`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.
The `render_list` for a container always contains all of the children
under both AVM1 and AVM2 - howver, the depth_list may not contain
some children under AVM2.
When we're not performing some AVM1-specific operation
(e.g. `getInstanceAtDepth`, or dumping out AVM1 variables),
we should be using the render list.
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)
Previously, there was an off-by-one bug in `get_enumerant_name`,
which caused us to produce a spurious 'null' as a key.
However, the 'dictionary_foreach' test only checked that certain
keys were present, so the presence of an additional key didn't break
the test.
This commit makes Dictionary enumerants behave in the same way as
Array enumerants - all of the object-specific enumerants
(in this case, the non-primitive dicitonar keys) come first,
followed by 'base' enumerants from ScriptObject (in this case,
primtive/String keys). Additionally, `setPropertyIsEnumerable` is now
ignored for `Dictionary`, consistent with Flash's behavior.
The `dictionary_foreach` test is updated to print out all of
the keys when inspecting the dictionary. Since the enumeration
order is unstable (under both Flash and Ruffle) due to the dependency
on pointer hashing, the test sorts the keys before printing them.
This ensures that we get stable output which is consistent between
Ruffle and Flash.
Flash Player allows this, and returns the path to the root SWF file.
The test only checks that the returned path contains 'test.swf',
to avoid depending on a platform-specific path.
The loop to search for a `non_hole` was missing
a `break;`, so it would actually find the *first*
non-hole, rather than than the last. This was not caught
by the test, since there was only one "real" element
in the array (the other one was set on 'Array.prototype')
Since all `RenderBackend::register_bitmap_*` implementations are
identical now, move them to the default implementation of `RenderBackend`.
Also, turn `RenderBackend::register_bitmap_raw` into `RenderBackend::register_bitmap`,
which accepts a single `Bitmap` parameter.
Replace direct instatiations of `swf::Matrix` where only `tx` and
`ty` are specified, and other fields are default.
This results in a slightly more shorter, readable code.
A method called with `super` is always an instance method,
so we should be using `instance_scope` for consistency with
`call_property`. This fixes a bug where a method cannot
access static class members (via `getlex`) when called bia
`super.method()`
In several places, we read some data from a tag, and then pass
the original tag length to `resize_to_reader`. This is incorrect -
the provided length is used an an offset from the current position
in the reader, so we will extend past the end of the current tag if
we've already read some bytes.
In practice, this doesn't appear to cause any problems - AVM bytecode
has internal length fields, which end up ensuring that we will never
try to read past where the slice *should* end. However, if a `DoAbc`
tag is the last tag in the file, then we'll end up trying to use
`resize_to_reader` with an offset past the end of the movie.
This commit subtracts the number of already-read bytes from `tag_len`,
to ensure that we always construct a correctly-sized `SwfSlice`
Store just the XML declaration string itself, rather than the attributes
it consists of. Then simply return it in ActionScript's `XML.xmlDecl`
property, without using `quick_xml::Writer` at all. This also matches
Flash behavior by capturing the XML declaration as-is, preserving
whitespaces, quotes, casing etc.
Prior to this commit, executing frame scripts on a movie that doesn't have them for this frame, or didn't advance to a new frame, would cause the the movie to ignore all gotos until the next time it ran a frame script.
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.
Guarantee bitmap data after decoding has the expected length for
the given width+height+format. This eases the burden from backends
to worry about this. Pad or truncate the data if it doesn't have
the expected size.
Due to various quirks of how timeline-initiated symbols interact with AVM2, it is possible for user code to gain a reference to uninitialized objects (especially `SimpleButton` which doesn't initialize until after `exitFrame`). It is still possible to attach event handlers to them that fire correctly, and movies expect to be able to.
Internal function calls such as `toString` and event handlers
always used the base clip from the function itself, so add an
`ExecutionReason::InternalCall` to signify this and pass it along
to `call_method`.
Fix various scope behavior when executing a function:
* For function calls in SWFv6+, functions are proper closures and
close over the SWF version, base clip, and scope of their
defining function.
* Function calls in SWFv5 are not closures, and use the version,
base clip, and scope of `this` when the function is called.
Fixes#5502.
Testing under Flash shows that methods can be considered 'unchecked'
(allowing them to be called with more arguments than declared
parameters) even if they have a declared return type.
This is relied on by SteamBirds, which registers an event handler
which takes 0 parameters and an explicitly declared return type
This was recently added in https://github.com/rust-lang/rust/pull/96150
Some of the `__version` rules are currently unused, but I assume
that we still want to keep them for potential future use.
This module is now mostly empty, so move the items up to `globals`.
`getDepth` was the only shared method, so declare this property
inline in each display object type. `Video` was also incorrectly
declaring `getDepth`.
Remove `_root`, `_parent` and `_global` from `MovieClip.prototype`.
Instead, these are "magic" properties similar to `_x` and `_y`.
Add `StageObject::resolve_path_property` to handle these, alongside
the `_levelN` property.
Fixes#768.
The remaining caller was `SwfMovie::from_path`, which is now changed
to be simpler, and a little stricter (panics if `Url::from_file_path`
fails, though it shouldn't happen with canonicalized paths).
Remove the `swf_version` parameter from `Activation` constructors,
because this was incorrectly using the global or root SWF version
most times.
Instead, grab the SWF version for the activation directly from the
base clip.
Use a bare `ScriptObject` instead. This matches Flash's behavior in
many aspects:
* Attribute values can now store arbitrary AVM1 values, rather than
just strings. These are coerced to string lazily on demand (e.g.
when coercing the whole XML node to a string).
* Attributes iteration order is the same as their definition order,
not sorted by their name.
Also fix some bugs in `XmlNode::lookup_namespace_uri` (renamed from
`lookup_uri_for_namespace`):
* Iterate attributes by their definition order, so the first matching
one is returned.
* The empty prefix matches every attribute that starts with "xmlns"
(with/without a colon).
And inline `XmlNode::lookup_namespace_for_uri` into `get_prefix_for_namespace`,
and fix some bugs in there as well:
* Iterate attributes by their definition order, so the first matching
one is returned.
* Match any attribute that start with "xmlns" (with/without a colon).
The colors in a DefineBitsJPEG3 tag should be premultiplied alpha,
but in some SWFs they are incorrectly not premultiplied. Flash
Player clamps the color values to the alpha in this case to allow
these images to work more as expected.
Fixes#6893.
The resolved URL only used by `NavigatorBackend::fetch`. So simply
inline `NavigatorBackend::resolve_relative_url` into `NavigatorBackend::fetch`,
per implementation.
* Mimic Flash's quicksort algorithm, rather than using Rust's
`sort_unstable_by`.
* Rename `flags` to `options`, as they are named in AS2 reference.
* Organize different sorting options using 3 simple functions:
`sort_compare`, `sort_compare_custom` and `sort_on_compare`.