The variable use_new_invalid_bounds has been moved from the
UpdateContext and the Player to the Avm1 struct because it is only used
for AVM1 code. A getter method and an activator method setting it to
true have been added as well.
The get_bounds function, which uses the variable, has been adapted to
use the getter and the activator.
Additionally, documentation has been added and improved.
The MovieClip now contains documentation about all MovieClip states and
the use_new_invalid_bounds documentation has been extended to explain
the logic of how the variable is set and used.
Previously, the MovieClip default state contained wrong values for
opaqueBackground, transform.pixelBounds and getRect & getBounds with
another default MovieClip as the parameter.
This has been corrected; the calculation of these values has been fixed.
To do that, a use_new_invalid_bounds_value variable has been added to
the UpdateContext and the Player (from which the UpdateContext is
created).
Additionally, an oldest_parent_swf_version variable has been added to
the MovieClip with a getter method for it. It is calculated and saved on
demand in the getter.
These variables are retrieved in the get_bounds function and used to set
use_new_invalid_bounds_value and to calculate the correct bounds.
Ruffle now uses the correct MovieClip default state.
Previously, the MovieClip error state contained one TODO in order to be
completely implemented: The HeaderExt variable uncompressed_len needs to
be -1 in the error state, but its type has been u32.
The type has now been changed to i32, and the variable is set to -1 in
the default_error_header function. Therefore, the MovieClip error state
is now fully implemented.
Other connected functions and variables like SwfMovie::uncompressed_len
or MovieClip::total_bytes have been adjusted to this type change. Code
has been adjusted if needed where this value is used.
* core: add temporary, ruffle-internal copy of `gc-arena` crate
This will allow bumping the upstream `gc-arena` version while
reexporting our own version of the old `GcCell` API, so that
Ruffle's code can be gradually migrated.
Once the migration is done, this crate should be removed.
* core: bump `gc-arena` to kyren/gc-arena#56
Add back the removed `GcCell` to our internal facade crate
* core: bump `gc-arena` to current master
This bump renames `Gc::allocate` to `Gc::new`
* core: rename `GcCell::allocate` to `GcCell::new`, to match `Gc`
* core: bump gc-arena to (slighly after) v0.3.1
Add typedefs for old `*Context` names in the gc-arena facade crate
* core: replace uses of `CollectionContext<'_>` by `&Collection`
* core: Add `gc()` convenience method for `*Context` and `Activation` types
This allows shortening most instances of `[activation.]context.gc_context`
to `activation.gc()` or `context.gc()` (but not all instances, because of
borrowck) Note that this doesn't actually do these shortenings to avoid
major code churn.
When using a 'Loader', properties on the 'contentLoaderInfo' become
set during specific events in the load sequence. In particular,
'LoaderInfo.bytesTotal' becomes available during the first 'progress'
event.
Also, 'LoaderInfo.parameters' is now properly set from the URL query
parameters. In Flash player, this work even with filesystem urls
(e.g. 'file:///some/path/to/file.txt?paramOne=valOne' will load
a file named 'file.txt', setting and expose the parameter 'paramOne'
with value 'valOne' in `LoaderInfo.parameters`). This required some
cleanup to the desktop and test NavigatorBackend impls to strip
out query parameters when loading a parameter from disk.
Previously, we would set `SwfMovie.parameters` manually from the url.
Now, the various `SwfMovie` constructors automatically extract
query parameters from the provided url. Outside of `SwfMovie`,
we only append *extra* parameters (e.g. those set from `flashvars`).
This makes CPMStar ads work, since the loaded SWF needs to access
`LoaderInfo.parameters`
We create a separate child domain, which is accessible
from the Stage and the root movieclip.
This prevents ActionScript from loading classes into the
special playerglobals domain (Domain.parentDomain is modified
to return null instead of the playerglobals domain when applicable),
so the native method lookup logic will never run for user code.
Previously `last_mouse_position` was updated irrespectively of
whether the dragged object was inside or outside the constraint
box. Change it follow mouse deltas, after clamping is performed.
Fixes#11254.
`startDrag()` used to capture the offset between the mouse cursor
and dragged object. This is buggy when the dragged object position
is changed *while* being dragged, as the original offset no longer
holds.
Change the dragging mechanism to be based purely on mouse deltas,
eliminating said offset completely.
Fixes#10775.
The `Avm2::{dispatch, broadcast}_event` methods now log and swallow any
AVM2 error occuring during the dispatch, instead of repeating the
handling code for each caller.
This also introduces some behavioral changes:
- Errors messages are more consistent;
- For consistency with `broadcast_event`, `dispatch_event` panics if
given a non-event object to dispatch.
* `global_to_local` returns `None` if the object has zero scale.
* Adjust AVM `globalToLocal` methods to return the untransformed
point on failure.
* Add `DisplayObject::mouse_to_local` to handle AVM `mouseX`
and `mouseY` coordinates. For zero scale objects, these end up
returning values based on the twips-to-pixels scale,
divided by 20.
Previously, the `ApplicationDomain` constructor ignored its argument,
instead of constructing a new domain with the specified domain as
the parent.
Additionally, we were incorrectly executing code with
`Activation::from_nothing` in several places, causing
`ApplicationDomain.currentDomain` to return the system domain
instead of the correct parent domain. I've introduced a new method
`Activation::from_domain`, which allows explicitly passing in the
domain. Internally, we now store an `Option<Domain>`, and panic
when calling `caller_domain` with a `None` domain. Several places
in the codebase have been adjusted to pass in the correct domain.
Instead of queueing up these events in the `Activation`,
we can fire them immediately by making `AudioManager::update_sounds`
a freestanding method that takes in an `UpdateContext`
Calling `StreamManager::tick` advances all streams to the appropriate time. This is an unlocked timestep to support things like non-stage-FPS video and the like.