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|
//! This module implements a reference search.
//! First, the element at the cursor position must be either an `ast::Name`
//! or `ast::NameRef`. If it's a `ast::NameRef`, at the classification step we
//! try to resolve the direct tree parent of this element, otherwise we
//! already have a definition and just need to get its HIR together with
//! some information that is needed for futher steps of searching.
//! After that, we collect files that might contain references and look
//! for text occurrences of the identifier. If there's an `ast::NameRef`
//! at the index that the match starts at and its tree parent is
//! resolved to the search element definition, we get a reference.
mod classify;
mod name_definition;
mod rename;
mod search_scope;
use hir::{InFile, SourceBinder};
use once_cell::unsync::Lazy;
use ra_db::{SourceDatabase, SourceDatabaseExt};
use ra_prof::profile;
use ra_syntax::{
algo::find_node_at_offset,
ast::{self, NameOwner},
match_ast, AstNode, SourceFile, SyntaxKind, SyntaxNode, TextRange, TextUnit, TokenAtOffset,
};
use crate::{
db::RootDatabase, display::ToNav, FilePosition, FileRange, NavigationTarget, RangeInfo,
};
pub(crate) use self::{
classify::{classify_name, classify_name_ref},
name_definition::{NameDefinition, NameKind},
rename::rename,
};
pub use self::search_scope::SearchScope;
#[derive(Debug, Clone)]
pub struct ReferenceSearchResult {
declaration: Declaration,
references: Vec<Reference>,
}
#[derive(Debug, Clone)]
pub struct Declaration {
pub nav: NavigationTarget,
pub kind: ReferenceKind,
pub access: Option<ReferenceAccess>,
}
#[derive(Debug, Clone)]
pub struct Reference {
pub file_range: FileRange,
pub kind: ReferenceKind,
pub access: Option<ReferenceAccess>,
}
#[derive(Debug, Clone, PartialEq)]
pub enum ReferenceKind {
StructLiteral,
Other,
}
#[derive(Debug, Copy, Clone, PartialEq)]
pub enum ReferenceAccess {
Read,
Write,
}
impl ReferenceSearchResult {
pub fn declaration(&self) -> &Declaration {
&self.declaration
}
pub fn decl_target(&self) -> &NavigationTarget {
&self.declaration.nav
}
pub fn references(&self) -> &[Reference] {
&self.references
}
/// Total number of references
/// At least 1 since all valid references should
/// Have a declaration
pub fn len(&self) -> usize {
self.references.len() + 1
}
}
// allow turning ReferenceSearchResult into an iterator
// over References
impl IntoIterator for ReferenceSearchResult {
type Item = Reference;
type IntoIter = std::vec::IntoIter<Reference>;
fn into_iter(mut self) -> Self::IntoIter {
let mut v = Vec::with_capacity(self.len());
v.push(Reference {
file_range: FileRange {
file_id: self.declaration.nav.file_id(),
range: self.declaration.nav.range(),
},
kind: self.declaration.kind,
access: self.declaration.access,
});
v.append(&mut self.references);
v.into_iter()
}
}
pub(crate) fn find_all_refs(
db: &RootDatabase,
mut position: FilePosition,
search_scope: Option<SearchScope>,
) -> Option<RangeInfo<ReferenceSearchResult>> {
let parse = db.parse(position.file_id);
let syntax = parse.tree().syntax().clone();
let token = syntax.token_at_offset(position.offset);
let mut search_kind = ReferenceKind::Other;
if let TokenAtOffset::Between(ref left, ref right) = token {
if (right.kind() == SyntaxKind::L_CURLY || right.kind() == SyntaxKind::L_PAREN)
&& left.kind() != SyntaxKind::IDENT
{
position = FilePosition { offset: left.text_range().start(), ..position };
search_kind = ReferenceKind::StructLiteral;
}
}
let RangeInfo { range, info: (name, def) } = find_name(db, &syntax, position)?;
let declaration = match def.kind {
NameKind::Macro(mac) => mac.to_nav(db),
