You can also specify a `tick_rate` in order to get ticks faster or slower than the stage frame rate.
We also enable video decode and ticks on the netstream tests, since our netstream impl requires ticks.
`XML(someXMLObj)` and `XMLList(someXMLList)` perform the
normal cast behavior (returning the same object), instead
of creating a new object like other arguments do.
This also applies to `new XMLList(someXMLObj)`
and `XML(singleElemXMLList)`
* wpgu: Initial implementation of PixelBender shader execution
The implementation is split across four crates:
* `ruffle_render` now holds the main PixelBender bytecode parsing
implementation (previously, this was in `ruffle_core`).
* `ruffle_core` holds some helper functions for converting between
AVM2 `Value`s and the PixelBender vector types.
* `naga-pixelbender` (newly created) constructs a Naga `Module`
from parsed PixelBender bytecode
* `ruffle_render_wgpu` sets up the render pipeline for the shader
constructed by `naga-pixelbender`, and actually executes the shader.
The Actionscript-side shader parameters are passed in through uniforms.
This allows us to cache the compiled `naga::Module` and associated
wgpu types inside `ShaderData`, when it's first created. Each invocation
of a `ShaderJob` only needs to create a bind group and render pass.
Limitations:
* Only a few of the PixelBender opcodes are implemented - however, this is
enough to get Stemlands cannon rotation working, as well as a cool
"donut" shader that I found and included as a test.
* PixelBender matrix types are not supported.
* Only BitmapData is supported as an input/output type - Flash Player
also supports using Vector and ByteArray
* ShaderJob execution is always synchronous.
* Adjust comments
* Address review comments
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.
We now support deleting named children, as well as attributes.
Additionally, I've fixed our handling of `XML.parent()` - we now
properly set the parent when a child is created, and clear the parent
when `delete` is used.
If a child named 'foo' is removed by the timeline (without
having been previous added/removed from the timeline by ActionScript),
then the 'foo' field in the parent will be set to null. This occurs
even if the 'foo' field in the parent is not currently set to
the child 'foo' (e.g. 'this.foo = someOtherObject' was executed by
ActionScript).
The Adobe Animate compiler rejects a subclass that contains
a non-private field with the same name as a field in an ancestor
class (e.g. 'pub var foo:String' in both the subclass and superclass).
Unfortunately, Flash Player accepts this code, and creates a distinct
field for each class (even though they have the same namespace and
name). I suspect that this is caused by the optimizer replacing the
field accesses with internal slot accesses.
I've added an ignored test demonstrating this behavior - getting Ruffle
to reproduce it will be tricky.
When we run a 'goto', a weird "nested frame" gets triggered.
Previously, we were only calling `construct_frame` on the target
MovieClip as part of this "nested frame". However, Flash Player
seems to treat this (in some ways) like a normal frame - *all*
objects on the Stage (and orphans) have `construct_frame` called.
In particular, `gotoAndStop`/`gotoAndPlay` is called during
an "enterFrame" event handler, then unrelated objects on the Stage
will have their children constructed during the execution of
`gotoAndStop`/`gotoAndPlay`. The same logic holds for frame scripts.
This fixes a bug in Steamlands, which relies on children on the main
timeline being constructed immediately following a call to `gotoAndStop`
on an orphan (originally triggered from an "enterFrame" handler).
QName can contain characters like '.' and '<' as part of the
package or class name (though this requires editing the SWF
or using a nonstandard compiler). This broke our attempt to parse
generic type paramters by looking for '.<'
Instead, our 'Vector' special casing now operates on the unparsed
'AVMString' name, instead of attempting to construct a 'QName'.
This means that we don't need to handle generic paramters at
all for obfuscated names (which will never start with '__AS3__'
or 'Vector.<')
This fixes a bug in Red Ball 4v3, which has an obfuscated class
'!D.<H'
If we have two PlaceObject tags in the same frame with the same depth,
only the first one actually places an object. The second one is ignored
(Flash Player logs a warning).
