rust/crates/ra_ide_api/src/inlay_hints.rs

//! FIXME: write short doc here

use crate::{db::RootDatabase, FileId};
use hir::{HirDisplay, SourceAnalyzer, Ty};
use ra_syntax::{
    ast::{self, AstNode, TypeAscriptionOwner},
    match_ast, SmolStr, SourceFile, SyntaxKind, SyntaxNode, TextRange,
};

#[derive(Debug, PartialEq, Eq)]
pub enum InlayKind {
    TypeHint,
}

#[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) -> Vec<InlayHint> {
    file.syntax()
        .descendants()
        .map(|node| get_inlay_hints(db, file_id, &node).unwrap_or_default())
        .flatten()
        .collect()
}

fn get_inlay_hints(
    db: &RootDatabase,
    file_id: FileId,
    node: &SyntaxNode,
) -> Option<Vec<InlayHint>> {
    let analyzer = SourceAnalyzer::new(db, hir::Source::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))
            },
            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))
                        .flatten()
                        .collect()
                })
            },
            ast::ForExpr(it) => {
                let pat = it.pat()?;
                Some(get_pat_type_hints(db, &analyzer, pat, false))
            },
            ast::IfExpr(it) => {
                let pat = it.condition()?.pat()?;
                Some(get_pat_type_hints(db, &analyzer, pat, true))
            },
            ast::WhileExpr(it) => {
                let pat = it.condition()?.pat()?;
                Some(get_pat_type_hints(db, &analyzer, pat, true))
            },
            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))
                        .flatten()
                        .collect(),
                )
            },
            _ => None,
        }
    }
}

fn get_pat_type_hints(
    db: &RootDatabase,
    analyzer: &SourceAnalyzer,
    root_pat: ast::Pat,
    skip_root_pat_hint: bool,
) -> Vec<InlayHint> {
    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| {
            get_node_displayable_type(db, &analyzer, &pat)
                .map(|pat_type| (pat.syntax().text_range(), pat_type))
        })
        .map(|(range, pat_type)| InlayHint {
            range,
            kind: InlayKind::TypeHint,
            label: pat_type.display(db).to_string().into(),
        })
        .collect()
}

fn get_leaf_pats(root_pat: ast::Pat) -> Vec<ast::Pat> {
    let mut pats_to_process = std::collections::VecDeque::<ast::Pat>::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) => {
                if let Some(pat) = bind_pat.pat() {
                    pats_to_process.push_back(pat);
                } else {
                    leaf_pats.push(maybe_leaf_pat);
                }
            }
            ast::Pat::TuplePat(tuple_pat) => {
                for arg_pat in tuple_pat.args() {
                    pats_to_process.push_back(arg_pat);
                }
            }
            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) => {
                for arg_pat in tuple_struct_pat.args() {
                    pats_to_process.push_back(arg_pat);
                }
            }
            _ => (),
        }
    }
    leaf_pats
}

fn get_node_displayable_type(
    db: &RootDatabase,
    analyzer: &SourceAnalyzer,
    node_pat: &ast::Pat,
) -> Option<Ty> {
    analyzer.type_of_pat(db, node_pat).and_then(|resolved_type| {
        if let Ty::Apply(_) = resolved_type {
            Some(resolved_type)
        } else {
            None
        }
    })
}

#[cfg(test)]
mod tests {
    use crate::mock_analysis::single_file;
    use insta::assert_debug_snapshot;

    #[test]
    fn let_statement() {
        let (analysis, file_id) = single_file(
            r#"
#[derive(PartialEq)]
enum CustomOption<T> {
    None,
    Some(T),
}

#[derive(PartialEq)]
struct Test {
    a: CustomOption<u32>,
    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::<Vec<i128>>();
    let test = (0..3).collect::<Vec<_>>();

    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));
}"#,
        );

        assert_debug_snapshot!(analysis.inlay_hints(file_id).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",
            },
        ]
        "###
        );
    }

    #[test]
    fn closure_parameter() {
        let (analysis, file_id) = single_file(
            r#"
fn main() {
    let mut start = 0;
    (0..2).for_each(|increment| {
        start += increment;
    })
}"#,
        );

        assert_debug_snapshot!(analysis.inlay_hints(file_id).unwrap(), @r###"
        [
            InlayHint {
                range: [21; 30),
                kind: TypeHint,
                label: "i32",
            },
            InlayHint {
                range: [57; 66),
                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).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<T> {
    None,
    Some(T),
}

