gecko-dev/servo/tests/unit/style/media_queries.rs

Ignoring revisions in .git-blame-ignore-revs. Click here to bypass and see the normal blame view.

399 строки
17 KiB
Rust
Исходник Обычный вид История

/* 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/. */
use euclid::Scale;
use euclid::Size2D;
use servo_arc::Arc;
use servo_url::ServoUrl;
use std::borrow::ToOwned;
servo: Merge #14043 - Update to string-cache 0.3 (from servo:string-cache-up); r=nox Previously, `string-cache` defined: * An string-like `Atom` type, * An `atom!("foo")` macro that expands to a value of that type, for a set of strings known at compile-time, * A `struct Namespace(Atom);` type * A `ns!(html)` macro that maps known prefixed to `Namespace` values with the corresponding namespace URL. Adding a string to the static set required making a change to the `string-cache` crate. With 0.3, the `Atom` type is now generic, with a type parameter that provides a set of static strings. We can have multiple such sets, defined in different crates. The `string_cache_codegen` crate, to be used in build scripts, generates code that defines such a set, a new atom type (a type alias for `Atom<_>` with the type parameter set), and an `atom!`-like macro. The html5ever repository has a new `html5ever_atoms` crate that defines three such types: `Prefix`, `Namespace`, and `LocalName` (with respective `namespace_prefix!`, `namespace_url!`, and `local_name!` macros). It also defines the `ns!` macro like before. This repository has a new `servo_atoms` crate in `components/atoms` that, for now, defines a single `Atom` type (and `atom!`) macro. (`servo_atoms::Atom` is defined as something like `type Atom = string_cache::Atom<ServoStaticStringSet>;`, so overall there’s now two types named `Atom`.) In this PR, `servo_atoms::Atom` is used for everything else that was `string_cache::Atom` before. But more atom types can be defined as needed. Two reasons to do this are to auto-generate the set of static strings (I’m planning to do this for CSS property names, which is the motivation for this change), or to have the type system help us avoid mix up unrelated things (this is why we had a `Namespace` type ever before this change). Introducing new types helped me find a bug: when creating a new attribute `dom::Element::set_style_attr`, would pass `Some(atom!("style"))` instead of `None` (now `Option<html5ever_atoms::Prefix>` instead of `Option<string_cache::Atom>`) to the `prefix` argument of `Attr::new`. I suppose the author of that code confused it with the `local_name` argument. --- Note that Stylo is not affected by any of this. The `gecko_string_cache` module is unchanged, with a single `Atom` type. The `style` crate conditionally compiles `Prefix` and `LocalName` re-exports for that are both `gecko_string_cache::Atom` on stylo. --- <!-- Thank you for contributing to Servo! Please replace each `[ ]` by `[X]` when the step is complete, and replace `__` with appropriate data: --> - [x] `./mach build -d` does not report any errors - [x] `./mach test-tidy` does not report any errors - [ ] These changes fix #__ (github issue number if applicable). <!-- Either: --> - [ ] There are tests for these changes OR - [ ] These changes do not require tests because _____ <!-- Pull requests that do not address these steps are welcome, but they will require additional verification as part of the review process. --> Source-Repo: https://github.com/servo/servo Source-Revision: 5b4cc9568dbd5c15e5d2fbc62719172f11566ffa
2016-11-03 19:19:44 +03:00
use style::Atom;
use style::context::QuirksMode;
use style::media_queries::*;
use style::servo::media_queries::*;
use style::shared_lock::SharedRwLock;
use style::stylesheets::{AllRules, Stylesheet, StylesheetInDocument, Origin, CssRule};
use style::values::{CustomIdent, specified};
use style_traits::ToCss;
fn test_media_rule<F>(css: &str, callback: F)
where
F: Fn(&MediaList, &str),
{
let url = ServoUrl::parse("http://localhost").unwrap();
let css_str = css.to_owned();
let lock = SharedRwLock::new();
let media_list = Arc::new(lock.wrap(MediaList::empty()));
let stylesheet = Stylesheet::from_str(
css, url, Origin::Author, media_list, lock,
None, None, QuirksMode::NoQuirks, 0);
let dummy = Device::new(MediaType::screen(), Size2D::new(200.0, 100.0), Scale::new(1.0));
let mut rule_count = 0;
