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servo/components/layout_2020/replaced.rs
Oriol Brufau 057dd1e9eb
Make ComputedValuesExt expose keywords for the sizing properties (#33558) 
This will allow callers to start obeying `min-content`, `max-content`,
`fit-content` and `stretch` in follow-up patches.
The old functionality is kept as deprecated methods that we should
eventually remove.
This patch has very little impact on the existing behavior, just some
very minimal implementation of the keywords for css tables.

This also overhauls fixed-layout-2.html since:
 - It had code that wasn't doing anything
 - It had wrong expecations in prose
 - The logic seemed broken in general
 - All browsers were failing one testcase

Signed-off-by: Oriol Brufau <obrufau@igalia.com>
2024-09-27 17:16:07 +00:00

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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at https://mozilla.org/MPL/2.0/. */
use std::fmt;
use std::sync::{Arc, Mutex};
use app_units::Au;
use base::id::{BrowsingContextId, PipelineId};
use canvas_traits::canvas::{CanvasId, CanvasMsg, FromLayoutMsg};
use data_url::DataUrl;
use ipc_channel::ipc::{self, IpcSender};
use net_traits::image_cache::{ImageOrMetadataAvailable, UsePlaceholder};
use pixels::Image;
use serde::Serialize;
use servo_arc::Arc as ServoArc;
use style::computed_values::object_fit::T as ObjectFit;
use style::logical_geometry::Direction;
use style::properties::ComputedValues;
use style::servo::url::ComputedUrl;
use style::values::computed::image::Image as ComputedImage;
use style::values::generics::length::GenericLengthPercentageOrAuto;
use style::values::CSSFloat;
use style::Zero;
use url::Url;
use webrender_api::ImageKey;
use crate::context::LayoutContext;
use crate::dom::NodeExt;
use crate::fragment_tree::{BaseFragmentInfo, Fragment, IFrameFragment, ImageFragment};
use crate::geom::{LogicalVec2, PhysicalPoint, PhysicalRect, PhysicalSize};
use crate::sizing::ContentSizes;
use crate::style_ext::{AspectRatio, Clamp, ComputedValuesExt, PaddingBorderMargin};
use crate::{AuOrAuto, ContainingBlock, IndefiniteContainingBlock};
#[derive(Debug, Serialize)]
pub(crate) struct ReplacedContent {
pub kind: ReplacedContentKind,
natural_size: NaturalSizes,
base_fragment_info: BaseFragmentInfo,
}
/// The natural dimensions of a replaced element, including a height, width, and
/// aspect ratio.
///
/// * Raster images always have an natural width and height, with 1 image pixel = 1px.
/// The natural ratio should be based on dividing those.
/// See <https://github.com/w3c/csswg-drafts/issues/4572> for the case where either is zero.
/// PNG specifically disallows this but I (SimonSapin) am not sure about other formats.
///
/// * Form controls have both natural width and height **but no natural ratio**.
/// See <https://github.com/w3c/csswg-drafts/issues/1044> and
/// <https://drafts.csswg.org/css-images/#natural-dimensions> “In general, […]”
///
/// * For SVG, see <https://svgwg.org/svg2-draft/coords.html#SizingSVGInCSS>
/// and again <https://github.com/w3c/csswg-drafts/issues/4572>.
///
/// * IFrames do not have natural width and height or natural ratio according
/// to <https://drafts.csswg.org/css-images/#intrinsic-dimensions>.
#[derive(Debug, Serialize)]
pub(crate) struct NaturalSizes {
pub width: Option<Au>,
pub height: Option<Au>,
pub ratio: Option<CSSFloat>,
}
impl NaturalSizes {
pub(crate) fn from_width_and_height(width: f32, height: f32) -> Self {
// https://drafts.csswg.org/css-images/#natural-aspect-ratio:
// "If an object has a degenerate natural aspect ratio (at least one part being
// zero or infinity), it is treated as having no natural aspect ratio.""
