Previously this would generate the following code:
JS::Value foo_value;
if (!foo.is_undefined())
foo_value = foo;
Which is dangerous as we're passing an empty value around, which could
be exposed to user code again. This is fine with "= null", for which it
also generates:
else
foo_value = JS::js_null();
So, in summary: a value of type `any`, not `required`, with no default
value and no initializer from user code will now default to undefined
instead of an empty value.
Having IDL constructors call FooWrapper::create(impl) directly was
creating a wrapper directly without telling the impl object about the
wrapper. This meant that we had wrapped C++ objects with a null
wrapper() pointer.
This introduces 3 classes: NodeList, StaticNodeList and LiveNodeList.
NodeList is the base of the static and live versions. Static is a
snapshot whereas live acts on the underlying data and thus inhibits
the same issues we have currently with HTMLCollection.
They were split into separate classes to not have them weirdly
mis-mashed together.
The create functions for static and live both return a NNRP to the base
class. This is to prevent having to do awkward casting at creation
and/or return, as the bindings expect to see the base NodeList only.
Instead of setting it to the default object prototype and then
immediately setting it again via internal_set_prototype_of, we can just
set it directly in the parent constructor call.
Since we don't support IDL typedefs or unions yet, the responsibility
of verifying the type of the argument is temporarily moved from the
generated Wrapper to the implementation.
This patch makes both of these classes inherit from RefCounted and
Bindings::Wrappable, plus some minimal rejigging to allow us to keep
using them internally while also exposing them to web content.
This adds support for the [Unscopable] extended attribute to attributes
and functions.
I believe it should be applicable to all interface members, but I
haven't done that here.
This currently only supports pair iterables (i.e. iterable<key, value>)
support for value iterables (i.e. iterable<value>) is left as TODO().
Since currently our cmake setup calls the WrapperGenerator separately
and unconditionally for each (hard-coded) output file iterable wrappers
have to be explicitly marked so in the CMakeLists.txt declaration, we
could likely improve this in the future by querying WrapperGenerator
for the outputs based on the IDL.
This patch essentially just splits the non return-specific logic from
generate_return_statement (i.e. the wrapping of the cpp value into
a javascript one) into a separate function generate_wrap_statement that
can be used to wrap any cpp value during wrapper generation.
This custom attribute will be used for objects that hold onto arbitrary
JS::Value's. This is needed as JS::Handle can only be constructed for
objects that implement JS::Cell, which JS::Value doesn't.
This works by overriding the `visit_edges` function in the wrapper.
This overridden function calls the base `visit_edges` and then forwards
it to the underlying implementation.
This will be used for CustomEvent, which must hold onto an arbitrary
JS::Value for it's entire lifespan.
A legacy platform object is a non-global platform object that
implements a special operation. A special operation is a getter, setter
and/or deleter. This is particularly used for old collection types,
such as HTMLCollection, NodeList, etc.
This will be used to make these spec-compliant and remove their custom
wrappers. Additionally, it will be used to implement collections that
we don't have yet, such as DOMStringMap.
This does a few things, that are hard to separate. For a while now, it's
been confuzing what `StyleValue::is_foo()` actually means. It sometimes
was used to check the type, and sometimes to see if it could return a
certain value type. The new naming scheme is:
- `is_length()` - is it a LengthStyleValue?
- `as_length()` - casts it to LengthStyleValue
- `has_length()` - can it return a Length?
- `to_length()` - gets the internal value out (eg, Length)
This also means, no more `static_cast<LengthStyleValue const&>(*this)`
stuff when dealing with StyleValues. :^)
Hopefully this will be a bit clearer going forward. There are lots of
places using the original methods, so I'll be going through them to
hopefully catch any issues.
These now crash as VM::call() uses ThrowExceptionOr<T>, which refuses to
hold an empty JS::Value as its non-exception result.
We only need to return an empty value when should_return_empty() says
so for the return value of throw_dom_exception_if_needed().
Co-authored-by: Luke Wilde <lukew@serenityos.org>
For `number` and `integer` types, you can add a range afterwards to add
a range check, using similar syntax to that used in the CSS specs. For
example:
```json
"font-weight": {
...
"valid-types": [
"number [1,1000]"
],
...
}
```
This limits any numbers to the range `1 <= n <= 1000`.
Previously, we have not been validating the values for CSS declarations
inside the Parser. This causes issues, since we should be discarding
invalid style declarations, so that previous ones are used instead. For
example, in this code:
```css
.foo {
width: 2em;
width: orange;
}
```
... the `width: orange` declaration overwrites the `width: 2em` one,
even though it is invalid. According to the spec, `width: orange` should
be rejected at parse time, and discarded, leaving `width: 2em` as the
resulting value.
Many properties (mostly shorthands) are parsed specially, and so they
are already rejected if they are invalid. But for simple properties, we
currently accept any value. With `property_accepts_value()`, we can
check if the value is valid in `parse_css_value()`, and reject it if it
is not.