servo: Merge #16014 - Per-process lock for CSSOM objects (from servo:style-ref); r=emilio <!-- Please describe your changes on the following line: --> Before this PR, every object reflected in CSSOM is in `Arc<RwLock<_>>` to enable safe (synchronized) mutable aliasing. Acquiring all these locks has significant cost during selector matching: * https://bugzilla.mozilla.org/show_bug.cgi?id=1311469 * https://bugzilla.mozilla.org/show_bug.cgi?id=1335941 * https://bugzilla.mozilla.org/show_bug.cgi?id=1339703 This PR introduce a mechanism to protect many objects with the same `RwLock` that only needs to be acquired once. In Stylo, there is one such lock per process (in a `lazy_static`), used for everything. I non-Stylo Servo, I originally intended to have one such lock per document (for author-origin stylesheets, and one per process for user-agent and user sytlesheets since they’re shared across documents, and never mutated anyway). However I failed to have the same document-specific (or pipeline-specific) `Arc` reachable from both `Document` nodes and `LayoutThread`. Recursively following callers lead me to include this `Arc` in `UnprivilegedPipelineContent`, but that needs to be serializable. So there is a second process-wide lock. This was previously #15998, closed accidentally. --- <!-- Thank you for contributing to Servo! Please replace each `[ ]` by `[X]` when the step is complete, and replace `__` with appropriate data: --> - [x] `./mach build -d` does not report any errors - [x] `./mach test-tidy` does not report any errors - [ ] These changes fix #__ (github issue number if applicable). <!-- Either: --> - [ ] There are tests for these changes OR - [ ] These changes do not require tests because _____ <!-- Pull requests that do not address these steps are welcome, but they will require additional verification as part of the review process. --> Source-Repo: https://github.com/servo/servo Source-Revision: bb54f0a429de0e8b8861f8071b6cf82f73622664 --HG-- extra : subtree_source : https%3A//hg.mozilla.org/projects/converted-servo-linear extra : subtree_revision : 851230e57ac8775707df5f0f103be5feac81fc41
2017-03-20 00:31:19 +03:00
let guard = stylesheet.shared_lock.read();
for rule in stylesheet.iter_rules::<AllRules>(&dummy, &guard) {
if let CssRule::Media(ref lock) = *rule {
rule_count += 1;
callback(&lock.read_with(&guard).media_queries.read_with(&guard), css);
}
}
assert!(rule_count > 0, css_str);
}
fn media_query_test(device: &Device, css: &str, expected_rule_count: usize) {
let url = ServoUrl::parse("http://localhost").unwrap();
let lock = SharedRwLock::new();
let media_list = Arc::new(lock.wrap(MediaList::empty()));
let ss = Stylesheet::from_str(
css, url, Origin::Author, media_list, lock,
None, None, QuirksMode::NoQuirks, 0);
let mut rule_count = 0;
servo: Merge #16014 - Per-process lock for CSSOM objects (from servo:style-ref); r=emilio <!-- Please describe your changes on the following line: --> Before this PR, every object reflected in CSSOM is in `Arc<RwLock<_>>` to enable safe (synchronized) mutable aliasing. Acquiring all these locks has significant cost during selector matching: * https://bugzilla.mozilla.org/show_bug.cgi?id=1311469 * https://bugzilla.mozilla.org/show_bug.cgi?id=1335941 * https://bugzilla.mozilla.org/show_bug.cgi?id=1339703 This PR introduce a mechanism to protect many objects with the same `RwLock` that only needs to be acquired once. In Stylo, there is one such lock per process (in a `lazy_static`), used for everything. I non-Stylo Servo, I originally intended to have one such lock per document (for author-origin stylesheets, and one per process for user-agent and user sytlesheets since they’re shared across documents, and never mutated anyway). However I failed to have the same document-specific (or pipeline-specific) `Arc` reachable from both `Document` nodes and `LayoutThread`. Recursively following callers lead me to include this `Arc` in `UnprivilegedPipelineContent`, but that needs to be serializable. So there is a second process-wide lock. This was previously #15998, closed accidentally. --- <!-- Thank you for contributing to Servo! Please replace each `[ ]` by `[X]` when the step is complete, and replace `__` with appropriate data: --> - [x] `./mach build -d` does not report any errors - [x] `./mach test-tidy` does not report any errors - [ ] These changes fix #__ (github issue number if applicable). <!-- Either: --> - [ ] There are tests for these changes OR - [ ] These changes do not require tests because _____ <!-- Pull requests that do not address these steps are welcome, but they will require additional verification as part of the review process. --> Source-Repo: https://github.com/servo/servo Source-Revision: bb54f0a429de0e8b8861f8071b6cf82f73622664 --HG-- extra : subtree_source : https%3A//hg.mozilla.org/projects/converted-servo-linear extra : subtree_revision : 851230e57ac8775707df5f0f103be5feac81fc41
