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|
use ra_db::SourceDatabase;
use ra_syntax::{
AstNode, SyntaxNode, TreeArc, ast::{self, NameOwner, VisibilityOwner, TypeAscriptionOwner},
algo::{find_covering_element, find_node_at_offset, find_token_at_offset, visit::{visitor, Visitor}},
};
use hir::HirDisplay;
use crate::{db::RootDatabase, RangeInfo, FilePosition, FileRange, NavigationTarget};
/// Contains the results when hovering over an item
#[derive(Debug, Clone)]
pub struct HoverResult {
results: Vec<String>,
exact: bool,
}
impl HoverResult {
pub fn new() -> HoverResult {
HoverResult {
results: Vec::new(),
// We assume exact by default
exact: true,
}
}
pub fn extend(&mut self, item: Option<String>) {
self.results.extend(item);
}
pub fn is_exact(&self) -> bool {
self.exact
}
pub fn is_empty(&self) -> bool {
self.results.is_empty()
}
pub fn len(&self) -> usize {
self.results.len()
}
pub fn first(&self) -> Option<&str> {
self.results.first().map(String::as_str)
}
pub fn results(&self) -> &[String] {
&self.results
}
/// Returns the results converted into markup
/// for displaying in a UI
pub fn to_markup(&self) -> String {
let mut markup = if !self.exact {
let mut msg = String::from("Failed to exactly resolve the symbol. This is probably because rust_analyzer does not yet support traits.");
if !self.results.is_empty() {
msg.push_str(" \nThese items were found instead:");
}
msg.push_str("\n\n---\n");
msg
} else {
String::new()
};
markup.push_str(&self.results.join("\n\n---\n"));
markup
}
}
pub(crate) fn hover(db: &RootDatabase, position: FilePosition) -> Option<RangeInfo<HoverResult>> {
let file = db.parse(position.file_id);
let mut res = HoverResult::new();
let mut range = None;
if let Some(name_ref) = find_node_at_offset::<ast::NameRef>(file.syntax(), position.offset) {
use crate::goto_definition::{ReferenceResult::*, reference_definition};
let ref_result = reference_definition(db, position.file_id, name_ref);
match ref_result {
Exact(nav) => res.extend(doc_text_for(db, nav)),
Approximate(navs) => {
// We are no longer exact
res.exact = false;
for nav in navs {
res.extend(doc_text_for(db, nav))
}
}
}
if !res.is_empty() {
range = Some(name_ref.syntax().range())
}
} else if let Some(name) = find_node_at_offset::<ast::Name>(file.syntax(), position.offset) {
let navs = crate::goto_definition::name_definition(db, position.file_id, name);
if let Some(navs) = navs {
for nav in navs {
res.extend(doc_text_for(db, nav))
}
}
if !res.is_empty() && range.is_none() {
range = Some(name.syntax().range());
}
}
if range.is_none() {
let node = find_token_at_offset(file.syntax(), position.offset).find_map(|token| {
token
.parent()
.ancestors()
.find(|n| ast::Expr::cast(*n).is_some() || ast::Pat::cast(*n).is_some())
})?;
let frange = FileRange { file_id: position.file_id, range: node.range() };
res.extend(type_of(db, frange).map(rust_code_markup));
range = Some(node.range());
}
let range = range?;
if res.is_empty() {
return None;
}
let res = RangeInfo::new(range, res);
Some(res)
}
pub(crate) fn type_of(db: &RootDatabase, frange: FileRange) -> Option<String> {
let file = db.parse(frange.file_id);
let syntax = file.syntax();
let leaf_node = find_covering_element(syntax, frange.range);
// if we picked identifier, expand to pattern/expression
let node = leaf_node
.ancestors()
.take_while(|it| it.range() == leaf_node.range())
.find(|&it| ast::Expr::cast(it).is_some() || ast::Pat::cast(it).is_some())?;
let parent_fn = node.ancestors().find_map(ast::FnDef::cast)?;
let function = hir::source_binder::function_from_source(db, frange.file_id, parent_fn)?;
let infer = function.infer(db);
let source_map = function.body_source_map(db);
if let Some(expr) = ast::Expr::cast(node).and_then(|e| source_map.node_expr(e)) {
Some(infer[expr].display(db).to_string())
} else if let Some(pat) = ast::Pat::cast(node).and_then(|p| source_map.node_pat(p)) {
Some(infer[pat].display(db).to_string())
} else {
None
}
}
fn rust_code_markup<CODE: AsRef<str>>(val: CODE) -> String {
rust_code_markup_with_doc::<_, &str>(val, None)
}
fn rust_code_markup_with_doc<CODE, DOC>(val: CODE, doc: Option<DOC>) -> String
where
CODE: AsRef<str>,
DOC: AsRef<str>,
{
if let Some(doc) = doc {
format!("```rust\n{}\n```\n\n{}", val.as_ref(), doc.as_ref())
} else {
format!("```rust\n{}\n```", val.as_ref())
}
}
// FIXME: this should not really use navigation target. Rather, approximately
// resolved symbol should return a `DefId`.
