Previously, the LibWeb bindings generator would output multiple per
interface files like Prototype/Constructor/Namespace/GlobalMixin
depending on the contents of that IDL file.
This complicates the build system as it means that it does not know
what files will be generated without knowledge of the contents of that
IDL file.
Instead, for each IDL file only generate a single Bindings/<IDLFile>.h
and Bindings/<IDLFile>.cpp.
Previously, FontFace objects created via the JS and added to
`document.fonts` were stored in the FontFaceSet but never participated
in font matching during style resolution. We now store both
CSS-connected and JS-created font faces in a unified map on
`FontComputer`, keyed by family name, and include them all as
candidates in the font matching algorithm.
As FontFaces are added or removed from a FontFaceSet, and as they load
or fail, the FontFaceSet moves them between a few different lists, and
updates its loading/loaded status. In the spec, this is how the
FontFaceSet.[[ReadyPromise]] gets fulfilled: When the document has
finished loading and FontFaceSet.[[LoadingFonts]] is empty, it resolves
the promise.
To support this, FontFace now keeps a set of FontFaceSets that it is
contained in.
This lets us remove the non-spec resolve_ready_promise() call in
EventLoop which was sometimes triggering before any fonts had attempted
to load.
As noted, there's a spec issue with the ready promise: If nothing
modifies the document's fonts, then it would never resolve. My ad-hoc
fix is to also switch the FontFaceSet to the loaded state if it is
empty, which appears to solve the issues but is not ideal.
The spec requires us to follow the steps in FontFace::load() whenever a
font is loaded. The simplest way to do so, is to make that the only way
we load fonts. :^)
To support this, FontFace::load() uses its connected CSSFontFaceRule's
ParsedFontFace if it's available.
The 1 regression in generic-family-keywords-003.html seems to be a false
positive: we don't support the system-ui font keyword.
Previously we would just set the attributes to the serialized
descriptors, even if they were the empty string.
We now apply defaults when we have empty descriptors and apply parsing
logic from the various `set_*` methods (only applicable to `font-family`
so far where we now extract the value from either a string or a
custom-ident)
Fixes an issue in some css/css-shapes WPT tests where we weren't
properly matching fonts.
The spec states that updates to descriptors in a `@font-face` rule
should be reflected in the connected `FontFace`'s attributes.
Previously this was achieved by directly accessing those descriptors
when calling the attribute getters, but this has a couple of issues:
a) The changes are only reflected if we use the accessors (i.e.
`FontFace::family()` rather than `FontFace::m_family`) which isn't
the case everywhere
b) The changes aren't persisted after the `FontFace` is disconnected
from it's `CSSFontFaceRule`
To fix these issues we now reparse and store the `FontFace`'s attributes
whenever the `CSSFontFaceRule`'s descriptors change.
This also rearranges the code to follow the spec better: We create an
empty FontFace first and then fill it in, instead of creating it
fully-formed at the end.
Both `@supports` and `@font-face` need this. There may be some automatic
way of querying whether our renderer supports these, but I couldn't
figure it out, so here's a basic hard-coded list. I think the font-tech
list has false negatives, as I don't know enough about fonts to
determine what we support accurately.
Resulting in a massive rename across almost everywhere! Alongside the
namespace change, we now have the following names:
* JS::NonnullGCPtr -> GC::Ref
* JS::GCPtr -> GC::Ptr
* JS::HeapFunction -> GC::Function
* JS::CellImpl -> GC::Cell
* JS::Handle -> GC::Root