This tests:
* Getter invocation
* Setter invocation
* Properties with one or the other, but not both
* Inheritance
* Superproperty getters and setters
* Getters with inherited setter
* Setters with inherited getter
Don't override set_matrix and set_x for TextFields, and leave the
bounds intact.
TODO: There are still some wrapping issues in the tests, but
this allows the simple case of single-line texts to render
correctly.
During the raising process, we maintain a list of pointers to the lowest-most `textformat`, `p`, `font`, `a`, `b`, `i`, and `u` in the document that we are appending to. When we get a new one of any of those elements, we clear the rest off the stack. This forces us to add HTML in the same order Flash does.
LIs are not yet supported because they require us to process text line-by-line which doesn't mesh with this model.
There's also a test but the XML DOM generates HTML strings with the wrong attribute order, so the test fails spuriously.
This necessitated a change to edittext_bullet, which turns out is accidentally an entity test, too. It now no longer uses entities so that it won't spuriously fail due to an entity related problem.
This also replaces the `edittext_html_defaults` test with a more robust test that checks the default format and global format of SWF-based, text, and HTML test vectors.
This test is currently inaccurate by up to 5 pixels, this is due to some behavior with really, really wide tabstops and word breaks that I don't entirely get yet.
This is an approximate text with a 1-pixel tolerance because our height is currently off by one and I cannot explain why. Previous attempts to fix the bug have resulted in cascading errors that resulted in off-by-one errors in the opposite direction. This is still better than nothing and I need to check other tests in.
`EditText` supports two different forms of leading:
1. Font-provided leading, specified relative to the EM square and scaled with font size
2. User-specificed leading, specified in pixels
Notably, the former appears to apply to the first line in the text and pushes it down. This showed up in the `edittext_font_size` test, and according to that test result the leading is rounded *up* to the nearest pixel, plus one.
That last bit seems possibly wrong and is subject to further change, but it matches the tests at multiple scales.
Changes to the action queue caused actions queued during other
actions to run too late. These regressions weren't caught by the
tests because many of the goto tests ran for more frames than was
necessary, allowing the late actions to still run.
This is just testing that it exists and returns the same values as
getBounds for shapes without strokes.
TODO: When it is properly implemented for strokes, add stroked
shapes to testing.
Interestingly enough, very little actually has to be done inside the async process for XML. The async process basically just fetches data and fires an event handler when it's done. Everything else is handled via a system builtin, `XML.onData`.
This implementation just returns the size of the current loaded movie. The test is also deliberately written to be loose on timings so that it likely won't see a partially loaded movie. (I don't want it to be a test of load events, so I just wait a few frames, rather than the correct way of waiting for `onLoadComplete`.)
Until we support streaming file loads, we can't faithfully support these properties. Still, it's better to have them, just in case.
This is technically better, but it may make more sense to trigger `ClipEvent::Load` at the start of the next frame instead. Furthermore, I don't know if other forms of load events should trigger on the next frame (or end of the current one) like this.
Loads in Flash Player, like all web technologies, are asynchronous tasks of some kind (probably a separate thread). They appear to operate on some kind of a delay. If I `trace` each frame out, like in the previous version of `mcl_loadclip`, you get a series of events that look like this:
1. Parent frame 1
2. Parent frame 2
3. Event: onLoadStart
4. Event: onLoadProgress
5. Event: onLoadComplete
6. Parent frame 3
7. Event: onLoadInit
If I run that version of the test on Ruffle, everything happens after frame 1. This is an artifact of how we're testing asynchronous behavior in Ruffle. In order to guarantee test determinism, we have a dummy implementation of `fetch` that does a blocking load, and we poll all futures every frame of execution. This means that there is a very specific order of execution with these tests, which is good for testing, but probably isn't 100% accurate.
Flash Player appears to delay all loads by at least one frame, even loads that are coming from disk which should load immediately. I don't know if this is intentional or not, so I don't want to implement a load delay just for the sake of making tests pass. Ergo, I'm loosening the tests to just test the ability to load and unload movies, and fire events from a loader.
Specifically:
1. `mcl_loadclip` no longer traces out frames of the parent timeline
2. `unloadmovie` et. all use a target movie that doesn't fail the test until 10 frames have passed.
If someone can find a movie network that breaks with fast loading, then I'll consider implementing explicit frame delays for async tasks. Otherwise, this is how we're testing this.