let ratio = if width.is_normal() && height.is_normal() {
Some(width / height)
} else {
None
};
Self {
width: Some(Au::from_f32_px(width)),
height: Some(Au::from_f32_px(height)),
ratio,
}
}
pub(crate) fn empty() -> Self {
Self {
width: None,
height: None,
ratio: None,
}
}
}
#[derive(Serialize)]
pub(crate) enum CanvasSource {
WebGL(ImageKey),
Image(Arc<Mutex<IpcSender<CanvasMsg>>>),
WebGPU(ImageKey),
/// transparent black
Empty,
}
impl fmt::Debug for CanvasSource {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(
f,
"{}",
match *self {
CanvasSource::WebGL(_) => "WebGL",
CanvasSource::Image(_) => "Image",
CanvasSource::WebGPU(_) => "WebGPU",
CanvasSource::Empty => "Empty",
}
)
}
}
#[derive(Debug, Serialize)]
pub(crate) struct CanvasInfo {
pub source: CanvasSource,
pub canvas_id: CanvasId,
}
#[derive(Debug, Serialize)]
pub(crate) struct IFrameInfo {
pub pipeline_id: PipelineId,
pub browsing_context_id: BrowsingContextId,
}
#[derive(Debug, Serialize)]
pub(crate) struct VideoInfo {
pub image_key: webrender_api::ImageKey,
}
#[derive(Debug, Serialize)]
pub(crate) enum ReplacedContentKind {
Image(Option<Arc<Image>>),
IFrame(IFrameInfo),
Canvas(CanvasInfo),
Video(VideoInfo),
}
impl ReplacedContent {
pub fn for_element<'dom>(element: impl NodeExt<'dom>, context: &LayoutContext) -> Option<Self> {
if let Some(ref data_attribute_string) = element.as_typeless_object_with_data_attribute() {
if let Some(url) = try_to_parse_image_data_url(data_attribute_string) {
return Self::from_image_url(
element,
context,
&ComputedUrl::Valid(ServoArc::new(url)),
);
}
}
let (kind, natural_size_in_dots) = {
if let Some((image, natural_size_in_dots)) = element.as_image() {
(
ReplacedContentKind::Image(image),
Some(natural_size_in_dots),
)
} else if let Some((canvas_info, natural_size_in_dots)) = element.as_canvas() {
(
ReplacedContentKind::Canvas(canvas_info),
Some(natural_size_in_dots),
)
} else if let Some((pipeline_id, browsing_context_id)) = element.as_iframe() {
(
ReplacedContentKind::IFrame(IFrameInfo {
pipeline_id,
browsing_context_id,
}),
None,
)
} else if let Some((image_key, natural_size_in_dots)) = element.as_video() {
(
ReplacedContentKind::Video(VideoInfo { image_key }),
Some(natural_size_in_dots),
)
} else {
return None;
}
};
let natural_size =
natural_size_in_dots.map_or_else(NaturalSizes::empty, |naturalc_size_in_dots| {
// FIXME: should 'image-resolution' (when implemented) be used *instead* of
// `script::dom::htmlimageelement::ImageRequest::current_pixel_density`?
// https://drafts.csswg.org/css-images-4/#the-image-resolution
let dppx = 1.0;
let width = (naturalc_size_in_dots.width as CSSFloat) / dppx;
let height = (naturalc_size_in_dots.height as CSSFloat) / dppx;
NaturalSizes::from_width_and_height(width, height)
});
let base_fragment_info = BaseFragmentInfo::new_for_node(element.opaque());
Some(Self {
kind,
natural_size,
base_fragment_info,
})
}
pub fn from_image_url<'dom>(
element: impl NodeExt<'dom>,
context: &LayoutContext,
image_url: &ComputedUrl,
) -> Option<Self> {
if let ComputedUrl::Valid(image_url) = image_url {
let (image, width, height) = match context.get_or_request_image_or_meta(
element.opaque(),
image_url.clone().into(),
UsePlaceholder::No,
) {
Some(ImageOrMetadataAvailable::ImageAvailable { image, .. }) => {
(Some(image.clone()), image.width as f32, image.height as f32)
},
Some(ImageOrMetadataAvailable::MetadataAvailable(metadata)) => {
(None, metadata.width as f32, metadata.height as f32)
},
None => return None,
};
return Some(Self {
kind: ReplacedContentKind::Image(image),
natural_size: NaturalSizes::from_width_and_height(width, height),
base_fragment_info: BaseFragmentInfo::new_for_node(element.opaque()),
});
}
None
}
pub fn from_image<'dom>(
element: impl NodeExt<'dom>,
context: &LayoutContext,
image: &ComputedImage,
) -> Option<Self> {
match image {
ComputedImage::Url(image_url) => Self::from_image_url(element, context, image_url),
_ => None, // TODO
}
}
fn flow_relative_intrinsic_size(&self, style: &ComputedValues) -> LogicalVec2<Option<Au>> {
let intrinsic_size = PhysicalSize::new(self.natural_size.width, self.natural_size.height);
LogicalVec2::from_physical_size(&intrinsic_size, style.writing_mode)
}
fn inline_size_over_block_size_intrinsic_ratio(
&self,
style: &ComputedValues,
) -> Option<CSSFloat> {
self.natural_size.ratio.map(|width_over_height| {
if style.writing_mode.is_vertical() {
1. / width_over_height
} else {
width_over_height
}
})
}
pub fn inline_content_sizes(
&self,
_: &LayoutContext,
containing_block_for_children: &IndefiniteContainingBlock,
preferred_aspect_ratio: Option<AspectRatio>,
) -> ContentSizes {
// FIXME: min/max-content of replaced elements is not defined in
// https://dbaron.org/css/intrinsic/
// This seems sensible?
