/* 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/. */ //! Parsing for query feature expressions, like `(foo: bar)` or //! `(width >= 400px)`. use super::feature::{Evaluator, QueryFeatureDescription}; use super::feature::{FeatureFlags, KeywordDiscriminant}; use crate::parser::{Parse, ParserContext}; use crate::str::{starts_with_ignore_ascii_case, string_as_ascii_lowercase}; use crate::values::computed::{self, Ratio, ToComputedValue}; use crate::values::specified::{Integer, Length, Number, Resolution}; use crate::values::{AtomString, CSSFloat}; use crate::{Atom, Zero}; use cssparser::{Parser, Token}; use selectors::kleene_value::KleeneValue; use std::cmp::Ordering; use std::fmt::{self, Write}; use style_traits::{CssWriter, ParseError, StyleParseErrorKind, ToCss}; /// Whether we're parsing a media or container query feature. #[derive(Clone, Copy, Debug, Eq, MallocSizeOf, PartialEq, ToShmem)] pub enum FeatureType { /// We're parsing a media feature. Media, /// We're parsing a container feature. Container, } impl FeatureType { fn features(&self) -> &'static [QueryFeatureDescription] { #[cfg(feature = "gecko")] use crate::gecko::media_features::MEDIA_FEATURES; #[cfg(feature = "servo")] use crate::servo::media_queries::MEDIA_FEATURES; use crate::stylesheets::container_rule::CONTAINER_FEATURES; match *self { FeatureType::Media => &MEDIA_FEATURES, FeatureType::Container => &CONTAINER_FEATURES, } } fn find_feature(&self, name: &Atom) -> Option<(usize, &'static QueryFeatureDescription)> { self.features() .iter() .enumerate() .find(|(_, f)| f.name == *name) } } /// The kind of matching that should be performed on a feature value. #[derive(Clone, Copy, Debug, Eq, MallocSizeOf, PartialEq, ToShmem)] enum LegacyRange { /// At least the specified value. Min, /// At most the specified value. Max, } /// The operator that was specified in this feature. #[derive(Clone, Copy, Debug, Eq, MallocSizeOf, PartialEq, ToShmem)] enum Operator { /// = Equal, /// > GreaterThan, /// >= GreaterThanEqual, /// < LessThan, /// <= LessThanEqual, } impl ToCss for Operator { fn to_css(&self, dest: &mut CssWriter) -> fmt::Result where W: fmt::Write, { dest.write_str(match *self { Self::Equal => "=", Self::LessThan => "<", Self::LessThanEqual => "<=", Self::GreaterThan => ">", Self::GreaterThanEqual => ">=", }) } } impl Operator { fn is_compatible_with(self, right_op: Self) -> bool { // Some operators are not compatible with each other in multi-range // context. match self { Self::Equal => false, Self::GreaterThan | Self::GreaterThanEqual => { matches!(right_op, Self::GreaterThan | Self::GreaterThanEqual) }, Self::LessThan | Self::LessThanEqual => { matches!(right_op, Self::LessThan | Self::LessThanEqual) }, } } fn evaluate(&self, cmp: Ordering) -> bool { match *self { Self::Equal => cmp == Ordering::Equal, Self::GreaterThan => cmp == Ordering::Greater, Self::GreaterThanEqual => cmp == Ordering::Equal || cmp == Ordering::Greater, Self::LessThan => cmp == Ordering::Less, Self::LessThanEqual => cmp == Ordering::Equal || cmp == Ordering::Less, } } fn parse<'i>(input: &mut Parser<'i, '_>) -> Result> { let location = input.current_source_location(); let operator = match *input.next()? { Token::Delim('=') => return Ok(Operator::Equal), Token::Delim('>') => Operator::GreaterThan, Token::Delim('<') => Operator::LessThan, ref t => return Err(location.new_unexpected_token_error(t.clone())), }; // https://drafts.csswg.org/mediaqueries-4/#mq-syntax: // // No whitespace is allowed between the “<” or “>” // s and the following “=” , if it’s // present. // // TODO(emilio): Maybe we should ignore comments as well? // https://github.com/w3c/csswg-drafts/issues/6248 let parsed_equal = input .try_parse(|i| { let t = i.next_including_whitespace().map_err(|_| ())?; if !matches!