/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at https://mozilla.org/MPL/2.0/. */ // This file is a Mako template: http://www.makotemplates.org/ // Please note that valid Rust syntax may be mangled by the Mako parser. // For example, Vec<&Foo> will be mangled as Vec&Foo>. To work around these issues, the code // can be escaped. In the above example, Vec<<&Foo> or Vec< &Foo> achieves the desired result of Vec<&Foo>. <%namespace name="helpers" file="/helpers.mako.rs" /> #[cfg(feature = "servo")] use app_units::Au; use arrayvec::{ArrayVec, Drain as ArrayVecDrain}; use servo_arc::{Arc, UniqueArc}; use std::borrow::Cow; use std::{ops, ptr}; use std::fmt::{self, Write}; use std::mem; use cssparser::{Parser, RGBA, TokenSerializationType}; use cssparser::ParserInput; #[cfg(feature = "servo")] use euclid::SideOffsets2D; use crate::context::QuirksMode; #[cfg(feature = "gecko")] use crate::gecko_bindings::structs::{self, nsCSSPropertyID}; #[cfg(feature = "servo")] use crate::logical_geometry::LogicalMargin; #[cfg(feature = "servo")] use crate::computed_values; use crate::logical_geometry::WritingMode; use malloc_size_of::{MallocSizeOf, MallocSizeOfOps}; use crate::computed_value_flags::*; use fxhash::FxHashMap; use crate::media_queries::Device; use crate::parser::ParserContext; use crate::selector_parser::PseudoElement; #[cfg(feature = "servo")] use servo_config::prefs; use style_traits::{CssWriter, KeywordsCollectFn, ParseError, ParsingMode}; use style_traits::{SpecifiedValueInfo, StyleParseErrorKind, ToCss}; use to_shmem::impl_trivial_to_shmem; use crate::stylesheets::{CssRuleType, Origin, UrlExtraData}; use crate::use_counters::UseCounters; use crate::values::generics::text::LineHeight; use crate::values::{computed, resolved}; use crate::values::computed::NonNegativeLength; use crate::values::serialize_atom_name; use crate::values::specified::font::SystemFont; use crate::rule_tree::StrongRuleNode; use crate::Zero; use crate::str::{CssString, CssStringWriter}; use std::cell::Cell; pub use self::declaration_block::*; pub use self::cascade::*; <%! from collections import defaultdict from data import Method, PropertyRestrictions, Keyword, to_rust_ident, \ to_camel_case, RULE_VALUES, SYSTEM_FONT_LONGHANDS import os.path %> #[path="${repr(os.path.join(os.path.dirname(__file__), 'declaration_block.rs'))[1:-1]}"] pub mod declaration_block; #[path="${repr(os.path.join(os.path.dirname(__file__), 'cascade.rs'))[1:-1]}"] pub mod cascade; /// Conversion with fewer impls than From/Into pub trait MaybeBoxed { /// Convert fn maybe_boxed(self) -> Out; } impl MaybeBoxed for T { #[inline] fn maybe_boxed(self) -> T { self } } impl MaybeBoxed> for T { #[inline] fn maybe_boxed(self) -> Box { Box::new(self) } } macro_rules! expanded { ( $( $name: ident: $value: expr ),+ ) => { expanded!( $( $name: $value, )+ ) }; ( $( $name: ident: $value: expr, )+ ) => { Longhands { $( $name: MaybeBoxed::maybe_boxed($value), )+ } } } /// A module with all the code for longhand properties. #[allow(missing_docs)] pub mod longhands { % for style_struct in data.style_structs: include!("${repr(os.path.join(OUT_DIR, 'longhands/{}.rs'.format(style_struct.name_lower)))[1:-1]}"); % endfor pub const ANIMATABLE_PROPERTY_COUNT: usize = ${sum(1 for prop in data.longhands if prop.animatable)}; } macro_rules! unwrap_or_initial { ($prop: ident) => (unwrap_or_initial!($prop, $prop)); ($prop: ident, $expr: expr) => ($expr.unwrap_or_else(|| $prop::get_initial_specified_value())); } /// A module with code for all the shorthand css properties, and a few /// serialization helpers. #[allow(missing_docs)] pub mod shorthands { use cssparser::Parser; use crate::parser::{Parse, ParserContext}; use style_traits::{ParseError, StyleParseErrorKind}; use crate::values::specified; use style_traits::{CssWriter, ToCss}; use crate::values::specified::{BorderStyle, Color}; use std::fmt::{self, Write}; fn serialize_directional_border( dest: &mut CssWriter, width: &I, style: &BorderStyle, color: &Color, ) -> fmt::Result where W: Write, I: ToCss, { width.to_css(dest)?; // FIXME(emilio): Should we really serialize the border style if it's // `solid`? dest.write_str(" ")?; style.to_css(dest)?; if *color != Color::CurrentColor { dest.write_str(" ")?; color.to_css(dest)?; } Ok(()) } % for style_struct in data.style_structs: include!("${repr(os.path.join(OUT_DIR, 'shorthands/{}.rs'.format(style_struct.name_lower)))[1:-1]}"); % endfor // We didn't define the 'all' shorthand using the regular helpers:shorthand // mechanism, since it causes some very large types to be generated. // // Also, make sure logical properties appear before its physical // counter-parts, in order to prevent bugs like: // // https://bugzilla.mozilla.org/show_bug.cgi?id=1410028 // // FIXME(emilio): Adopt the resolution from: // // https://github.com/w3c/csswg-drafts/issues/1898 // // when there is one, whatever that is. <% logical_longhands = [] other_longhands = [] for p in data.longhands: if p.name in ['direction', 'unicode-bidi']: continue; if not p.enabled_in_content() and not p.experimental(engine): continue; if "Style" not in p.rule_types_allowed_names(): continue; if p.logical: logical_longhands.append(p.name) else: other_longhands.append(p.name) data.declare_shorthand( "all", logical_longhands + other_longhands, engines="gecko servo-2013 servo-2020", spec="https://drafts.csswg.org/css-cascade-3/#all-shorthand" ) %> /// The max amount of longhands that the `all` shorthand will ever contain. pub const ALL_SHORTHAND_MAX_LEN: usize = ${len(logical_longhands + other_longhands)}; } <% from itertools import groupby # After this code, `data.longhands` is sorted in the following order: # - first all keyword variants and all variants known to be Copy, # - second all the other variants, such as all variants with the same field # have consecutive discriminants. # The variable `variants` contain the same entries as `data.longhands` in # the same order, but must exist separately to the data source, because # we then need to add three additional variants `WideKeywordDeclaration`, # `VariableDeclaration` and `CustomDeclaration`. variants = [] for property in data.longhands: variants.append({ "name": property.camel_case, "type": property.specified_type(), "doc": "`" + property.name + "`", "copy": property.specified_is_copy(), }) groups = {} keyfunc = lambda x: x["type"] sortkeys = {} for ty, group in groupby(sorted(variants, key=keyfunc), keyfunc): group = list(group) groups[ty] = group for v in group: if len(group) == 1: sortkeys[v["name"]] = (not v["copy"], 1, v["name"], "") else: sortkeys[v["name"]] = (not v["copy"], len(group), ty, v["name"]) variants.sort(key=lambda x: sortkeys[x["name"]]) # It is extremely important to sort the `data.longhands` array here so # that it is in the same order as `variants`, for `LonghandId` and # `PropertyDeclarationId` to coincide. data.longhands.sort(key=lambda x: sortkeys[x.camel_case]) %> // WARNING: It is *really* important for the variants of `LonghandId` // and `PropertyDeclaration` to be defined in the exact same order, // with the exception of `CSSWideKeyword`, `WithVariables` and `Custom`, // which don't exist in `LonghandId`. <% extra_variants = [ { "name": "CSSWideKeyword", "type": "WideKeywordDeclaration", "doc": "A CSS-wide keyword.", "copy": False, }, { "name": "WithVariables", "type": "VariableDeclaration", "doc": "An unparsed declaration.", "copy": False, }, { "name": "Custom", "type": "CustomDeclaration", "doc": "A custom property declaration.", "copy": False, }, ] for v in extra_variants: variants.append(v) groups[v["type"]] = [v] %> /// Servo's representation for a property declaration. #[derive(ToShmem)] #[repr(u16)] pub enum PropertyDeclaration { % for variant in variants: /// ${variant["doc"]} ${variant["name"]}(${variant["type"]}), % endfor } // There's one of these for each parsed declaration so it better be small. size_of_test!(PropertyDeclaration, 32); #[repr(C)] struct PropertyDeclarationVariantRepr { tag: u16, value: T } impl Clone for PropertyDeclaration { #[inline] fn clone(&self) -> Self { use self::PropertyDeclaration::*; <% [copy, others] = [list(g) for _, g in groupby(variants, key=lambda x: not x["copy"])] %> let self_tag = unsafe { (*(self as *const _ as *const PropertyDeclarationVariantRepr<()>)).tag }; if self_tag <= LonghandId::${copy[-1]["name"]} as u16 { #[derive(Clone, Copy)] #[repr(u16)] enum CopyVariants { % for v in copy: _${v["name"]}(${v["type"]}), % endfor } unsafe { let mut out = mem::MaybeUninit::uninit(); ptr::write( out.as_mut_ptr() as *mut CopyVariants, *(self as *const _ as *const CopyVariants), ); return out.assume_init(); } } // This function ensures that all properties not handled above // do not have a specified value implements Copy. If you hit // compile error here, you may want to add the type name into // Longhand.specified_is_copy in data.py. fn _static_assert_others_are_not_copy() { struct Helper(T); trait AssertCopy { fn assert() {} } trait AssertNotCopy { fn assert() {} } impl AssertCopy for Helper {} % for ty in sorted(set(x["type"] for x in others)): impl AssertNotCopy for Helper<${ty}> {} Helper::<${ty}>::assert(); % endfor } match *self { ${" |\n".join("{}(..)".format(v["name"]) for v in copy)} => { unsafe { debug_unreachable!() } } % for ty, vs in groupby(others, key=lambda x: x["type"]): <% vs = list(vs) %> % if len(vs) == 1: ${vs[0]["name"]}(ref value) => { ${vs[0]["name"]}(value.clone()) } % else: ${" |\n".join("{}(ref value)".format(v["name"]) for v in vs)} => { unsafe { let mut out = mem::MaybeUninit::uninit(); ptr::write( out.as_mut_ptr() as *mut PropertyDeclarationVariantRepr<${ty}>, PropertyDeclarationVariantRepr { tag: *(self as *const _ as *const u16), value: value.clone(), }, ); out.assume_init() } } % endif % endfor } } } impl PartialEq for PropertyDeclaration { #[inline] fn eq(&self, other: &Self) -> bool { use self::PropertyDeclaration::*; unsafe { let this_repr = &*(self as *const _ as *const PropertyDeclarationVariantRepr<()>); let other_repr = &*(other as *const _ as *const PropertyDeclarationVariantRepr<()>); if this_repr.tag != other_repr.tag { return false; } match *self { % for ty, vs in groupby(variants, key=lambda x: x["type"]): ${" |\n".join("{}(ref this)".format(v["name"]) for v in vs)} => { let other_repr = &*(other as *const _ as *const PropertyDeclarationVariantRepr<${ty}>); *this == other_repr.value } % endfor } } } } impl MallocSizeOf for PropertyDeclaration { #[inline] fn size_of(&self, ops: &mut MallocSizeOfOps) -> usize { use self::PropertyDeclaration::*; match *self { % for ty, vs in groupby(variants, key=lambda x: x["type"]): ${" | ".join("{}(ref value)".format(v["name"]) for v in vs)} => { value.size_of(ops) } % endfor } } } impl PropertyDeclaration { /// Returns whether this is a variant of the Longhand(Value) type, rather /// than one of the special variants in extra_variants. fn is_longhand_value(&self) -> bool { match *self { % for v in extra_variants: PropertyDeclaration::${v["name"]}(..) => false, % endfor _ => true, } } /// Like the method on ToCss, but without the type parameter to avoid /// accidentally monomorphizing this large function multiple times for /// different writers. pub fn to_css(&self, dest: &mut CssStringWriter) -> fmt::Result { use self::PropertyDeclaration::*; let mut dest = CssWriter::new(dest); match *self { % for ty, vs in groupby(variants, key=lambda x: x["type"]): ${" | ".join("{}(ref value)".format(v["name"]) for v in vs)} => { value.to_css(&mut dest) } % endfor } } /// Returns the color value of a given property, for high-contrast-mode /// tweaks. pub(crate) fn color_value(&self) -> Option<<&crate::values::specified::Color> { ${static_longhand_id_set("COLOR_PROPERTIES", lambda p: p.predefined_type == "Color")} <% # sanity check assert data.longhands_by_name["background-color"].predefined_type == "Color" color_specified_type = data.longhands_by_name["background-color"].specified_type() %> let id = self.id().as_longhand()?; if !COLOR_PROPERTIES.contains(id) || !self.is_longhand_value() { return None; } let repr = self as *const _ as *const PropertyDeclarationVariantRepr<${color_specified_type}>; Some(unsafe { &(*repr).value }) } } /// A module with all the code related to animated properties. /// /// This needs to be "included" by mako at least after all longhand modules, /// given they populate the global data. pub mod animated_properties { <%include file="/helpers/animated_properties.mako.rs" /> } /// A longhand or shorthand property. #[derive(Clone, Copy, Debug)] pub struct NonCustomPropertyId(usize); /// The length of all the non-custom properties. pub const NON_CUSTOM_PROPERTY_ID_COUNT: usize = ${len(data.longhands) + len(data.shorthands) + len(data.all_aliases())}; /// The length of all counted unknown properties. pub const COUNTED_UNKNOWN_PROPERTY_COUNT: usize = ${len(data.counted_unknown_properties)}; % if engine == "gecko": #[allow(dead_code)] unsafe fn static_assert_nscsspropertyid() { % for i, property in enumerate(data.longhands + data.shorthands + data.all_aliases()): std::mem::transmute::<[u8; ${i}], [u8; ${property.nscsspropertyid()} as usize]>([0; ${i}]); // ${property.name} % endfor } % endif impl NonCustomPropertyId { /// Returns the underlying index, used for use counter. pub fn bit(self) -> usize { self.0 } /// Convert a `NonCustomPropertyId` into a `nsCSSPropertyID`. #[cfg(feature = "gecko")] #[inline] pub fn to_nscsspropertyid(self) -> nsCSSPropertyID { // unsafe: guaranteed by static_assert_nscsspropertyid above. unsafe { std::mem::transmute(self.0 as i32) } } /// Convert an `nsCSSPropertyID` into a `NonCustomPropertyId`. #[cfg(feature = "gecko")] #[inline] pub fn from_nscsspropertyid(prop: nsCSSPropertyID) -> Result { let prop = prop as i32; if prop < 0 { return Err(()); } if prop >= NON_CUSTOM_PROPERTY_ID_COUNT as i32 { return Err(()); } // unsafe: guaranteed by static_assert_nscsspropertyid above. Ok(unsafe { std::mem::transmute(prop as usize) }) } /// Get the property name. #[inline] pub fn name(self) -> &'static str { static MAP: [&'static str; NON_CUSTOM_PROPERTY_ID_COUNT] = [ % for property in data.longhands + data.shorthands + data.all_aliases(): "${property.name}", % endfor ]; MAP[self.0] } /// Returns whether this property is transitionable. #[inline] pub fn is_transitionable(self) -> bool { ${static_non_custom_property_id_set("TRANSITIONABLE", lambda p: p.transitionable)} TRANSITIONABLE.contains(self) } /// Returns whether this property is animatable. #[inline] pub fn is_animatable(self) -> bool { ${static_non_custom_property_id_set("ANIMATABLE", lambda p: p.animatable)} ANIMATABLE.contains(self) } #[inline] fn enabled_for_all_content(self) -> bool { ${static_non_custom_property_id_set( "EXPERIMENTAL", lambda p: p.experimental(engine) )} ${static_non_custom_property_id_set( "ALWAYS_ENABLED", lambda p: (not p.experimental(engine)) and p.enabled_in_content() )} let passes_pref_check = || { % if engine == "gecko": unsafe { structs::nsCSSProps_gPropertyEnabled[self.0] } % else: static PREF_NAME: [Option< &str>; ${ len(data.longhands) + len(data.shorthands) + len(data.all_aliases()) }] = [ % for property in data.longhands + data.shorthands + data.all_aliases(): <% attrs = {"servo-2013": "servo_2013_pref", "servo-2020": "servo_2020_pref"} pref = getattr(property, attrs[engine]) %> % if pref: Some("${pref}"), % else: None, % endif % endfor ]; let pref = match PREF_NAME[self.0] { None => return true, Some(pref) => pref, }; prefs::pref_map().get(pref).as_bool().unwrap_or(false) % endif }; if ALWAYS_ENABLED.contains(self) { return true } if EXPERIMENTAL.contains(self) && passes_pref_check() { return true } false } /// Returns whether a given rule allows a given property. #[inline] pub fn allowed_in_rule(self, rule_type: CssRuleType) -> bool { debug_assert!