let block_size = containing_block_for_children.size.block;
let inline_size = match (block_size, preferred_aspect_ratio) {
(AuOrAuto::LengthPercentage(block_size), Some(ratio)) => {
ratio.compute_dependent_size(Direction::Inline, block_size)
},
_ => self
.flow_relative_intrinsic_size(containing_block_for_children.style)
.inline
.unwrap_or_else(Au::zero),
};
inline_size.into()
}
pub fn make_fragments(
&self,
style: &ServoArc<ComputedValues>,
containing_block: &ContainingBlock,
size: PhysicalSize<Au>,
) -> Vec<Fragment> {
let aspect_ratio = self.preferred_aspect_ratio(&containing_block.into(), style);
let natural_size = PhysicalSize::new(
self.natural_size.width.unwrap_or(size.width),
self.natural_size.height.unwrap_or(size.height),
);
let object_fit_size = aspect_ratio.map_or(size, |aspect_ratio| {
let preserve_aspect_ratio_with_comparison =
|size: PhysicalSize<Au>, comparison: fn(&Au, &Au) -> bool| {
let (width_axis, height_axis) = if style.writing_mode.is_horizontal() {
(Direction::Inline, Direction::Block)
} else {
(Direction::Block, Direction::Inline)
};
let candidate_width =
aspect_ratio.compute_dependent_size(width_axis, size.height);
if comparison(&candidate_width, &size.width) {
return PhysicalSize::new(candidate_width, size.height);
}
let candidate_height =
aspect_ratio.compute_dependent_size(height_axis, size.width);
debug_assert!(comparison(&candidate_height, &size.height));
PhysicalSize::new(size.width, candidate_height)
};
match style.clone_object_fit() {
ObjectFit::Fill => size,
ObjectFit::Contain => preserve_aspect_ratio_with_comparison(size, PartialOrd::le),
ObjectFit::Cover => preserve_aspect_ratio_with_comparison(size, PartialOrd::ge),
ObjectFit::None => natural_size,
ObjectFit::ScaleDown => {
preserve_aspect_ratio_with_comparison(size.min(natural_size), PartialOrd::le)
},
}
});
let object_position = style.clone_object_position();
let horizontal_position = object_position
.horizontal
.to_used_value(size.width - object_fit_size.width);
let vertical_position = object_position
.vertical
.to_used_value(size.height - object_fit_size.height);
let rect = PhysicalRect::new(
PhysicalPoint::new(horizontal_position, vertical_position),
object_fit_size,
);
let clip = PhysicalRect::new(PhysicalPoint::origin(), size);
match &self.kind {
ReplacedContentKind::Image(image) => image
.as_ref()
.and_then(|image| image.id)
.map(|image_key| {
Fragment::Image(ImageFragment {
base: self.base_fragment_info.into(),
style: style.clone(),
rect,
clip,
image_key,
})
})
.into_iter()
.collect(),
ReplacedContentKind::Video(video) => vec![Fragment::Image(ImageFragment {
base: self.base_fragment_info.into(),
style: style.clone(),
rect,
clip,
image_key: video.image_key,
})],
ReplacedContentKind::IFrame(iframe) => {
vec![Fragment::IFrame(IFrameFragment {
base: self.base_fragment_info.into(),
style: style.clone(),
pipeline_id: iframe.pipeline_id,
browsing_context_id: iframe.browsing_context_id,
rect,
})]
},
ReplacedContentKind::Canvas(canvas_info) => {
if self.natural_size.width == Some(Au::zero()) ||
self.natural_size.height == Some(Au::zero())