fn doc_text_for(db: &RootDatabase, nav: NavigationTarget) -> Option<String> {
match (nav.description(db), nav.docs(db)) {
(Some(desc), docs) => Some(rust_code_markup_with_doc(desc, docs)),
(None, Some(docs)) => Some(docs),
_ => None,
}
}
impl NavigationTarget {
fn node(&self, db: &RootDatabase) -> Option<TreeArc<SyntaxNode>> {
let source_file = db.parse(self.file_id());
let source_file = source_file.syntax();
let node = source_file
.descendants()
.find(|node| node.kind() == self.kind() && node.range() == self.full_range())?
.to_owned();
Some(node)
}
fn docs(&self, db: &RootDatabase) -> Option<String> {
let node = self.node(db)?;
fn doc_comments<N: ast::DocCommentsOwner>(node: &N) -> Option<String> {
node.doc_comment_text()
}
visitor()
.visit(doc_comments::<ast::FnDef>)
.visit(doc_comments::<ast::StructDef>)
.visit(doc_comments::<ast::EnumDef>)
.visit(doc_comments::<ast::TraitDef>)
.visit(doc_comments::<ast::Module>)
.visit(doc_comments::<ast::TypeAliasDef>)
.visit(doc_comments::<ast::ConstDef>)
.visit(doc_comments::<ast::StaticDef>)
.visit(doc_comments::<ast::NamedFieldDef>)
.visit(doc_comments::<ast::EnumVariant>)
.accept(&node)?
}
/// Get a description of this node.
///
/// e.g. `struct Name`, `enum Name`, `fn Name`
fn description(&self, db: &RootDatabase) -> Option<String> {
// FIXME: After type inference is done, add type information to improve the output
let node = self.node(db)?;
fn visit_ascribed_node<T>(node: &T, prefix: &str) -> Option<String>
where
T: NameOwner + VisibilityOwner + TypeAscriptionOwner,
{
let mut string = visit_node(node, prefix)?;
if let Some(type_ref) = node.ascribed_type() {
string.push_str(": ");
type_ref.syntax().text().push_to(&mut string);
}
Some(string)
}
fn visit_node<T>(node: &T, label: &str) -> Option<String>
where
T: NameOwner + VisibilityOwner,
{
let mut string =
node.visibility().map(|v| format!("{} ", v.syntax().text())).unwrap_or_default();
string.push_str(label);
string.push_str(node.name()?.text().as_str());
Some(string)
}
visitor()
.visit(|node: &ast::FnDef| Some(crate::display::function_label(node)))
.visit(|node: &ast::StructDef| visit_node(node, "struct "))
.visit(|node: &ast::EnumDef| visit_node(node, "enum "))
.visit(|node: &ast::TraitDef| visit_node(node, "trait "))
.visit(|node: &ast::Module| visit_node(node, "mod "))
.visit(|node: &ast::TypeAliasDef| visit_node(node, "type "))
.visit(|node: &ast::ConstDef| visit_ascribed_node(node, "const "))
.visit(|node: &ast::StaticDef| visit_ascribed_node(node, "static "))
.visit(|node: &ast::NamedFieldDef| visit_ascribed_node(node, ""))
.visit(|node: &ast::EnumVariant| Some(node.name()?.text().to_string()))
.accept(&node)?