( matches!( rule_type, CssRuleType::Keyframe | CssRuleType::Page | CssRuleType::Style ), "Declarations are only expected inside a keyframe, page, or style rule." ); static MAP: [u8; NON_CUSTOM_PROPERTY_ID_COUNT] = [ % for property in data.longhands + data.shorthands + data.all_aliases(): ${property.rule_types_allowed}, % endfor ]; match rule_type { % for name in RULE_VALUES: CssRuleType::${name} => MAP[self.0] & ${RULE_VALUES[name]} != 0, % endfor _ => true } } fn allowed_in(self, context: &ParserContext) -> bool { if !self.allowed_in_rule(context.rule_type()) { return false; } self.allowed_in_ignoring_rule_type(context) } fn allowed_in_ignoring_rule_type(self, context: &ParserContext) -> bool { // The semantics of these are kinda hard to reason about, what follows // is a description of the different combinations that can happen with // these three sets. // // Experimental properties are generally controlled by prefs, but an // experimental property explicitly enabled in certain context (UA or // chrome sheets) is always usable in the context regardless of the // pref value. // // Non-experimental properties are either normal properties which are // usable everywhere, or internal-only properties which are only usable // in certain context they are explicitly enabled in. if self.enabled_for_all_content() { return true; } ${static_non_custom_property_id_set( "ENABLED_IN_UA_SHEETS", lambda p: p.explicitly_enabled_in_ua_sheets() )} ${static_non_custom_property_id_set( "ENABLED_IN_CHROME", lambda p: p.explicitly_enabled_in_chrome() )} if context.stylesheet_origin == Origin::UserAgent && ENABLED_IN_UA_SHEETS.contains(self) { return true } if context.chrome_rules_enabled() && ENABLED_IN_CHROME.contains(self) { return true } false } /// The supported types of this property. The return value should be /// style_traits::CssType when it can become a bitflags type. fn supported_types(&self) -> u8 { const SUPPORTED_TYPES: [u8; ${len(data.longhands) + len(data.shorthands)}] = [ % for prop in data.longhands: <${prop.specified_type()} as SpecifiedValueInfo>::SUPPORTED_TYPES, % endfor % for prop in data.shorthands: % if prop.name == "all": 0, // 'all' accepts no value other than CSS-wide keywords % else: ::SUPPORTED_TYPES, % endif % endfor ]; SUPPORTED_TYPES[self.0] } /// See PropertyId::collect_property_completion_keywords. fn collect_property_completion_keywords(&self, f: KeywordsCollectFn) { fn do_nothing(_: KeywordsCollectFn) {} const COLLECT_FUNCTIONS: [fn(KeywordsCollectFn); ${len(data.longhands) + len(data.shorthands)}] = [ % for prop in data.longhands: <${prop.specified_type()} as SpecifiedValueInfo>::collect_completion_keywords, % endfor % for prop in data.shorthands: % if prop.name == "all": do_nothing, // 'all' accepts no value other than CSS-wide keywords % else: :: collect_completion_keywords, % endif % endfor ]; COLLECT_FUNCTIONS[self.0](f); } /// Turns this `NonCustomPropertyId` into a `PropertyId`. #[inline] pub fn to_property_id(self) -> PropertyId { use std::mem::transmute; if self.0 < ${len(data.longhands)} { return unsafe { PropertyId::Longhand(transmute(self.0 as u16)) } } if self.0 < ${len(data.longhands) + len(data.shorthands)} { return unsafe { PropertyId::Shorthand(transmute((self.0 - ${len(data.longhands)}) as u16)) } } assert!(self.0 < NON_CUSTOM_PROPERTY_ID_COUNT); let alias_id: AliasId = unsafe { transmute((self.0 - ${len(data.longhands) + len(data.shorthands)}) as u16) }; match alias_id.aliased_property() { AliasedPropertyId::Longhand(longhand) => PropertyId::LonghandAlias(longhand, alias_id), AliasedPropertyId::Shorthand(shorthand) => PropertyId::ShorthandAlias(shorthand, alias_id), } } } impl From for NonCustomPropertyId { #[inline] fn from(id: LonghandId) -> Self { NonCustomPropertyId(id as usize) } } impl From for NonCustomPropertyId { #[inline] fn from(id: ShorthandId) -> Self { NonCustomPropertyId((id as usize) + ${len(data.longhands)}) } } impl From for NonCustomPropertyId { #[inline] fn from(id: AliasId) -> Self { NonCustomPropertyId(id as usize + ${len(data.longhands) + len(data.shorthands)}) } } /// A set of all properties #[derive(Clone, PartialEq)] pub struct NonCustomPropertyIdSet { storage: [u32; (NON_CUSTOM_PROPERTY_ID_COUNT - 1 + 32) / 32] } impl NonCustomPropertyIdSet { /// Creates an empty `NonCustomPropertyIdSet`. pub fn new() -> Self { Self { storage: Default::default(), } } /// Insert a non-custom-property in the set. #[inline] pub fn insert(&mut self, id: NonCustomPropertyId) { let bit = id.0; self.storage[bit / 32] |= 1 << (bit % 32); } /// Return whether the given property is in the set #[inline] pub fn contains(&self, id: NonCustomPropertyId) -> bool { let bit = id.0; (self.storage[bit / 32] & (1 << (bit % 32))) != 0 } } <%def name="static_non_custom_property_id_set(name, is_member)"> static ${name}: NonCustomPropertyIdSet = NonCustomPropertyIdSet { <% storage = [0] * int((len(data.longhands) + len(data.shorthands) + len(data.all_aliases()) - 1 + 32) / 32) for i, property in enumerate(data.longhands + data.shorthands + data.all_aliases()): if is_member(property): storage[int(i / 32)] |= 1 << (i % 32) %> storage: [${", ".join("0x%x" % word for word in storage)}] }; <%def name="static_longhand_id_set(name, is_member)"> static ${name}: LonghandIdSet = LonghandIdSet { <% storage = [0] * int((len(data.longhands) - 1 + 32) / 32) for i, property in enumerate(data.longhands): if is_member(property): storage[int(i / 32)] |= 1 << (i % 32) %> storage: [${", ".join("0x%x" % word for word in storage)}] }; <% logical_groups = defaultdict(list) for prop in data.longhands: if prop.logical_group: logical_groups[prop.logical_group].append(prop) for group, props in logical_groups.items(): logical_count = sum(1 for p in props if p.logical) if logical_count * 2 != len(props): raise RuntimeError("Logical group {} has ".format(group) + "unbalanced logical / physical properties") FIRST_LINE_RESTRICTIONS = PropertyRestrictions.first_line(data) FIRST_LETTER_RESTRICTIONS = PropertyRestrictions.first_letter(data) MARKER_RESTRICTIONS = PropertyRestrictions.marker(data) PLACEHOLDER_RESTRICTIONS = PropertyRestrictions.placeholder(data) CUE_RESTRICTIONS = PropertyRestrictions.cue(data) def restriction_flags(property): name = property.name flags = [] if name in FIRST_LINE_RESTRICTIONS: flags.append("APPLIES_TO_FIRST_LINE") if name in FIRST_LETTER_RESTRICTIONS: flags.append("APPLIES_TO_FIRST_LETTER") if name in PLACEHOLDER_RESTRICTIONS: flags.append("APPLIES_TO_PLACEHOLDER") if name in MARKER_RESTRICTIONS: flags.append("APPLIES_TO_MARKER") if name in CUE_RESTRICTIONS: flags.append("APPLIES_TO_CUE") return flags %> /// A group for properties which may override each other /// via logical resolution. #[derive(Clone, Copy, Eq, Hash, PartialEq)] #[repr(u8)] pub enum LogicalGroup { % for i, group in enumerate(logical_groups.keys()): /// ${group} ${to_camel_case(group)} = ${i}, % endfor } /// A set of logical groups. #[derive(Clone, Copy, Debug, Default, MallocSizeOf, PartialEq)] pub struct LogicalGroupSet { storage: [u32; (${len(logical_groups)} - 1 + 32) / 32] } impl LogicalGroupSet { /// Creates an empty `NonCustomPropertyIdSet`. pub fn new() -> Self { Self { storage: Default::default(), } } /// Return whether the given group is in the set #[inline] pub fn contains(&self, g: LogicalGroup) -> bool { let bit = g as usize; (self.storage[bit / 32] & (1 << (bit % 32))) != 0 } /// Insert a group the set. #[inline] pub fn insert(&mut self, g: LogicalGroup) { let bit = g as usize; self.storage[bit / 32] |= 1 << (bit % 32); } } /// A set of longhand properties #[derive(Clone, Copy, Debug, Default, MallocSizeOf, PartialEq)] pub struct LonghandIdSet { storage: [u32; (${len(data.longhands)} - 1 + 32) / 32] } impl_trivial_to_shmem!(LonghandIdSet); /// An iterator over a set of longhand ids. pub struct LonghandIdSetIterator<'a> { longhands: &'a LonghandIdSet, cur: usize, } impl<'a> Iterator for LonghandIdSetIterator<'a> { type Item = LonghandId; fn next(&mut self) -> Option { use std::mem; loop { if self.cur >= ${len(data.longhands)} { return None; } let id: LonghandId = unsafe { mem::transmute(self.cur as u16) }; self.cur += 1; if self.longhands.contains(id) { return Some(id); } } } } <% CASCADE_GROUPS = { # The writing-mode group has the most priority of all property groups, as # sizes like font-size can depend on it. "writing_mode": [ "writing-mode", "direction", "text-orientation", ], # The fonts and colors group has the second priority, as all other lengths # and colors depend on them. # # There are some interdependencies between these, but we fix them up in # Cascade::fixup_font_stuff. "fonts_and_color": [ # Needed to properly compute the zoomed font-size. # FIXME(emilio): This could probably just be a cascade flag # like IN_SVG_SUBTREE or such, and we could nuke this property. "-x-text-zoom", # Needed to do font-size computation in a language-dependent way. "-x-lang", # Needed for ruby to respect language-dependent min-font-size # preferences properly, see bug 1165538. "-moz-min-font-size-ratio", # font-size depends on math-depth's computed value. "math-depth", # Needed to compute the first available font and its used size, # in order to compute font-relative units correctly. "font-size", "font-size-adjust", "font-weight", "font-stretch", "font-style", "font-family", # color-scheme affects how system colors resolve. "color-scheme", ], } def in_late_group(p): return p.name not in CASCADE_GROUPS["writing_mode"] and p.name not in CASCADE_GROUPS["fonts_and_color"] def is_visited_dependent(p): return p.name in [ "column-rule-color", "text-emphasis-color", "-webkit-text-fill-color", "-webkit-text-stroke-color", "text-decoration-color", "fill", "stroke", "caret-color", "background-color", "border-top-color", "border-right-color", "border-bottom-color", "border-left-color", "border-block-start-color", "border-inline-end-color", "border-block-end-color", "border-inline-start-color", "outline-color", "color", ] %> impl LonghandIdSet { #[inline] fn reset() -> &'static Self { ${static_longhand_id_set("RESET", lambda p: not p.style_struct.inherited)} &RESET } #[inline] fn animatable() -> &'static Self { ${static_longhand_id_set("ANIMATABLE", lambda p: p.animatable)} &ANIMATABLE } #[inline] fn discrete_animatable() -> &'static Self { ${static_longhand_id_set("DISCRETE_ANIMATABLE", lambda p: p.animation_value_type == "discrete")} &DISCRETE_ANIMATABLE } #[inline] fn logical() -> &'static Self { ${static_longhand_id_set("LOGICAL", lambda p: p.logical)} &LOGICAL } /// Returns the set of longhands that are ignored when document colors are /// disabled. #[inline] fn ignored_when_colors_disabled() -> &'static Self { ${static_longhand_id_set( "IGNORED_WHEN_COLORS_DISABLED", lambda p: p.ignored_when_colors_disabled )} &IGNORED_WHEN_COLORS_DISABLED } /// Only a few properties are allowed to depend on the visited state of /// links. When cascading visited styles, we can save time by only /// processing these properties. fn visited_dependent() -> &'static Self { ${static_longhand_id_set( "VISITED_DEPENDENT", lambda p: is_visited_dependent(p) )} debug_assert!(Self::late_group().contains_all(&VISITED_DEPENDENT)); &VISITED_DEPENDENT } #[inline] fn writing_mode_group() -> &'static Self { ${static_longhand_id_set( "WRITING_MODE_GROUP", lambda p: p.name in CASCADE_GROUPS["writing_mode"] )} &WRITING_MODE_GROUP } #[inline] fn fonts_and_color_group() -> &'static Self { ${static_longhand_id_set( "FONTS_AND_COLOR_GROUP", lambda p: p.name in CASCADE_GROUPS["fonts_and_color"] )} &FONTS_AND_COLOR_GROUP } #[inline] fn late_group_only_inherited() -> &'static Self { ${static_longhand_id_set("LATE_GROUP_ONLY_INHERITED", lambda p: p.style_struct.inherited and in_late_group(p))} &LATE_GROUP_ONLY_INHERITED } #[inline] fn late_group() -> &'static Self { ${static_longhand_id_set("LATE_GROUP", lambda p: in_late_group(p))} &LATE_GROUP } /// Returns the set of properties that are declared as having no effect on /// Gecko elements or their descendant scrollbar parts. #[cfg(debug_assertions)] #[cfg(feature = "gecko")] #[inline] pub fn has_no_effect_on_gecko_scrollbars() -> &'static Self { // data.py asserts that has_no_effect_on_gecko_scrollbars is True or // False for properties that are inherited and Gecko pref controlled, // and is None for all other properties. ${static_longhand_id_set( "HAS_NO_EFFECT_ON_SCROLLBARS", lambda p: p.has_effect_on_gecko_scrollbars is False )} &HAS_NO_EFFECT_ON_SCROLLBARS } /// Returns the set of border properties for the purpose of disabling native /// appearance. #[inline] pub fn border_background_properties() -> &'static Self { ${static_longhand_id_set( "BORDER_BACKGROUND_PROPERTIES", lambda p: (p.logical_group and p.logical_group.startswith("border")) or \ p.name in ["background-color", "background-image"] )} &BORDER_BACKGROUND_PROPERTIES } /// Iterate over the current longhand id set. pub fn iter(&self) -> LonghandIdSetIterator { LonghandIdSetIterator { longhands: self, cur: 0, } } /// Returns whether this set contains at least every longhand that `other` /// also contains. pub fn contains_all(&self, other: &Self) -> bool { for (self_cell, other_cell) in self.storage.iter().zip(other.storage.iter()) { if (*self_cell & *other_cell) != *other_cell { return false; } } true } /// Returns whether this set contains any longhand that `other` also contains. pub fn contains_any(&self, other: &Self) -> bool { for (self_cell, other_cell) in self.storage.iter().zip(other.storage.iter()) { if (*self_cell & *other_cell) != 0 { return true; } } false } /// Remove all the given properties from the set. #[inline] pub fn remove_all(&mut self, other: &Self) { for (self_cell, other_cell) in self.storage.iter_mut().zip(other.storage.iter()) { *self_cell &= !