(t, Token::Delim('=')) { return Err(()); } Ok(()) }) .is_ok(); if !parsed_equal { return Ok(operator); } Ok(match operator { Operator::GreaterThan => Operator::GreaterThanEqual, Operator::LessThan => Operator::LessThanEqual, _ => unreachable!(), }) } } #[derive(Clone, Debug, MallocSizeOf, ToShmem, PartialEq)] enum QueryFeatureExpressionKind { /// Just the media feature name. Empty, /// A single value. Single(QueryExpressionValue), /// Legacy range syntax (min-*: value) or so. LegacyRange(LegacyRange, QueryExpressionValue), /// Modern range context syntax: /// https://drafts.csswg.org/mediaqueries-5/#mq-range-context Range { left: Option<(Operator, QueryExpressionValue)>, right: Option<(Operator, QueryExpressionValue)>, }, } impl QueryFeatureExpressionKind { /// Evaluate a given range given an optional query value and a value from /// the browser. fn evaluate( &self, context_value: T, mut compute: impl FnMut(&QueryExpressionValue) -> T, ) -> bool where T: PartialOrd + Zero, { match *self { Self::Empty => return !context_value.is_zero(), Self::Single(ref value) => { let value = compute(value); let cmp = match context_value.partial_cmp(&value) { Some(c) => c, None => return false, }; cmp == Ordering::Equal }, Self::LegacyRange(ref range, ref value) => { let value = compute(value); let cmp = match context_value.partial_cmp(&value) { Some(c) => c, None => return false, }; cmp == Ordering::Equal || match range { LegacyRange::Min => cmp == Ordering::Greater, LegacyRange::Max => cmp == Ordering::Less, } }, Self::Range { ref left, ref right, } => { debug_assert!(left.is_some() || right.is_some()); if let Some((ref op, ref value)) = left { let value = compute(value); let cmp = match value.partial_cmp(&context_value) { Some(c) => c, None => return false, }; if !op.evaluate(cmp) { return false; } } if let Some((ref op, ref value)) = right { let value = compute(value); let cmp = match context_value.partial_cmp(&value) { Some(c) => c, None => return false, }; if !op.evaluate(cmp) { return false; } } true }, } } /// Non-ranged features only need to compare to one value at most. fn non_ranged_value(&self) -> Option<&QueryExpressionValue> { match *self { Self::Empty => None, Self::Single(ref v) => Some(v), Self::LegacyRange(..) | Self::Range { .. } => { debug_assert!(false, "Unexpected ranged value in non-ranged feature!"); None }, } } } /// A feature expression contains a reference to the feature, the value the /// query contained, and the range to evaluate. #[derive(Clone, Debug, MallocSizeOf, ToShmem, PartialEq)] pub struct QueryFeatureExpression { feature_type: FeatureType, feature_index: usize, kind: QueryFeatureExpressionKind, } impl ToCss for QueryFeatureExpression { fn to_css(&self, dest: &mut CssWriter) -> fmt::Result where W: fmt::Write, { dest.write_char('(')?; match self.kind { QueryFeatureExpressionKind::Empty => self.write_name(dest)?, QueryFeatureExpressionKind::Single(ref v) | QueryFeatureExpressionKind::LegacyRange(_, ref v) => { self.write_name(dest)?; dest.write_str(": ")?; v.to_css(dest, self)?; }, QueryFeatureExpressionKind::Range { ref left, ref right, } => { if let Some((ref op, ref val)) = left { val.to_css(dest, self)?; dest.write_char(' ')?; op.to_css(dest)?; dest.write_char(' ')?; } self.write_name(dest)?; if let Some((ref op, ref val)) = right { dest.write_char(' ')?; op.to_css(dest)?; dest.write_char(' ')?; val.to_css(dest, self)?; } }, } dest.write_char(')') } } fn consume_operation_or_colon<'i>( input: &mut Parser<'i, '_>, ) -> Result, ParseError<'i>> { if input.try_parse(|input| input.expect_colon()).is_ok() { return Ok(None); } Operator::parse(input).map(|op| Some(op)) } #[allow(unused_variables)] fn disabled_by_pref(feature: &Atom, context: &ParserContext) -> bool { #[cfg(feature = "gecko")] { // prefers-reduced-transparency is always enabled in the ua and chrome. On // the web it is hidden behind a preference (see Bug 1822176). if *feature == atom!("prefers-reduced-transparency") { return !context.chrome_rules_enabled() && !static_prefs::pref!