NameKind::Field(field) => field.to_nav(db),
NameKind::AssocItem(assoc) => assoc.to_nav(db),
NameKind::Def(def) => NavigationTarget::from_def(db, def)?,
NameKind::SelfType(imp) => imp.to_nav(db),
NameKind::Local(local) => local.to_nav(db),
NameKind::TypeParam(_) => return None,
};
let search_scope = {
let base = def.search_scope(db);
match search_scope {
None => base,
Some(scope) => base.intersection(&scope),
}
};
let decl_range = declaration.range();
let declaration = Declaration {
nav: declaration,
kind: ReferenceKind::Other,
access: decl_access(&def.kind, &name, &syntax, decl_range),
};
let references = process_definition(db, def, name, search_scope)
.into_iter()
.filter(|r| search_kind == ReferenceKind::Other || search_kind == r.kind)
.collect();
Some(RangeInfo::new(range, ReferenceSearchResult { declaration, references }))
}
fn find_name(
db: &RootDatabase,
syntax: &SyntaxNode,
position: FilePosition,
) -> Option<RangeInfo<(String, NameDefinition)>> {
let mut sb = SourceBinder::new(db);
if let Some(name) = find_node_at_offset::<ast::Name>(&syntax, position.offset) {
let def = classify_name(&mut sb, InFile::new(position.file_id.into(), &name))?;
let range = name.syntax().text_range();
return Some(RangeInfo::new(range, (name.text().to_string(), def)));
}
let name_ref = find_node_at_offset::<ast::NameRef>(&syntax, position.offset)?;
let def = classify_name_ref(&mut sb, InFile::new(position.file_id.into(), &name_ref))?;
let range = name_ref.syntax().text_range();
Some(RangeInfo::new(range, (name_ref.text().to_string(), def)))
}
fn process_definition(
db: &RootDatabase,
def: NameDefinition,
name: String,
scope: SearchScope,
) -> Vec<Reference> {
let _p = profile("process_definition");
let pat = name.as_str();
let mut refs = vec![];
for (file_id, search_range) in scope {
let text = db.file_text(file_id);
let parse = Lazy::new(|| SourceFile::parse(&text));
for (idx, _) in text.match_indices(pat) {
let offset = TextUnit::from_usize(idx);
if let Some(name_ref) =
find_node_at_offset::<ast::NameRef>(parse.tree().syntax(), offset)
{
let range = name_ref.syntax().text_range();
if let Some(search_range) = search_range {
if !range.is_subrange(&search_range) {
continue;
}
}
// FIXME: reuse sb
let mut sb = SourceBinder::new(db);
if let Some(d) = classify_name_ref(&mut sb, InFile::new(file_id.into(), &name_ref))
{
if d == def {
let kind = if name_ref
.syntax()
.ancestors()
.find_map(ast::RecordLit::cast)
.and_then(|l| l.path())
.and_then(|p| p.segment())
.and_then(|p| p.name_ref())
.map(|n| n == name_ref)
.unwrap_or(false)
{
ReferenceKind::StructLiteral
} else {
ReferenceKind::Other
};
refs.push(Reference {
file_range: FileRange { file_id, range },
kind,
access: reference_access(&d.kind, &name_ref),
});
}
}
}
}
}
refs
}
fn decl_access(
kind: &NameKind,
name: &str,
syntax: &SyntaxNode,
range: TextRange,
) -> Option<ReferenceAccess> {
match kind {
NameKind::Local(_) | NameKind::Field(_) => {}
_ => return None,
};
let stmt = find_node_at_offset::<ast::LetStmt>(syntax, range.start())?;
if let Some(_) = stmt.initializer() {
let pat = stmt.pat()?;
if let ast::Pat::BindPat(it) = pat {
if it.name()?.text().as_str() == name {
return Some(ReferenceAccess::Write);
}
}
}
None
}
fn reference_access(kind: &NameKind, name_ref: &ast::NameRef) -> Option<ReferenceAccess> {
// Only Locals and Fields have accesses for now.
match kind {
NameKind::Local(_) | NameKind::Field(_) => {}
_ => return None,
};
let mode = name_ref.syntax().ancestors().find_map(|node| {
match_ast! {
match (node) {
ast::BinExpr(expr) => {
if expr.op_kind()?.is_assignment() {
// If the variable or field ends on the LHS's end then it's a Write (covers fields and locals).