*other_cell; } } /// Create an empty set #[inline] pub fn new() -> LonghandIdSet { LonghandIdSet { storage: [0; (${len(data.longhands)} - 1 + 32) / 32] } } /// Return whether the given property is in the set #[inline] pub fn contains(&self, id: LonghandId) -> bool { let bit = id as usize; (self.storage[bit / 32] & (1 << (bit % 32))) != 0 } /// Return whether this set contains any reset longhand. #[inline] pub fn contains_any_reset(&self) -> bool { self.contains_any(Self::reset()) } /// Add the given property to the set #[inline] pub fn insert(&mut self, id: LonghandId) { let bit = id as usize; self.storage[bit / 32] |= 1 << (bit % 32); } /// Remove the given property from the set #[inline] pub fn remove(&mut self, id: LonghandId) { let bit = id as usize; self.storage[bit / 32] &= !(1 << (bit % 32)); } /// Clear all bits #[inline] pub fn clear(&mut self) { for cell in &mut self.storage { *cell = 0 } } /// Returns whether the set is empty. #[inline] pub fn is_empty(&self) -> bool { self.storage.iter().all(|c| *c == 0) } } /// An enum to represent a CSS Wide keyword. #[derive(Clone, Copy, Debug, Eq, MallocSizeOf, PartialEq, SpecifiedValueInfo, ToCss, ToShmem)] pub enum CSSWideKeyword { /// The `initial` keyword. Initial, /// The `inherit` keyword. Inherit, /// The `unset` keyword. Unset, /// The `revert` keyword. Revert, /// The `revert-layer` keyword. RevertLayer, } impl CSSWideKeyword { fn to_str(&self) -> &'static str { match *self { CSSWideKeyword::Initial => "initial", CSSWideKeyword::Inherit => "inherit", CSSWideKeyword::Unset => "unset", CSSWideKeyword::Revert => "revert", CSSWideKeyword::RevertLayer => "revert-layer", } } } impl CSSWideKeyword { /// Parses a CSS wide keyword from a CSS identifier. pub fn from_ident(ident: &str) -> Result { Ok(match_ignore_ascii_case! { ident, "initial" => CSSWideKeyword::Initial, "inherit" => CSSWideKeyword::Inherit, "unset" => CSSWideKeyword::Unset, "revert" => CSSWideKeyword::Revert, "revert-layer" if static_prefs::pref!("layout.css.cascade-layers.enabled") => CSSWideKeyword::RevertLayer, _ => return Err(()), }) } fn parse(input: &mut Parser) -> Result { let keyword = { let ident = input.expect_ident().map_err(|_| ())?; Self::from_ident(ident)? }; input.expect_exhausted().map_err(|_| ())?; Ok(keyword) } } bitflags! { /// A set of flags for properties. pub struct PropertyFlags: u16 { /// This longhand property applies to ::first-letter. const APPLIES_TO_FIRST_LETTER = 1 << 1; /// This longhand property applies to ::first-line. const APPLIES_TO_FIRST_LINE = 1 << 2; /// This longhand property applies to ::placeholder. const APPLIES_TO_PLACEHOLDER = 1 << 3; /// This longhand property applies to ::cue. const APPLIES_TO_CUE = 1 << 4; /// This longhand property applies to ::marker. const APPLIES_TO_MARKER = 1 << 5; /// This property is a legacy shorthand. /// /// https://drafts.csswg.org/css-cascade/#legacy-shorthand const IS_LEGACY_SHORTHAND = 1 << 6; /* The following flags are currently not used in Rust code, they * only need to be listed in corresponding properties so that * they can be checked in the C++ side via ServoCSSPropList.h. */ /// This property can be animated on the compositor. const CAN_ANIMATE_ON_COMPOSITOR = 0; /// This shorthand property is accessible from getComputedStyle. const SHORTHAND_IN_GETCS = 0; } } /// An identifier for a given longhand property. #[derive(Clone, Copy, Eq, Hash, MallocSizeOf, PartialEq, ToComputedValue, ToResolvedValue, ToShmem)] #[repr(u16)] pub enum LonghandId { % for i, property in enumerate(data.longhands): /// ${property.name} ${property.camel_case} = ${i}, % endfor } impl ToCss for LonghandId { #[inline] fn to_css(&self, dest: &mut CssWriter) -> fmt::Result where W: Write, { dest.write_str(self.name()) } } impl fmt::Debug for LonghandId { fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { formatter.write_str(self.name()) } } impl LonghandId { /// Get the name of this longhand property. #[inline] pub fn name(&self) -> &'static str { NonCustomPropertyId::from(*self).name() } /// Returns whether the longhand property is inherited by default. #[inline] pub fn inherited(self) -> bool { !LonghandIdSet::reset().contains(self) } fn shorthands(&self) -> NonCustomPropertyIterator { // first generate longhand to shorthands lookup map // // NOTE(emilio): This currently doesn't exclude the "all" shorthand. It // could potentially do so, which would speed up serialization // algorithms and what not, I guess. <% from functools import cmp_to_key longhand_to_shorthand_map = {} num_sub_properties = {} for shorthand in data.shorthands: num_sub_properties[shorthand.camel_case] = len(shorthand.sub_properties) for sub_property in shorthand.sub_properties: if sub_property.ident not in longhand_to_shorthand_map: longhand_to_shorthand_map[sub_property.ident] = [] longhand_to_shorthand_map[sub_property.ident].append(shorthand.camel_case) def cmp(a, b): return (a > b) - (a < b) def preferred_order(x, y): # Since we want properties in order from most subproperties to least, # reverse the arguments to cmp from the expected order. result = cmp(num_sub_properties.get(y, 0), num_sub_properties.get(x, 0)) if result: return result # Fall back to lexicographic comparison. return cmp(x, y) # Sort the lists of shorthand properties according to preferred order: # https://drafts.csswg.org/cssom/#concept-shorthands-preferred-order for shorthand_list in longhand_to_shorthand_map.values(): shorthand_list.sort(key=cmp_to_key(preferred_order)) %> // based on lookup results for each longhand, create result arrays % for property in data.longhands: static ${property.ident.upper()}: &'static [ShorthandId] = &[ % for shorthand in longhand_to_shorthand_map.get(property.ident, []): ShorthandId::${shorthand}, % endfor ]; % endfor NonCustomPropertyIterator { filter: NonCustomPropertyId::from(*self).enabled_for_all_content(), iter: match *self { % for property in data.longhands: LonghandId::${property.camel_case} => ${property.ident.upper()}, % endfor }.iter(), } } fn parse_value<'i, 't>( &self, context: &ParserContext, input: &mut Parser<'i, 't>, ) -> Result> { type ParsePropertyFn = for<'i, 't> fn( context: &ParserContext, input: &mut Parser<'i, 't>, ) -> Result>; static PARSE_PROPERTY: [ParsePropertyFn; ${len(data.longhands)}] = [ % for property in data.longhands: longhands::${property.ident}::parse_declared, % endfor ]; (PARSE_PROPERTY[*self as usize])(context, input) } /// Returns whether this property is animatable. #[inline] pub fn is_animatable(self) -> bool { LonghandIdSet::animatable().contains(self) } /// Returns whether this property is animatable in a discrete way. #[inline] pub fn is_discrete_animatable(self) -> bool { LonghandIdSet::discrete_animatable().contains(self) } /// Converts from a LonghandId to an adequate nsCSSPropertyID. #[cfg(feature = "gecko")] #[inline] pub fn to_nscsspropertyid(self) -> nsCSSPropertyID { NonCustomPropertyId::from(self).to_nscsspropertyid() } #[cfg(feature = "gecko")] #[allow(non_upper_case_globals)] /// Returns a longhand id from Gecko's nsCSSPropertyID. pub fn from_nscsspropertyid(id: nsCSSPropertyID) -> Result { match PropertyId::from_nscsspropertyid(id) { Ok(PropertyId::Longhand(id)) | Ok(PropertyId::LonghandAlias(id, _)) => Ok(id), _ => Err(()), } } /// Return whether this property is logical. #[inline] pub fn is_logical(self) -> bool { LonghandIdSet::logical().contains(self) } /// If this is a logical property, return the corresponding physical one in /// the given writing mode. /// /// Otherwise, return unchanged. #[inline] pub fn to_physical(&self, wm: WritingMode) -> Self { match *self { % for property in data.longhands: % if property.logical: <% logical_group = property.logical_group %> LonghandId::${property.camel_case} => { <%helpers:logical_setter_helper name="${property.name}"> <%def name="inner(physical_ident)"> <% physical_name = physical_ident.replace("_", "-") physical_property = data.longhands_by_name[physical_name] assert logical_group == physical_property.logical_group %> LonghandId::${to_camel_case(physical_ident)} } % endif % endfor _ => *self } } /// Return the logical group of this longhand property. pub fn logical_group(&self) -> Option { const LOGICAL_GROUPS: [Option; ${len(data.longhands)}] = [ % for prop in data.longhands: % if prop.logical_group: Some(LogicalGroup::${to_camel_case(prop.logical_group)}), % else: None, % endif % endfor ]; LOGICAL_GROUPS[*self as usize] } /// Returns PropertyFlags for given longhand property. #[inline(always)] pub fn flags(self) -> PropertyFlags { // TODO(emilio): This can be simplified further as Rust gains more // constant expression support. const FLAGS: [u16; ${len(data.longhands)}] = [ % for property in data.longhands: % for flag in property.flags + restriction_flags(property): PropertyFlags::${flag}.bits | % endfor 0, % endfor ]; PropertyFlags::from_bits_truncate(FLAGS[self as usize]) } /// Returns true if the property is one that is ignored when document /// colors are disabled. #[inline] fn ignored_when_document_colors_disabled(self) -> bool { LonghandIdSet::ignored_when_colors_disabled().contains(self) } } /// An iterator over all the property ids that are enabled for a given /// shorthand, if that shorthand is enabled for all content too. pub struct NonCustomPropertyIterator { filter: bool, iter: std::slice::Iter<'static, Item>, } impl Iterator for NonCustomPropertyIterator where Item: 'static + Copy + Into, { type Item = Item; fn next(&mut self) -> Option { loop { let id = *self.iter.next()?; if !self.filter || id.into().enabled_for_all_content() { return Some(id) } } } } /// An identifier for a given shorthand property. #[derive(Clone, Copy, Debug, Eq, Hash, MallocSizeOf, PartialEq, ToComputedValue, ToResolvedValue, ToShmem)] #[repr(u16)] pub enum ShorthandId { % for i, property in enumerate(data.shorthands): /// ${property.name} ${property.camel_case} = ${i}, % endfor } impl ToCss for ShorthandId { #[inline] fn to_css(&self, dest: &mut CssWriter) -> fmt::Result where W: Write, { dest.write_str(self.name()) } } impl ShorthandId { /// Get the name for this shorthand property. #[inline] pub fn name(&self) -> &'static str { NonCustomPropertyId::from(*self).name() } /// Converts from a ShorthandId to an adequate nsCSSPropertyID. #[cfg(feature = "gecko")] #[inline] pub fn to_nscsspropertyid(self) -> nsCSSPropertyID { NonCustomPropertyId::from(self).to_nscsspropertyid() } /// Converts from a nsCSSPropertyID to a ShorthandId. #[cfg(feature = "gecko")] #[inline] pub fn from_nscsspropertyid(prop: nsCSSPropertyID) -> Result { PropertyId::from_nscsspropertyid(prop)?.as_shorthand().map_err(|_| ()) } /// Get the longhand ids that form this shorthand. pub fn longhands(&self) -> NonCustomPropertyIterator { % for property in data.shorthands: static ${property.ident.upper()}: &'static [LonghandId] = &[ % for sub in property.sub_properties: LonghandId::${sub.camel_case}, % endfor ]; % endfor NonCustomPropertyIterator { filter: NonCustomPropertyId::from(*self).enabled_for_all_content(), iter: match *self { % for property in data.shorthands: ShorthandId::${property.camel_case} => ${property.ident.upper()}, % endfor }.iter() } } /// Try to serialize the given declarations as this shorthand. /// /// Returns an error if writing to the stream fails, or if the declarations /// do not map to a shorthand. pub fn longhands_to_css( &self, declarations: &[&PropertyDeclaration], dest: &mut CssStringWriter, ) -> fmt::Result { type LonghandsToCssFn = for<'a, 'b> fn(&'a [&'b PropertyDeclaration], &mut CssStringWriter) -> fmt::Result; fn all_to_css(_: &[&PropertyDeclaration], _: &mut CssStringWriter) -> fmt::Result { // No need to try to serialize the declarations as the 'all' // shorthand, since it only accepts CSS-wide keywords (and variable // references), which will be handled in // get_shorthand_appendable_value. Ok(()) } static LONGHANDS_TO_CSS: [LonghandsToCssFn; ${len(data.shorthands)}] = [ % for shorthand in data.shorthands: % if shorthand.ident == "all": all_to_css, % else: shorthands::${shorthand.ident}::to_css, % endif % endfor ]; LONGHANDS_TO_CSS[*self as usize](declarations, dest) } /// Finds and returns an appendable value for the given declarations. /// /// Returns the optional appendable value. pub fn get_shorthand_appendable_value<'a, 'b: 'a>( self, declarations: &'a [&'b PropertyDeclaration], ) -> Option> { let first_declaration = declarations.get(0)?; let rest = || declarations.iter().skip(1); // https://drafts.csswg.org/css-variables/#variables-in-shorthands if let Some(css) = first_declaration.with_variables_from_shorthand(self) { if rest().all(|d| d.with_variables_from_shorthand(self) == Some(css)) { return Some(AppendableValue::Css(css)); } return None; } // Check whether they are all the same CSS-wide keyword. if let Some(keyword) = first_declaration.get_css_wide_keyword() { if rest().all(|d| d.get_css_wide_keyword() == Some(keyword)) { return Some(AppendableValue::Css(keyword.to_str())) } return None; } if self == ShorthandId::All { // 'all' only supports variables and CSS wide keywords. return None; } // Check whether all declarations can be serialized as part of shorthand. if declarations.iter().all(|d| d.may_serialize_as_part_of_shorthand()) { return Some(AppendableValue::DeclarationsForShorthand(self, declarations)); } None } /// Returns PropertyFlags for the given shorthand property. #[inline] pub fn flags(self) -> PropertyFlags { const FLAGS: [u16; ${len(data.shorthands)}] = [ % for property in data.shorthands: % for flag in property.flags: PropertyFlags::${flag}.bits | % endfor 0, % endfor ]; PropertyFlags::from_bits_truncate(FLAGS[self as usize]) } /// Returns whether this property is a legacy shorthand. #[inline] pub fn is_legacy_shorthand(self) -> bool { self.flags().contains(PropertyFlags::IS_LEGACY_SHORTHAND) } /// Returns the order in which this property appears relative to other /// shorthands in idl-name-sorting order. #[inline] pub fn idl_name_sort_order(self) -> u32 { <% from data import to_idl_name ordered = {} sorted_shorthands = sorted(data.shorthands, key=lambda p: to_idl_name(p.ident)) for order, shorthand in enumerate(sorted_shorthands): ordered[shorthand.ident] = order %> static IDL_NAME_SORT_ORDER: [u32; ${len(data.shorthands)}] = [ % for property in data.shorthands: ${ordered[property.ident]}, % endfor ]; IDL_NAME_SORT_ORDER[self as usize] } fn parse_into<'i, 't>( &self, declarations: &mut SourcePropertyDeclaration, context: &ParserContext, input: &mut Parser<'i, 't>, ) -> Result<(), ParseError<'i>> { type ParseIntoFn = for<'i, 't> fn( declarations: &mut SourcePropertyDeclaration, context: &ParserContext, input: &mut Parser<'i, 't>, ) -> Result<(), ParseError<'i>>; fn parse_all<'i, 't>( _: &mut SourcePropertyDeclaration, _: &ParserContext, input: &mut Parser<'i, 't> ) -> Result<(), ParseError<'i>> { // 'all' accepts no value other than CSS-wide keywords Err(input.new_custom_error(StyleParseErrorKind::UnspecifiedError)) } static PARSE_INTO: [ParseIntoFn; ${len(data.shorthands)}] = [ % for shorthand in data.shorthands: % if shorthand.ident == "all": parse_all, % else: shorthands::${shorthand.ident}::parse_into, % endif % endfor ]; (PARSE_INTO[*self as usize])(declarations, context, input) } } /// An unparsed property value that contains `var()` functions. #[derive(Debug, Eq, PartialEq, ToShmem)] pub