2017-03-20 00:31:19 +03:00
ss.effective_style_rules(device, &ss.shared_lock.read(), |_| rule_count += 1);
assert!(rule_count == expected_rule_count, css.to_owned());
}
#[test]
fn test_mq_empty() {
test_media_rule("@media { }", |list, css| {
assert!(list.media_queries.len() == 0, css.to_owned());
});
}
#[test]
fn test_mq_screen() {
test_media_rule("@media screen { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == None, css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(MediaType::screen()), css.to_owned());
assert!(q.expressions.len() == 0, css.to_owned());
});
test_media_rule("@media only screen { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == Some(Qualifier::Only), css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(MediaType::screen()), css.to_owned());
assert!(q.expressions.len() == 0, css.to_owned());
});
test_media_rule("@media not screen { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == Some(Qualifier::Not), css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(MediaType::screen()), css.to_owned());
assert!(q.expressions.len() == 0, css.to_owned());
});
}
#[test]
fn test_mq_print() {
test_media_rule("@media print { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == None, css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(MediaType::print()), css.to_owned());
assert!(q.expressions.len() == 0, css.to_owned());
});
test_media_rule("@media only print { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == Some(Qualifier::Only), css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(MediaType::print()), css.to_owned());
assert!(q.expressions.len() == 0, css.to_owned());
});
test_media_rule("@media not print { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == Some(Qualifier::Not), css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(MediaType::print()), css.to_owned());
assert!(q.expressions.len() == 0, css.to_owned());
});
}
#[test]
fn test_mq_unknown() {
test_media_rule("@media fridge { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == None, css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(
MediaType(CustomIdent(Atom::from("fridge")))), css.to_owned());
assert!(q.expressions.len() == 0, css.to_owned());
});
test_media_rule("@media only glass { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == Some(Qualifier::Only), css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(
MediaType(CustomIdent(Atom::from("glass")))), css.to_owned());
assert!(q.expressions.len() == 0, css.to_owned());
});
test_media_rule("@media not wood { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == Some(Qualifier::Not), css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(
MediaType(CustomIdent(Atom::from("wood")))), css.to_owned());
assert!(q.expressions.len() == 0, css.to_owned());
});
}
#[test]
fn test_mq_all() {
test_media_rule("@media all { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == None, css.to_owned());
assert!(q.media_type == MediaQueryType::All, css.to_owned());
assert!(q.expressions.len() == 0, css.to_owned());
});
test_media_rule("@media only all { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == Some(Qualifier::Only), css.to_owned());
assert!(q.media_type == MediaQueryType::All, css.to_owned());
assert!(q.expressions.len() == 0, css.to_owned());
});
test_media_rule("@media not all { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == Some(Qualifier::Not), css.to_owned());
assert!(q.media_type == MediaQueryType::All, css.to_owned());
assert!(q.expressions.len() == 0, css.to_owned());
});
}
#[test]
fn test_mq_or() {
test_media_rule("@media screen, print { }", |list, css| {
assert!(list.media_queries.len() == 2, css.to_owned());
let q0 = &list.media_queries[0];
assert!(q0.qualifier == None, css.to_owned());