("layout.css.prefers-reduced-transparency.enabled"); } // inverted-colors is always enabled in the ua and chrome. On // the web it is hidden behind a preference. if *feature == atom!("inverted-colors") { return !context.chrome_rules_enabled() && !static_prefs::pref!("layout.css.inverted-colors.enabled"); } } false } impl QueryFeatureExpression { fn new( feature_type: FeatureType, feature_index: usize, kind: QueryFeatureExpressionKind, ) -> Self { debug_assert!(feature_index < feature_type.features().len()); Self { feature_type, feature_index, kind, } } fn write_name(&self, dest: &mut CssWriter) -> fmt::Result where W: fmt::Write, { let feature = self.feature(); if feature.flags.contains(FeatureFlags::WEBKIT_PREFIX) { dest.write_str("-webkit-")?; } if let QueryFeatureExpressionKind::LegacyRange(range, _) = self.kind { match range { LegacyRange::Min => dest.write_str("min-")?, LegacyRange::Max => dest.write_str("max-")?, } } // NB: CssStringWriter not needed, feature names are under control. write!(dest, "{}", feature.name)?; Ok(()) } fn feature(&self) -> &'static QueryFeatureDescription { &self.feature_type.features()[self.feature_index] } /// Returns the feature flags for our feature. pub fn feature_flags(&self) -> FeatureFlags { self.feature().flags } /// Parse a feature expression of the form: /// /// ``` /// (media-feature: media-value) /// ``` pub fn parse<'i, 't>( context: &ParserContext, input: &mut Parser<'i, 't>, feature_type: FeatureType, ) -> Result> { input.expect_parenthesis_block()?; input.parse_nested_block(|input| { Self::parse_in_parenthesis_block(context, input, feature_type) }) } fn parse_feature_name<'i, 't>( context: &ParserContext, input: &mut Parser<'i, 't>, feature_type: FeatureType, ) -> Result<(usize, Option), ParseError<'i>> { let mut flags = FeatureFlags::empty(); let location = input.current_source_location(); let ident = input.expect_ident()?; if context.chrome_rules_enabled() { flags.insert(FeatureFlags::CHROME_AND_UA_ONLY); } let mut feature_name = &**ident; if starts_with_ignore_ascii_case(feature_name, "-webkit-") { feature_name = &feature_name[8..]; flags.insert(FeatureFlags::WEBKIT_PREFIX); } let range = if starts_with_ignore_ascii_case(feature_name, "min-") { feature_name = &feature_name[4..]; Some(LegacyRange::Min) } else if starts_with_ignore_ascii_case(feature_name, "max-") { feature_name = &feature_name[4..]; Some(LegacyRange::Max) } else { None }; let atom = Atom::from(string_as_ascii_lowercase(feature_name)); let (feature_index, feature) = match feature_type.find_feature(&atom) { Some((i, f)) => (i, f), None => { return Err(location.new_custom_error( StyleParseErrorKind::MediaQueryExpectedFeatureName(ident.clone()), )) }, }; if disabled_by_pref(&feature.name, context) || !flags.contains(feature.flags.parsing_requirements()) || (range.is_some() && !feature.allows_ranges()) { return Err(location.new_custom_error( StyleParseErrorKind::MediaQueryExpectedFeatureName(ident.clone()), )); } Ok((feature_index, range)) } /// Parses the following range syntax: /// /// (feature-value feature-name) /// (feature-value feature-name feature-value) fn parse_multi_range_syntax<'i, 't>( context: &ParserContext, input: &mut Parser<'i, 't>, feature_type: FeatureType, ) -> Result> { let start = input.state(); // To parse the values, we first need to find the feature name. We rely // on feature values for ranged features not being able to be top-level // s, which holds. let feature_index = loop { // NOTE: parse_feature_name advances the input. if let Ok((index, range)) = Self::parse_feature_name(context, input, feature_type) { if range.is_some() { // Ranged names are not allowed here. return Err(input.new_custom_error(StyleParseErrorKind::UnspecifiedError)); } break index; } if input.is_exhausted() { return Err(start .source_location() .new_custom_error(StyleParseErrorKind::UnspecifiedError)); } }; input.reset(&start); let feature = &feature_type.features()[feature_index]; let left_val = QueryExpressionValue::parse(feature, context, input)?; let left_op = Operator::parse(input)?; { let (parsed_index, _) = Self::parse_feature_name(context, input, feature_type)?; debug_assert_eq!