struct UnparsedValue { /// The css serialization for this value. css: String, /// The first token type for this serialization. first_token_type: TokenSerializationType, /// The url data for resolving url values. url_data: UrlExtraData, /// The shorthand this came from. from_shorthand: Option, } impl ToCss for UnparsedValue { fn to_css(&self, dest: &mut CssWriter) -> fmt::Result where W: Write, { // https://drafts.csswg.org/css-variables/#variables-in-shorthands if self.from_shorthand.is_none() { dest.write_str(&*self.css)?; } Ok(()) } } /// A simple cache for properties that come from a shorthand and have variable /// references. /// /// This cache works because of the fact that you can't have competing values /// for a given longhand coming from the same shorthand (but note that this is /// why the shorthand needs to be part of the cache key). pub type ShorthandsWithPropertyReferencesCache = FxHashMap<(ShorthandId, LonghandId), PropertyDeclaration>; impl UnparsedValue { fn substitute_variables<'cache>( &self, longhand_id: LonghandId, writing_mode: WritingMode, custom_properties: Option<<&Arc>, quirks_mode: QuirksMode, device: &Device, shorthand_cache: &'cache mut ShorthandsWithPropertyReferencesCache, ) -> Cow<'cache, PropertyDeclaration> { let invalid_at_computed_value_time = || { let keyword = if longhand_id.inherited() { CSSWideKeyword::Inherit } else { CSSWideKeyword::Initial }; Cow::Owned(PropertyDeclaration::css_wide_keyword(longhand_id, keyword)) }; if let Some(shorthand_id) = self.from_shorthand { let key = (shorthand_id, longhand_id); if shorthand_cache.contains_key(&key) { // FIXME: This double lookup should be avoidable, but rustc // doesn't like that, see: // // https://github.com/rust-lang/rust/issues/82146 return Cow::Borrowed(&shorthand_cache[&key]); } } let css = match crate::custom_properties::substitute( &self.css, self.first_token_type, custom_properties, device, ) { Ok(css) => css, Err(..) => return invalid_at_computed_value_time(), }; // As of this writing, only the base URL is used for property // values. // // NOTE(emilio): we intentionally pase `None` as the rule type here. // If something starts depending on it, it's probably a bug, since // it'd change how values are parsed depending on whether we're in a // @keyframes rule or not, for example... So think twice about // whether you want to do this! // // FIXME(emilio): ParsingMode is slightly fishy... let context = ParserContext::new( Origin::Author, &self.url_data, None, ParsingMode::DEFAULT, quirks_mode, None, None, ); let mut input = ParserInput::new(&css); let mut input = Parser::new(&mut input); input.skip_whitespace(); if let Ok(keyword) = input.try_parse(CSSWideKeyword::parse) { return Cow::Owned(PropertyDeclaration::css_wide_keyword(longhand_id, keyword)); } let shorthand = match self.from_shorthand { None => { return match input.parse_entirely(|input| longhand_id.parse_value(&context, input)) { Ok(decl) => Cow::Owned(decl), Err(..) => invalid_at_computed_value_time(), } }, Some(shorthand) => shorthand, }; let mut decls = SourcePropertyDeclaration::new(); // parse_into takes care of doing `parse_entirely` for us. if shorthand.parse_into(&mut decls, &context, &mut input).is_err() { return invalid_at_computed_value_time(); } for declaration in decls.declarations.drain(..) { let longhand = declaration.id().as_longhand().unwrap(); if longhand.is_logical() { shorthand_cache.insert((shorthand, longhand.to_physical(writing_mode)), declaration.clone()); } shorthand_cache.insert((shorthand, longhand), declaration); } let key = (shorthand, longhand_id); match shorthand_cache.get(&key) { Some(decl) => Cow::Borrowed(decl), None => { // FIXME: We should always have the key here but it seems // sometimes we don't, see bug 1696409. #[cfg(feature = "gecko")] { if structs::GECKO_IS_NIGHTLY { panic!("Expected {:?} to be in the cache but it was not!", key); } } invalid_at_computed_value_time() } } } } /// An identifier for a given property declaration, which can be either a /// longhand or a custom property. #[derive(Clone, Copy, Debug, PartialEq)] #[cfg_attr(feature = "servo", derive(MallocSizeOf))] pub enum PropertyDeclarationId<'a> { /// A longhand. Longhand(LonghandId), /// A custom property declaration. Custom(&'a crate::custom_properties::Name), } impl<'a> ToCss for PropertyDeclarationId<'a> { fn to_css(&self, dest: &mut CssWriter) -> fmt::Result where W: Write, { match *self { PropertyDeclarationId::Longhand(id) => dest.write_str(id.name()), PropertyDeclarationId::Custom(ref name) => { dest.write_str("--")?; serialize_atom_name(name, dest) } } } } impl<'a> PropertyDeclarationId<'a> { /// Whether a given declaration id is either the same as `other`, or a /// longhand of it. pub fn is_or_is_longhand_of(&self, other: &PropertyId) -> bool { match *self { PropertyDeclarationId::Longhand(id) => { match *other { PropertyId::Longhand(other_id) | PropertyId::LonghandAlias(other_id, _) => id == other_id, PropertyId::Shorthand(shorthand) | PropertyId::ShorthandAlias(shorthand, _) => self.is_longhand_of(shorthand), PropertyId::Custom(_) => false, } } PropertyDeclarationId::Custom(name) => { matches!(*other, PropertyId::Custom(ref other_name) if name == other_name) } } } /// Whether a given declaration id is a longhand belonging to this /// shorthand. pub fn is_longhand_of(&self, shorthand: ShorthandId) -> bool { match *self { PropertyDeclarationId::Longhand(ref id) => id.shorthands().any(|s| s == shorthand), _ => false, } } /// Returns the name of the property without CSS escaping. pub fn name(&self) -> Cow<'static, str> { match *self { PropertyDeclarationId::Longhand(id) => id.name().into(), PropertyDeclarationId::Custom(name) => { let mut s = String::new(); write!(&mut s, "--{}", name).unwrap(); s.into() } } } /// Returns longhand id if it is, None otherwise. #[inline] pub fn as_longhand(&self) -> Option { match *self { PropertyDeclarationId::Longhand(id) => Some(id), _ => None, } } } /// Servo's representation of a CSS property, that is, either a longhand, a /// shorthand, or a custom property. #[derive(Clone, Eq, PartialEq)] pub enum PropertyId { /// A longhand property. Longhand(LonghandId), /// A shorthand property. Shorthand(ShorthandId), /// An alias for a longhand property. LonghandAlias(LonghandId, AliasId), /// An alias for a shorthand property. ShorthandAlias(ShorthandId, AliasId), /// A custom property. Custom(crate::custom_properties::Name), } impl fmt::Debug for PropertyId { fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { self.to_css(&mut CssWriter::new(formatter)) } } impl ToCss for PropertyId { fn to_css(&self, dest: &mut CssWriter) -> fmt::Result where W: Write, { match *self { PropertyId::Longhand(id) => dest.write_str(id.name()), PropertyId::Shorthand(id) => dest.write_str(id.name()), PropertyId::LonghandAlias(id, _) => dest.write_str(id.name()), PropertyId::ShorthandAlias(id, _) => dest.write_str(id.name()), PropertyId::Custom(ref name) => { dest.write_str("--")?; serialize_atom_name(name, dest) } } } } /// The counted unknown property list which is used for css use counters. /// /// FIXME: This should be just #[repr(u8)], but can't be because of ABI issues, /// see https://bugs.llvm.org/show_bug.cgi?id=44228. #[derive(Clone, Copy, Debug, Eq, FromPrimitive, Hash, PartialEq)] #[repr(u32)] pub enum CountedUnknownProperty { % for prop in data.counted_unknown_properties: /// ${prop.name} ${prop.camel_case}, % endfor } impl CountedUnknownProperty { /// Parse the counted unknown property, for testing purposes only. pub fn parse_for_testing(property_name: &str) -> Option { ascii_case_insensitive_phf_map! { unknown_id -> CountedUnknownProperty = { % for property in data.counted_unknown_properties: "${property.name}" => CountedUnknownProperty::${property.camel_case}, % endfor } } unknown_id(property_name).cloned() } /// Returns the underlying index, used for use counter. #[inline] pub fn bit(self) -> usize { self as usize } } impl PropertyId { /// Return the longhand id that this property id represents. #[inline] pub fn longhand_id(&self) -> Option { Some(match *self { PropertyId::Longhand(id) => id, PropertyId::LonghandAlias(id, _) => id, _ => return None, }) } /// Returns a given property from the given name, _regardless of whether it /// is enabled or not_, or Err(()) for unknown properties. /// /// Do not use for non-testing purposes. pub fn parse_unchecked_for_testing(name: &str) -> Result { Self::parse_unchecked(name, None) } /// Returns a given property from the given name, _regardless of whether it /// is enabled or not_, or Err(()) for unknown properties. fn parse_unchecked( property_name: &str, use_counters: Option< &UseCounters>, ) -> Result { // A special id for css use counters. // ShorthandAlias is not used in the Servo build. // That's why we need to allow dead_code. #[allow(dead_code)] pub enum StaticId { Longhand(LonghandId), Shorthand(ShorthandId), LonghandAlias(LonghandId, AliasId), ShorthandAlias(ShorthandId, AliasId), CountedUnknown(CountedUnknownProperty), } ascii_case_insensitive_phf_map! { static_id -> StaticId = { % for (kind, properties) in [("Longhand", data.longhands), ("Shorthand", data.shorthands)]: % for property in properties: "${property.name}" => StaticId::${kind}(${kind}Id::${property.camel_case}), % for alias in property.aliases: "${alias.name}" => { StaticId::${kind}Alias( ${kind}Id::${property.camel_case}, AliasId::${alias.camel_case}, ) }, % endfor % endfor % endfor % for property in data.counted_unknown_properties: "${property.name}" => { StaticId::CountedUnknown(CountedUnknownProperty::${property.camel_case}) }, % endfor } } if let Some(id) = static_id(property_name) { return Ok(match *id { StaticId::Longhand(id) => PropertyId::Longhand(id), StaticId::Shorthand(id) => { #[cfg(feature = "gecko")] { // We want to count `zoom` even if disabled. if matches!(id, ShorthandId::Zoom) { if let Some(counters) = use_counters { counters.non_custom_properties.record(id.into()); } } } PropertyId::Shorthand(id) }, StaticId::LonghandAlias(id, alias) => PropertyId::LonghandAlias(id, alias), StaticId::ShorthandAlias(id, alias) => PropertyId::ShorthandAlias(id, alias), StaticId::CountedUnknown(unknown_prop) => { if let Some(counters) = use_counters { counters.counted_unknown_properties.record(unknown_prop); } // Always return Err(()) because these aren't valid custom property names. return Err(()); } }); } let name = crate::custom_properties::parse_name(property_name)?; Ok(PropertyId::Custom(crate::custom_properties::Name::from(name))) } /// Parses a property name, and returns an error if it's unknown or isn't /// enabled for all content. #[inline] pub fn parse_enabled_for_all_content(name: &str) -> Result { let id = Self::parse_unchecked(name, None)?; if !id.enabled_for_all_content() { return Err(()); } Ok(id) } /// Parses a property name, and returns an error if it's unknown or isn't /// allowed in this context. #[inline] pub fn parse(name: &str, context: &ParserContext) -> Result { let id = Self::parse_unchecked(name, context.use_counters)?; if !id.allowed_in(context) { return Err(()); } Ok(id) } /// Parses a property name, and returns an error if it's unknown or isn't /// allowed in this context, ignoring the rule_type checks. /// /// This is useful for parsing stuff from CSS values, for example. #[inline] pub fn parse_ignoring_rule_type( name: &str, context: &ParserContext, ) -> Result { let id = Self::parse_unchecked(name, None)?; if !id.allowed_in_ignoring_rule_type(context) { return Err(()); } Ok(id) } /// Returns a property id from Gecko's nsCSSPropertyID. #[cfg(feature = "gecko")] #[allow(non_upper_case_globals)] #[inline] pub fn from_nscsspropertyid(id: nsCSSPropertyID) -> Result { Ok(NonCustomPropertyId::from_nscsspropertyid(id)?.to_property_id()) } /// Returns true if the property is a shorthand or shorthand alias. #[inline] pub fn is_shorthand(&self) -> bool { self.as_shorthand().is_ok() } /// Given this property id, get it either as a shorthand or as a /// `PropertyDeclarationId`. pub fn as_shorthand(&self) -> Result { match *self { PropertyId::ShorthandAlias(id, _) | PropertyId::Shorthand(id) => Ok(id), PropertyId::LonghandAlias(id, _) | PropertyId::Longhand(id) => Err(PropertyDeclarationId::Longhand(id)), PropertyId::Custom(ref name) => Err(PropertyDeclarationId::Custom(name)), } } /// Returns the `NonCustomPropertyId` corresponding to this property id. pub fn non_custom_id(&self) -> Option { Some(match *self { PropertyId::Custom(_) => return None, PropertyId::Shorthand(shorthand_id) => shorthand_id.into(), PropertyId::Longhand(longhand_id) => longhand_id.into(), PropertyId::ShorthandAlias(_, alias_id) => alias_id.into(), PropertyId::LonghandAlias(_, alias_id) => alias_id.into(), }) } /// Returns non-alias NonCustomPropertyId corresponding to this /// property id. fn non_custom_non_alias_id(&self) -> Option { Some(match *self { PropertyId::Custom(_) => return None, PropertyId::Shorthand(id) => id.into(), PropertyId::Longhand(id) => id.into(), PropertyId::ShorthandAlias(id, _) => id.into(), PropertyId::LonghandAlias(id, _) => id.into(), }) } /// Whether the property is enabled for all content regardless of the /// stylesheet it was declared on (that is, in practice only checks prefs). #[inline] pub fn enabled_for_all_content(&self) -> bool { let id = match self.non_custom_id() { // Custom properties are allowed everywhere None => return true, Some(id) => id, }; id.enabled_for_all_content() } /// Converts this PropertyId in nsCSSPropertyID, resolving aliases to the /// resolved property, and returning eCSSPropertyExtra_variable for custom /// properties. #[cfg(feature = "gecko")] #[inline] pub fn to_nscsspropertyid_resolving_aliases(&self) -> nsCSSPropertyID { match self.non_custom_non_alias_id() { Some(id) => id.to_nscsspropertyid(), None => nsCSSPropertyID::eCSSPropertyExtra_variable, } } fn allowed_in(&self, context: &ParserContext) -> bool { let id = match self.non_custom_id() { // Custom properties are allowed everywhere None => return true, Some(id) => id, }; id.allowed_in(context) } #[inline] fn allowed_in_ignoring_rule_type(&self, context: &ParserContext) -> bool { let id = match self.non_custom_id() { // Custom properties are allowed everywhere None => return true, Some(id) => id, }; id.allowed_in_ignoring_rule_type(context) } /// Whether the property supports the given CSS type. /// `ty` should a bitflags of constants in style_traits::CssType. pub fn supports_type(&self, ty: u8) -> bool { let id = self.non_custom_non_alias_id(); id.map_or(0, |id| id.supported_types()) & ty != 0 } /// Collect supported starting word of values of this property. /// /// See style_traits::SpecifiedValueInfo::collect_completion_keywords for more /// details. pub fn collect_property_completion_keywords(&self, f: KeywordsCollectFn) { if let Some(id) = self.non_custom_non_alias_id() { id.collect_property_completion_keywords(f); } CSSWideKeyword::collect_completion_keywords(f); } } /// A declaration using a CSS-wide keyword. #[cfg_attr(feature = "gecko", derive(MallocSizeOf))] #[derive(Clone, PartialEq, ToCss, ToShmem)] pub struct WideKeywordDeclaration { #[css(skip)] id: LonghandId, /// The CSS-wide keyword. pub keyword: CSSWideKeyword, } /// An unparsed declaration that contains `var()` functions. #[cfg_attr(feature = "gecko", derive(MallocSizeOf))] #[derive(Clone, PartialEq, ToCss, ToShmem)] pub struct VariableDeclaration { #[css(skip)] id: LonghandId, #[cfg_attr(feature = "gecko", ignore_malloc_size_of = "XXX: how to handle this?")] value: Arc, } /// A custom property declaration value is either an unparsed value or a CSS /// wide-keyword. #[derive(Clone, PartialEq, ToCss, ToShmem)] pub enum CustomDeclarationValue { /// A value. Value(Arc), /// A wide keyword. CSSWideKeyword(CSSWideKeyword), } /// A custom property declaration with the property name and the declared value. #[cfg_attr(feature = "gecko", derive(MallocSizeOf))] #[derive(Clone, PartialEq, ToCss, ToShmem)] pub struct CustomDeclaration { /// The name of the custom property. #[css(skip)] pub name: crate::custom_properties::Name, /// The value of the custom property. #[cfg_attr(feature = "gecko", ignore_malloc_size_of = "XXX: how to handle this?")] pub value: CustomDeclarationValue, } impl fmt::Debug for PropertyDeclaration { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { self.id().to_css(&mut CssWriter::new(f))?; f.write_str(": ")?; // Because PropertyDeclaration::to_css requires CssStringWriter, we can't write // it directly to f, and need to allocate an intermediate string. This is // fine for debug-only code. let mut s = CssString::new(); self.to_css(&mut s)?; write!