#[derive(PartialEq)]
struct Test {
    a: CustomOption<u32>,
    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).unwrap(), @r###"
        [
            InlayHint {
                range: [166; 170),
                kind: TypeHint,
                label: "CustomOption<Test>",
            },
            InlayHint {
                range: [334; 338),
                kind: TypeHint,
                label: "&Test",
            },
            InlayHint {
                range: [389; 390),
                kind: TypeHint,
                label: "&CustomOption<u32>",
            },
            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<T> {
    None,
    Some(T),
}

#[derive(PartialEq)]
struct Test {
    a: CustomOption<u32>,
    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).unwrap(), @r###"
        [
            InlayHint {
                range: [166; 170),
                kind: TypeHint,
                label: "CustomOption<Test>",
            },
            InlayHint {
                range: [343; 347),
                kind: TypeHint,
                label: "&Test",
            },
            InlayHint {
                range: [401; 402),
                kind: TypeHint,
                label: "&CustomOption<u32>",
            },
            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<T> {
    None,
    Some(T),
}

#[derive(PartialEq)]
struct Test {
    a: CustomOption<u32>,
    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).unwrap(), @r###"
        [
            InlayHint {
                range: [311; 315),
                kind: TypeHint,
                label: "Test",
            },
            InlayHint {
                range: [358; 359),
                kind: TypeHint,
                label: "CustomOption<u32>",
            },
            InlayHint {
                range: [361; 362),
                kind: TypeHint,
                label: "u8",
            },
            InlayHint {
                range: [484; 485),
                kind: TypeHint,
                label: "u32",
            },
        ]
        "###
        );
    }
}
Added test for check doc strings in crates. #1856 2019-09-30 03:58:53 -05:00			`//! FIXME: write short doc here`

Resolve types on the server 2019-07-21 15:28:05 -05:00			`use crate::{db::RootDatabase, FileId};`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`use hir::{HirDisplay, SourceAnalyzer, Ty};`
Refactor server api 2019-07-19 16:20:09 -05:00			`use ra_syntax::{`
qualify ast types with `ast::` By convention, ast nodes should always be used as `ast::FnDef`. This is to avoid confusion with similarly-named hir types. 2019-08-19 06:27:15 -05:00			`ast::{self, AstNode, TypeAscriptionOwner},`
replace AST visitors with macro 2019-10-05 09:03:03 -05:00			`match_ast, SmolStr, SourceFile, SyntaxKind, SyntaxNode, TextRange,`
Refactor server api 2019-07-19 16:20:09 -05:00			`};`

Use proper inlay kinds 2019-08-04 16:28:36 -05:00			`#[derive(Debug, PartialEq, Eq)]`
Refactor server api 2019-07-19 16:20:09 -05:00			`pub enum InlayKind {`
Use proper inlay kinds 2019-08-04 16:28:36 -05:00			`TypeHint,`
Refactor server api 2019-07-19 16:20:09 -05:00			`}`

			`#[derive(Debug)]`
			`pub struct InlayHint {`
			`pub range: TextRange,`
Code review fixes 2019-07-22 13:52:47 -05:00			`pub kind: InlayKind,`
			`pub label: SmolStr,`
Refactor server api 2019-07-19 16:20:09 -05:00			`}`

Resolve types on the server 2019-07-21 15:28:05 -05:00			`pub(crate) fn inlay_hints(db: &RootDatabase, file_id: FileId, file: &SourceFile) -> Vec<InlayHint> {`
			`file.syntax()`
			`.descendants()`
			`.map(\|node\| get_inlay_hints(db, file_id, &node).unwrap_or_default())`
			`.flatten()`
			`.collect()`
Refactor server api 2019-07-19 16:20:09 -05:00			`}`

Resolve types on the server 2019-07-21 15:28:05 -05:00			`fn get_inlay_hints(`
			`db: &RootDatabase,`
			`file_id: FileId,`
			`node: &SyntaxNode,`
			`) -> Option<Vec<InlayHint>> {`
Force passing Source when creating a SourceAnalyzer 2019-11-15 15:56:51 -06:00			`let analyzer = SourceAnalyzer::new(db, hir::Source::new(file_id.into(), node), None);`
replace AST visitors with macro 2019-10-05 09:03:03 -05:00			`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))`
			`},`
			`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))`
			`.flatten()`
			`.collect()`
			`})`
			`},`
			`ast::ForExpr(it) => {`
			`let pat = it.pat()?;`
			`Some(get_pat_type_hints(db, &analyzer, pat, false))`
			`},`
			`ast::IfExpr(it) => {`
			`let pat = it.condition()?.pat()?;`
			`Some(get_pat_type_hints(db, &analyzer, pat, true))`
			`},`
			`ast::WhileExpr(it) => {`
			`let pat = it.condition()?.pat()?;`
			`Some(get_pat_type_hints(db, &analyzer, pat, true))`
			`},`
			`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))`
			`.flatten()`
			`.collect(),`
			`)`
			`},`
			`_ => None,`
			`}`
			`}`
Resolve types on the server 2019-07-21 15:28:05 -05:00			`}`