( parsed_index, feature_index, "How did we find a different feature?" ); } let right_op = input.try_parse(Operator::parse).ok(); let right = match right_op { Some(op) => { if !left_op.is_compatible_with(op) { return Err(input.new_custom_error(StyleParseErrorKind::UnspecifiedError)); } Some((op, QueryExpressionValue::parse(feature, context, input)?)) }, None => None, }; Ok(Self::new( feature_type, feature_index, QueryFeatureExpressionKind::Range { left: Some((left_op, left_val)), right, }, )) } /// Parse a feature expression where we've already consumed the parenthesis. pub fn parse_in_parenthesis_block<'i, 't>( context: &ParserContext, input: &mut Parser<'i, 't>, feature_type: FeatureType, ) -> Result> { let (feature_index, range) = match input.try_parse(|input| Self::parse_feature_name(context, input, feature_type)) { Ok(v) => v, Err(e) => { if let Ok(expr) = Self::parse_multi_range_syntax(context, input, feature_type) { return Ok(expr); } return Err(e); }, }; let operator = input.try_parse(consume_operation_or_colon); let operator = match operator { Err(..) => { // If there's no colon, this is a query of the form // '()', that is, there's no value specified. // // Gecko doesn't allow ranged expressions without a // value, so just reject them here too. if range.is_some() { return Err( input.new_custom_error(StyleParseErrorKind::RangedExpressionWithNoValue) ); } return Ok(Self::new( feature_type, feature_index, QueryFeatureExpressionKind::Empty, )); }, Ok(operator) => operator, }; let feature = &feature_type.features()[feature_index]; let value = QueryExpressionValue::parse(feature, context, input).map_err(|err| { err.location .new_custom_error(StyleParseErrorKind::MediaQueryExpectedFeatureValue) })?; let kind = match range { Some(range) => { if operator.is_some() { return Err( input.new_custom_error(StyleParseErrorKind::MediaQueryUnexpectedOperator) ); } QueryFeatureExpressionKind::LegacyRange(range, value) }, None => match operator { Some(operator) => { if !feature.allows_ranges() { return Err(input .new_custom_error(StyleParseErrorKind::MediaQueryUnexpectedOperator)); } QueryFeatureExpressionKind::Range { left: None, right: Some((operator, value)), } }, None => QueryFeatureExpressionKind::Single(value), }, }; Ok(Self::new(feature_type, feature_index, kind)) } /// Returns whether this query evaluates to true for the given device. pub fn matches(&self, context: &computed::Context) -> KleeneValue { macro_rules! expect { ($variant:ident, $v:expr) => { match *$v { QueryExpressionValue::$variant(ref v) => v, _ => unreachable!("Unexpected QueryExpressionValue"), } }; } KleeneValue::from(match self.feature().evaluator { Evaluator::Length(eval) => { let v = eval(context); self.kind .evaluate(v, |v| expect!(Length, v).to_computed_value(context)) }, Evaluator::OptionalLength(eval) => { let v = match eval(context) { Some(v) => v, None => return KleeneValue::Unknown, }; self.kind .evaluate(v, |v| expect!(Length, v).to_computed_value(context)) }, Evaluator::Integer(eval) => { let v = eval(context); self.kind.evaluate(v, |v| *expect!(Integer, v)) }, Evaluator::Float(eval) => { let v = eval(context); self.kind.evaluate(v, |v| *expect!(Float, v)) }, Evaluator::NumberRatio(eval) => { let ratio = eval(context); // A ratio of 0/0 behaves as the ratio 1/0, so we need to call used_value() // to convert it if necessary. // FIXME: we may need to update here once // https://github.com/w3c/csswg-drafts/issues/4954 got resolved. self.kind .evaluate(ratio, |v| expect!(NumberRatio, v).used_value()) }, Evaluator::OptionalNumberRatio(eval) => { let ratio = match eval(context) { Some(v) => v, None => return KleeneValue::Unknown, }; // See above for subtleties here. self.kind .evaluate(ratio, |v| expect!