This is very wrong: Strictly speaking, we should not be instantiating anything that needs a scope when we install the trait. We just create a slot for it to go into. Script initializers are responsible for providing a scope stack to instantiate traits into.
This pushes a few more ancillary changes:
* `has_proto_in_chain` no longer checks interfaces (since it exists to serve `instanceof`, which does not respect them)
* Interfaces no longer live on prototypes. They now live on class constructors.
Because we have stuff running in early globals, we stlil need a more elaborate version of this function that *does* take `fn_proto`. We also can't pull `scope` from the activation since this gets called to install traits.
This also includes protections on `String` to prevent it from overwriting itself. All user-constructed primitive objects start out boxing `Value::Undefined` and future constructor implementations should check what's already been boxed before overwriting it with user arguments.
For various reasons, this is kind of incomplete:
1. We need to support native event subclasses, so we can't just pull one class from `activation` (yet).
2. We can't run native instance initializers without overwriting the native object.
I expect these to be fixed in a future PR where I start adding native event types.
This also makes it more difficult to accidentally build a class without calling it's initializer. Native/builtin class initializers should also be running now, too.
The only minor bit of jank is that we need a class initialized bit to flag classes we've already run, because our current lazy-init design for traits causes classes to be constructed twice. This is temporary and I intend to remove it along with lazy-init traits.
This effectively turns calling `ArrayObject`'s associated methods into an alternate constructor path. We even make sure to run instance initializers. You also no longer have to grab the `array` system constructor, so we get to remove that code.
Native initializers are a separate, parallel initialization chain intended for all object construction that is not directly triggered by `Op::Construct` and friends. This allows us to implement classes that cannot be directly constructed by user code, but can be constructed by native code or supercalled into from non-native.
All native object allocation in the project now pulls prototypes or constructors as necessary from the following sources:
* System prototype or constructor lists
* Instance `constr`s
This also resulted in the removal of a few unnecessary prototype accesses.
Fixes the `as3_virtual_properties` test, where the old approach would accidentally grab a `Getter` and then think there's no setter (there is, you just have to look further down the list).
This is a temporary fix for failing tests; it is invalid in the sense that attempting to grab loader events will now fail. We can't actually correctly init the loader without two planned changes:
1. Moving all object initialization into the object helper functions (e.g. `LoaderInfoObject::from_movie`)
2. A notion of "native-only" constructors separate from the existing constructor chain
Once those are in place, loaders should be proper event dispatchers again.
This also incurred a large number of ancillary changes, as it turns out nearly every native object is currently pulling a prototype and sticking it into an object. Right now, I have it instead pulling the constructor out of the prototype, but a future PR will also remove `system_prototypes` as well.
Other ancillary changes include:
* `Domain` now supports partial initialization to avoid an order-of-events issue. Accessing domain memory on a partially-initialized `Domain` will panic.
* `Domain` construction requires a full `activation` now, except for `global_scope` which needs to be initialized later with valid domain memory before user code runs.
* Pretty much every native object constructor now takes a proto/constr pair
* Trait lookup was rewritten to handle this. It's still buggy - seven tests don't work
* `TObject.construct` now actually does the full object construction dance. This allows `ClassObject` to implement the ES4 object construction pathway directly while `FunctionObject` maintains ES3 compatibility.
This is a tentative commit; there are still seven failing tests that I need to fix.
* The properties parameter is evaluated last. This is observable by
the order the `toString`/`valueOf` methods of the parameters are
called.
* Only `null` in the property list parameter configures all properties,
as opposed to `undefined`, `null`, numbers and booleans previously.
* Objects in the property list parameter are not handled specially.
Instead, they're also coerced to string and split by comma.
* Remove `buildProduction` as it was equivalent to `build`.
* Fix `build:avm_debug` and change it to `build:debug`, which also
disables Webpack optimizations.
Each function is reduced to just 3 opcodes on x86:
https://godbolt.org/z/n6q6zxnh6
WebAssembly benefits as well: https://godbolt.org/z/fcETE9GYn
This should improve load-time performance because read_f64_me is
used frequently (for each AVM1 double constant).
It seems that these two classes were totally equivalent, so simply
drop "active" and use only "menu_item".
Also, don't highlight disabled context menu items on hover.
i fully intended to press "run anyway" just to see what happened, and it was annoying that Ruffle took me to another page so i had to re-load the flash.. (from a page with 10 seconds worth of ads before playing the flash, even)