Anywhere that `<number>` appears in the grammar, `calc()` that resolves
to a number is valid, including inside the `<ratio>` grammar.
Thankfully, a calculation that produces a number cannot rely on any
context information for the calculation, so we can resolve them
straight away and just pretend they were a `<number>` the whole
time. :^)
`foo.is(Token::Type::Delim) && foo.token().delim() == '!'` becomes
`foo.is_delim('!')`, which is a lot less verbose. I really should have
done this ages ago.
Prior to this commit, PropertyOwningCSSStyleDeclaration::serialized()
did not include custom properties, which lead to an incomplete
`cssRule.cssText` result.
This commit makes that class also serialize the custom properties and
place them before the regular properties in the rule text.
This fixes the issue that currently we use "auto" as initial value for
grid-template-column and grid-template-rows although spec says it
should be "none". This makes a lot of difference for these properties
because currently we represent "auto" as a list with one auto-sized
track which means initial value for grid-template-column defines one
"explicit" track while it should define none of them.
This change makes grid-auto-columns/rows be applied to the correct
tracks when initial values is used for grid-template-column/rows.
CSS text-shadow is an inherited property, so we have to make sure it's
part of the inherited substructure in ComputedValues, otherwise it gets
incorrectly reset in children.
Wrap the parsing of numbers, integers, and dimensions in a transaction,
which we only commit if that parsed value was actually accepted by the
property.
This fixes `font: 0/0 a;` failing to parse.
These markers are rendered as equilateral triangles pointing right and
down respectively. As we currently don't implement writing-mode the
closed marker does not respect it.
...except those related to `grid`, because I can't figure out how the 17
different properties interact with each other, and what values apply to
which ones. 😅
All but 1 of these are the infinite range `[-∞,∞]`. As such, specifying
that range does not change anything, but it does make it explicit that
we've looked at what the range should be, instead of just not having
added it.
Now that we have a way to resolve calc() lengths without a layout node,
we can finally support calc() values in font-size.
This wasn't possible before because font-related properties have to be
resolved eagerly in StyleComputer due to font-relative CSS length units
depending on the computed font being known.
Use contains_percentage() that works for calc() values instead of
is_percentage().
This fixes issue when tracks with calc() that has percentages where
considered as "fixed" tracks with resolvable size which led to
incorrectly resolved infinite final track sizes.
This reintroduces bounds-checking for the CSS `<angle>`, `<frequency>`,
`<integer>`, `<length>`, `<number>`, `<percentage>`, `<resolution>`,
and `<time>` types.
I regressed this around 6b8f484114 when
changing how we parsed StyleValues.
This is an improvement from before though, since we now allow the bounds
of a dimension type to have units.
Added a test to make sure we don't regress this again. :^)
This is to make it easier to bounds-check their values during parsing.
Length is left out because many length units are relative to the
context in which they are used, and so we cannot easily compare `10px`
and `1em`, for example.
We have double precision in the parser, and currently use doubles for
most of layout, so we might as well keep that extra precision inside
NumberStyleValue too.
Having one StyleValue for `<number>` and `<integer>` is making user code
more complicated than it needs to be. We know based on the property
being parsed, whether it wants a `<number>` or an `<integer>`, so we
can use separate StyleValue types for these.
This is a hack to emulate the behavior of other engines that use
fixed-point math. By rounding to 3 decimals, we retain a fair amount of
detail, while still allowing overshooting 100% without breaking lines.
This is both gross and slow, but it fixes real sites. Notably, the
popular Bootstrap library uses overshooting percentages in their
12-column grid system.
This hack can be removed when CSSPixels is made a fixed-point type.
