use expect_test::{expect_file, ExpectFile}; use ide_db::SymbolKind; use test_utils::{bench, bench_fixture, skip_slow_tests}; use crate::{fixture, FileRange, HlTag, TextRange}; #[test] fn test_highlighting() { check_highlighting( r#" use inner::{self as inner_mod}; mod inner {} #[rustc_builtin_macro] macro Copy {} // Needed for function consuming vs normal pub mod marker { #[lang = "copy"] pub trait Copy {} } pub mod ops { #[lang = "fn_once"] pub trait FnOnce {} #[lang = "fn_mut"] pub trait FnMut: FnOnce {} #[lang = "fn"] pub trait Fn: FnMut {} } struct Foo { pub x: i32, pub y: i32, } trait Bar { fn bar(&self) -> i32; } impl Bar for Foo { fn bar(&self) -> i32 { self.x } } impl Foo { fn baz(mut self, f: Foo) -> i32 { f.baz(self) } fn qux(&mut self) { self.x = 0; } fn quop(&self) -> i32 { self.x } } #[derive(Copy)] struct FooCopy { x: u32, } impl FooCopy { fn baz(self, f: FooCopy) -> u32 { f.baz(self) } fn qux(&mut self) { self.x = 0; } fn quop(&self) -> u32 { self.x } } fn str() { str(); } static mut STATIC_MUT: i32 = 0; fn foo<'a, T>() -> T { foo::<'a, i32>() } fn never() -> ! { loop {} } fn const_param() -> usize { FOO } use ops::Fn; fn baz ()>(f: F) { f() } fn foobar() -> impl Copy {} fn foo() { let bar = foobar(); } macro_rules! def_fn { ($($tt:tt)*) => {$($tt)*} } def_fn! { fn bar() -> u32 { 100 } } macro_rules! noop { ($expr:expr) => { $expr } } macro_rules! keyword_frag { ($type:ty) => ($type) } // comment fn main() { println!("Hello, {}!", 92); let mut vec = Vec::new(); if true { let x = 92; vec.push(Foo { x, y: 1 }); } unsafe { vec.set_len(0); STATIC_MUT = 1; } for e in vec { // Do nothing } noop!(noop!(1)); let mut x = 42; let y = &mut x; let z = &y; let Foo { x: z, y } = Foo { x: z, y }; y; let mut foo = Foo { x, y: x }; let foo2 = Foo { x, y: x }; foo.quop(); foo.qux(); foo.baz(foo2); let mut copy = FooCopy { x }; copy.quop(); copy.qux(); copy.baz(copy); let a = |x| x; let bar = Foo::baz; let baz = -42; let baz = -baz; let _ = !true; 'foo: loop { break 'foo; continue 'foo; } } enum Option { Some(T), None, } use Option::*; impl Option { fn and(self, other: Option) -> Option<(T, U)> { match other { None => unimplemented!(), Nope => Nope, } } } "# .trim(), expect_file!["./test_data/highlighting.html"], false, ); } #[test] fn test_rainbow_highlighting() { check_highlighting( r#" fn main() { let hello = "hello"; let x = hello.to_string(); let y = hello.to_string(); let x = "other color please!"; let y = x.to_string(); } fn bar() { let mut hello = "hello"; } "# .trim(), expect_file!["./test_data/rainbow_highlighting.html"], true, ); } #[test] fn benchmark_syntax_highlighting_long_struct() { if skip_slow_tests() { return; } let fixture = bench_fixture::big_struct(); let (analysis, file_id) = fixture::file(&fixture); let hash = { let _pt = bench("syntax highlighting long struct"); analysis .highlight(file_id) .unwrap() .iter() .filter(|it| it.highlight.tag == HlTag::Symbol(SymbolKind::Struct)) .count() }; assert_eq!(hash, 2001); } #[test] fn benchmark_syntax_highlighting_parser() { if skip_slow_tests() { return; } let fixture = bench_fixture::glorious_old_parser(); let (analysis, file_id) = fixture::file(&fixture); let hash = { let _pt = bench("syntax highlighting parser"); analysis .highlight(file_id) .unwrap() .iter() .filter(|it| it.highlight.tag == HlTag::Symbol(SymbolKind::Function)) .count() }; assert_eq!