We now parse PixelBender bytecode, and populate the parameters
from the bytecode on `ShaderData`. This is enough to progress
Steamlands, which needs to access dynamically set properties
on `ShaderData`
Bytecode execution is not implemented yet.
When we create a DisplayObject from ActionScript, we should always
run `construct_frame` on it, regardless of what frame phase we
are currently in.
This fixes a regression in Fancy Pants World 4 Part 1, where entering
the first door produced an error.
Flash Player performs `x + width` and `y + height` as floating
point operations before `round_to_even`. This affects the extent
covered by a `Rectangle` in various BitmapData methods, as the sum
of two values might be large enough to be rounded up to a larger
value (when rounding `x` and `width` individually would have
produced a smaller overall extent).
These are directly set on the underlying navigator's HTTP
request type, and get printed out in our test navigator backend.
No validation of the header names is performed - on web, this will be
enforced by the browser.
When we iterate over a render list (in order to call
`enter_frame`, `construct_frame, etc.) we need to be sure
that we iterate over all of the original `DisplayObjects`
in the list, even if the list is modified during iteration
(e.g. some ActionScript code calls `parent.addChildAt`).
Previously, `RenderIter` would repeatedly call `child_by_index`
on the original `DisplayObjectContainer`, up to the original
child count. If new DisplayObjects were inserted into the list
during iteration, we could miss some of the original DisplayObjects
in the list (as they are now at a greater position in the list).
To solve this, we now store the render list as an `Rc<Vec>`,
and use `Rc::make_mut` to modify it. See the comments
for more details.
With SWF version < 30, Context3D.configureBackBuffer throws
an error with a less informative message when the width/height
are out of range. Additionally, it seems to special case
the case width=0, height=0, antiAlias=0. enableDepthAndStencil=false,
and does *not* throw an error. This is relied on by Sniper Team.
The Flash Player 'Matrix3D.recompose' method throws exceptions under
certain circumstances with the "quaternion" orientation style.
I haven't yet figured this out yet, so I've marked that case as a stub.
All of the implementations are based on the OpenFL code, with some
tweaks to match Flash Player's behavior.
TextFields have a very unusual behavior - if they are selectable
and have `was_static`, they *block* the dispatch of mouse events when
they're targeted (not even the Stage will receive the event).
This only occurs when the TextField is actually targeted
(which requires mouseEnabled=true). With mouseEnabled=false,
the event will be dispatched with an ancestor as the target,
following the usual logic.
Also, TextFields now properly propagate mouse picks to
their parent if mouseEnabled=false. Previously, setting
mouseEnabled=false for a TextField made all mouse picks
cause a miss on it. This was the cause of the Turbo Kids
regression.
Fixes#10245
This can actually affect runtime behavior - if the return type is
declared as 'int', then an instance of a custom class will get
coerced to 0 when returned by the function.
'Plants vs Zombies Demo' relies on this - it has a function which
incorrectly returns an object instead of an array index, but the
value gets silently coerced to 0 under Flash Player.
This is based on URLLoader, and doesn't actualy 'stream' data -
it all becomes available once the request finishes. However, this
is good enough to get Sniper Team working.
We now run all of the completion logic (including adding
the new DisplayObject as a child) in `Loader::movie_loader_complete`.
Previously, some of this logic was run from `Loader::preload_tick`,
which meant that loaded images did not have the logic run.
Also, `BitmapData` and `Bitmap` instances (with corresponding AVM2
objects) are now properly constructed for loaded images.
In a previous PR, I introduced an optimization that used
`copy_texture_to_texture` to copy directly from a BitmapData GPU
texture to a Stage3D GPU texture.
Unfortunately, this optimization is incorrect. A BitmapData GPU
texture can be modified at any time by normal AVM2 code - in
particular, in might be modified before we submit the encoded
`copy_texture_to_texture` command. This shows up in Sniper Team,
which re-uses BitmapData objects for multiple distinct textures.