{
return vec![];
}
let image_key = match canvas_info.source {
CanvasSource::WebGL(image_key) => image_key,
CanvasSource::WebGPU(image_key) => image_key,
CanvasSource::Image(ref ipc_renderer) => {
let ipc_renderer = ipc_renderer.lock().unwrap();
let (sender, receiver) = ipc::channel().unwrap();
ipc_renderer
.send(CanvasMsg::FromLayout(
FromLayoutMsg::SendData(sender),
canvas_info.canvas_id,
))
.unwrap();
receiver.recv().unwrap().image_key
},
CanvasSource::Empty => return vec![],
};
vec![Fragment::Image(ImageFragment {
base: self.base_fragment_info.into(),
style: style.clone(),
rect,
clip,
image_key,
})]
},
}
}
pub(crate) fn preferred_aspect_ratio(
&self,
containing_block: &IndefiniteContainingBlock,
style: &ComputedValues,
) -> Option<AspectRatio> {
style.preferred_aspect_ratio(
self.inline_size_over_block_size_intrinsic_ratio(style),
containing_block.try_into().ok().as_ref(),
containing_block.style.writing_mode,
)
}
/// <https://drafts.csswg.org/css2/visudet.html#inline-replaced-width>
/// <https://drafts.csswg.org/css2/visudet.html#inline-replaced-height>
///
/// Also used in other cases, for example
/// <https://drafts.csswg.org/css2/visudet.html#block-replaced-width>
pub(crate) fn used_size_as_if_inline_element(
&self,
containing_block: &ContainingBlock,
style: &ComputedValues,
pbm: &PaddingBorderMargin,
) -> LogicalVec2<Au> {
let box_size = style
.content_box_size_deprecated(containing_block, pbm)
// We need to clamp to zero here to obtain the proper aspect
// ratio when box-sizing is border-box and the inner box size
// would otherwise be negative.
.map(|value| value.map(|value| value.max(Au::zero())));
let min_box_size = style
.content_min_box_size_deprecated(containing_block, pbm)
.auto_is(Au::zero);
let max_box_size = style.content_max_box_size_deprecated(containing_block, pbm);
self.used_size_as_if_inline_element_from_content_box_sizes(
containing_block,
style,
box_size,
min_box_size,
max_box_size,
)
}
/// <https://drafts.csswg.org/css2/visudet.html#inline-replaced-width>
/// <https://drafts.csswg.org/css2/visudet.html#inline-replaced-height>
///
/// Also used in other cases, for example
/// <https://drafts.csswg.org/css2/visudet.html#block-replaced-width>
pub(crate) fn used_size_as_if_inline_element_from_content_box_sizes(
&self,
containing_block: &ContainingBlock,
style: &ComputedValues,
box_size: LogicalVec2<AuOrAuto>,
min_box_size: LogicalVec2<Au>,
max_box_size: LogicalVec2<Option<Au>>,
) -> LogicalVec2<Au> {
let mode = style.writing_mode;
let intrinsic_size = self.flow_relative_intrinsic_size(style);
let intrinsic_ratio = self.preferred_aspect_ratio(&containing_block.into(), style);
let default_object_size = || {
// FIXME:
// https://drafts.csswg.org/css-images/#default-object-size
// “If 300px is too wide to fit the device, UAs should use the width of
// the largest rectangle that has a 2:1 ratio and fits the device instead.”
// “height of the largest rectangle that has a 2:1 ratio, has a height not greater
// than 150px, and has a width not greater than the device width.”
