//! FIXME: write short doc here use hir::{HirDisplay, SourceAnalyzer}; use once_cell::unsync::Lazy; use ra_prof::profile; use ra_syntax::{ ast::{self, ArgListOwner, AstNode, TypeAscriptionOwner}, match_ast, SmolStr, SourceFile, SyntaxKind, SyntaxNode, TextRange, }; use crate::{db::RootDatabase, FileId, FunctionSignature}; #[derive(Debug, PartialEq, Eq)] pub enum InlayKind { TypeHint, ParameterHint, } #[derive(Debug)] pub struct InlayHint { pub range: TextRange, pub kind: InlayKind, pub label: SmolStr, } pub(crate) fn inlay_hints( db: &RootDatabase, file_id: FileId, file: &SourceFile, max_inlay_hint_length: Option, ) -> Vec { file.syntax() .descendants() .flat_map(|node| get_inlay_hints(db, file_id, &node, max_inlay_hint_length)) .flatten() .collect() } fn get_inlay_hints( db: &RootDatabase, file_id: FileId, node: &SyntaxNode, max_inlay_hint_length: Option, ) -> Option> { let _p = profile("get_inlay_hints"); let analyzer = Lazy::new(|| SourceAnalyzer::new(db, hir::InFile::new(file_id.into(), node), None)); match_ast! { match node { ast::LetStmt(it) => { if it.ascribed_type().is_some() { return None; } let pat = it.pat()?; Some(get_pat_type_hints(db, &analyzer, pat, false, max_inlay_hint_length)) }, ast::LambdaExpr(it) => { it.param_list().map(|param_list| { param_list .params() .filter(|closure_param| closure_param.ascribed_type().is_none()) .filter_map(|closure_param| closure_param.pat()) .map(|root_pat| get_pat_type_hints(db, &analyzer, root_pat, false, max_inlay_hint_length)) .flatten() .collect() }) }, ast::ForExpr(it) => { let pat = it.pat()?; Some(get_pat_type_hints(db, &analyzer, pat, false, max_inlay_hint_length)) }, ast::IfExpr(it) => { let pat = it.condition()?.pat()?; Some(get_pat_type_hints(db, &analyzer, pat, true, max_inlay_hint_length)) }, ast::WhileExpr(it) => { let pat = it.condition()?.pat()?; Some(get_pat_type_hints(db, &analyzer, pat, true, max_inlay_hint_length)) }, ast::MatchArmList(it) => { Some( it .arms() .map(|match_arm| match_arm.pats()) .flatten() .map(|root_pat| get_pat_type_hints(db, &analyzer, root_pat, true, max_inlay_hint_length)) .flatten() .collect(), ) }, ast::CallExpr(it) => { get_param_name_hints(db, &analyzer, ast::Expr::from(it)) }, ast::MethodCallExpr(it) => { get_param_name_hints(db, &analyzer, ast::Expr::from(it)) }, _ => None, } } } fn get_param_name_hints( db: &RootDatabase, analyzer: &SourceAnalyzer, expr: ast::Expr, ) -> Option> { let args = match &expr { ast::Expr::CallExpr(expr) => Some(expr.arg_list()?.args()), ast::Expr::MethodCallExpr(expr) => Some(expr.arg_list()?.args()), _ => None, }?; let mut parameters = get_fn_signature(db, analyzer, &expr)?.parameter_names.into_iter(); if let ast::Expr::MethodCallExpr(_) = &expr { parameters.next(); }; let hints = parameters .zip(args) .filter_map(|(param, arg)| { if arg.syntax().kind() == SyntaxKind::LITERAL { Some((arg.syntax().text_range(), param)) } else { None } }) .map(|(range, param_name)| InlayHint { range, kind: InlayKind::ParameterHint, label: param_name.into(), }) .collect(); Some(hints) } fn get_fn_signature( db: &RootDatabase, analyzer: &SourceAnalyzer, expr: &ast::Expr, ) -> Option { match expr { ast::Expr::CallExpr(expr) => { // FIXME: Type::as_callable is broken for closures let callable_def = analyzer.type_of(db, &expr.expr()?)