(f, "{}", s) } } impl PropertyDeclaration { /// Given a property declaration, return the property declaration id. #[inline] pub fn id(&self) -> PropertyDeclarationId { match *self { PropertyDeclaration::Custom(ref declaration) => { return PropertyDeclarationId::Custom(&declaration.name) } PropertyDeclaration::CSSWideKeyword(ref declaration) => { return PropertyDeclarationId::Longhand(declaration.id); } PropertyDeclaration::WithVariables(ref declaration) => { return PropertyDeclarationId::Longhand(declaration.id); } _ => {} } // This is just fine because PropertyDeclaration and LonghandId // have corresponding discriminants. let id = unsafe { *(self as *const _ as *const LonghandId) }; debug_assert_eq!(id, match *self { % for property in data.longhands: PropertyDeclaration::${property.camel_case}(..) => LonghandId::${property.camel_case}, % endfor _ => id, }); PropertyDeclarationId::Longhand(id) } /// Given a declaration, convert it into a declaration for a corresponding /// physical property. #[inline] pub fn to_physical(&self, wm: WritingMode) -> Self { match *self { PropertyDeclaration::WithVariables(VariableDeclaration { id, ref value, }) => { return PropertyDeclaration::WithVariables(VariableDeclaration { id: id.to_physical(wm), value: value.clone(), }) } PropertyDeclaration::CSSWideKeyword(WideKeywordDeclaration { id, keyword, }) => { return PropertyDeclaration::CSSWideKeyword(WideKeywordDeclaration { id: id.to_physical(wm), keyword, }) } PropertyDeclaration::Custom(..) => return self.clone(), % for prop in data.longhands: PropertyDeclaration::${prop.camel_case}(..) => {}, % endfor } let mut ret = self.clone(); % for prop in data.longhands: % for physical_property in prop.all_physical_mapped_properties(data): % if physical_property.specified_type() != prop.specified_type(): <% raise "Logical property %s should share specified value with physical property %s" % \ (prop.name, physical_property.name) %> % endif % endfor % endfor unsafe { let longhand_id = *(&mut ret as *mut _ as *mut LonghandId); debug_assert_eq!( PropertyDeclarationId::Longhand(longhand_id), ret.id() ); // This is just fine because PropertyDeclaration and LonghandId // have corresponding discriminants. *(&mut ret as *mut _ as *mut LonghandId) = longhand_id.to_physical(wm); debug_assert_eq!( PropertyDeclarationId::Longhand(longhand_id.to_physical(wm)), ret.id() ); } ret } fn with_variables_from_shorthand(&self, shorthand: ShorthandId) -> Option< &str> { match *self { PropertyDeclaration::WithVariables(ref declaration) => { let s = declaration.value.from_shorthand?; if s != shorthand { return None; } Some(&*declaration.value.css) }, _ => None, } } /// Returns a CSS-wide keyword declaration for a given property. #[inline] pub fn css_wide_keyword(id: LonghandId, keyword: CSSWideKeyword) -> Self { Self::CSSWideKeyword(WideKeywordDeclaration { id, keyword }) } /// Returns a CSS-wide keyword if the declaration's value is one. #[inline] pub fn get_css_wide_keyword(&self) -> Option { match *self { PropertyDeclaration::CSSWideKeyword(ref declaration) => { Some(declaration.keyword) }, _ => None, } } /// Returns whether or not the property is set by a system font pub fn get_system(&self) -> Option { match *self { % if engine == "gecko": % for prop in SYSTEM_FONT_LONGHANDS: PropertyDeclaration::${to_camel_case(prop)}(ref prop) => { prop.get_system() } % endfor % endif _ => None, } } /// Is it the default value of line-height? pub fn is_default_line_height(&self) -> bool { match *self { PropertyDeclaration::LineHeight(LineHeight::Normal) => true, _ => false } } /// Returns whether the declaration may be serialized as part of a shorthand. /// /// This method returns false if this declaration contains variable or has a /// CSS-wide keyword value, since these values cannot be serialized as part /// of a shorthand. /// /// Caller should check `with_variables_from_shorthand()` and whether all /// needed declarations has the same CSS-wide keyword first. /// /// Note that, serialization of a shorthand may still fail because of other /// property-specific requirement even when this method returns true for all /// the longhand declarations. pub fn may_serialize_as_part_of_shorthand(&self) -> bool { match *self { PropertyDeclaration::CSSWideKeyword(..) | PropertyDeclaration::WithVariables(..) => false, PropertyDeclaration::Custom(..) => unreachable!("Serializing a custom property as part of shorthand?"), _ => true, } } /// Return whether the value is stored as it was in the CSS source, /// preserving whitespace (as opposed to being parsed into a more abstract /// data structure). /// /// This is the case of custom properties and values that contain /// unsubstituted variables. pub fn value_is_unparsed(&self) -> bool { match *self { PropertyDeclaration::WithVariables(..) => true, PropertyDeclaration::Custom(ref declaration) => { matches!(declaration.value, CustomDeclarationValue::Value(..)) } _ => false, } } /// Returns true if this property declaration is for one of the animatable /// properties. pub fn is_animatable(&self) -> bool { match self.id() { PropertyDeclarationId::Longhand(id) => id.is_animatable(), PropertyDeclarationId::Custom(..) => false, } } /// Returns true if this property is a custom property, false /// otherwise. pub fn is_custom(&self) -> bool { matches!(*self, PropertyDeclaration::Custom(..)) } /// The `context` parameter controls this: /// /// /// > The inside of accepts any CSS property /// > except those defined in this specification, /// > but does accept the `animation-play-state` property and interprets it specially. /// /// This will not actually parse Importance values, and will always set things /// to Importance::Normal. Parsing Importance values is the job of PropertyDeclarationParser, /// we only set them here so that we don't have to reallocate pub fn parse_into<'i, 't>( declarations: &mut SourcePropertyDeclaration, id: PropertyId, context: &ParserContext, input: &mut Parser<'i, 't>, ) -> Result<(), ParseError<'i>> { assert!(declarations.is_empty()); debug_assert!(id.allowed_in(context), "{:?}", id); let non_custom_id = id.non_custom_id(); input.skip_whitespace(); let start = input.state(); match id { PropertyId::Custom(property_name) => { let value = match input.try_parse(CSSWideKeyword::parse) { Ok(keyword) => CustomDeclarationValue::CSSWideKeyword(keyword), Err(()) => CustomDeclarationValue::Value( crate::custom_properties::SpecifiedValue::parse(input)? ), }; declarations.push(PropertyDeclaration::Custom(CustomDeclaration { name: property_name, value, })); return Ok(()); } PropertyId::LonghandAlias(id, _) | PropertyId::Longhand(id) => { input.try_parse(CSSWideKeyword::parse).map(|keyword| { PropertyDeclaration::css_wide_keyword(id, keyword) }).or_else(|()| { input.look_for_var_or_env_functions(); input.parse_entirely(|input| id.parse_value(context, input)) .or_else(|err| { while let Ok(_) = input.next() {} // Look for var() after the error. if !input.seen_var_or_env_functions() { return Err(err); } input.reset(&start); let (first_token_type, css) = crate::custom_properties::parse_non_custom_with_var(input)?; Ok(PropertyDeclaration::WithVariables(VariableDeclaration { id, value: Arc::new(UnparsedValue { css: css.into_owned(), first_token_type, url_data: context.url_data.clone(), from_shorthand: None, }), })) }) }).map(|declaration| { declarations.push(declaration) })?; } PropertyId::ShorthandAlias(id, _) | PropertyId::Shorthand(id) => { if let Ok(keyword) = input.try_parse(CSSWideKeyword::parse) { if id == ShorthandId::All { declarations.all_shorthand = AllShorthand::CSSWideKeyword(keyword) } else { for longhand in id.longhands() { declarations.push(PropertyDeclaration::css_wide_keyword(longhand, keyword)); } } } else { input.look_for_var_or_env_functions(); // Not using parse_entirely here: each // ${shorthand.ident}::parse_into function needs to do so // *before* pushing to `declarations`. id.parse_into(declarations, context, input).or_else(|err| { while let Ok(_) = input.next() {} // Look for var() after the error. if !input.seen_var_or_env_functions() { return Err(err); } input.reset(&start); let (first_token_type, css) = crate::custom_properties::parse_non_custom_with_var(input)?; let unparsed = Arc::new(UnparsedValue { css: css.into_owned(), first_token_type, url_data: context.url_data.clone(), from_shorthand: Some(id), }); if id == ShorthandId::All { declarations.all_shorthand = AllShorthand::WithVariables(unparsed) } else { for id in id.longhands() { declarations.push( PropertyDeclaration::WithVariables(VariableDeclaration { id, value: unparsed.clone(), }) ) } } Ok(()) })?; } } } debug_assert!(non_custom_id.is_some(), "Custom properties should've returned earlier"); if let Some(use_counters) = context.use_counters { use_counters.non_custom_properties.record(non_custom_id.unwrap()); } Ok(()) } } const SUB_PROPERTIES_ARRAY_CAP: usize = ${max(len(s.sub_properties) for s in data.shorthands_except_all()) \ if data.shorthands_except_all() else 0}; type SubpropertiesVec = ArrayVec; /// A stack-allocated vector of `PropertyDeclaration` /// large enough to parse one CSS `key: value` declaration. /// (Shorthands expand to multiple `PropertyDeclaration`s.) pub struct SourcePropertyDeclaration { declarations: SubpropertiesVec, /// Stored separately to keep SubpropertiesVec smaller. all_shorthand: AllShorthand, } // This is huge, but we allocate it on the stack and then never move it, // we only pass `&mut SourcePropertyDeclaration` references around. size_of_test!(SourcePropertyDeclaration, 632); impl SourcePropertyDeclaration { /// Create one. It’s big, try not to move it around. #[inline] pub fn new() -> Self { SourcePropertyDeclaration { declarations: ::arrayvec::ArrayVec::new(), all_shorthand: AllShorthand::NotSet, } } /// Create one with a single PropertyDeclaration. #[inline] pub fn with_one(decl: PropertyDeclaration) -> Self { let mut result = Self::new(); result.declarations.push(decl); result } /// Similar to Vec::drain: leaves this empty when the return value is dropped. pub fn drain(&mut self) -> SourcePropertyDeclarationDrain { SourcePropertyDeclarationDrain { declarations: self.declarations.drain(..), all_shorthand: mem::replace(&mut self.all_shorthand, AllShorthand::NotSet), } } /// Reset to initial state pub fn clear(&mut self) { self.declarations.clear(); self.all_shorthand = AllShorthand::NotSet; } fn is_empty(&self) -> bool { self.declarations.is_empty() && matches!(self.all_shorthand, AllShorthand::NotSet) } fn push(&mut self, declaration: PropertyDeclaration) { let _result = self.declarations.try_push(declaration); debug_assert!(_result.is_ok()); } } /// Return type of SourcePropertyDeclaration::drain pub struct SourcePropertyDeclarationDrain<'a> { declarations: ArrayVecDrain<'a, PropertyDeclaration, SUB_PROPERTIES_ARRAY_CAP>, all_shorthand: AllShorthand, } enum AllShorthand { NotSet, CSSWideKeyword(CSSWideKeyword), WithVariables(Arc) } impl AllShorthand { /// Iterates property declarations from the given all shorthand value. #[inline] fn declarations(&self) -> AllShorthandDeclarationIterator { AllShorthandDeclarationIterator { all_shorthand: self, longhands: ShorthandId::All.longhands(), } } } struct AllShorthandDeclarationIterator<'a> { all_shorthand: &'a AllShorthand, longhands: NonCustomPropertyIterator, } impl<'a> Iterator for AllShorthandDeclarationIterator<'a> { type Item = PropertyDeclaration; #[inline] fn next(&mut self) -> Option { match *self.all_shorthand { AllShorthand::NotSet => None, AllShorthand::CSSWideKeyword(ref keyword) => { Some(PropertyDeclaration::css_wide_keyword(self.longhands.next()?, *keyword)) } AllShorthand::WithVariables(ref unparsed) => { Some(PropertyDeclaration::WithVariables( VariableDeclaration { id: self.longhands.next()?, value: unparsed.clone() } )) } } } } #[cfg(feature = "gecko")] pub use crate::gecko_properties::style_structs; /// The module where all the style structs are defined. #[cfg(feature = "servo")] pub mod style_structs { use fxhash::FxHasher; use super::longhands; use std::hash::{Hash, Hasher}; use crate::logical_geometry::WritingMode; use crate::media_queries::Device; use crate::values::computed::NonNegativeLength; % for style_struct in data.active_style_structs(): % if style_struct.name == "Font": #[derive(Clone, Debug, MallocSizeOf)] #[cfg_attr(feature = "servo", derive(Serialize, Deserialize))] % else: #[derive(Clone, Debug, MallocSizeOf, PartialEq)] % endif /// The ${style_struct.name} style struct. pub struct ${style_struct.name} { % for longhand in style_struct.longhands: % if not longhand.logical: /// The ${longhand.name} computed value. pub ${longhand.ident}: longhands::${longhand.ident}::computed_value::T, % endif % endfor % if style_struct.name == "InheritedText": /// The "used" text-decorations that apply to this box. /// /// FIXME(emilio): This is technically a box-tree concept, and /// would be nice to move away from style. pub text_decorations_in_effect: crate::values::computed::text::TextDecorationsInEffect, % endif % if style_struct.name == "Font": /// The font hash, used for font caching. pub hash: u64, % endif % if style_struct.name == "Box": /// The display value specified by the CSS stylesheets (without any style adjustments), /// which is needed for hypothetical layout boxes. pub original_display: longhands::display::computed_value::T, % endif } % if style_struct.name == "Font": impl PartialEq for Font { fn eq(&self, other: &Font) -> bool { self.hash == other.hash % for longhand in style_struct.longhands: && self.