LogicalVec2::from_physical_size(
&PhysicalSize::new(Au::from_px(300), Au::from_px(150)),
mode,
)
};
let get_tentative_size = |LogicalVec2 { inline, block }| -> LogicalVec2<Au> {
match (inline, block) {
(AuOrAuto::LengthPercentage(inline), AuOrAuto::LengthPercentage(block)) => {
LogicalVec2 { inline, block }
},
(AuOrAuto::LengthPercentage(inline), AuOrAuto::Auto) => {
let block = if let Some(ratio) = intrinsic_ratio {
ratio.compute_dependent_size(Direction::Block, inline)
} else if let Some(block) = intrinsic_size.block {
block
} else {
default_object_size().block
};
LogicalVec2 { inline, block }
},
(AuOrAuto::Auto, AuOrAuto::LengthPercentage(block)) => {
let inline = if let Some(ratio) = intrinsic_ratio {
ratio.compute_dependent_size(Direction::Inline, block)
} else if let Some(inline) = intrinsic_size.inline {
inline
} else {
default_object_size().inline
};
LogicalVec2 { inline, block }
},
(AuOrAuto::Auto, AuOrAuto::Auto) => {
let inline_size =
match (intrinsic_size.inline, intrinsic_size.block, intrinsic_ratio) {
(Some(inline), _, _) => inline,
(None, Some(block), Some(ratio)) => {
// “used height” in CSS 2 is always gonna be the intrinsic one,
// since it is available.
ratio.compute_dependent_size(Direction::Inline, block)
},
// FIXME
//
// “If 'height' and 'width' both have computed values of 'auto'
// and the element has an intrinsic ratio but no intrinsic height or width,
// […]”
//
// In this `match` expression this would be an additional arm here:
//
// ```
// (Vec2 { inline: None, block: None }, Some(_)) => {…}
// ```
//
// “[…] then the used value of 'width' is undefined in CSS 2.
// However, it is suggested that, if the containing block's width
// does not itself depend on the replaced element's width,
// then the used value of 'width' is calculated from the constraint
// equation used for block-level, non-replaced elements in normal flow.”
_ => default_object_size().inline,
};
let block_size = if let Some(block) = intrinsic_size.block {
block
} else if let Some(ratio) = intrinsic_ratio {
// “used width” in CSS 2 is what we just computed above
ratio.compute_dependent_size(Direction::Block, inline_size)
} else {
default_object_size().block
};
LogicalVec2 {
inline: inline_size,
block: block_size,
}
},
}
};
// https://drafts.csswg.org/css2/visudet.html#min-max-widths
// “However, for replaced elements with an intrinsic ratio and both
// 'width' and 'height' specified as 'auto', the algorithm is as follows”
if let (AuOrAuto::Auto, AuOrAuto::Auto, Some(ratio)) =
(box_size.inline, box_size.block, intrinsic_ratio)
{
let LogicalVec2 {
inline: inline_size,
block: block_size,
} = get_tentative_size(box_size);
enum Violation {
None,
Below(Au),
Above(Au),
}
let violation = |size: Au, min_size: Au, mut max_size: Option<Au>| {
if let Some(max) = max_size.as_mut() {
max.max_assign(min_size);
}
if size < min_size {
return Violation::Below(min_size);
}
match max_size {
Some(max_size) if size > max_size => Violation::Above(max_size),
_ => Violation::None,
}
};
return match (
violation(inline_size, min_box_size.inline, max_box_size.inline),
violation(block_size, min_box_size.block, max_box_size.block),
) {
// Row 1.
(Violation::None, Violation::None) => LogicalVec2 {
inline: inline_size,
block: block_size,
},
// Row 2.
(Violation::Above(max_inline_size), Violation::None) => LogicalVec2 {
inline: max_inline_size,
block: ratio
.compute_dependent_size(Direction::Block, max_inline_size)
.max(min_box_size.block),
},
// Row 3.
(Violation::Below(min_inline_size), Violation::None) => LogicalVec2 {
inline: min_inline_size,
block: ratio
.compute_dependent_size(Direction::Block, min_inline_size)
.clamp_below_max(max_box_size.block),
},
// Row 4.
(Violation::None, Violation::Above(max_block_size)) => LogicalVec2 {
inline: ratio
.compute_dependent_size(Direction::Inline, max_block_size)
.max(min_box_size.inline),
block: max_block_size,
},
// Row 5.