Use proper inlay kinds 2019-08-04 16:28:36 -05:00			`fn get_pat_type_hints(`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`db: &RootDatabase,`
			`analyzer: &SourceAnalyzer,`
remove ast::*Kind from ra_ide_api 2019-08-19 06:13:58 -05:00			`root_pat: ast::Pat,`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`skip_root_pat_hint: bool,`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`) -> Vec<InlayHint> {`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`let original_pat = &root_pat.clone();`

Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`get_leaf_pats(root_pat)`
			`.into_iter()`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`.filter(\|pat\| !skip_root_pat_hint \|\| pat != original_pat)`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`.filter_map(\|pat\| {`
			`get_node_displayable_type(db, &analyzer, &pat)`
			`.map(\|pat_type\| (pat.syntax().text_range(), pat_type))`
			`})`
			`.map(\|(range, pat_type)\| InlayHint {`
			`range,`
Use proper inlay kinds 2019-08-04 16:28:36 -05:00			`kind: InlayKind::TypeHint,`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`label: pat_type.display(db).to_string().into(),`
			`})`
			`.collect()`
			`}`

remove ast::*Kind from ra_ide_api 2019-08-19 06:13:58 -05:00			`fn get_leaf_pats(root_pat: ast::Pat) -> Vec<ast::Pat> {`
			`let mut pats_to_process = std::collections::VecDeque::<ast::Pat>::new();`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`pats_to_process.push_back(root_pat);`

			`let mut leaf_pats = Vec::new();`

			`while let Some(maybe_leaf_pat) = pats_to_process.pop_front() {`
remove ast::*Kind from ra_ide_api 2019-08-19 06:13:58 -05:00			`match &maybe_leaf_pat {`
			`ast::Pat::BindPat(bind_pat) => {`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`if let Some(pat) = bind_pat.pat() {`
			`pats_to_process.push_back(pat);`
			`} else {`
			`leaf_pats.push(maybe_leaf_pat);`
			`}`
			`}`
remove ast::*Kind from ra_ide_api 2019-08-19 06:13:58 -05:00			`ast::Pat::TuplePat(tuple_pat) => {`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`for arg_pat in tuple_pat.args() {`
			`pats_to_process.push_back(arg_pat);`
			`}`
			`}`
rename struct -> record, pos -> tuple 2019-08-23 07:55:21 -05:00			`ast::Pat::RecordPat(record_pat) => {`
			`if let Some(pat_list) = record_pat.record_field_pat_list() {`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`pats_to_process.extend(`
			`pat_list`
rename struct -> record, pos -> tuple 2019-08-23 07:55:21 -05:00			`.record_field_pats()`
			`.filter_map(\|record_field_pat\| {`
			`record_field_pat`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`.pat()`
			`.filter(\|pat\| pat.syntax().kind() != SyntaxKind::BIND_PAT)`
			`})`
			`.chain(pat_list.bind_pats().map(\|bind_pat\| {`
remove ast::*Kind from ra_ide_api 2019-08-19 06:13:58 -05:00			`bind_pat.pat().unwrap_or_else(\|\| ast::Pat::from(bind_pat))`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`})),`
			`);`
			`}`
			`}`
remove ast::*Kind from ra_ide_api 2019-08-19 06:13:58 -05:00			`ast::Pat::TupleStructPat(tuple_struct_pat) => {`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`for arg_pat in tuple_struct_pat.args() {`
			`pats_to_process.push_back(arg_pat);`
			`}`
			`}`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`_ => (),`
			`}`
			`}`
			`leaf_pats`
			`}`

