This commit adds support for marking methods as `native`
in ActionScript classes defined in playerglobal. The
`build_playerglobal` now checks for native methods, and
generates Rust code linking them to a corresponding Rust
function definition in the codebase.
To test this functionality, I've reimplemented several
functions as native methods (and moved related code to
pure ActionScript).
This PR adds support for building a custom `playerglobal.swf`, which can be used
to implement builtin Flash classes in ActionScript. This file is embedded into Ruffle
using `include_bytes!`, and loaded during initialization.
As an example, the `Point` class is reimplemented
in ActionScript, and `flash.text.AntiAliasType` is added.
The ActionScript compilation process is performed by `core/build.rs`.
See that file, along with `core/src/avm2/globals/README.md`, for
more details.
This PR implements the `URLLoader` class, allowing AVM2 scripts
to load data from a URL. This requires several other related
classes (`URLLoaderDataFormat`, `URLRequest`, `IOError`) to be
implemented as well.
Currently implemented:
* Fetching from URLs using the 'navigator' backend
* The `text` and `binary` data formats (which store data
in a `String` or `ByteArray` respectively)
* The `open`, `complete`, and `ioError` events
* The `bytesLoaded`, `bytesTotal`, and `data` properties
Not yet implemented:
* The HTTP and security events
* All of the properties of `IOError`
* The properties on `URLRequest` (besides `url`)
* The "variables" data format
This should be enough to get some basic uses of `URLLoader` working
(e.g. simple GET requests to a particular website).
Note that in Flash's `playerglobal`, the `URLLoader` class is just
a think wrapper around the more general `URLStream`. However,
implementing `URLStream` will require changes to `Navigator``
to support notifications when data arrives in the stream. When
that happens, we should be able to re-use a large amount of the
code in this PR.
This re-uses the logic we have for handling AVM1's `ExternalInterface`.
For now, serialization/deserialization of non-array objects is
left unimplemented.
Fix various issues with `SoundChannel`:
* Change `avm2::Object::as_sound_instance` to `as_sound_channel`.
* Cache sound position in `SoundChannelObject`.
* `SoundInfo::in_sample` is in units of 44100Hz.
* Clamp `num_loops` to 1.
This is limited by the fact that we currently cannot store type metadata in static tables. I don't think it's necessary to do so as of yet as pretty much every actual parameter type I *could* shove in here turned out to be optional and broke tests if it wasn't. Still, it's probably useful enough for new classes to include.
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.
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.
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.
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.
This entirely abolishes the "global scope object" in AVM2. I even had to redefine several global object functions to work with the bottom of the scope stack, which seems to be where ASC likes to stick the script scope.
This is the same way that AVM1 actions run and it appears that frame scripts work exactly the same way. It fixes all outstanding bugs with movie clip navigation in AVM2 and allows me to remove a lot of weird workarounds I was writing for the old, incorrect behavior.
I'm also removing the "last run script frame" rule as `run_frame_internal` already had rules to prevent stopped clips from rerunning actions.