feOffset", create_fe_offset, Default),
("fePointLight", create_fe_point_light, IgnoreClass),
("feSpecularLighting", create_fe_specular_lighting, Default),
("feSpotLight", create_fe_spot_light, IgnoreClass),
("feTile", create_fe_tile, Default),
("feTurbulence", create_fe_turbulence, Default),
("filter", create_filter, Default),
/* ("font", ), */
/* ("font-face", ), */
/* ("font-face-format", ), */
/* ("font-face-name", ), */
/* ("font-face-src", ), */
/* ("font-face-uri", ), */
/* ("foreignObject", ), */
("g", create_group, Default),
/* ("glyph", ), */
/* ("glyphRef", ), */
/* ("hkern", ), */
("image", create_image, Default),
("line", create_line, Default),
("linearGradient", create_linear_gradient, Default),
("marker", create_marker, Default),
("mask", create_mask, Default),
/* ("metadata", ), */
/* ("missing-glyph", ), */
/* ("mpath", ), */
/* ("multiImage", ), */
("path", create_path, Default),
("pattern", create_pattern, Default),
("polygon", create_polygon, Default),
("polyline", create_polyline, Default),
("radialGradient", create_radial_gradient, Default),
("rect", create_rect, Default),
/* ("script", ), */
/* ("set", ), */
("stop", create_stop, Default),
("style", create_style, IgnoreClass),
/* ("subImage", ), */
/* ("subImageRef", ), */
("svg", create_svg, Default),
("switch", create_switch, Default),
("symbol", create_symbol, Default),
("text", create_text, Default),
/* ("textPath", ), */
/* ("title", ), */
("tref", create_tref, Default),
("tspan", create_tspan, Default),
("use", create_use, Default),
/* ("view", ), */
/* ("vkern", ), */
];
creators_table.into_iter().map(|(n, c, f)| (n, (c, f))).collect()
});
#[cfg(ignore)]
mod sizes {
//! This module is in this file just because here we have all the imports.
use super::*;
macro_rules! print_size {
($ty:ty) => {
println!("sizeof {}: {}", stringify!($ty), mem::size_of::<$ty>());
};
}
pub fn print_sizes() {
use crate::properties::{ComputedValues, ParsedProperty, SpecifiedValues};
use std::mem;
print_size!(NodeData);
print_size!(Element);
print_size!(SpecifiedValues);
print_size!(ComputedValues);
print_size!(ParsedProperty);
print_size!(Circle);
print_size!(ClipPath);
print_size!(NonRendering);
print_size!(Ellipse);
print_size!(FeBlend);
print_size!(FeColorMatrix);
print_size!(FeComponentTransfer);
print_size!(FeFuncA);
print_size!(FeFuncB);
print_size!(FeFuncG);
print_size!(FeFuncR);
print_size!(FeComposite);
print_size!(FeConvolveMatrix);
print_size!(FeDiffuseLighting);
print_size!(FeDistantLight);
print_size!(FeDisplacementMap);
print_size!(FeFlood);
print_size!(FeGaussianBlur);
print_size!(FeImage);
print_size!(FeMerge);
print_size!(FeMergeNode);
print_size!(FeMorphology);
print_size!(FeOffset);
print_size!(FePointLight);
print_size!(FeSpecularLighting);
print_size!(FeSpotLight);
print_size!(FeTile);
print_size!(FeTurbulence);
print_size!(Filter);
print_size!(Group);
print_size!(Image);
print_size!(Line);
print_size!(LinearGradient);
print_size!(Link);
print_size!(Marker);
print_size!(Mask);
print_size!(NonRendering);
print_size!(Path);
print_size!(Pattern);
print_size!(Polygon);
print_size!(Polyline);
print_size!(RadialGradient);
print_size!(Rect);
print_size!(Stop);
print_size!(Style);
print_size!(Svg);
print_size!(Switch);
print_size!(Symbol);
print_size!(Text);
print_size!(TRef);
print_size!(TSpan);
print_size!(Use);
}
}
|