${longhand.ident} == other.${longhand.ident} % endfor } } % endif impl ${style_struct.name} { % for longhand in style_struct.longhands: % if longhand.logical: ${helpers.logical_setter(name=longhand.name)} % else: % if longhand.ident == "display": /// Set `display`. /// /// We need to keep track of the original display for hypothetical boxes, /// so we need to special-case this. #[allow(non_snake_case)] #[inline] pub fn set_display(&mut self, v: longhands::display::computed_value::T) { self.display = v; self.original_display = v; } % else: /// Set ${longhand.name}. #[allow(non_snake_case)] #[inline] pub fn set_${longhand.ident}(&mut self, v: longhands::${longhand.ident}::computed_value::T) { self.${longhand.ident} = v; } % endif % if longhand.ident == "display": /// Set `display` from other struct. /// /// Same as `set_display` above. /// Thus, we need to special-case this. #[allow(non_snake_case)] #[inline] pub fn copy_display_from(&mut self, other: &Self) { self.display = other.display.clone(); self.original_display = other.display.clone(); } % else: /// Set ${longhand.name} from other struct. #[allow(non_snake_case)] #[inline] pub fn copy_${longhand.ident}_from(&mut self, other: &Self) { self.${longhand.ident} = other.${longhand.ident}.clone(); } % endif /// Reset ${longhand.name} from the initial struct. #[allow(non_snake_case)] #[inline] pub fn reset_${longhand.ident}(&mut self, other: &Self) { self.copy_${longhand.ident}_from(other) } /// Get the computed value for ${longhand.name}. #[allow(non_snake_case)] #[inline] pub fn clone_${longhand.ident}(&self) -> longhands::${longhand.ident}::computed_value::T { self.${longhand.ident}.clone() } % endif % if longhand.need_index: /// If this longhand is indexed, get the number of elements. #[allow(non_snake_case)] pub fn ${longhand.ident}_count(&self) -> usize { self.${longhand.ident}.0.len() } /// If this longhand is indexed, get the element at given /// index. #[allow(non_snake_case)] pub fn ${longhand.ident}_at(&self, index: usize) -> longhands::${longhand.ident}::computed_value::SingleComputedValue { self.${longhand.ident}.0[index].clone() } % endif % endfor % if style_struct.name == "Border": % for side in ["top", "right", "bottom", "left"]: /// Whether the border-${side} property has nonzero width. #[allow(non_snake_case)] pub fn border_${side}_has_nonzero_width(&self) -> bool { use crate::Zero; !self.border_${side}_width.is_zero() } % endfor % elif style_struct.name == "Font": /// Computes a font hash in order to be able to cache fonts /// effectively in GFX and layout. pub fn compute_font_hash(&mut self) { // Corresponds to the fields in // `gfx::font_template::FontTemplateDescriptor`. let mut hasher: FxHasher = Default::default(); self.font_weight.hash(&mut hasher); self.font_stretch.hash(&mut hasher); self.font_style.hash(&mut hasher); self.font_family.hash(&mut hasher); self.hash = hasher.finish() } /// (Servo does not handle MathML, so this just calls copy_font_size_from) pub fn inherit_font_size_from(&mut self, parent: &Self, _: Option, _: &Device) { self.copy_font_size_from(parent); } /// (Servo does not handle MathML, so this just calls set_font_size) pub fn apply_font_size(&mut self, v: longhands::font_size::computed_value::T, _: &Self, _: &Device) -> Option { self.set_font_size(v); None } /// (Servo does not handle MathML, so this does nothing) pub fn apply_unconstrained_font_size(&mut self, _: NonNegativeLength) { } % elif style_struct.name == "Outline": /// Whether the outline-width property is non-zero. #[inline] pub fn outline_has_nonzero_width(&self) -> bool { use crate::Zero; !self.outline_width.is_zero() } % elif style_struct.name == "Box": /// Sets the display property, but without touching original_display, /// except when the adjustment comes from root or item display fixups. pub fn set_adjusted_display( &mut self, dpy: longhands::display::computed_value::T, is_item_or_root: bool ) { self.display = dpy; if is_item_or_root { self.original_display = dpy; } } % endif } % endfor } % for style_struct in data.active_style_structs(): impl style_structs::${style_struct.name} { % for longhand in style_struct.longhands: % if longhand.need_index: /// Iterate over the values of ${longhand.name}. #[allow(non_snake_case)] #[inline] pub fn ${longhand.ident}_iter(&self) -> ${longhand.camel_case}Iter { ${longhand.camel_case}Iter { style_struct: self, current: 0, max: self.${longhand.ident}_count(), } } /// Get a value mod `index` for the property ${longhand.name}. #[allow(non_snake_case)] #[inline] pub fn ${longhand.ident}_mod(&self, index: usize) -> longhands::${longhand.ident}::computed_value::SingleComputedValue { self.${longhand.ident}_at(index % self.${longhand.ident}_count()) } /// Clone the computed value for the property. #[allow(non_snake_case)] #[inline] #[cfg(feature = "gecko")] pub fn clone_${longhand.ident}( &self, ) -> longhands::${longhand.ident}::computed_value::T { longhands::${longhand.ident}::computed_value::List( self.${longhand.ident}_iter().collect() ) } % endif % endfor % if style_struct.name == "UI": /// Returns whether there is any animation specified with /// animation-name other than `none`. pub fn specifies_animations(&self) -> bool { self.animation_name_iter().any(|name| !name.is_none()) } /// Returns whether there are any transitions specified. #[cfg(feature = "servo")] pub fn specifies_transitions(&self) -> bool { (0..self.transition_property_count()).any(|index| { let combined_duration = self.transition_duration_mod(index).seconds().max(0.) + self.transition_delay_mod(index).seconds(); combined_duration > 0. }) } /// Returns true if animation properties are equal between styles, but without /// considering keyframe data and animation-timeline. #[cfg(feature = "servo")] pub fn animations_equals(&self, other: &Self) -> bool { self.animation_name_iter().eq(other.animation_name_iter()) && self.animation_delay_iter().eq(other.animation_delay_iter()) && self.animation_direction_iter().eq(other.animation_direction_iter()) && self.animation_duration_iter().eq(other.animation_duration_iter()) && self.animation_fill_mode_iter().eq(other.animation_fill_mode_iter()) && self.animation_iteration_count_iter().eq(other.animation_iteration_count_iter()) && self.animation_play_state_iter().eq(other.animation_play_state_iter()) && self.animation_timing_function_iter().eq(other.animation_timing_function_iter()) } % elif style_struct.name == "Column": /// Whether this is a multicol style. #[cfg(feature = "servo")] pub fn is_multicol(&self) -> bool { !self.column_width.is_auto() || !self.column_count.is_auto() } % endif } % for longhand in style_struct.longhands: % if longhand.need_index: /// An iterator over the values of the ${longhand.name} properties. pub struct ${longhand.camel_case}Iter<'a> { style_struct: &'a style_structs::${style_struct.name}, current: usize, max: usize, } impl<'a> Iterator for ${longhand.camel_case}Iter<'a> { type Item = longhands::${longhand.ident}::computed_value::SingleComputedValue; fn next(&mut self) -> Option { self.current += 1; if self.current <= self.max { Some(self.style_struct.${longhand.ident}_at(self.current - 1)) } else { None } } } % endif % endfor % endfor #[cfg(feature = "gecko")] pub use crate::gecko_properties::{ComputedValues, ComputedValuesInner}; #[cfg(feature = "servo")] #[cfg_attr(feature = "servo", derive(Clone, Debug))] /// Actual data of ComputedValues, to match up with Gecko pub struct ComputedValuesInner { % for style_struct in data.active_style_structs(): ${style_struct.ident}: Arc, % endfor custom_properties: Option>, /// The writing mode of this computed values struct. pub writing_mode: WritingMode, /// A set of flags we use to store misc information regarding this style. pub flags: ComputedValueFlags, /// The rule node representing the ordered list of rules matched for this /// node. Can be None for default values and text nodes. This is /// essentially an optimization to avoid referencing the root rule node. pub rules: Option, /// The element's computed values if visited, only computed if there's a /// relevant link for this element. A element's "relevant link" is the /// element being matched if it is a link or the nearest ancestor link. visited_style: Option>, } /// The struct that Servo uses to represent computed values. /// /// This struct contains an immutable atomically-reference-counted pointer to /// every kind of style struct. /// /// When needed, the structs may be copied in order to get mutated. #[cfg(feature = "servo")] #[cfg_attr(feature = "servo", derive(Clone, Debug))] pub struct ComputedValues { /// The actual computed values /// /// In Gecko the outer ComputedValues is actually a ComputedStyle, whereas /// ComputedValuesInner is the core set of computed values. /// /// We maintain this distinction in servo to reduce the amount of special /// casing. inner: ComputedValuesInner, /// The pseudo-element that we're using. pseudo: Option, } impl ComputedValues { /// Returns the pseudo-element that this style represents. #[cfg(feature = "servo")] pub fn pseudo(&self) -> Option<<&PseudoElement> { self.pseudo.as_ref() } /// Returns true if this is the style for a pseudo-element. #[cfg(feature = "servo")] pub fn is_pseudo_style(&self) -> bool { self.pseudo().is_some() } /// Returns whether this style's display value is equal to contents. pub fn is_display_contents(&self) -> bool { self.clone_display().is_contents() } /// Gets a reference to the rule node. Panic if no rule node exists. pub fn rules(&self) -> &StrongRuleNode { self.rules.as_ref().unwrap() } /// Returns the visited style, if any. pub fn visited_style(&self) -> Option<<&ComputedValues> { self.visited_style.as_deref() } /// Returns the visited rules, if applicable. pub fn visited_rules(&self) -> Option<<&StrongRuleNode> { self.visited_style.as_ref().and_then(|s| s.rules.as_ref()) } /// Gets a reference to the custom properties map (if one exists). pub fn custom_properties(&self) -> Option<<&Arc> { self.custom_properties.as_ref() } /// Returns whether we have the same custom properties as another style. /// /// This should effectively be just: /// /// self.custom_properties() == other.custom_properties() /// /// But that's not really the case because IndexMap equality doesn't /// consider ordering, which we have to account for. Also, for the same /// reason, IndexMap equality comparisons are slower than needed. /// /// See https://github.com/bluss/indexmap/issues/153 pub fn custom_properties_equal(&self, other: &Self) -> bool { match (self.custom_properties(), other.custom_properties()) { (Some(l), Some(r)) => { l.len() == r.len() && l.iter().zip(r.iter()).all(|((k1, v1), (k2, v2))| k1 == k2 && v1 == v2) }, (None, None) => true, _ => false, } } % for prop in data.longhands: /// Gets the computed value of a given property. #[inline(always)] #[allow(non_snake_case)] pub fn clone_${prop.ident}( &self, ) -> longhands::${prop.ident}::computed_value::T { self.get_${prop.style_struct.ident.strip("_")}() % if prop.logical: .clone_${prop.ident}(self.writing_mode) % else: .clone_${prop.ident}() % endif } % endfor /// Writes the value of the given longhand as a string in `dest`. /// /// Note that the value will usually be the computed value, except for /// colors, where it's resolved. /// /// TODO(emilio): We should move all the special resolution from /// nsComputedDOMStyle to ToResolvedValue instead. pub fn get_resolved_value( &self, property_id: LonghandId, dest: &mut CssStringWriter, ) -> fmt::Result { use crate::values::resolved::ToResolvedValue; let mut dest = CssWriter::new(dest); let context = resolved::Context { style: self, }; match property_id { % for specified_type, props in groupby(data.longhands, key=lambda x: x.specified_type()): <% props = list(props) %> ${" |\n".join("LonghandId::{}".format(p.camel_case) for p in props)} => { let value = match property_id { % for prop in props: LonghandId::${prop.camel_case} => self.clone_${prop.ident}(), % endfor _ => unsafe { debug_unreachable!() }, }; value.to_resolved_value(&context).to_css(&mut dest) } % endfor } } /// Returns the given longhand's resolved value as a property declaration. pub fn resolved_declaration(&self, property_id: LonghandId) -> PropertyDeclaration { use crate::values::resolved::ToResolvedValue; use crate::values::computed::ToComputedValue; let context = resolved::Context { style: self, }; match property_id { % for specified_type, props in groupby(data.longhands, key=lambda x: x.specified_type()): <% props = list(props) %> ${" |\n".join("LonghandId::{}".format(p.camel_case) for p in props)} => { let value = match property_id { % for prop in props: LonghandId::${prop.camel_case} => self.clone_${prop.ident}(), % endfor _ => unsafe { debug_unreachable!() }, }; let resolved = value.to_resolved_value(&context); let computed = ToResolvedValue::from_resolved_value(resolved); let specified = ToComputedValue::from_computed_value(&computed); % if props[0].boxed: let specified = Box::new(specified); % endif % if len(props) == 1: PropertyDeclaration::${props[0].camel_case}(specified) % else: unsafe { let mut out = mem::MaybeUninit::uninit(); ptr::write( out.as_mut_ptr() as *mut PropertyDeclarationVariantRepr<${specified_type}>, PropertyDeclarationVariantRepr { tag: property_id as u16, value: specified, }, ); out.assume_init() } % endif } % endfor } } /// Resolves the currentColor keyword. /// /// Any color value from computed values (except for the 'color' property /// itself) should go through this method. /// /// Usage example: /// let top_color = /// style.resolve_color(style.get_border().clone_border_top_color()); #[inline] pub fn resolve_color(&self, color: computed::Color) -> RGBA { color.into_rgba(self.get_inherited_text().clone_color()) } /// Returns which longhand properties have different values in the two /// ComputedValues. #[cfg(feature = "gecko_debug")] pub fn differing_properties(&self, other: &ComputedValues) -> LonghandIdSet { let mut set = LonghandIdSet::new(); % for prop in data.longhands: if self.clone_${prop.ident}() != other.clone_${prop.ident}() { set.insert(LonghandId::${prop.camel_case}); } % endfor set } /// Create a `TransitionPropertyIterator` for this styles transition properties. pub fn transition_properties<'a>( &'a self ) -> animated_properties::TransitionPropertyIterator<'a> { animated_properties::TransitionPropertyIterator::from_style(self) } } #[cfg(feature = "servo")] impl ComputedValues { /// Create a new refcounted `ComputedValues` pub fn new( pseudo: Option<<&PseudoElement>, custom_properties: Option>, writing_mode: WritingMode, flags: ComputedValueFlags, rules: Option, visited_style: Option>, % for style_struct in data.active_style_structs(): ${style_struct.ident}: Arc, % endfor ) -> Arc { Arc::new(Self { inner: ComputedValuesInner { custom_properties, writing_mode, rules, visited_style, flags, % for style_struct in data.active_style_structs(): ${style_struct.ident}, % endfor }, pseudo: pseudo.cloned(), }) } /// Get the initial computed values. pub fn initial_values() -> &'static Self { &*INITIAL_SERVO_VALUES } /// Serializes the computed value of this property as a string. pub fn computed_value_to_string(&self, property: PropertyDeclarationId) -> String { match property { PropertyDeclarationId::Longhand(id) => { let mut s = String::new(); self.get_longhand_property_value( id, &mut CssWriter::new(&mut s) ).unwrap(); s } PropertyDeclarationId::Custom(name) => { self.custom_properties .as_ref() .and_then(|map| map.get(name)) .map_or(String::new(), |value| value.to_css_string()) } } } } #[cfg(feature = "servo")] impl ops::Deref for ComputedValues { type Target = ComputedValuesInner; fn deref(&self) -> &ComputedValuesInner { &self.inner } } #[cfg(feature = "servo")] impl ops::DerefMut for ComputedValues { fn deref_mut(&mut self) -> &mut ComputedValuesInner { &mut self.inner } } #[cfg(feature = "servo")] impl ComputedValuesInner { % for style_struct in data.active_style_structs(): /// Clone the ${style_struct.name} struct. #[inline] pub fn clone_${style_struct.name_lower}(&self) -> Arc { self.