?.as_callable()?; match callable_def { hir::CallableDef::FunctionId(it) => { let fn_def = it.into(); Some(FunctionSignature::from_hir(db, fn_def)) } hir::CallableDef::StructId(it) => FunctionSignature::from_struct(db, it.into()), hir::CallableDef::EnumVariantId(it) => { FunctionSignature::from_enum_variant(db, it.into()) } } } ast::Expr::MethodCallExpr(expr) => { let fn_def = analyzer.resolve_method_call(&expr)?; Some(FunctionSignature::from_hir(db, fn_def)) } _ => None, } } fn get_pat_type_hints( db: &RootDatabase, analyzer: &SourceAnalyzer, root_pat: ast::Pat, skip_root_pat_hint: bool, max_inlay_hint_length: Option, ) -> Vec { let original_pat = &root_pat.clone(); get_leaf_pats(root_pat) .into_iter() .filter(|pat| !skip_root_pat_hint || pat != original_pat) .filter_map(|pat| { let ty = analyzer.type_of_pat(db, &pat)?; if ty.is_unknown() { return None; } Some((pat.syntax().text_range(), ty)) }) .map(|(range, pat_type)| InlayHint { range, kind: InlayKind::TypeHint, label: pat_type.display_truncated(db, max_inlay_hint_length).to_string().into(), }) .collect() } fn get_leaf_pats(root_pat: ast::Pat) -> Vec { let mut pats_to_process = std::collections::VecDeque::::new(); pats_to_process.push_back(root_pat); let mut leaf_pats = Vec::new(); while let Some(maybe_leaf_pat) = pats_to_process.pop_front() { match &maybe_leaf_pat { ast::Pat::BindPat(bind_pat) => match bind_pat.pat() { Some(pat) => pats_to_process.push_back(pat), _ => leaf_pats.push(maybe_leaf_pat), }, ast::Pat::TuplePat(tuple_pat) => pats_to_process.extend(tuple_pat.args()), ast::Pat::RecordPat(record_pat) => { if let Some(pat_list) = record_pat.record_field_pat_list() { pats_to_process.extend( pat_list .record_field_pats() .filter_map(|record_field_pat| { record_field_pat .pat() .filter(|pat| pat.syntax().kind() != SyntaxKind::BIND_PAT) }) .chain(pat_list.bind_pats().map(|bind_pat| { bind_pat.pat().unwrap_or_else(|| ast::Pat::from(bind_pat)) })), ); } } ast::Pat::TupleStructPat(tuple_struct_pat) => { pats_to_process.extend(tuple_struct_pat.args()) } ast::Pat::RefPat(ref_pat) => pats_to_process.extend(ref_pat.pat()), _ => (), } } leaf_pats } #[cfg(test)] mod tests { use insta::assert_debug_snapshot; use crate::mock_analysis::single_file; #[test] fn default_generic_types_should_not_be_displayed() { let (analysis, file_id) = single_file( r#" struct Test { k: K, t: T, } fn main() { let zz = Test { t: 23, k: 33 }; }"#, ); assert_debug_snapshot!(analysis.inlay_hints(file_id, None).unwrap(), @r###" [ InlayHint { range: [69; 71), kind: TypeHint, label: "Test", }, ] "### ); } #[test] fn let_statement() { let (analysis, file_id) = single_file( r#" #[derive(PartialEq)] enum CustomOption { None, Some(T), } #[derive(PartialEq)] struct Test { a: CustomOption, b: u8, } fn main() { struct InnerStruct {} let test = 54; let test: i32 = 33; let mut test = 33; let _ = 22; let test = "test"; let test = InnerStruct {}; let test = vec![222]; let test: Vec<_> = (0..3).collect(); let test = (0..3).collect::>(); let test = (0..3).collect::>(); let mut test = Vec::new(); test.push(333); let test = (42, 'a'); let (a, (b, c, (d, e), f)) = (2, (3, 4, (6.6, 7.7), 5)); let &x = &92; }"#, ); assert_debug_snapshot!