Resolve types on the server 2019-07-21 15:28:05 -05:00			`fn get_node_displayable_type(`
			`db: &RootDatabase,`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`analyzer: &SourceAnalyzer,`
remove ast::*Kind from ra_ide_api 2019-08-19 06:13:58 -05:00			`node_pat: &ast::Pat,`
Resolve types on the server 2019-07-21 15:28:05 -05:00			`) -> Option<Ty> {`
			`analyzer.type_of_pat(db, node_pat).and_then(\|resolved_type\| {`
			`if let Ty::Apply(_) = resolved_type {`
			`Some(resolved_type)`
			`} else {`
			`None`
			`}`
			`})`
Refactor server api 2019-07-19 16:20:09 -05:00			`}`

			`#[cfg(test)]`
			`mod tests {`
Resolve types on the server 2019-07-21 15:28:05 -05:00			`use crate::mock_analysis::single_file;`
:arrow_up: insta 2019-08-29 08:49:10 -05:00			`use insta::assert_debug_snapshot;`
Refactor server api 2019-07-19 16:20:09 -05:00
			`#[test]`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`fn let_statement() {`
Resolve types on the server 2019-07-21 15:28:05 -05:00			`let (analysis, file_id) = single_file(`
Refactor server api 2019-07-19 16:20:09 -05:00			`r#"`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`#[derive(PartialEq)]`
			`enum CustomOption<T> {`
			`None,`
			`Some(T),`
			`}`

			`#[derive(PartialEq)]`
			`struct Test {`
			`a: CustomOption<u32>,`
			`b: u8,`
			`}`
Refactor server api 2019-07-19 16:20:09 -05:00
			`fn main() {`
			`struct InnerStruct {}`

			`let test = 54;`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`let test: i32 = 33;`
			`let mut test = 33;`
			`let _ = 22;`
			`let test = "test";`
Refactor server api 2019-07-19 16:20:09 -05:00			`let test = InnerStruct {};`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00
Refactor server api 2019-07-19 16:20:09 -05:00			`let test = vec![222];`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`let test: Vec<_> = (0..3).collect();`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`let test = (0..3).collect::<Vec<i128>>();`
			`let test = (0..3).collect::<Vec<_>>();`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00
Refactor server api 2019-07-19 16:20:09 -05:00			`let mut test = Vec::new();`
			`test.push(333);`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00
Refactor server api 2019-07-19 16:20:09 -05:00			`let test = (42, 'a');`
Improve inlay hinting for types Add hints for types in for loop expressions. Resolve types for every tuple parameter. Refactor the code. 2019-07-26 06:10:29 -05:00			`let (a, (b, c, (d, e), f)) = (2, (3, 4, (6.6, 7.7), 5));`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`}"#,`
Resolve types on the server 2019-07-21 15:28:05 -05:00			`);`

Auto-upgrade some insta snapshots 2019-11-15 03:56:24 -06:00			`assert_debug_snapshot!(analysis.inlay_hints(file_id).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",`
			`},`
			`]`
			`"###`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`);`
			`}`

			`#[test]`
			`fn closure_parameter() {`
			`let (analysis, file_id) = single_file(`
			`r#"`
			`fn main() {`
			`let mut start = 0;`
			`(0..2).for_each(\|increment\| {`
			`start += increment;`
			`})`
			`}"#,`
			`);`

Auto-upgrade some insta snapshots 2019-11-15 03:56:24 -06:00			`assert_debug_snapshot!(analysis.inlay_hints(file_id).unwrap(), @r###"`
			`[`
			`InlayHint {`
			`range: [21; 30),`
			`kind: TypeHint,`
			`label: "i32",`
			`},`
			`InlayHint {`
			`range: [57; 66),`
			`kind: TypeHint,`
			`label: "i32",`
			`},`
			`]`
			`"###`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`);`
			`}`

			`#[test]`
			`fn for_expression() {`
			`let (analysis, file_id) = single_file(`
			`r#"`
			`fn main() {`
			`let mut start = 0;`
			`for increment in 0..2 {`
			`start += increment;`
			`}`
			`}"#,`
			`);`

Auto-upgrade some insta snapshots 2019-11-15 03:56:24 -06:00			`assert_debug_snapshot!(analysis.inlay_hints(file_id).unwrap(), @r###"`
			`[`
			`InlayHint {`
			`range: [21; 30),`
			`kind: TypeHint,`
			`label: "i32",`
			`},`
			`InlayHint {`
			`range: [44; 53),`
			`kind: TypeHint,`
			`label: "i32",`
			`},`
			`]`
			`"###`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`);`
			`}`