${style_struct.ident}.clone() } /// Get a immutable reference to the ${style_struct.name} struct. #[inline] pub fn get_${style_struct.name_lower}(&self) -> &style_structs::${style_struct.name} { &self.${style_struct.ident} } /// Gets an immutable reference to the refcounted value that wraps /// `${style_struct.name}`. pub fn ${style_struct.name_lower}_arc(&self) -> &Arc { &self.${style_struct.ident} } /// Get a mutable reference to the ${style_struct.name} struct. #[inline] pub fn mutate_${style_struct.name_lower}(&mut self) -> &mut style_structs::${style_struct.name} { Arc::make_mut(&mut self.${style_struct.ident}) } % endfor /// Gets a reference to the rule node. Panic if no rule node exists. pub fn rules(&self) -> &StrongRuleNode { self.rules.as_ref().unwrap() } #[inline] /// Returns whether the "content" property for the given style is completely /// ineffective, and would yield an empty `::before` or `::after` /// pseudo-element. pub fn ineffective_content_property(&self) -> bool { use crate::values::generics::counters::Content; match self.get_counters().content { Content::Normal | Content::None => true, Content::Items(ref items) => items.is_empty(), } } /// Whether the current style or any of its ancestors is multicolumn. #[inline] pub fn can_be_fragmented(&self) -> bool { self.flags.contains(ComputedValueFlags::CAN_BE_FRAGMENTED) } /// Whether the current style is multicolumn. #[inline] pub fn is_multicol(&self) -> bool { self.get_column().is_multicol() } /// Get the logical computed inline size. #[inline] pub fn content_inline_size(&self) -> &computed::Size { let position_style = self.get_position(); if self.writing_mode.is_vertical() { &position_style.height } else { &position_style.width } } /// Get the logical computed block size. #[inline] pub fn content_block_size(&self) -> &computed::Size { let position_style = self.get_position(); if self.writing_mode.is_vertical() { &position_style.width } else { &position_style.height } } /// Get the logical computed min inline size. #[inline] pub fn min_inline_size(&self) -> &computed::Size { let position_style = self.get_position(); if self.writing_mode.is_vertical() { &position_style.min_height } else { &position_style.min_width } } /// Get the logical computed min block size. #[inline] pub fn min_block_size(&self) -> &computed::Size { let position_style = self.get_position(); if self.writing_mode.is_vertical() { &position_style.min_width } else { &position_style.min_height } } /// Get the logical computed max inline size. #[inline] pub fn max_inline_size(&self) -> &computed::MaxSize { let position_style = self.get_position(); if self.writing_mode.is_vertical() { &position_style.max_height } else { &position_style.max_width } } /// Get the logical computed max block size. #[inline] pub fn max_block_size(&self) -> &computed::MaxSize { let position_style = self.get_position(); if self.writing_mode.is_vertical() { &position_style.max_width } else { &position_style.max_height } } /// Get the logical computed padding for this writing mode. #[inline] pub fn logical_padding(&self) -> LogicalMargin<<&computed::LengthPercentage> { let padding_style = self.get_padding(); LogicalMargin::from_physical(self.writing_mode, SideOffsets2D::new( &padding_style.padding_top.0, &padding_style.padding_right.0, &padding_style.padding_bottom.0, &padding_style.padding_left.0, )) } /// Get the logical border width #[inline] pub fn border_width_for_writing_mode(&self, writing_mode: WritingMode) -> LogicalMargin { let border_style = self.get_border(); LogicalMargin::from_physical(writing_mode, SideOffsets2D::new( Au::from(border_style.border_top_width), Au::from(border_style.border_right_width), Au::from(border_style.border_bottom_width), Au::from(border_style.border_left_width), )) } /// Gets the logical computed border widths for this style. #[inline] pub fn logical_border_width(&self) -> LogicalMargin { self.border_width_for_writing_mode(self.writing_mode) } /// Gets the logical computed margin from this style. #[inline] pub fn logical_margin(&self) -> LogicalMargin<<&computed::LengthPercentageOrAuto> { let margin_style = self.get_margin(); LogicalMargin::from_physical(self.writing_mode, SideOffsets2D::new( &margin_style.margin_top, &margin_style.margin_right, &margin_style.margin_bottom, &margin_style.margin_left, )) } /// Gets the logical position from this style. #[inline] pub fn logical_position(&self) -> LogicalMargin<<&computed::LengthPercentageOrAuto> { // FIXME(SimonSapin): should be the writing mode of the containing block, maybe? let position_style = self.get_position(); LogicalMargin::from_physical(self.writing_mode, SideOffsets2D::new( &position_style.top, &position_style.right, &position_style.bottom, &position_style.left, )) } /// Return true if the effects force the transform style to be Flat pub fn overrides_transform_style(&self) -> bool { use crate::computed_values::mix_blend_mode::T as MixBlendMode; let effects = self.get_effects(); // TODO(gw): Add clip-path, isolation, mask-image, mask-border-source when supported. effects.opacity < 1.0 || !effects.filter.0.is_empty() || !effects.clip.is_auto() || effects.mix_blend_mode != MixBlendMode::Normal } /// pub fn get_used_transform_style(&self) -> computed_values::transform_style::T { use crate::computed_values::transform_style::T as TransformStyle; let box_ = self.get_box(); if self.overrides_transform_style() { TransformStyle::Flat } else { // Return the computed value if not overridden by the above exceptions box_.transform_style } } /// Whether given this transform value, the compositor would require a /// layer. pub fn transform_requires_layer(&self) -> bool { use crate::values::generics::transform::TransformOperation; // Check if the transform matrix is 2D or 3D for transform in &*self.get_box().transform.0 { match *transform { TransformOperation::Perspective(..) => { return true; } TransformOperation::Matrix3D(m) => { // See http://dev.w3.org/csswg/css-transforms/#2d-matrix if m.m31 != 0.0 || m.m32 != 0.0 || m.m13 != 0.0 || m.m23 != 0.0 || m.m43 != 0.0 || m.m14 != 0.0 || m.m24 != 0.0 || m.m34 != 0.0 || m.m33 != 1.0 || m.m44 != 1.0 { return true; } } TransformOperation::Translate3D(_, _, z) | TransformOperation::TranslateZ(z) => { if z.px() != 0. { return true; } } _ => {} } } // Neither perspective nor transform present false } } % if engine == "gecko": pub use crate::servo_arc::RawOffsetArc as BuilderArc; /// Clone an arc, returning a regular arc fn clone_arc(x: &BuilderArc) -> Arc { Arc::from_raw_offset(x.clone()) } % else: pub use crate::servo_arc::Arc as BuilderArc; /// Clone an arc, returning a regular arc fn clone_arc(x: &BuilderArc) -> Arc { x.clone() } % endif /// A reference to a style struct of the parent, or our own style struct. pub enum StyleStructRef<'a, T: 'static> { /// A borrowed struct from the parent, for example, for inheriting style. Borrowed(&'a BuilderArc), /// An owned struct, that we've already mutated. Owned(UniqueArc), /// Temporarily vacated, will panic if accessed Vacated, } impl<'a, T: 'a> StyleStructRef<'a, T> where T: Clone, { /// Ensure a mutable reference of this value exists, either cloning the /// borrowed value, or returning the owned one. pub fn mutate(&mut self) -> &mut T { if let StyleStructRef::Borrowed(v) = *self { *self = StyleStructRef::Owned(UniqueArc::new((**v).clone())); } match *self { StyleStructRef::Owned(ref mut v) => v, StyleStructRef::Borrowed(..) => unreachable!(), StyleStructRef::Vacated => panic!("Accessed vacated style struct") } } /// Whether this is pointer-equal to the struct we're going to copy the /// value from. /// /// This is used to avoid allocations when people write stuff like `font: /// inherit` or such `all: initial`. #[inline] pub fn ptr_eq(&self, struct_to_copy_from: &T) -> bool { match *self { StyleStructRef::Owned(..) => false, StyleStructRef::Borrowed(arc) => { &**arc as *const T == struct_to_copy_from as *const T } StyleStructRef::Vacated => panic!("Accessed vacated style struct") } } /// Extract a unique Arc from this struct, vacating it. /// /// The vacated state is a transient one, please put the Arc back /// when done via `put()`. This function is to be used to separate /// the struct being mutated from the computed context pub fn take(&mut self) -> UniqueArc { use std::mem::replace; let inner = replace(self, StyleStructRef::Vacated); match inner { StyleStructRef::Owned(arc) => arc, StyleStructRef::Borrowed(arc) => UniqueArc::new((**arc).clone()), StyleStructRef::Vacated => panic!("Accessed vacated style struct"), } } /// Replace vacated ref with an arc pub fn put(&mut self, arc: UniqueArc) { debug_assert!(matches!(*self, StyleStructRef::Vacated)); *self = StyleStructRef::Owned(arc); } /// Get a mutable reference to the owned struct, or `None` if the struct /// hasn't been mutated. pub fn get_if_mutated(&mut self) -> Option<<&mut T> { match *self { StyleStructRef::Owned(ref mut v) => Some(v), StyleStructRef::Borrowed(..) => None, StyleStructRef::Vacated => panic!("Accessed vacated style struct") } } /// Returns an `Arc` to the internal struct, constructing one if /// appropriate. pub fn build(self) -> Arc { match self { StyleStructRef::Owned(v) => v.shareable(), StyleStructRef::Borrowed(v) => clone_arc(v), StyleStructRef::Vacated => panic!("Accessed vacated style struct") } } } impl<'a, T: 'a> ops::Deref for StyleStructRef<'a, T> { type Target = T; fn deref(&self) -> &T { match *self { StyleStructRef::Owned(ref v) => &**v, StyleStructRef::Borrowed(v) => &**v, StyleStructRef::Vacated => panic!("Accessed vacated style struct") } } } /// A type used to compute a struct with minimal overhead. /// /// This allows holding references to the parent/default computed values without /// actually cloning them, until we either build the style, or mutate the /// inherited value. pub struct StyleBuilder<'a> { /// The device we're using to compute style. /// /// This provides access to viewport unit ratios, etc. pub device: &'a Device, /// The style we're inheriting from. /// /// This is effectively /// `parent_style.unwrap_or(device.default_computed_values())`. inherited_style: &'a ComputedValues, /// The style we're inheriting from for properties that don't inherit from /// ::first-line. This is the same as inherited_style, unless /// inherited_style is a ::first-line style. inherited_style_ignoring_first_line: &'a ComputedValues, /// The style we're getting reset structs from. reset_style: &'a ComputedValues, /// The rule node representing the ordered list of rules matched for this /// node. pub rules: Option, custom_properties: Option>, /// The pseudo-element this style will represent. pub pseudo: Option<<&'a PseudoElement>, /// Whether we have mutated any reset structs since the the last time /// `clear_modified_reset` was called. This is used to tell whether the /// `StyleAdjuster` did any work. modified_reset: bool, /// Whether this is the style for the root element. pub is_root_element: bool, /// The writing mode flags. /// /// TODO(emilio): Make private. pub writing_mode: WritingMode, /// Flags for the computed value. pub flags: Cell, /// The element's style if visited, only computed if there's a relevant link /// for this element. A element's "relevant link" is the element being /// matched if it is a link or the nearest ancestor link. visited_style: Option>, % for style_struct in data.active_style_structs(): ${style_struct.ident}: StyleStructRef<'a, style_structs::${style_struct.name}>, % endfor } impl<'a> StyleBuilder<'a> { /// Trivially construct a `StyleBuilder`. fn new( device: &'a Device, parent_style: Option<<&'a ComputedValues>, parent_style_ignoring_first_line: Option<<&'a ComputedValues>, pseudo: Option<<&'a PseudoElement>, rules: Option, custom_properties: Option>, is_root_element: bool, ) -> Self { debug_assert_eq!(parent_style.is_some(), parent_style_ignoring_first_line.is_some()); #[cfg(feature = "gecko")] debug_assert!(parent_style.is_none() || std::ptr::eq(parent_style.unwrap(), parent_style_ignoring_first_line.unwrap()) || parent_style.unwrap().is_first_line_style()); let reset_style = device.default_computed_values(); let inherited_style = parent_style.unwrap_or(reset_style); let inherited_style_ignoring_first_line = parent_style_ignoring_first_line.unwrap_or(reset_style); let flags = inherited_style.flags.inherited(); StyleBuilder { device, inherited_style, inherited_style_ignoring_first_line, reset_style, pseudo, rules, modified_reset: false, is_root_element, custom_properties, writing_mode: inherited_style.writing_mode, flags: Cell::new(flags), visited_style: None, % for style_struct in data.active_style_structs(): % if style_struct.inherited: ${style_struct.ident}: StyleStructRef::Borrowed(inherited_style.${style_struct.name_lower}_arc()), % else: ${style_struct.ident}: StyleStructRef::Borrowed(reset_style.${style_struct.name_lower}_arc()), % endif % endfor } } /// NOTE(emilio): This is done so we can compute relative units with respect /// to the parent style, but all the early properties / writing-mode / etc /// are already set to the right ones on the kid. /// /// Do _not_ actually call this to construct a style, this should mostly be /// used for animations. pub fn for_animation( device: &'a Device, style_to_derive_from: &'a ComputedValues, parent_style: Option<<&'a ComputedValues>, ) -> Self { let reset_style = device.default_computed_values(); let inherited_style = parent_style.unwrap_or(reset_style); #[cfg(feature = "gecko")] debug_assert!