assert!(q0.media_type == MediaQueryType::Concrete(MediaType::screen()), css.to_owned());
assert!(q0.expressions.len() == 0, css.to_owned());
let q1 = &list.media_queries[1];
assert!(q1.qualifier == None, css.to_owned());
assert!(q1.media_type == MediaQueryType::Concrete(MediaType::print()), css.to_owned());
assert!(q1.expressions.len() == 0, css.to_owned());
});
}
#[test]
fn test_mq_default_expressions() {
test_media_rule("@media (min-width: 100px) { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == None, css.to_owned());
assert!(q.media_type == MediaQueryType::All, css.to_owned());
assert!(q.expressions.len() == 1, css.to_owned());
match *q.expressions[0].kind_for_testing() {
ExpressionKind::Width(Range::Min(ref w)) => assert!(*w == specified::Length::from_px(100.)),
_ => panic!("wrong expression type"),
}
});
test_media_rule("@media (max-width: 43px) { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == None, css.to_owned());
assert!(q.media_type == MediaQueryType::All, css.to_owned());
assert!(q.expressions.len() == 1, css.to_owned());
match *q.expressions[0].kind_for_testing() {
ExpressionKind::Width(Range::Max(ref w)) => assert!(*w == specified::Length::from_px(43.)),
_ => panic!("wrong expression type"),
}
});
}
#[test]
fn test_mq_expressions() {
test_media_rule("@media screen and (min-width: 100px) { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == None, css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(MediaType::screen()), css.to_owned());
assert!(q.expressions.len() == 1, css.to_owned());
match *q.expressions[0].kind_for_testing() {
ExpressionKind::Width(Range::Min(ref w)) => assert!(*w == specified::Length::from_px(100.)),
_ => panic!("wrong expression type"),
}
});
test_media_rule("@media print and (max-width: 43px) { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == None, css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(MediaType::print()), css.to_owned());
assert!(q.expressions.len() == 1, css.to_owned());
match *q.expressions[0].kind_for_testing() {
ExpressionKind::Width(Range::Max(ref w)) => assert!(*w == specified::Length::from_px(43.)),
_ => panic!("wrong expression type"),
}
});
test_media_rule("@media print and (width: 43px) { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == None, css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(MediaType::print()), css.to_owned());
assert!(q.expressions.len() == 1, css.to_owned());
match *q.expressions[0].kind_for_testing() {
ExpressionKind::Width(Range::Eq(ref w)) => assert!(*w == specified::Length::from_px(43.)),
_ => panic!("wrong expression type"),
}
});
test_media_rule("@media fridge and (max-width: 52px) { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == None, css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(
MediaType(CustomIdent(Atom::from("fridge")))), css.to_owned());
assert!(q.expressions.len() == 1, css.to_owned());
match *q.expressions[0].kind_for_testing() {
ExpressionKind::Width(Range::Max(ref w)) => assert!(*w == specified::Length::from_px(52.)),
_ => panic!("wrong expression type"),
}
});
}
#[test]
fn test_to_css() {
test_media_rule("@media print and (width: 43px) { }", |list, _| {
let q = &list.media_queries[0];
let dest = q.to_css_string();
assert_eq!(dest, "print and (width: 43px)");
});
}
#[test]
fn test_mq_multiple_expressions() {
test_media_rule("@media (min-width: 100px) and (max-width: 200px) { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == None, css.to_owned());
assert!(q.media_type == MediaQueryType::All, css.to_owned());
assert!(q.expressions.len() == 2, css.to_owned());
match *q.expressions[0].kind_for_testing() {
ExpressionKind::Width(Range::Min(ref w)) => assert!(*w == specified::Length::from_px(100.)),
_ => panic!("wrong expression type"),
}
match *q.expressions[1].kind_for_testing() {
ExpressionKind::Width(Range::Max(ref w)) => assert!(*w == specified::Length::from_px(200.)),
_ => panic!("wrong expression type"),
}
});
test_media_rule("@media not screen and (min-width: 100px) and (max-width: 200px) { }", |list, css| {
assert!(list.media_queries.len() == 1, css.to_owned());
let q = &list.media_queries[0];
assert!(q.qualifier == Some(Qualifier::Not), css.to_owned());
assert!(q.media_type == MediaQueryType::Concrete(MediaType::screen()), css.to_owned());
assert!(q.expressions.len() == 2, css.to_owned());