(analysis.inlay_hints(file_id, None).unwrap(), @r###" [ InlayHint { range: [193; 197), kind: TypeHint, label: "i32", }, InlayHint { range: [236; 244), kind: TypeHint, label: "i32", }, InlayHint { range: [275; 279), kind: TypeHint, label: "&str", }, InlayHint { range: [539; 543), kind: TypeHint, label: "(i32, char)", }, InlayHint { range: [566; 567), kind: TypeHint, label: "i32", }, InlayHint { range: [570; 571), kind: TypeHint, label: "i32", }, InlayHint { range: [573; 574), kind: TypeHint, label: "i32", }, InlayHint { range: [584; 585), kind: TypeHint, label: "i32", }, InlayHint { range: [577; 578), kind: TypeHint, label: "f64", }, InlayHint { range: [580; 581), kind: TypeHint, label: "f64", }, InlayHint { range: [627; 628), kind: TypeHint, label: "i32", }, ] "### ); } #[test] fn closure_parameters() { let (analysis, file_id) = single_file( r#" fn main() { let mut start = 0; (0..2).for_each(|increment| { start += increment; }) let multiply = |a, b, c, d| a * b * c * d; let _: i32 = multiply(1, 2, 3, 4); let return_42 = || 42; }"#, ); assert_debug_snapshot!(analysis.inlay_hints(file_id, None).unwrap(), @r###" [ InlayHint { range: [21; 30), kind: TypeHint, label: "i32", }, InlayHint { range: [57; 66), kind: TypeHint, label: "i32", }, InlayHint { range: [114; 122), kind: TypeHint, label: "|…| -> i32", }, InlayHint { range: [126; 127), kind: TypeHint, label: "i32", }, InlayHint { range: [129; 130), kind: TypeHint, label: "i32", }, InlayHint { range: [132; 133), kind: TypeHint, label: "i32", }, InlayHint { range: [135; 136), kind: TypeHint, label: "i32", }, InlayHint { range: [201; 210), kind: TypeHint, label: "|| -> i32", }, ] "### ); } #[test] fn for_expression() { let (analysis, file_id) = single_file( r#" fn main() { let mut start = 0; for increment in 0..2 { start += increment; } }"#, ); assert_debug_snapshot!(analysis.inlay_hints(file_id, None).unwrap(), @r###" [ InlayHint { range: [21; 30), kind: TypeHint, label: "i32", }, InlayHint { range: [44; 53), kind: TypeHint, label: "i32", }, ] "### ); } #[test] fn if_expr() { let (analysis, file_id) = single_file( r#" #[derive(PartialEq)] enum CustomOption { None, Some(T), } #[derive(PartialEq)] struct Test { a: CustomOption, b: u8, } fn main() { let test = CustomOption::Some(Test { a: CustomOption::Some(3), b: 1 }); if let CustomOption::None = &test {}; if let test = &test {}; if let CustomOption::Some(test) = &test {}; if let CustomOption::Some(Test { a, b }) = &test {}; if let CustomOption::Some(Test { a: x, b: y }) = &test {}; if let CustomOption::Some(Test { a: CustomOption::Some(x), b: y }) = &test {}; if let CustomOption::Some(Test { a: CustomOption::None, b: y }) = &test {}; if let CustomOption::Some(Test { b: y, .. }) = &test {}; if test == CustomOption::None {} }"#, ); assert_debug_snapshot!(analysis.inlay_hints(file_id, None).unwrap(), @r###" [ InlayHint { range: [166; 170), kind: TypeHint, label: "CustomOption", }, InlayHint { range: [334; 338), kind: TypeHint, label: "&Test", }, InlayHint { range: [389; 390), kind: TypeHint, label: "&CustomOption", }, InlayHint { range: [392; 393), kind: TypeHint, label: "&u8", }, InlayHint { range: [531; 532), kind: TypeHint, label: "&u32", }, ] "### ); } #[test] fn while_expr() { let (analysis, file_id) = single_file( r#" #[derive(PartialEq)] enum CustomOption { None, Some(T), } #[derive(PartialEq)] struct Test { a: CustomOption, b: u8, } fn main() { let test = CustomOption::Some(Test { a: CustomOption::Some(3), b: 1 }); while let CustomOption::None = &test {}; while let test = &test {}; while let CustomOption::Some(test) = &test {}; while let CustomOption::Some(Test { a, b }) = &test {}; while let CustomOption::Some(Test { a: x, b: y }) = &test {}; while let CustomOption::Some(Test { a: CustomOption::Some(x), b: y }) = &test {}; while let CustomOption::Some(Test { a: CustomOption::None, b: y }) = &test {}; while let CustomOption::Some(Test { b: y, .. }) = &test {}; while test == CustomOption::None {} }"#, ); assert_debug_snapshot!