For SerenityOS, we parse emoji metadata from the UCD to learn emoji
groups, subgroups, names, etc. We used this information only in the
emoji picker dialog. It is entirely unused within Ladybird.
This removes our dependence on the UCD emoji file, as we no longer
need any of its information. All we need to know is the file path to
our custom emoji, which we get from Meta/emoji-file-list.txt.
To get away from the ancient (and buggy) text layout code in
Gfx::Painter, we want to remove all the uses of Painter::draw_text().
As a first step towards this, we implement the draw_text() display list
command in terms of the draw_text_run() command by performing the very
simple necessary layout in draw_text() beforehand.
The location bar URL is no longer hidden when creating a new tab or
opening a new window that has an associated URL. Conversely, the
location bar is now always focused and the URL hidden when creating a
window or tab without an associated URL.
The location bar is focused when:
* Opening the browser from the command line with no URL arguments
* Opening a new tab (Ctrl+T)
* Opening a new window (Ctrl+N)
The location bar is not focused when:
* Opening the browser from the command line with one or more URLs
* Opening hyperlinks in a new tab
* Clicking a hyperlink with `target="_blank"`
This matches the behavior of other major browsers.
Our current segmenter implementation lives in LibUnicode, and is not
locale-aware. We will need such awareness for ECMA-402, and so LibLocale
will be the new home for text segmentation.
The tests here are ported directly from LibUnicode/TestSegmentation.cpp.
There are a couple of differences here due to using ICU:
1. Titlecasing behaves slightly differently. We previously transformed
"123dollars" to "123Dollars", as we would use word segmentation to
split a string into words, then transform the first cased character
to titlecase. ICU doesn't go quite that far, and leaves the string
as "123dollars". While this is a behavior change, the only user of
this API is the `text-transform: capitalize;` CSS rule, and we now
match the behavior of other browsers.
2. There isn't an API to compare strings with case insensitivity without
allocating case-folded strings for both the left- and right-hand-side
strings. Our implementation was previously allocation-free; however,
in a benchmark, ICU is still ~1.4x faster.
Find in page will no longer match text that spans across block elements.
Previously, given the markup `WH<div>F</div>`, the query `WHF` would
find a match. We would now match `WH` and `F` separately, but not `WHF`.
When resuming execution of a suspended function, we must not overwrite
any cached `this` value with something from the ExecutionContext.
This was causing an empty JS::Value to leak into the VM when resuming
an async arrow function, since the "this mode" for such functions is
lexical and thus ExecutionContext will have an empty `this`.
It became a problem due to the bytecode optimization where we allow
ourselves to assume that `this` remains cached after we've executed a
ResolveThisBinding in this (or the first) basic block of the executable.
Fixes https://github.com/LadybirdBrowser/ladybird/issues/138
Apple Clang doesn't like this, rather than waiting for their version of
random-clang-commit-to-call-a-release to catch up with llvm trunk, just
work around the issue.
Fixes#186.
This just allows using the ICU header within LibUnicode, without having
to link against LibLocale.
Eventually, I think it will make sense to combine LibUnicode & LibLocale
back into a single library. They were separated to remove the large CLDR
data library from LibUnicode since most users did not need it. But that
is not much of a concern now.
There have been a number of changes to the locale resolution AOs that
we've fallen behind on. Mostly editorial, but includes one normative
change to canonicalize Unicode extension keywords in the Intl.Locale
constructor.
Instead of taking an out-parameter, return the canonicalization result.
This allows the API to be used where specs want to store the result and
the original values in separate variables.
This change introduces Skia painter available under a flag. It's not
yet match capabilities of Gfx::Painter and is not ready to replace it.
Motivation:
- The current CPU painter is a performance bottleneck on most websites.
Our own GPU painter implementation is very immature and has received
relatively little attention.
- There is ongoing effort on building painter that supports affine
transforms (AffineCommandExecutorCPU) but it is far from being on par
with the default CPU painter. Skia will allow us to immediately get
full transformation support for all painting commands.
GPU painting:
I experimented with Ganesh GPU-backend, however profiling revealed that
without sharing viewport texture between WebContent and Browser
processes, it won't bring much performance improvement compared to
CPU-backend. Therefore, I decided to keep this PR focused on
implementing most of painting commands and switch to GPU-backend in
future changes.
Text rendring:
Skia painter uses glyph bitmaps produced by LibGfx. Using Skia for text
rendering will require large refactoring of the font rendering
subsystem. Currently, it's impossible to construct SkFont right before
rendering because Gfx::VectorFont can't be serialized back into sequence
of bytes.
There is a problem with ugly include paths like:
`#include <core/SkBitmap.h>`.
I would prefer to have skia prefix in the path. There was an attempt to
fix that but PR was rejected https://github.com/microsoft/vcpkg/pull/32660
Regressions compared to Gfx::Painter:
- DrawText is not implemented
- PaintTextShadow is not implemented
- PaintRadialGradient and PaintLinearGradient do not support "transition
hints" and repeat length
- PaintConicGradient is not implemented
- DrawTriangleWave is not implemented
- DrawLine does not account for line style property
- DrawScaledBitmap and DrawScaledImmutableBitmap do not account for
scaling mode property