// FIXME: This is not terribly accurate.
if let Some(lhs) = expr.lhs() {
if lhs.syntax().text_range().end() == name_ref.syntax().text_range().end() {
return Some(ReferenceAccess::Write);
}
}
}
Some(ReferenceAccess::Read)
},
_ => {None}
}
}
});
// Default Locals and Fields to read
mode.or(Some(ReferenceAccess::Read))
}
#[cfg(test)]
mod tests {
use crate::{
mock_analysis::{analysis_and_position, single_file_with_position, MockAnalysis},
Declaration, Reference, ReferenceSearchResult, SearchScope,
};
#[test]
fn test_struct_literal() {
let code = r#"
struct Foo <|>{
a: i32,
}
impl Foo {
fn f() -> i32 { 42 }
}
fn main() {
let f: Foo;
f = Foo {a: Foo::f()};
}"#;
let refs = get_all_refs(code);
check_result(
refs,
"Foo STRUCT_DEF FileId(1) [5; 39) [12; 15) Other",
&["FileId(1) [138; 141) StructLiteral"],
);
}
#[test]
fn test_find_all_refs_for_local() {
let code = r#"
fn main() {
let mut i = 1;
let j = 1;
i = i<|> + j;
{
i = 0;
}
i = 5;
}"#;
let refs = get_all_refs(code);
check_result(
refs,
"i BIND_PAT FileId(1) [33; 34) Other Write",
&[
"FileId(1) [67; 68) Other Write",
"FileId(1) [71; 72) Other Read",
"FileId(1) [101; 102) Other Write",
"FileId(1) [127; 128) Other Write",
],
);
}
#[test]
fn test_find_all_refs_for_param_inside() {
let code = r#"
fn foo(i : u32) -> u32 {
i<|>
}"#;
let refs = get_all_refs(code);
check_result(
refs,
"i BIND_PAT FileId(1) [12; 13) Other",
&["FileId(1) [38; 39) Other Read"],
);
}
#[test]
fn test_find_all_refs_for_fn_param() {
let code = r#"
fn foo(i<|> : u32) -> u32 {
i
}"#;
let refs = get_all_refs(code);
check_result(
refs,
"i BIND_PAT FileId(1) [12; 13) Other",
&["FileId(1) [38; 39) Other Read"],
);
}
#[test]
fn test_find_all_refs_field_name() {
let code = r#"
//- /lib.rs
struct Foo {
pub spam<|>: u32,
}
fn main(s: Foo) {
let f = s.spam;
}
"#;
let refs = get_all_refs(code);
check_result(
refs,
"spam RECORD_FIELD_DEF FileId(1) [66; 79) [70; 74) Other",
&["FileId(1) [152; 156) Other Read"],
);
}
#[test]
fn test_find_all_refs_impl_item_name() {
let code = r#"
//- /lib.rs
struct Foo;
impl Foo {
fn f<|>(&self) { }
}
"#;
let refs = get_all_refs(code);
check_result(refs, "f FN_DEF FileId(1) [88; 104) [91; 92) Other", &[]);
}
#[test]
fn test_find_all_refs_enum_var_name() {
let code = r#"
//- /lib.rs
enum Foo {
A,
B<|>,
C,
}
"#;
let refs = get_all_refs(code);
check_result(refs, "B ENUM_VARIANT FileId(1) [83; 84) [83; 84) Other", &[]);
}
#[test]
fn test_find_all_refs_two_modules() {
let code = r#"
//- /lib.rs
pub mod foo;
pub mod bar;
fn f() {
let i = foo::Foo { n: 5 };
}
//- /foo.rs
use crate::bar;
pub struct Foo {
pub n: u32,
}
fn f() {
let i = bar::Bar { n: 5 };
}
//- /bar.rs
use crate::foo;
pub struct Bar {
pub n: u32,
}
fn f() {
let i = foo::Foo<|> { n: 5 };
}
"#;
let (analysis, pos) = analysis_and_position(code);
let refs = analysis.find_all_refs(pos, None).unwrap().unwrap();
check_result(
refs,
"Foo STRUCT_DEF FileId(2) [16; 50) [27; 30) Other",
&["FileId(1) [52; 55) StructLiteral", "FileId(3) [77; 80) StructLiteral"],
);
}
// `mod foo;` is not in the results because `foo` is an `ast::Name`.
// So, there are two references: the first one is a definition of the `foo` module,
// which is the whole `foo.rs`, and the second one is in `use foo::Foo`.