match *q.expressions[0].kind_for_testing() {
ExpressionKind::Width(Range::Min(ref w)) => assert!(*w == specified::Length::from_px(100.)),
_ => panic!("wrong expression type"),
}
match *q.expressions[1].kind_for_testing() {
ExpressionKind::Width(Range::Max(ref w)) => assert!(*w == specified::Length::from_px(200.)),
_ => panic!("wrong expression type"),
}
});
}
#[test]
fn test_mq_malformed_expressions() {
fn check_malformed_expr(list: &MediaList, css: &str) {
assert!(!list.media_queries.is_empty(), css.to_owned());
for mq in &list.media_queries {
assert!(mq.qualifier == Some(Qualifier::Not), css.to_owned());
assert!(mq.media_type == MediaQueryType::All, css.to_owned());
assert!(mq.expressions.is_empty(), css.to_owned());
}
}
for rule in &[
"@media (min-width: 100blah) and (max-width: 200px) { }",
"@media screen and (height: 200px) { }",
"@media (min-width: 30em foo bar) {}",
"@media not {}",
"@media not (min-width: 300px) {}",
"@media , {}",
] {
test_media_rule(rule, check_malformed_expr);
}
}
#[test]
fn test_matching_simple() {
let device = Device::new(MediaType::screen(), Size2D::new(200.0, 100.0), Scale::new(1.0));
media_query_test(&device, "@media not all { a { color: red; } }", 0);
media_query_test(&device, "@media not screen { a { color: red; } }", 0);
media_query_test(&device, "@media not print { a { color: red; } }", 1);
media_query_test(&device, "@media unknown { a { color: red; } }", 0);
media_query_test(&device, "@media not unknown { a { color: red; } }", 1);
media_query_test(&device, "@media { a { color: red; } }", 1);
media_query_test(&device, "@media screen { a { color: red; } }", 1);
media_query_test(&device, "@media print { a { color: red; } }", 0);
}
#[test]
fn test_matching_width() {
let device = Device::new(MediaType::screen(), Size2D::new(200.0, 100.0), Scale::new(1.0));
media_query_test(&device, "@media { a { color: red; } }", 1);
media_query_test(&device, "@media (min-width: 50px) { a { color: red; } }", 1);
media_query_test(&device, "@media (min-width: 150px) { a { color: red; } }", 1);
media_query_test(&device, "@media (min-width: 300px) { a { color: red; } }", 0);
media_query_test(&device, "@media screen and (min-width: 50px) { a { color: red; } }", 1);
media_query_test(&device, "@media screen and (min-width: 150px) { a { color: red; } }", 1);
media_query_test(&device, "@media screen and (min-width: 300px) { a { color: red; } }", 0);
media_query_test(&device, "@media not screen and (min-width: 50px) { a { color: red; } }", 0);
media_query_test(&device, "@media not screen and (min-width: 150px) { a { color: red; } }", 0);
media_query_test(&device, "@media not screen and (min-width: 300px) { a { color: red; } }", 1);
media_query_test(&device, "@media (max-width: 50px) { a { color: red; } }", 0);
media_query_test(&device, "@media (max-width: 150px) { a { color: red; } }", 0);
media_query_test(&device, "@media (max-width: 300px) { a { color: red; } }", 1);
media_query_test(&device, "@media screen and (min-width: 50px) and (max-width: 100px) { a { color: red; } }", 0);
media_query_test(&device, "@media screen and (min-width: 250px) and (max-width: 300px) { a { color: red; } }", 0);
media_query_test(&device, "@media screen and (min-width: 50px) and (max-width: 250px) { a { color: red; } }", 1);
media_query_test(
&device, "@media not screen and (min-width: 50px) and (max-width: 100px) { a { color: red; } }", 1);
media_query_test(
&device, "@media not screen and (min-width: 250px) and (max-width: 300px) { a { color: red; } }", 1);
media_query_test(
&device, "@media not screen and (min-width: 50px) and (max-width: 250px) { a { color: red; } }", 0);
media_query_test(
&device, "@media not screen and (min-width: 3.1em) and (max-width: 6em) { a { color: red; } }", 1);
media_query_test(
&device, "@media not screen and (min-width: 16em) and (max-width: 19.75em) { a { color: red; } }", 1);
media_query_test(
&device, "@media not screen and (min-width: 3em) and (max-width: 250px) { a { color: red; } }", 0);
}
#[test]
fn test_matching_invalid() {
let device = Device::new(MediaType::screen(), Size2D::new(200.0, 100.0), Scale::new(1.0));
media_query_test(&device, "@media fridge { a { color: red; } }", 0);
media_query_test(&device, "@media screen and (height: 100px) { a { color: red; } }", 0);
media_query_test(&device, "@media not print and (width: 100) { a { color: red; } }", 0);
}