}
}
#[cfg(test)]
mod tests {
use ra_syntax::TextRange;
use crate::mock_analysis::{single_file_with_position, single_file_with_range, analysis_and_position};
fn trim_markup(s: &str) -> &str {
s.trim_start_matches("```rust\n").trim_end_matches("\n```")
}
fn trim_markup_opt(s: Option<&str>) -> Option<&str> {
s.map(trim_markup)
}
fn check_hover_result(fixture: &str, expected: &[&str]) {
let (analysis, position) = analysis_and_position(fixture);
let hover = analysis.hover(position).unwrap().unwrap();
for (markup, expected) in
hover.info.results().iter().zip(expected.iter().chain(std::iter::repeat(&"<missing>")))
{
assert_eq!(trim_markup(&markup), *expected);
}
assert_eq!(hover.info.len(), expected.len());
}
#[test]
fn hover_shows_type_of_an_expression() {
let (analysis, position) = single_file_with_position(
"
pub fn foo() -> u32 { 1 }
fn main() {
let foo_test = foo()<|>;
}
",
);
let hover = analysis.hover(position).unwrap().unwrap();
assert_eq!(hover.range, TextRange::from_to(95.into(), 100.into()));
assert_eq!(trim_markup_opt(hover.info.first()), Some("u32"));
}
#[test]
fn hover_shows_fn_signature() {
// Single file with result
check_hover_result(
r#"
//- /main.rs
pub fn foo() -> u32 { 1 }
fn main() {
let foo_test = fo<|>o();
}
"#,
&["pub fn foo() -> u32"],
);
// Multiple results
check_hover_result(
r#"
//- /a.rs
pub fn foo() -> u32 { 1 }
//- /b.rs
pub fn foo() -> &str { "" }
//- /c.rs
pub fn foo(a: u32, b: u32) {}
//- /main.rs
mod a;
mod b;
mod c;
fn main() {
let foo_test = fo<|>o();
}
"#,
&["pub fn foo() -> &str", "pub fn foo() -> u32", "pub fn foo(a: u32, b: u32)"],
);
}
#[test]
fn hover_shows_fn_signature_with_type_params() {
check_hover_result(
r#"
//- /main.rs
pub fn foo<'a, T: AsRef<str>>(b: &'a T) -> &'a str { }
fn main() {
let foo_test = fo<|>o();
}
"#,
&["pub fn foo<'a, T: AsRef<str>>(b: &'a T) -> &'a str"],
);
}
#[test]
fn hover_shows_fn_signature_on_fn_name() {
check_hover_result(
r#"
//- /main.rs
pub fn foo<|>(a: u32, b: u32) -> u32 {}
fn main() {
}
"#,
&["pub fn foo(a: u32, b: u32) -> u32"],
);
}
#[test]
fn hover_shows_struct_field_info() {
// Hovering over the field when instantiating
check_hover_result(
r#"
//- /main.rs
struct Foo {
field_a: u32,
}
fn main() {
let foo = Foo {
field_a<|>: 0,
};
}
"#,
&["field_a: u32"],
);
// Hovering over the field in the definition
check_hover_result(
r#"
//- /main.rs
struct Foo {
field_a<|>: u32,
}
fn main() {
let foo = Foo {
field_a: 0,
};
}
"#,
&["field_a: u32"],
);
}
#[test]
fn hover_const_static() {
check_hover_result(
r#"
//- /main.rs
fn main() {
const foo<|>: u32 = 0;
}
"#,
&["const foo: u32"],
);
check_hover_result(
r#"
//- /main.rs
fn main() {
static foo<|>: u32 = 0;
}
"#,
&["static foo: u32"],
);
}
#[test]
fn hover_some() {
let (analysis, position) = single_file_with_position(
"
enum Option<T> { Some(T) }
use Option::Some;
fn main() {
So<|>me(12);
}
",
);
let hover = analysis.hover(position).unwrap().unwrap();
assert_eq!(trim_markup_opt(hover.info.first()), Some("Some"));
let (analysis, position) = single_file_with_position(
"
enum Option<T> { Some(T) }
use Option::Some;
fn main() {
let b<|>ar = Some(12);
}
",
);
let hover = analysis.hover(position).unwrap().unwrap();
assert_eq!(trim_markup_opt(hover.info.first()), Some("Option<i32>"));
}
#[test]
fn hover_enum_variant() {
check_hover_result(
r#"
//- /main.rs
enum Option<T> {
/// The None variant
Non<|>e
}
"#,
&["
None
```
The None variant
"
.trim()],
);
check_hover_result(
r#"
//- /main.rs
enum Option<T> {
/// The Some variant