#[test]
fn test_find_all_refs_decl_module() {
let code = r#"
//- /lib.rs
mod foo<|>;
use foo::Foo;
fn f() {
let i = Foo { n: 5 };
}
//- /foo.rs
pub struct Foo {
pub n: u32,
}
"#;
let (analysis, pos) = analysis_and_position(code);
let refs = analysis.find_all_refs(pos, None).unwrap().unwrap();
check_result(
refs,
"foo SOURCE_FILE FileId(2) [0; 35) Other",
&["FileId(1) [13; 16) Other"],
);
}
#[test]
fn test_find_all_refs_super_mod_vis() {
let code = r#"
//- /lib.rs
mod foo;
//- /foo.rs
mod some;
use some::Foo;
fn f() {
let i = Foo { n: 5 };
}
//- /foo/some.rs
pub(super) struct Foo<|> {
pub n: u32,
}
"#;
let (analysis, pos) = analysis_and_position(code);
let refs = analysis.find_all_refs(pos, None).unwrap().unwrap();
check_result(
refs,
"Foo STRUCT_DEF FileId(3) [0; 41) [18; 21) Other",
&["FileId(2) [20; 23) Other", "FileId(2) [46; 49) StructLiteral"],
);
}
#[test]
fn test_find_all_refs_with_scope() {
let code = r#"
//- /lib.rs
mod foo;
mod bar;
pub fn quux<|>() {}
//- /foo.rs
fn f() { super::quux(); }
//- /bar.rs
fn f() { super::quux(); }
"#;
let (mock, pos) = MockAnalysis::with_files_and_position(code);
let bar = mock.id_of("/bar.rs");
let analysis = mock.analysis();
let refs = analysis.find_all_refs(pos, None).unwrap().unwrap();
check_result(
refs,
"quux FN_DEF FileId(1) [18; 34) [25; 29) Other",
&["FileId(2) [16; 20) Other", "FileId(3) [16; 20) Other"],
);
let refs =
analysis.find_all_refs(pos, Some(SearchScope::single_file(bar))).unwrap().unwrap();
check_result(
refs,
"quux FN_DEF FileId(1) [18; 34) [25; 29) Other",
&["FileId(3) [16; 20) Other"],
);
}
#[test]
fn test_find_all_refs_macro_def() {
let code = r#"
#[macro_export]
macro_rules! m1<|> { () => (()) }
fn foo() {
m1();
m1();
}"#;
let refs = get_all_refs(code);
check_result(
refs,
"m1 MACRO_CALL FileId(1) [9; 63) [46; 48) Other",
&["FileId(1) [96; 98) Other", "FileId(1) [114; 116) Other"],
);
}
#[test]
fn test_basic_highlight_read_write() {
let code = r#"
fn foo() {
let i<|> = 0;
i = i + 1;
}"#;
let refs = get_all_refs(code);
check_result(
refs,
"i BIND_PAT FileId(1) [36; 37) Other Write",
&["FileId(1) [55; 56) Other Write", "FileId(1) [59; 60) Other Read"],
);
}
#[test]
fn test_basic_highlight_field_read_write() {
let code = r#"
struct S {
f: u32,
}
fn foo() {
let mut s = S{f: 0};
s.f<|> = 0;
}"#;
let refs = get_all_refs(code);
check_result(
refs,
"f RECORD_FIELD_DEF FileId(1) [32; 38) [32; 33) Other",
&["FileId(1) [96; 97) Other Read", "FileId(1) [117; 118) Other Write"],
);
}
#[test]
fn test_basic_highlight_decl_no_write() {
let code = r#"
fn foo() {
let i<|>;
i = 1;
}"#;
let refs = get_all_refs(code);
check_result(
refs,
"i BIND_PAT FileId(1) [36; 37) Other",
&["FileId(1) [51; 52) Other Write"],
);
}
fn get_all_refs(text: &str) -> ReferenceSearchResult {
let (analysis, position) = single_file_with_position(text);
analysis.find_all_refs(position, None).unwrap().unwrap()
}
fn check_result(res: ReferenceSearchResult, expected_decl: &str, expected_refs: &[&str]) {
res.declaration().assert_match(expected_decl);
assert_eq!(res.references.len(), expected_refs.len());
res.references().iter().enumerate().for_each(|(i, r)| r.assert_match(expected_refs[i]));
}
impl Declaration {
fn debug_render(&self) -> String {
let mut s = format!("{} {:?}", self.nav.debug_render(), self.kind);
if let Some(access) = self.access {
s.push_str(&format!(" {:?}", access));
}
s
}
fn assert_match(&self, expected: &str) {
let actual = self.debug_render();
test_utils::assert_eq_text!(expected.trim(), actual.trim(),);
}
}
impl Reference {
fn debug_render(&self) -> String {
let mut s = format!(
"{:?} {:?} {:?}",
self.file_range.file_id, self.file_range.range, self.kind
);
if let Some(access) = self.access {
s.push_str(&format!(" {:?}", access));
}
s
}
fn assert_match(&self, expected: &str) {
let actual = self.debug_render();
test_utils::assert_eq_text!(expected.trim(), actual.trim(),);
}
}
}
|