(analysis.inlay_hints(file_id, None).unwrap(), @r###" [ InlayHint { range: [166; 170), kind: TypeHint, label: "CustomOption", }, InlayHint { range: [343; 347), kind: TypeHint, label: "&Test", }, InlayHint { range: [401; 402), kind: TypeHint, label: "&CustomOption", }, InlayHint { range: [404; 405), kind: TypeHint, label: "&u8", }, InlayHint { range: [549; 550), kind: TypeHint, label: "&u32", }, ] "### ); } #[test] fn match_arm_list() { let (analysis, file_id) = single_file( r#" #[derive(PartialEq)] enum CustomOption { None, Some(T), } #[derive(PartialEq)] struct Test { a: CustomOption, b: u8, } fn main() { match CustomOption::Some(Test { a: CustomOption::Some(3), b: 1 }) { CustomOption::None => (), test => (), CustomOption::Some(test) => (), CustomOption::Some(Test { a, b }) => (), CustomOption::Some(Test { a: x, b: y }) => (), CustomOption::Some(Test { a: CustomOption::Some(x), b: y }) => (), CustomOption::Some(Test { a: CustomOption::None, b: y }) => (), CustomOption::Some(Test { b: y, .. }) => (), _ => {} } }"#, ); assert_debug_snapshot!(analysis.inlay_hints(file_id, None).unwrap(), @r###" [ InlayHint { range: [311; 315), kind: TypeHint, label: "Test", }, InlayHint { range: [358; 359), kind: TypeHint, label: "CustomOption", }, InlayHint { range: [361; 362), kind: TypeHint, label: "u8", }, InlayHint { range: [484; 485), kind: TypeHint, label: "u32", }, ] "### ); } #[test] fn hint_truncation() { let (analysis, file_id) = single_file( r#" struct Smol(T); struct VeryLongOuterName(T); fn main() { let a = Smol(0u32); let b = VeryLongOuterName(0usize); let c = Smol(Smol(0u32)) }"#, ); assert_debug_snapshot!(analysis.inlay_hints(file_id, Some(8)).unwrap(), @r###" [ InlayHint { range: [74; 75), kind: TypeHint, label: "Smol", }, InlayHint { range: [98; 99), kind: TypeHint, label: "VeryLongOuterName<…>", }, InlayHint { range: [137; 138), kind: TypeHint, label: "Smol>", }, ] "### ); } #[test] fn function_call_parameter_hint() { let (analysis, file_id) = single_file( r#" struct Test {} impl Test { fn method(&self, param: i32) -> i32 { param * 2 } } fn test_func(foo: i32, bar: i32, msg: &str, _: i32, last: i32) -> i32 { foo + bar } fn main() { let not_literal = 1; let _: i32 = test_func(1, 2, "hello", 3, not_literal); let t: Test = Test {}; t.method(123); Test::method(&t, 3456); }"#, ); assert_debug_snapshot!(analysis.inlay_hints(file_id, None).unwrap(), @r###" [ InlayHint { range: [207; 218), kind: TypeHint, label: "i32", }, InlayHint { range: [251; 252), kind: ParameterHint, label: "foo", }, InlayHint { range: [254; 255), kind: ParameterHint, label: "bar", }, InlayHint { range: [257; 264), kind: ParameterHint, label: "msg", }, InlayHint { range: [266; 267), kind: ParameterHint, label: "_", }, InlayHint { range: [322; 325), kind: ParameterHint, label: "param", }, InlayHint { range: [349; 353), kind: ParameterHint, label: "param", }, ] "### ); } }