(hash, 1629); } #[test] fn test_ranges() { let (analysis, file_id) = fixture::file( r#" #[derive(Clone, Debug)] struct Foo { pub x: i32, pub y: i32, } "#, ); // The "x" let highlights = &analysis .highlight_range(FileRange { file_id, range: TextRange::at(45.into(), 1.into()) }) .unwrap(); assert_eq!(&highlights[0].highlight.to_string(), "field.declaration"); } #[test] fn test_flattening() { check_highlighting( r##" fn fixture(ra_fixture: &str) {} fn main() { fixture(r#" trait Foo { fn foo() { println!("2 + 2 = {}", 4); } }"# ); }"## .trim(), expect_file!["./test_data/highlight_injection.html"], false, ); } #[test] fn ranges_sorted() { let (analysis, file_id) = fixture::file( r#" #[foo(bar = "bar")] macro_rules! test {} }"# .trim(), ); let _ = analysis.highlight(file_id).unwrap(); } #[test] fn test_string_highlighting() { // The format string detection is based on macro-expansion, // thus, we have to copy the macro definition from `std` check_highlighting( r#" macro_rules! println { ($($arg:tt)*) => ({ $crate::io::_print($crate::format_args_nl!($($arg)*)); }) } #[rustc_builtin_macro] macro_rules! format_args_nl { ($fmt:expr) => {{ /* compiler built-in */ }}; ($fmt:expr, $($args:tt)*) => {{ /* compiler built-in */ }}; } fn main() { // from https://doc.rust-lang.org/std/fmt/index.html println!("Hello"); // => "Hello" println!("Hello, {}!", "world"); // => "Hello, world!" println!("The number is {}", 1); // => "The number is 1" println!("{:?}", (3, 4)); // => "(3, 4)" println!("{value}", value=4); // => "4" println!("{} {}", 1, 2); // => "1 2" println!("{:04}", 42); // => "0042" with leading zerosV println!("{1} {} {0} {}", 1, 2); // => "2 1 1 2" println!("{argument}", argument = "test"); // => "test" println!("{name} {}", 1, name = 2); // => "2 1" println!("{a} {c} {b}", a="a", b='b', c=3); // => "a 3 b" println!("{{{}}}", 2); // => "{2}" println!("Hello {:5}!", "x"); println!("Hello {:1$}!", "x", 5); println!("Hello {1:0$}!", 5, "x"); println!("Hello {:width$}!", "x", width = 5); println!("Hello {:<5}!", "x"); println!("Hello {:-<5}!", "x"); println!("Hello {:^5}!", "x"); println!("Hello {:>5}!", "x"); println!("Hello {:+}!", 5); println!("{:#x}!", 27); println!("Hello {:05}!", 5); println!("Hello {:05}!", -5); println!("{:#010x}!", 27); println!("Hello {0} is {1:.5}", "x", 0.01); println!("Hello {1} is {2:.0$}", 5, "x", 0.01); println!("Hello {0} is {2:.1$}", "x", 5, 0.01); println!("Hello {} is {:.*}", "x", 5, 0.01); println!("Hello {} is {2:.*}", "x", 5, 0.01); println!("Hello {} is {number:.prec$}", "x", prec = 5, number = 0.01); println!("{}, `{name:.*}` has 3 fractional digits", "Hello", 3, name=1234.56); println!("{}, `{name:.*}` has 3 characters", "Hello", 3, name="1234.56"); println!("{}, `{name:>8.*}` has 3 right-aligned characters", "Hello", 3, name="1234.56"); println!("Hello {{}}"); println!("{{ Hello"); println!(r"Hello, {}!", "world"); // escape sequences println!("Hello\nWorld"); println!("\u{48}\x65\x6C\x6C\x6F World"); println!("{\x41}", A = 92); println!("{ничоси}", ничоси = 92); println!("{:x?} {} ", thingy, n2); }"# .trim(), expect_file!