The 'charCode' and 'keyCode' properties are now implemented
on `KeyboardEvent`
The input injection code we use does not support keyboard events,
so we can't yet write a regression test for this. However,
both 'You need to burn the rope' and 'This is the Only Level TOO'
now properly handle keyboard events with this PR.
Declare `NaN`, `Infinity` and `undefined` in ActionScript, similarly
to how `avmplus` does in its `actionscript.lang.as`.
Note that `null` is only removed, without an ActionScript declaration,
as it seems like `avmplus` neither declares it. Probably `null` is
only usable as a compile-time constant.
Extract `swf::Reader::read_do_abc()` which, as the name suggests,
reads a `DoAbc` tag, and use it before calling to `Avm2::load_abc`.
Finally, introduce `DoAbcFlag` using `bitflags`.
This greatly simplifies the ABC loading code.
This PR implements the `Loader.load` method, as well as
the associated `LoaderInfo` properties and events.
We can now load in an external AVM2 SWf: it will be added
as a child of `Loader` object, and will render properly
to the screen.
Limitations:
* The only supported `URLRequest` property is `url`
* `LoaderContext` is not supported at all - we always use the default
behavior
* Only `Loader.load` is implemented - we do not yet support unloading.
* We fire a plain 'Event' for the 'progress' event, instead of using
the (not yet implemented) 'ProgressEvent' class
The main changes in this PR are:
* The AVM2 `Loader` class now has an associated display object,
`LoaderDisplay`. This is basically a stub, and just renders
its single child (if it exists).
* `LoaderStream::Stage` is renamed to `LoaderStream::NotYetLoaded`.
This is used for both the `Stage` and an 'uninitialized'
`Loader.contentLoaderInfo`. In both cases, certain properties throw
errors, while others return actual values.
* The rust `Loader` manager now handles both AVM1 and AVM2 movie loads.
This PR implements the 'DisplayObject.transform' getters/setters,
and most of the getters/setters in the `Transform` class
From testing in FP, it appears that each call to the
'DisplayObject.transform' property produces a new
'Transform' instance, which is permanently tied to the
owner 'DisplayObject'. All of the getters/setters in
`Transform` operate directly on owner `DisplayObject`.
However, note that the `Matrix` and `ColorTransform`
valuse *produced* the getter are plain ActionScript objects,
and have no further tie to the `DisplayObject`.
Using the `DisplayObject.transform` setter results in
values being *copied* from the input `Transform` object.
The input object retains its original owner `DisplayObject`.
Not implemented:
* Transform.concatenatedColorTransform
* Transform.pixelBounds
When a DisplayObject is not a descendant of the stage,
the `concatenatedMatrix` property produces a bizarre matrix:
a scale matrix that the depends on the global state quality.
Any DisplayObject that *is* a descendant of the stage has
a `concatenatedMatrix` that does not depend on the stage quality.
I'm not sure why the behavior occurs - for now, I just manually
mimic the values prdduced by FP. However, these values may indicate
that we need to do some internal scaling based on stage quality values,
and then 'undo' this in certain circumstances when constructing
an ActionScript matrix.
Unfortunately, some of the computed 'concatenatedMatrix' values
are off by f32::EPSILON. This is likely due to us storing some
internal values in pixels rather than twips (the rounding introduced
by round-trip twips conversions could cause this slight difference0.
For now, I've opted to mark these tests as 'approximate'.
To support this, I've extended our test framework to support providing
a regex that matches floating-point values in the output. This allows
us to print out 'Matrix.toString()' and still perform approximate
comparisons between strings of the format
'(a=0, b=0, c=0, d=0, tx=0, ty=0)'
The current 'setInterval/setTimeout' implementation is
moved to 'core/src/timers.rs', and now works with both
AVM1 and AVM2 objects. The `flash.utils.Timer` class is implemented
mostly in ActionScript, with minimal modifications to the actual
Ruffle timer code.
This commit adds support for combining instance allocators with
ActionScript playerglobal class definitions. This is activated
by defining the metadata `[Ruffle(InstanceAllocator = "true")]`
on the ActionScript class definition.
The implementation of this feature is very similar to native methods:
`build_playerglobal` checks for the metadata described above,
and defines a const `NATIVE_INSTANCE_ALLOCATOR_TABLE` mapping
class ids to function pointers.
To demonstrate this feature, I've converted `Event` to ActionScript
(keeping the existing instance allocator function).
I've also converted `ActivityEvent` and `ContextMenuEvent` to
`ActionScript`, to demonstrate how this simplifies inheritance.
In a future PR, we can convert the remaining events to ActionScript,
and remove the `EventData` enum entirely.
Unfortunately, `flex-sdk`'s `asc.jar` compiler strips out all metadata
when the `-optimize` option is passed. As a result, I forked
`flex-sdk` and disabled this behavior:
https://github.com/ruffle-rs/flex-sdk/releases/tag/ruffle-1.0.0
The modified `asc.jar` (built from the forked repository)
is included in this PR, and replaces the our previous 'asc.jar'
downloaded from the official Flex SDK release.
* Change metadata to `[Ruffle(InstanceAllocator)]`
* Strip out metadata before saving bytecode
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).
Properties can be declared with a type
(e.g. `var foo:MyClass = new MyClass();`). When
`set_property`/`init_property` is invoked for that property,
the VM will attempt to coerce the value to the provided type,
throwing an error if this fails. This can have observable behavior
consequences - if a property has type `integer`, for example, then
storing a floating point `Number` to that property will cause the
value to be coerced to an integer. Some SWFs (e.g. 'Solarmax') rely
on this behavior in order to implicitly coerce a floating point value
that's later used for array indexing.
This PR implements property type coercions in Ruffle. There are several
important considerations:
* The class lookup for property types needs to be done lazily, since
we can have a cycle between two classes (e.g. `var prop1:Class2;`
and `var prop2:Class1` in two different classes).
* The class lookup uses special rules (different from
`resolve_definition`), and does *not* use `ScopeStack/`ScopeTree`
This means that a private class can specified as a property name -
the lookup will succeed without using a scope, even though
`flash.utils.getDefinitionByName` would fail with the same name
* The specialized 'Vector' classes (e.g "Vector$int") can be used
as property types, even though they cannot be lookup up normally.
Some Ruffle class definitions were previously using nonexistent
classes as property types (e.g. "BareObject") - these are fixed
in this PR.
I've kept the rust `flash.geom` module, even though it's now empty,
since we'll need to add things like `flash.geom.Transform` native
methods in the future.
* AVM2: Implement escape()
* chore: Fix formatting
* avm2: Escape resolves non strings to null and use push to append
* chore: Fix nits
* avm2: Escape should coerce objects, add early returns
`flash.geom.Rectangle` is a good candidate, since it doesn't have
any native function, and it depends only on `flash.geom.Point`,
which was already been ported to ActionScript in #7071.
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 stubs out BlurFilter, adds properties to GlowFilter,
and make the getter for DisplayObject.filters return
an empty array instead of Undefined.
This is all of the filter-related code that 'Solarmax'
needs in order to reach the main screen (combined with
other unrelated changes I have yet to submit)
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.