(NumberRatio, v).used_value()) }, Evaluator::Resolution(eval) => { let v = eval(context).dppx(); self.kind.evaluate(v, |v| { expect!(Resolution, v).to_computed_value(context).dppx() }) }, Evaluator::Enumerated { evaluator, .. } => { let computed = self .kind .non_ranged_value() .map(|v| *expect!(Enumerated, v)); return evaluator(context, computed); }, Evaluator::String(evaluator) => { let string = self.kind.non_ranged_value().map(|v| expect!(String, v)); return evaluator(context, string); }, Evaluator::BoolInteger(eval) => { let computed = self .kind .non_ranged_value() .map(|v| *expect!(BoolInteger, v)); let boolean = eval(context); computed.map_or(boolean, |v| v == boolean) }, }) } } /// A value found or expected in a expression. /// /// FIXME(emilio): How should calc() serialize in the Number / Integer / /// BoolInteger / NumberRatio case, as computed or as specified value? /// /// If the first, this would need to store the relevant values. /// /// See: https://github.com/w3c/csswg-drafts/issues/1968 #[derive(Clone, Debug, MallocSizeOf, PartialEq, ToShmem)] pub enum QueryExpressionValue { /// A length. Length(Length), /// An integer. Integer(i32), /// A floating point value. Float(CSSFloat), /// A boolean value, specified as an integer (i.e., either 0 or 1). BoolInteger(bool), /// A single non-negative number or two non-negative numbers separated by '/', /// with optional whitespace on either side of the '/'. NumberRatio(Ratio), /// A resolution. Resolution(Resolution), /// An enumerated value, defined by the variant keyword table in the /// feature's `mData` member. Enumerated(KeywordDiscriminant), /// An arbitrary ident value. String(AtomString), } impl QueryExpressionValue { fn to_css(&self, dest: &mut CssWriter, for_expr: &QueryFeatureExpression) -> fmt::Result where W: fmt::Write, { match *self { QueryExpressionValue::Length(ref l) => l.to_css(dest), QueryExpressionValue::Integer(v) => v.to_css(dest), QueryExpressionValue::Float(v) => v.to_css(dest), QueryExpressionValue::BoolInteger(v) => dest.write_str(if v { "1" } else { "0" }), QueryExpressionValue::NumberRatio(ratio) => ratio.to_css(dest), QueryExpressionValue::Resolution(ref r) => r.to_css(dest), QueryExpressionValue::Enumerated(value) => match for_expr.feature().evaluator { Evaluator::Enumerated { serializer, .. } => dest.write_str(&*serializer(value)), _ => unreachable!(), }, QueryExpressionValue::String(ref s) => s.to_css(dest), } } fn parse<'i, 't>( for_feature: &QueryFeatureDescription, context: &ParserContext, input: &mut Parser<'i, 't>, ) -> Result> { Ok(match for_feature.evaluator { Evaluator::OptionalLength(..) | Evaluator::Length(..) => { let length = Length::parse(context, input)?; QueryExpressionValue::Length(length) }, Evaluator::Integer(..) => { let integer = Integer::parse(context, input)?; QueryExpressionValue::Integer(integer.value()) }, Evaluator::BoolInteger(..) => { let integer = Integer::parse_non_negative(context, input)?; let value = integer.value(); if value > 1 { return Err(input.new_custom_error(StyleParseErrorKind::UnspecifiedError)); } QueryExpressionValue::BoolInteger(value == 1) }, Evaluator::Float(..) => { let number = Number::parse(context, input)?; QueryExpressionValue::Float(number.get()) }, Evaluator::OptionalNumberRatio(..) | Evaluator::NumberRatio(..) => { use crate::values::specified::Ratio as SpecifiedRatio; let ratio = SpecifiedRatio::parse(context, input)?; QueryExpressionValue::NumberRatio(Ratio::new(ratio.0.get(), ratio.1.get())) }, Evaluator::Resolution(..) => { QueryExpressionValue::Resolution(Resolution::parse(context, input)?) }, Evaluator::String(..) => { QueryExpressionValue::String(input.expect_string()?.as_ref().into()) }, Evaluator::Enumerated { parser, .. } => { QueryExpressionValue::Enumerated(parser(context, input)?) }, }) } }