(parent_style.is_none() || !parent_style.unwrap().is_first_line_style()); StyleBuilder { device, inherited_style, // None of our callers pass in ::first-line parent styles. inherited_style_ignoring_first_line: inherited_style, reset_style, pseudo: None, modified_reset: false, is_root_element: false, rules: None, custom_properties: style_to_derive_from.custom_properties().cloned(), writing_mode: style_to_derive_from.writing_mode, flags: Cell::new(style_to_derive_from.flags), visited_style: None, % for style_struct in data.active_style_structs(): ${style_struct.ident}: StyleStructRef::Borrowed( style_to_derive_from.${style_struct.name_lower}_arc() ), % endfor } } /// Copy the reset properties from `style`. pub fn copy_reset_from(&mut self, style: &'a ComputedValues) { % for style_struct in data.active_style_structs(): % if not style_struct.inherited: self.${style_struct.ident} = StyleStructRef::Borrowed(style.${style_struct.name_lower}_arc()); % endif % endfor } % for property in data.longhands: % if not property.style_struct.inherited: /// Inherit `${property.ident}` from our parent style. #[allow(non_snake_case)] pub fn inherit_${property.ident}(&mut self) { let inherited_struct = self.inherited_style_ignoring_first_line .get_${property.style_struct.name_lower}(); self.modified_reset = true; self.add_flags(ComputedValueFlags::INHERITS_RESET_STYLE); % if property.ident == "content": self.add_flags(ComputedValueFlags::CONTENT_DEPENDS_ON_INHERITED_STYLE); % endif % if property.ident == "display": self.add_flags(ComputedValueFlags::DISPLAY_DEPENDS_ON_INHERITED_STYLE); % endif if self.${property.style_struct.ident}.ptr_eq(inherited_struct) { return; } self.${property.style_struct.ident}.mutate() .copy_${property.ident}_from( inherited_struct, % if property.logical: self.writing_mode, % endif ); } % else: /// Reset `${property.ident}` to the initial value. #[allow(non_snake_case)] pub fn reset_${property.ident}(&mut self) { let reset_struct = self.reset_style.get_${property.style_struct.name_lower}(); if self.${property.style_struct.ident}.ptr_eq(reset_struct) { return; } self.${property.style_struct.ident}.mutate() .reset_${property.ident}( reset_struct, % if property.logical: self.writing_mode, % endif ); } % endif % if not property.is_vector or property.simple_vector_bindings or engine in ["servo-2013", "servo-2020"]: /// Set the `${property.ident}` to the computed value `value`. #[allow(non_snake_case)] pub fn set_${property.ident}( &mut self, value: longhands::${property.ident}::computed_value::T ) { % if not property.style_struct.inherited: self.modified_reset = true; % endif self.${property.style_struct.ident}.mutate() .set_${property.ident}( value, % if property.logical: self.writing_mode, % endif ); } % endif % endfor <% del property %> /// Inherits style from the parent element, accounting for the default /// computed values that need to be provided as well. pub fn for_inheritance( device: &'a Device, parent: Option<<&'a ComputedValues>, pseudo: Option<<&'a PseudoElement>, ) -> Self { // Rebuild the visited style from the parent, ensuring that it will also // not have rules. This matches the unvisited style that will be // produced by this builder. This assumes that the caller doesn't need // to adjust or process visited style, so we can just build visited // style here for simplicity. let visited_style = parent.and_then(|parent| { parent.visited_style().map(|style| { Self::for_inheritance( device, Some(style), pseudo, ).build() }) }); let mut ret = Self::new( device, parent, parent, pseudo, /* rules = */ None, parent.and_then(|p| p.custom_properties().cloned()), /* is_root_element = */ false, ); ret.visited_style = visited_style; ret } /// Returns whether we have a visited style. pub fn has_visited_style(&self) -> bool { self.visited_style.is_some() } /// Returns whether we're a pseudo-elements style. pub fn is_pseudo_element(&self) -> bool { self.pseudo.map_or(false, |p| !p.is_anon_box()) } /// Returns the style we're getting reset properties from. pub fn default_style(&self) -> &'a ComputedValues { self.reset_style } % for style_struct in data.active_style_structs(): /// Gets an immutable view of the current `${style_struct.name}` style. pub fn get_${style_struct.name_lower}(&self) -> &style_structs::${style_struct.name} { &self.${style_struct.ident} } /// Gets a mutable view of the current `${style_struct.name}` style. pub fn mutate_${style_struct.name_lower}(&mut self) -> &mut style_structs::${style_struct.name} { % if not style_struct.inherited: self.modified_reset = true; % endif self.${style_struct.ident}.mutate() } /// Gets a mutable view of the current `${style_struct.name}` style. pub fn take_${style_struct.name_lower}(&mut self) -> UniqueArc { % if not style_struct.inherited: self.modified_reset = true; % endif self.${style_struct.ident}.take() } /// Gets a mutable view of the current `${style_struct.name}` style. pub fn put_${style_struct.name_lower}(&mut self, s: UniqueArc) { self.${style_struct.ident}.put(s) } /// Gets a mutable view of the current `${style_struct.name}` style, /// only if it's been mutated before. pub fn get_${style_struct.name_lower}_if_mutated(&mut self) -> Option<<&mut style_structs::${style_struct.name}> { self.${style_struct.ident}.get_if_mutated() } /// Reset the current `${style_struct.name}` style to its default value. pub fn reset_${style_struct.name_lower}_struct(&mut self) { self.${style_struct.ident} = StyleStructRef::Borrowed(self.reset_style.${style_struct.name_lower}_arc()); } % endfor <% del style_struct %> /// Returns whether this computed style represents a floated object. pub fn is_floating(&self) -> bool { self.get_box().clone_float().is_floating() } /// Returns whether this computed style represents an absolutely-positioned /// object. pub fn is_absolutely_positioned(&self) -> bool { self.get_box().clone_position().is_absolutely_positioned() } /// Whether this style has a top-layer style. #[cfg(feature = "servo")] pub fn in_top_layer(&self) -> bool { matches!(self.get_box().clone__servo_top_layer(), longhands::_servo_top_layer::computed_value::T::Top) } /// Whether this style has a top-layer style. #[cfg(feature = "gecko")] pub fn in_top_layer(&self) -> bool { matches!(self.get_box().clone__moz_top_layer(), longhands::_moz_top_layer::computed_value::T::Top) } /// Clears the "have any reset structs been modified" flag. fn clear_modified_reset(&mut self) { self.modified_reset = false; } /// Returns whether we have mutated any reset structs since the the last /// time `clear_modified_reset` was called. fn modified_reset(&self) -> bool { self.modified_reset } /// Return the current flags. #[inline] pub fn flags(&self) -> ComputedValueFlags { self.flags.get() } /// Add a flag to the current builder. #[inline] pub fn add_flags(&self, flag: ComputedValueFlags) { let flags = self.flags() | flag; self.flags.set(flags); } /// Removes a flag to the current builder. #[inline] pub fn remove_flags(&self, flag: ComputedValueFlags) { let flags = self.flags() & !flag; self.flags.set(flags); } /// Turns this `StyleBuilder` into a proper `ComputedValues` instance. pub fn build(self) -> Arc { ComputedValues::new( self.pseudo, self.custom_properties, self.writing_mode, self.flags.get(), self.rules, self.visited_style, % for style_struct in data.active_style_structs(): self.${style_struct.ident}.build(), % endfor ) } /// Get the custom properties map if necessary. /// /// Cloning the Arc here is fine because it only happens in the case where /// we have custom properties, and those are both rare and expensive. fn custom_properties(&self) -> Option<<&Arc> { self.custom_properties.as_ref() } /// Access to various information about our inherited styles. We don't /// expose an inherited ComputedValues directly, because in the /// ::first-line case some of the inherited information needs to come from /// one ComputedValues instance and some from a different one. /// Inherited writing-mode. pub fn inherited_writing_mode(&self) -> &WritingMode { &self.inherited_style.writing_mode } /// The computed value flags of our parent. #[inline] pub fn get_parent_flags(&self) -> ComputedValueFlags { self.inherited_style.flags } /// And access to inherited style structs. % for style_struct in data.active_style_structs(): /// Gets our inherited `${style_struct.name}`. We don't name these /// accessors `inherited_${style_struct.name_lower}` because we already /// have things like "box" vs "inherited_box" as struct names. Do the /// next-best thing and call them `parent_${style_struct.name_lower}` /// instead. pub fn get_parent_${style_struct.name_lower}(&self) -> &style_structs::${style_struct.name} { % if style_struct.inherited: self.inherited_style.get_${style_struct.name_lower}() % else: self.inherited_style_ignoring_first_line.get_${style_struct.name_lower}() % endif } % endfor } #[cfg(feature = "servo")] pub use self::lazy_static_module::INITIAL_SERVO_VALUES; // Use a module to work around #[cfg] on lazy_static! not being applied to every generated item. #[cfg(feature = "servo")] #[allow(missing_docs)] mod lazy_static_module { use crate::logical_geometry::WritingMode; use crate::computed_value_flags::ComputedValueFlags; use servo_arc::Arc; use super::{ComputedValues, ComputedValuesInner, longhands, style_structs}; lazy_static! { /// The initial values for all style structs as defined by the specification. pub static ref INITIAL_SERVO_VALUES: ComputedValues = ComputedValues { inner: ComputedValuesInner { % for style_struct in data.active_style_structs(): ${style_struct.ident}: Arc::new(style_structs::${style_struct.name} { % for longhand in style_struct.longhands: % if not longhand.logical: ${longhand.ident}: longhands::${longhand.ident}::get_initial_value(), % endif % endfor % if style_struct.name == "InheritedText": text_decorations_in_effect: crate::values::computed::text::TextDecorationsInEffect::default(), % endif % if style_struct.name == "Font": hash: 0, % endif % if style_struct.name == "Box": original_display: longhands::display::get_initial_value(), % endif }), % endfor custom_properties: None, writing_mode: WritingMode::empty(), rules: None, visited_style: None, flags: ComputedValueFlags::empty(), }, pseudo: None, }; } } /// A per-longhand function that performs the CSS cascade for that longhand. pub type CascadePropertyFn = extern "Rust" fn( declaration: &PropertyDeclaration, context: &mut computed::Context, ); /// A per-longhand array of functions to perform the CSS cascade on each of /// them, effectively doing virtual dispatch. pub static CASCADE_PROPERTY: [CascadePropertyFn; ${len(data.longhands)}] = [ % for property in data.longhands: longhands::${property.ident}::cascade_property, % endfor ]; /// See StyleAdjuster::adjust_for_border_width. pub fn adjust_border_width(style: &mut StyleBuilder) { % for side in ["top", "right", "bottom", "left"]: // Like calling to_computed_value, which wouldn't type check. if style.get_border().clone_border_${side}_style().none_or_hidden() && style.get_border().border_${side}_has_nonzero_width() { style.set_border_${side}_width(NonNegativeLength::zero()); } % endfor } /// An identifier for a given alias property. #[derive(Clone, Copy, Eq, PartialEq, MallocSizeOf)] #[repr(u16)] pub enum AliasId { % for i, property in enumerate(data.all_aliases()): /// ${property.name} ${property.camel_case} = ${i}, % endfor } #[derive(Clone, Copy, Eq, PartialEq)] enum AliasedPropertyId { #[allow(dead_code)] // Servo doesn't have aliased shorthands. Shorthand(ShorthandId), Longhand(LonghandId), } impl fmt::Debug for AliasId { fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { let name = NonCustomPropertyId::from(*self).name(); formatter.write_str(name) } } impl AliasId { /// Returns the property we're aliasing, as a longhand or a shorthand. #[inline] fn aliased_property(self) -> AliasedPropertyId { static MAP: [AliasedPropertyId; ${len(data.all_aliases())}] = [ % for alias in data.all_aliases(): % if alias.original.type() == "longhand": AliasedPropertyId::Longhand(LonghandId::${alias.original.camel_case}), % else: <% assert alias.original.type() == "shorthand" %> AliasedPropertyId::Shorthand(ShorthandId::${alias.original.camel_case}), % endif % endfor ]; MAP[self as usize] } } /// Call the given macro with tokens like this for each longhand and shorthand properties /// that is enabled in content: /// /// ``` /// [CamelCaseName, SetCamelCaseName, PropertyId::Longhand(LonghandId::CamelCaseName)], /// ``` /// /// NOTE(emilio): Callers are responsible to deal with prefs. #[macro_export] macro_rules! css_properties_accessors { ($macro_name: ident) => { $macro_name! { % for kind, props in [("Longhand", data.longhands), ("Shorthand", data.shorthands)]: % for property in props: % if property.enabled_in_content(): % for prop in [property] + property.aliases: % if '-' in prop.name: [${prop.ident.capitalize()}, Set${prop.ident.capitalize()}, PropertyId::${kind}(${kind}Id::${property.camel_case})], % endif [${prop.camel_case}, Set${prop.camel_case}, PropertyId::${kind}(${kind}Id::${property.camel_case})], % endfor % endif % endfor % endfor } } } /// Call the given macro with tokens like this for each longhand properties: /// /// ``` /// { snake_case_ident } /// ``` #[macro_export] macro_rules! longhand_properties_idents { ($macro_name: ident) => { $macro_name! { % for property in data.longhands: { ${property.ident} } % endfor } } } // Large pages generate tens of thousands of ComputedValues. size_of_test!(ComputedValues, 232); // FFI relies on this. size_of_test!(Option>, 8); // There are two reasons for this test to fail: // // * Your changes made a specified value type for a given property go // over the threshold. In that case, you should try to shrink it again // or, if not possible, mark the property as boxed in the property // definition. // // * Your changes made a specified value type smaller, so that it no // longer needs to be boxed. In this case you just need to remove // boxed=True from the property definition. Nice job! #[cfg(target_pointer_width = "64")] #[allow(dead_code)] // https://github.com/rust-lang/rust/issues/96952 const BOX_THRESHOLD: usize = 24; % for longhand in data.longhands: #[cfg(target_pointer_width = "64")] % if longhand.boxed: const_assert!(std::mem::size_of::() > BOX_THRESHOLD); % else: const_assert!(std::mem::size_of::() <= BOX_THRESHOLD); % endif % endfor % if engine in ["servo-2013", "servo-2020"]: % for effect_name in ["repaint", "reflow_out_of_flow", "reflow", "rebuild_and_reflow_inline", "rebuild_and_reflow"]: macro_rules! restyle_damage_${effect_name} { ($old: ident, $new: ident, $damage: ident, [ $($effect:expr),* ]) => ({ if % for style_struct in data.active_style_structs(): % for longhand in style_struct.longhands: % if effect_name in longhand.servo_restyle_damage.split() and not longhand.logical: $old.get_${style_struct.name_lower}().${longhand.ident} != $new.get_${style_struct.name_lower}().${longhand.ident} || % endif % endfor % endfor false { $damage.insert($($effect)|*); true } else { false } }) } % endfor % endif