The previous 'optimization' resulted in the wrong BitmapData contents
getting uploaded to a texture (since it was changed before the copy
command was submitted).
When multisampling is enabled, we should create a new multisampled texture,
and use the existing texture as the resolve buffer. We also need to
call `update_has_depth_texture` to keep our pipeline aware of whether
or not we currently have a depth buffer attached.
Makes progress on #10641 (it has a stack overflow after
this PR, due to an unrelated issue).
wgpu requires buffer copy sizes and offsets to be 4-byte aligned.
Unfortunately, ActionScript can perform 2-byte aligned uploads
into an IndexBuffer3D.
To support this, we now keep a copy of the IndexBuffer3D on the CPU.
When performing an upload to the buffer, we round the offset down
and the size up to the nearest 4-byte aligned value. The cpu buffer
is used to fill out the write with existing data, so that we don't
corrupt the contents of the GPU buffer.
To avoid introducing a new RefCell, I've changed IndexBuffer3D
to use a `Box` instead of an `Rc` to store the trait object.
This allows us to pass a mutable reference down to the backend.
Early class construction is tricky - `Object` defines properties
that need to get copied into subclass instance vtables, but `Class`
defines `prototype`, which needs to be copied into the *class* vtable
of `Object`.
To accomplish this, I've split out instance vtable initialization
into a separate `init_instance_vtable`. We call
`object_class.init_instance_vtable` before
`class_class.init_instance_vtable`, but do things in the opposite
order for `into_finished_class` (`class_class.into_finished_class` is
called before `object_class.into_finished_class`)
It's possible to have a DefineSprite tag with multiple frames,
but with a corresponding SymbolClass that directly extends
`Sprite` (and therefore does *not* extend `MovieClip`). When this
happens, Flash Player stops after the first frame.
Doing `super.someNonGetter` gives you back a function object.
We were previously attempting to call normal methods as though
they were getters. Additionally, we were failing to properly
get the property from the superclass vtable.
If a SWF contains multiple DefineFont tags with the same
font name (but different font IDs), the first tag will win
when a font is looked up by *name*. This affects the behavior
of EditText objects, which can have embedded HTML like
`<font face="MyFontName">` which performs a font lookup by name.
This fixes Fancy Pants World 4 Part 3, which contains two
DefineFont3 tags with the name FancyFont. The second font is
missing many glyphs, so using it causes us to be unable to
render the squiggle and life count text.
When we receieve a nonzero 'antiAlias' parameter, we create
create a non-multisampled resolve buffer to use with WGPU.
Several tests were already requesting antialiasing, so their
output images are now anti-aliased without any changes to
the tests themselves.
If you use a `Loader` to load an SWF containing a class that shadows
an already-defined class, the class definition from the Loader SWF
will be ignoredin favor of the already-defined class. This commit
applies this log to symbol classes as well - the symbol registry for the class
should continue to point to the existing MovieClip in the parent.
This results in the child SWF instantiating the class from the parent
SWF when the child places the affected movie clip on the timeline.
This fixes a bug in Fancy Pants World 4 Part 3, where the sub-level
SWF was replacing the symbol class entry for the parent 'shipInteract'
class with the dummy clip provided in the sub-level SWF (instead
of continuing to use the correct clip from the parent SWF).
Previously, we were scaling down the source image to fit into
the smaller sourceRect, instead of cropping at the original scale.
This broke the background textures in Fancy Pants World 4 Part 2,
as the scaled-down output image resulted in a smaller rectangle
being returned from 'getColorBoundsRect'
We now crop the image by properly constructing the UV-coordinate
transformation matrix. We were also using the wrong value for the
'destPoint' y coordinate, which I fixed.
This slightly changes the image output of two tests - the new images
now more closely match the Flash output.
Calling `Hash::write_bytes` isn't guaranteed to be equivalent to a
sequence of `Hash::write_u8`.
Additionally, make sure the hash is truly prefix-free by hashing the
length first.