Some(T)
}
fn main() {
let s = Option::Som<|>e(12);
}
"#,
&["
Some
```
The Some variant
"
.trim()],
);
}
#[test]
fn hover_for_local_variable() {
let (analysis, position) = single_file_with_position("fn func(foo: i32) { fo<|>o; }");
let hover = analysis.hover(position).unwrap().unwrap();
assert_eq!(trim_markup_opt(hover.info.first()), Some("i32"));
}
#[test]
fn hover_for_local_variable_pat() {
let (analysis, position) = single_file_with_position("fn func(fo<|>o: i32) {}");
let hover = analysis.hover(position).unwrap().unwrap();
assert_eq!(trim_markup_opt(hover.info.first()), Some("i32"));
}
#[test]
fn test_type_of_for_function() {
let (analysis, range) = single_file_with_range(
"
pub fn foo() -> u32 { 1 };
fn main() {
let foo_test = <|>foo()<|>;
}
",
);
let type_name = analysis.type_of(range).unwrap().unwrap();
assert_eq!("u32", &type_name);
}
#[test]
fn test_type_of_for_expr() {
let (analysis, range) = single_file_with_range(
"
fn main() {
let foo: usize = 1;
let bar = <|>1 + foo<|>;
}
",
);
let type_name = analysis.type_of(range).unwrap().unwrap();
assert_eq!("usize", &type_name);
}
#[test]
fn test_hover_infer_associated_method_result() {
let (analysis, position) = single_file_with_position(
"
struct Thing { x: u32 }
impl Thing {
fn new() -> Thing {
Thing { x: 0 }
}
}
fn main() {
let foo_<|>test = Thing::new();
}
",
);
let hover = analysis.hover(position).unwrap().unwrap();
assert_eq!(trim_markup_opt(hover.info.first()), Some("Thing"));
}
#[test]
fn test_hover_infer_associated_method_exact() {
let (analysis, position) = single_file_with_position(
"
struct Thing { x: u32 }
impl Thing {
fn new() -> Thing {
Thing { x: 0 }
}
}
fn main() {
let foo_test = Thing::new<|>();
}
",
);
let hover = analysis.hover(position).unwrap().unwrap();
assert_eq!(trim_markup_opt(hover.info.first()), Some("fn new() -> Thing"));
assert_eq!(hover.info.is_exact(), true);
}
#[test]
fn test_hover_infer_associated_const_in_pattern() {
let (analysis, position) = single_file_with_position(
"
struct X;
impl X {
const C: u32 = 1;
}
fn main() {
match 1 {
X::C<|> => {},
2 => {},
_ => {}
};
}
",
);
let hover = analysis.hover(position).unwrap().unwrap();
assert_eq!(trim_markup_opt(hover.info.first()), Some("const C: u32"));
assert_eq!(hover.info.is_exact(), true);
}
#[test]
fn test_hover_self() {
let (analysis, position) = single_file_with_position(
"
struct Thing { x: u32 }
impl Thing {
fn new() -> Self {
Self<|> { x: 0 }
}
}
",
);
let hover = analysis.hover(position).unwrap().unwrap();
assert_eq!(trim_markup_opt(hover.info.first()), Some("struct Thing"));
assert_eq!(hover.info.is_exact(), true);
let (analysis, position) = single_file_with_position(
"
struct Thing { x: u32 }
impl Thing {
fn new() -> Self<|> {
Self { x: 0 }
}
}
",
);
let hover = analysis.hover(position).unwrap().unwrap();
assert_eq!(trim_markup_opt(hover.info.first()), Some("struct Thing"));
assert_eq!(hover.info.is_exact(), true);
let (analysis, position) = single_file_with_position(
"
enum Thing { A }
impl Thing {
pub fn new() -> Self<|> {
Thing::A
}
}
",
);
let hover = analysis.hover(position).unwrap().unwrap();
assert_eq!(trim_markup_opt(hover.info.first()), Some("enum Thing"));
assert_eq!(hover.info.is_exact(), true);
let (analysis, position) = single_file_with_position(
"
enum Thing { A }
impl Thing {
pub fn thing(a: Self<|>) {
}
}
",
);
let hover = analysis.hover(position).unwrap().unwrap();
assert_eq!(trim_markup_opt(hover.info.first()), Some("enum Thing"));
assert_eq!(hover.info.is_exact(), true);
}
}
|