Remove the preload step that would pre-create the shapes for each
morph shape ratio on SWF load. Instead, lazily crate the shapes
when they are needed.
Loading unknown data is not considered an error on Flash; Both
`onLoadProgress` and `onLoadComplete` events are dispatched. But,
`onLoadProgress` reports 0 bytes loaded.
These are *not* methods, because we cannot borrow both the update context and the loader at the same time. At least not without making loaders free-standing objects (`GcCell`s), which I don't want to do yet.
This also slightly changes behavior: Previously `SwfMovie::from_data`
errors were propagated as `FetchError` and `display_root_movie_download_failed_message`
was called, offering the user to sidestep CORS by opening the SWF
in a new tab. But that wouldn't help, obviously, because no network
error is involved. Now, these errors are propagated as `InvalidSwf`,
and `display_root_movie_download_failed_message` is not called.
Handle strings, numbers and DisplayObject targets (not just MovieClips).
To support non-MovieClip targets, turn `clip.as_movie_clip().unwrap()`
to `if let Some(mc) = clip.as_movie_clip()` in `Loader`.
`onLoadInit` is queued after all `DoAction`s of the loaded clips.
That is, if clip1, clip2, clip3 are loaded in the same frame
(in this order), then actions will be executed as follows:
* `DoAction` of clip3
* `DoAction` of clip2
* `DoAction` of clip1
* `onLoadInit` of clip3
* `onLoadInit` of clip2
* `onLoadInit` of clip1
Previously, those were incorrectly executed as follows:
* `DoAction` of clip3
* `onLoadInit` of clip3
* `DoAction` of clip2
* `onLoadInit` of clip2
* `DoAction` of clip1
* `onLoadInit` of clip1
The first argument of all events is the target MovieClip. It was
incorrect.
Also, `onLoadComplete` accepts an additional `httpStatus` argument.
Stub it to 0.
Remove unnecessary calls to `introduce_loader_handle`, which are
dominated by `add_loader` that already calls it. As a result, `add_loader`
remained the only function to call `introduce_loader_handle`, so inline
it there.
Since they are identical (they both load the URL as a string, then
fire the `onHTTPStatus` and `onData` events). In fact, AVM1's
`XML.prototype.load` and `LoadVars.prototype.load` functions are
both defined as `ASnative(301, 0)`, so they invoke the same native
code under the hood.
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.
When reading an SWF, search for FileAttributes and
SetBackgroundColor and return this along with the header data
because it's useful (in particular, the AS3 flag).
Move `MovieClip::is_swf` flag to `DisplayObject::is_root`, and use
this flag to handle the behavior of `DisplayObject.root` crawling
upwards until it hits a top-most loaded SWF/Bitmap.
Simplify `root` and `stage` so that they don't have to consider
buttons. Instead, do some trickery to ensure the button's states
see the proper values of `parent`, `root`, and `stage` during
construction.
Add `RufflePlayer.metadata` that exposes the SWF header fields to
JavaScript.
Add `RufflePlayer.readyState` and fire a `loadedmetadata` event
once the metadata is available, mimicking the HTML5 media APIs.
* #[derive(Collect)] should be before #[collect]
* Replace redunant `&buf[..]` with `buf`
* Changes most cases of UPPERCase to UpperCase
* Allow upper_case_acronym on most SWF types, as they are from
SWF spec/more annoying to change.
This requires the use of an intermediary enum called `AvmObject` which can hold either object representation. Currently, it's mostly just being unwrapped as AVM1 objects, which we will need to fix.