(Violation::None, Violation::Below(min_block_size)) => LogicalVec2 {
inline: ratio
.compute_dependent_size(Direction::Inline, min_block_size)
.clamp_below_max(max_box_size.inline),
block: min_block_size,
},
// Rows 6-7.
(Violation::Above(max_inline_size), Violation::Above(max_block_size)) => {
if max_inline_size.0 * block_size.0 <= max_block_size.0 * inline_size.0 {
// Row 6.
LogicalVec2 {
inline: max_inline_size,
block: ratio
.compute_dependent_size(Direction::Block, max_inline_size)
.max(min_box_size.block),
}
} else {
// Row 7.
LogicalVec2 {
inline: ratio
.compute_dependent_size(Direction::Inline, max_block_size)
.max(min_box_size.inline),
block: max_block_size,
}
}
},
// Rows 8-9.
(Violation::Below(min_inline_size), Violation::Below(min_block_size)) => {
if min_inline_size.0 * block_size.0 <= min_block_size.0 * inline_size.0 {
// Row 8.
LogicalVec2 {
inline: ratio
.compute_dependent_size(Direction::Inline, min_block_size)
.clamp_below_max(max_box_size.inline),
block: min_block_size,
}
} else {
// Row 9.
LogicalVec2 {
inline: min_inline_size,
block: ratio
.compute_dependent_size(Direction::Block, min_inline_size)
.clamp_below_max(max_box_size.block),
}
}
},
// Row 10.
(Violation::Below(min_inline_size), Violation::Above(max_block_size)) => {
LogicalVec2 {
inline: min_inline_size,
block: max_block_size,
}
},
// Row 11.
(Violation::Above(max_inline_size), Violation::Below(min_block_size)) => {
LogicalVec2 {
inline: max_inline_size,
block: min_block_size,
}
},
};
}
// https://drafts.csswg.org/css2/#min-max-widths "The following algorithm describes how the two properties
// influence the used value of the width property:
//
// 1. The tentative used width is calculated (without min-width and max-width) following the rules under
// "Calculating widths and margins" above.
// 2. If the tentative used width is greater than max-width, the rules above are applied again, but this time
// using the computed value of max-width as the computed value for width.
// 3. If the resulting width is smaller than min-width, the rules above are applied again, but this time using
// the value of min-width as the computed value for width."
let mut tentative_size = get_tentative_size(box_size);
// Create an inline/block size vector from the given clamped inline and block sizes if they are provided,
// falling back to the regular box size if they are not
let size_from_maybe_clamped =
|(clamped_inline, clamped_block): (Option<Au>, Option<Au>)| {
let clamped_inline = clamped_inline
.map(GenericLengthPercentageOrAuto::LengthPercentage)
.unwrap_or(box_size.inline);
let clamped_block = clamped_block
.map(GenericLengthPercentageOrAuto::LengthPercentage)
.unwrap_or(box_size.block);
LogicalVec2 {
inline: clamped_inline,
block: clamped_block,
}
};
let clamped_max = (
max_box_size
.inline
.filter(|max_inline_size| tentative_size.inline > *max_inline_size),
max_box_size
.block
.filter(|max_block_size| tentative_size.block > *max_block_size),
);
if clamped_max.0.is_some() || clamped_max.1.is_some() {
tentative_size = get_tentative_size(size_from_maybe_clamped(clamped_max));
}
let clamped_min = (
Some(min_box_size.inline)
.filter(|min_inline_size| tentative_size.inline < *min_inline_size),
Some(min_box_size.block)
.filter(|min_block_size| tentative_size.block < *min_block_size),
);
if clamped_min.0.is_some() || clamped_min.1.is_some() {
tentative_size = get_tentative_size(size_from_maybe_clamped(clamped_min));
}
tentative_size
}
}
fn try_to_parse_image_data_url(string: &str) -> Option<Url> {
if !string.starts_with("data:") {
return None;
}
let data_url = DataUrl::process(string).ok()?;
let mime_type = data_url.mime_type();
if mime_type.type_ != "image" {
return None;
}
// TODO: Find a better way to test for supported image formats. Currently this type of check is
// repeated several places in Servo, but should be centralized somehow.
if !matches!(
mime_type.subtype.as_str(),
"png" | "jpeg" | "gif" | "webp" | "bmp" | "ico"
) {
return None;
}
Url::parse(string).ok()
}
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