We're seeing an assertion in Page.appendNew fail because the node has a parent.
According to html5ever, this shouldn't be possible (appendNew is only called
from the Parser). BUT, it's possible we're mutating the node in a way that
we shouldn't...maybe there's JavaScript executing as we're parsing which is
mutating the node.
In release, this will be more defensive. In debug, this still crashes. It's
possible this is valid (like I said, maybe there's JS interleaved which is
mutating the node), but if so, I'd like to know the exact scenario that produces
this case.
Avoids having to allocate small strings when going from v8 -> Zig. Also
added a discriminatory type, string.Global which uses the arena, rather than
the call_arena, if an allocation _is_ necessary. (This is similar to a feature
we had before, but was lost in zigdom). Strings from v8 that need to be
persisted, can be allocated directly v8 -> arena, rather than v8 -> call_arena
-> arena.
I think there are a lot of places where we should use string.String - where
strings are expected to be short (e.g. attribute names). But started with just
document.querySelector and querySelectorAll.
Deciding what should be an lp.assert, vs an std.debug.assert, vs a debug-only
assert is a little arbitrary.
debug-only asserts, guarded with an `if (comptime IS_DEBUG)` obviously avoid the
check in release and thus have a performance advantage. We also use them at
library boundaries. If libcurl says it will always emit a header line with a
trailing \r\n, is that really a check we need to do in production? I don't think
so. First, that code path is checked _a lot_ in debug. Second, it feels a bit
like we're testing libcurl (in production!)..why? A debug-only assertion should
be good enough to catch any changes in libcurl.
When we create a js.Context, we create the underlying v8.Context and store it
for the duration of the page lifetime. This works because we have a global
HandleScope - the v8.Context (which is really a v8::Local<v8::Context>) is that
to the global HandleScope, effectively making it a global.
If we want to remove our global HandleScope, then we can no longer pin the
v8.Context in our js.Context. Our js.Context now only holds a v8.Global of the
v8.Context (v8::Global<v8::Context).
This PR introduces a new type, js.Local, which takes over a lot of the
functionality previously found in either js.Caller or js.Context. The simplest
way to think about it is:
1 - For v8 -> zig calls, we create a js.Caller (as always)
2 - For zig -> v8 calls, we go through the js.Context (as always)
3 - The shared functionality, which works on a v8.Context, now belongs to js.Local
For #1 (v8 -> zig), creating a js.Local for a js.Caller is really simple and
centralized. v8 largely gives us everything we need from the
FunctionCallbackInfo or PropertyCallbackInfo. For #2, it's messier, because we
can only create a local v8::Context if we have a HandleScope, which we may or
may not.
Unfortunately, in many cases, what to do becomes the responsibility of the caller
and much of the code has to become aware of this local-ness. What does it means
for our code? The impact is on WebAPIs that store .Global. Because the global
can't do anything. You always need to convert that .Global to a local
(e.g. js.Function.Global -> js.Function).
If you're 100% sure the WebAPI is only being invoked by a v8 callback, you can
use `page.js.local.?.toLocal(some_global).call(...)` to get the local value.
If you're 100% sure the WebAPI is only being invoked by Zig, you need to create
`js.Local.Scope` to get access to a local:
```zig
var ls: js.Local.Scope = undefined;
page.js.localScope(&ls);
defer ls.deinit();
ls.toLocal(some_global).call(...)
// can also access `&ls.local` for APIs that require a *const js.Local
```
For functions that can be invoked by either V8 or Zig, you should generally push
the responsibility to the caller by accepting a `local: *const js.Local`. If the
caller is a v8 callback, it can pass `page.js.local.?`. If the caller is a Zig
callback, it can create a `Local.Scope`.
As an alternative, it is possible to simply pass the *Page, and check
`if page.js.local == null` and, if so, create a Local.Scope. But this should only
be done for performance reasons. We currently only do this in 1 place, and it's
because the Zig caller doesn't know whether a Local will actually be needed and
it's potentially called on every element creating from the parser.
In order to uses less space and improve the readability.
zig fmt allows only 1 switch case per line or all in one line.
When having a lot of conditions, splitting the line is useful.
On CDP.BrowserContext.deinit, clear the isolated world ExecutionContext before
terminating the session. This is important as the isolated_world list is
allocated from the session.arena.
Also, semi-revert 63f1c85964. Before all this
we were running microtasks on ExecutionWorld.removeContext. That didn't seem
right (and I thought it was the original source of the bug). But, for the "real"
Page context, this is critical, since Microtasks can reference the Page object.
Since microTasks are isolation-level, it's possible for a microtasks for Page1
to execute after Page1 goes away (if we create a new page, Page2). This re-adds
the microtask "draining", but only for the Page (i.e. in Page.deinit).
