For example, on https://html.spec.whatwg.org, there are hundreds of
thousands of nodes. This method is invoked as each node is inserted.
Traversing the entire tree each time takes a prohibitively long time,
so let's bail early when we know the operation is a no-op.
Errantly copied the variable name from the spec. The `node` variable in
this scope is what we passed to Node::insert_before; `node_to_insert` is
what the spec is actually referring to as `node` here.
This kills 2 birds with one stone:
1. It makes sure generated check_exception() calls in the finalizer
don't mis-read the pending exception as caused by their matching
operation.
2. It implicitly ensures that terminated finally blocks (by a return
statement) overwrite any pending exceptions, since they will never
execute the ContinuePendingUnwind operation that restores the
stashed exception.
This additional logic is required in the JIT (as opposed to the
interpreter), since the JIT uses the exception register to store and
check the possibly-exceptional results from each individual operation,
while the interpreter only modifies it when an operation has thrown an
exception.
This reverts commit 0daebef727.
Finally blocks do not unconditionally swallow pending exceptions.
This resolves#21759 and fixes the 2 remaining failing test-js tests.
Previously, we tried to store `VariableInfo` to `ModelIndex` internal
data, but accidently stored address of wrapper class `NonnullOwnPtr`.
When we retrieved it later in `VariablesModel::data()` it made
program to crash.
This allows us to run debug normally after setting any break point in
`HackStudio`.
We can now just unveil the /dev/beep device node, as well as to restrict
the utility functionality for rpath, wpath & stdio related syscalls only
because we don't actually need anything else.
There's no need to have separate syscall for this kind of functionality,
as we can just have a device node in /dev, called "beep", that allows
writing tone generation packets to emulate the same behavior.
In addition to that, we remove LibC sysbeep function, as this function
was never being used by any C program nor it was standardized in any
way.
Instead, we move the userspace implementation to LibCore.
If Interpreter::run_and_return_frame is called with a specific entry
point we now map that to a native instruction address, which the JIT
code jumps to after the function prologue.
Before this change, we were doing it after every layout, which meant
that already-propagated overflow could be propagated again, which led to
incorrect scrolling behavior.
This avoids the O(n) walk of element attributes, although there is still
a huge space for improvement here if we start keeping a lookup cache for
elements-by-ID.
The old name was pretty confusing, since it had nothing to do with the
common "id" content attribute.
This makes way for using id() to return the "id" attribute instead. :^)
We were trying to stringify the stack trace without the last element,
leading to a loop bound of (size_t)(0 - 1) and accessing m_traceback[0]
out-of-bounds.
Instead, just return an empty string in that case.
Fixes#21747
We don't need to make a list of the target node's ancestors before
iterating over them, since nothing happens while iterating them that
can disturb the list anyway (no arbitrary JS execution etc).
The incessant construction and destruction of handles here was showing
up in profiles of basically every website that uses JavaScript to build
some or all of their DOM tree.
In the upcoming changes, Painter will be used to store the state of
OpenGL context. For example, if Painter is aware of the shader that
have already been loaded, it will be possible to reuse them across
repaints. Also, it would be possible to manage state of loaded textures
and add/remove them depending on which ones are present in the next
sequence of painting commands.
The previous implementation was calling `backtrace()` for every
function call, which is quite slow.
Instead, this implementation provides VM::stack_trace() which unwinds
the native stack, maps it through NativeExecutable::get_source_range
and combines it with source ranges from interpreted call frames.
Flip the order from save-registers,enter and leave,restore-registers
to enter,save-register and restore-registers,leave.
This way the return address is next to the saved frame pointer like
unwinding routines expect.
Previously these handlers duplicated code and used formats that
were different from the one Error.prototype.stack uses.
Now they use the same Error::stack_string function, which accepts
a new parameter for compacting stack traces with repeating frames.
Instead of relying on AK_OS_LINUX, actually use the more accurate
HAS_ACCELERATED_GRAPHICS define to figure out if we should try to use
the generic LibAccelGfx GPU painter.
CalRGBColorSpace::color() converts into a flat xyz space,
which already takes input whitepoint into account.
It shouldn't be taken into account again when converting from
the flat color space to D65.