			`#[test]`
			`fn if_expr() {`
			`let (analysis, file_id) = single_file(`
			`r#"`
			`#[derive(PartialEq)]`
			`enum CustomOption<T> {`
			`None,`
			`Some(T),`
			`}`

			`#[derive(PartialEq)]`
			`struct Test {`
			`a: CustomOption<u32>,`
			`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 {};`
Use proper inlay kinds 2019-08-04 16:28:36 -05:00
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`if test == CustomOption::None {}`
			`}"#,`
			`);`

Auto-upgrade some insta snapshots 2019-11-15 03:56:24 -06:00			`assert_debug_snapshot!(analysis.inlay_hints(file_id).unwrap(), @r###"`
			`[`
			`InlayHint {`
			`range: [166; 170),`
			`kind: TypeHint,`
			`label: "CustomOption<Test>",`
			`},`
			`InlayHint {`
			`range: [334; 338),`
			`kind: TypeHint,`
			`label: "&Test",`
			`},`
			`InlayHint {`
			`range: [389; 390),`
			`kind: TypeHint,`
			`label: "&CustomOption<u32>",`
			`},`
			`InlayHint {`
			`range: [392; 393),`
			`kind: TypeHint,`
			`label: "&u8",`
			`},`
			`InlayHint {`
			`range: [531; 532),`
			`kind: TypeHint,`
			`label: "&u32",`
			`},`
			`]`
			`"###`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`);`
			`}`

			`#[test]`
			`fn while_expr() {`
			`let (analysis, file_id) = single_file(`
			`r#"`
			`#[derive(PartialEq)]`
			`enum CustomOption<T> {`
			`None,`
			`Some(T),`
			`}`

			`#[derive(PartialEq)]`
			`struct Test {`
			`a: CustomOption<u32>,`
			`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 {};`
Use proper inlay kinds 2019-08-04 16:28:36 -05:00
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`while test == CustomOption::None {}`
			`}"#,`
			`);`

:arrow_up: insta 2019-08-29 08:49:10 -05:00			`assert_debug_snapshot!(analysis.inlay_hints(file_id).unwrap(), @r###"`
Auto-upgrade some insta snapshots 2019-11-15 03:56:24 -06:00			`[`
			`InlayHint {`
			`range: [166; 170),`
			`kind: TypeHint,`
			`label: "CustomOption<Test>",`
			`},`
			`InlayHint {`
			`range: [343; 347),`
			`kind: TypeHint,`
			`label: "&Test",`
			`},`
			`InlayHint {`
			`range: [401; 402),`
			`kind: TypeHint,`
			`label: "&CustomOption<u32>",`
			`},`
			`InlayHint {`
			`range: [404; 405),`
			`kind: TypeHint,`
			`label: "&u8",`
			`},`
			`InlayHint {`
			`range: [549; 550),`
			`kind: TypeHint,`
			`label: "&u32",`
			`},`
			`]`
implement while let desugaring 2019-08-07 08:14:22 -05:00			`"###`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`);`
			`}`

			`#[test]`
			`fn match_arm_list() {`
			`let (analysis, file_id) = single_file(`
			`r#"`
			`#[derive(PartialEq)]`
Use proper inlay kinds 2019-08-04 16:28:36 -05:00			`enum CustomOption<T> {`
Support destructuring patterns 2019-07-27 16:50:26 -05:00			`None,`
			`Some(T),`
			`}`

			`#[derive(PartialEq)]`
			`struct Test {`
			`a: CustomOption<u32>,`
			`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, .. }) => (),`
			`_ => {}`
			`}`
			`}"#,`
			`);`

Auto-upgrade some insta snapshots 2019-11-15 03:56:24 -06:00			`assert_debug_snapshot!(analysis.inlay_hints(file_id).unwrap(), @r###"`
			`[`
			`InlayHint {`
			`range: [311; 315),`
			`kind: TypeHint,`
			`label: "Test",`
			`},`
			`InlayHint {`
			`range: [358; 359),`
			`kind: TypeHint,`
			`label: "CustomOption<u32>",`
			`},`
			`InlayHint {`
			`range: [361; 362),`
			`kind: TypeHint,`
			`label: "u8",`
			`},`
			`InlayHint {`
			`range: [484; 485),`
			`kind: TypeHint,`
			`label: "u32",`
			`},`
			`]`
			`"###`
Code review fixes 2019-07-21 12:51:27 -05:00			`);`
Refactor server api 2019-07-19 16:20:09 -05:00			`}`
			`}`