["./test_data/highlight_strings.html"], false, ); } #[test] fn test_unsafe_highlighting() { check_highlighting( r#" unsafe fn unsafe_fn() {} union Union { a: u32, b: f32, } struct HasUnsafeFn; impl HasUnsafeFn { unsafe fn unsafe_method(&self) {} } struct TypeForStaticMut { a: u8 } static mut global_mut: TypeForStaticMut = TypeForStaticMut { a: 0 }; #[repr(packed)] struct Packed { a: u16, } trait DoTheAutoref { fn calls_autoref(&self); } impl DoTheAutoref for u16 { fn calls_autoref(&self) {} } fn main() { let x = &5 as *const _ as *const usize; let u = Union { b: 0 }; unsafe { // unsafe fn and method calls unsafe_fn(); let b = u.b; match u { Union { b: 0 } => (), Union { a } => (), } HasUnsafeFn.unsafe_method(); // unsafe deref let y = *x; // unsafe access to a static mut let a = global_mut.a; // unsafe ref of packed fields let packed = Packed { a: 0 }; let a = &packed.a; let ref a = packed.a; let Packed { ref a } = packed; let Packed { a: ref _a } = packed; // unsafe auto ref of packed field packed.a.calls_autoref(); } } "# .trim(), expect_file!["./test_data/highlight_unsafe.html"], false, ); } #[test] fn test_highlight_doctest() { check_highlighting( r#" /// ``` /// let _ = "early doctests should not go boom"; /// ``` struct Foo { bar: bool, } impl Foo { /// ``` /// let _ = "Call me // KILLER WHALE /// Ishmael."; /// ``` pub const bar: bool = true; /// Constructs a new `Foo`. /// /// # Examples /// /// ``` /// # #![allow(unused_mut)] /// let mut foo: Foo = Foo::new(); /// ``` pub const fn new() -> Foo { Foo { bar: true } } /// `bar` method on `Foo`. /// /// # Examples /// /// ``` /// use x::y; /// /// let foo = Foo::new(); /// /// // calls bar on foo /// assert!(foo.bar()); /// /// let bar = foo.bar || Foo::bar; /// /// /* multi-line /// comment */ /// /// let multi_line_string = "Foo /// bar /// "; /// /// ``` /// /// ```rust,no_run /// let foobar = Foo::new().bar(); /// ``` /// /// ```sh /// echo 1 /// ``` pub fn foo(&self) -> bool { true } } /// ``` /// noop!(1); /// ``` macro_rules! noop { ($expr:expr) => { $expr } } /// ```rust /// let _ = example(&[1, 2, 3]); /// ``` /// /// ``` /// loop {} #[cfg_attr(not(feature = "false"), doc = "loop {}")] #[doc = "loop {}"] /// ``` /// #[cfg_attr(feature = "alloc", doc = "```rust")] #[cfg_attr(not(feature = "alloc"), doc = "```ignore")] /// let _ = example(&alloc::vec![1, 2, 3]); /// ``` pub fn mix_and_match() {} "# .trim(), expect_file!["./test_data/highlight_doctest.html"], false, ); } #[test] fn test_extern_crate() { check_highlighting( r#" //- /main.rs crate:main deps:std,alloc extern crate std; extern crate alloc as abc; //- /std/lib.rs crate:std pub struct S; //- /alloc/lib.rs crate:alloc pub struct A "#, expect_file!["./test_data/highlight_extern_crate.html"], false, ); } #[test] fn test_associated_function() { check_highlighting( r#" fn not_static() {} struct foo {} impl foo { pub fn is_static() {} pub fn is_not_static(&self) {} } trait t { fn t_is_static() {} fn t_is_not_static(&self) {} } impl t for foo { pub fn is_static() {} pub fn is_not_static(&self) {} } "#, expect_file!["./test_data/highlight_assoc_functions.html"], false, ) } #[test] fn test_injection() { check_highlighting( r##" fn f(ra_fixture: &str) {} fn main() { f(r" fn foo() { foo(\$0{ 92 }\$0) }"); } "##, expect_file!["./test_data/injection.html"], false, ); } /// Highlights the code given by the `ra_fixture` argument, renders the /// result as HTML, and compares it with the HTML file given as `snapshot`. /// Note that the `snapshot` file is overwritten by the rendered HTML. fn check_highlighting(ra_fixture: &str, expect: ExpectFile, rainbow: bool) { let (analysis, file_id) = fixture::file(ra_fixture); let actual_html = &analysis.highlight_as_html(file_id, rainbow).unwrap(); expect.assert_eq(actual_html) }