315: Split completion into manageable components r=matklad a=matklad

The main idea here is to do completion in two phases:

* first, we figure out surrounding context
* then, we run a series of completers on the given context. 

Co-authored-by: Aleksey Kladov <aleksey.kladov@gmail.com>
This commit is contained in:
bors[bot] 2018-12-21 22:04:32 +00:00
commit 184665ff9b
9 changed files with 878 additions and 771 deletions

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@ -1,114 +1,52 @@
mod completion_item;
mod reference_completion;
mod completion_context;
mod complete_fn_param;
mod complete_keyword;
mod complete_snippet;
mod complete_path;
mod complete_scope;
use ra_editor::find_node_at_offset;
use ra_text_edit::AtomTextEdit;
use ra_syntax::{
algo::visit::{visitor_ctx, VisitorCtx},
ast,
AstNode,
SyntaxNodeRef,
};
use ra_db::SyntaxDatabase;
use rustc_hash::{FxHashMap};
use hir::source_binder;
use crate::{
db,
Cancelable, FilePosition,
completion::completion_item::{Completions, CompletionKind},
completion::{
completion_item::{Completions, CompletionKind},
completion_context::CompletionContext,
},
};
pub use crate::completion::completion_item::{CompletionItem, InsertText};
/// Main entry point for copmletion. We run comletion as a two-phase process.
///
/// First, we look at the position and collect a so-called `CompletionContext.
/// This is a somewhat messy process, because, during completion, syntax tree is
/// incomplete and can look readlly weired.
///
/// Once the context is collected, we run a series of completion routines whihc
/// look at the context and produce completion items.
pub(crate) fn completions(
db: &db::RootDatabase,
position: FilePosition,
) -> Cancelable<Option<Completions>> {
let original_file = db.source_file(position.file_id);
// Insert a fake ident to get a valid parse tree
let file = {
let edit = AtomTextEdit::insert(position.offset, "intellijRulezz".to_string());
original_file.reparse(&edit)
};
let module = ctry!(source_binder::module_from_position(db, position)?);
let ctx = ctry!(CompletionContext::new(db, &original_file, position)?);
let mut acc = Completions::default();
let mut has_completions = false;
// First, let's try to complete a reference to some declaration.
if let Some(name_ref) = find_node_at_offset::<ast::NameRef>(file.syntax(), position.offset) {
has_completions = true;
reference_completion::completions(&mut acc, db, &module, &file, name_ref)?;
// special case, `trait T { fn foo(i_am_a_name_ref) {} }`
if is_node::<ast::Param>(name_ref.syntax()) {
param_completions(&mut acc, name_ref.syntax());
}
}
// Otherwise, if this is a declaration, use heuristics to suggest a name.
if let Some(name) = find_node_at_offset::<ast::Name>(file.syntax(), position.offset) {
if is_node::<ast::Param>(name.syntax()) {
has_completions = true;
param_completions(&mut acc, name.syntax());
}
}
if !has_completions {
return Ok(None);
}
complete_fn_param::complete_fn_param(&mut acc, &ctx);
complete_keyword::complete_expr_keyword(&mut acc, &ctx);
complete_snippet::complete_expr_snippet(&mut acc, &ctx);
complete_snippet::complete_item_snippet(&mut acc, &ctx);
complete_path::complete_path(&mut acc, &ctx)?;
complete_scope::complete_scope(&mut acc, &ctx)?;
Ok(Some(acc))
}
/// Complete repeated parametes, both name and type. For example, if all
/// functions in a file have a `spam: &mut Spam` parameter, a completion with
/// `spam: &mut Spam` insert text/label and `spam` lookup string will be
/// suggested.
fn param_completions(acc: &mut Completions, ctx: SyntaxNodeRef) {
let mut params = FxHashMap::default();
for node in ctx.ancestors() {
let _ = visitor_ctx(&mut params)
.visit::<ast::SourceFile, _>(process)
.visit::<ast::ItemList, _>(process)
.accept(node);
}
params
.into_iter()
.filter_map(|(label, (count, param))| {
let lookup = param.pat()?.syntax().text().to_string();
if count < 2 {
None
} else {
Some((label, lookup))
}
})
.for_each(|(label, lookup)| {
CompletionItem::new(label)
.lookup_by(lookup)
.kind(CompletionKind::Magic)
.add_to(acc)
});
fn process<'a, N: ast::FnDefOwner<'a>>(
node: N,
params: &mut FxHashMap<String, (u32, ast::Param<'a>)>,
) {
node.functions()
.filter_map(|it| it.param_list())
.flat_map(|it| it.params())
.for_each(|param| {
let text = param.syntax().text().to_string();
params.entry(text).or_insert((0, param)).0 += 1;
})
}
}
fn is_node<'a, N: AstNode<'a>>(node: SyntaxNodeRef<'a>) -> bool {
match node.ancestors().filter_map(N::cast).next() {
None => false,
Some(n) => n.syntax().range() == node.range(),
}
}
#[cfg(test)]
fn check_completion(code: &str, expected_completions: &str, kind: CompletionKind) {
use crate::mock_analysis::{single_file_with_position, analysis_and_position};
@ -120,51 +58,3 @@ fn check_completion(code: &str, expected_completions: &str, kind: CompletionKind
let completions = completions(&analysis.imp.db, position).unwrap().unwrap();
completions.assert_match(expected_completions, kind);
}
#[cfg(test)]
mod tests {
use super::*;
fn check_magic_completion(code: &str, expected_completions: &str) {
check_completion(code, expected_completions, CompletionKind::Magic);
}
#[test]
fn test_param_completion_last_param() {
check_magic_completion(
r"
fn foo(file_id: FileId) {}
fn bar(file_id: FileId) {}
fn baz(file<|>) {}
",
r#"file_id "file_id: FileId""#,
);
}
#[test]
fn test_param_completion_nth_param() {
check_magic_completion(
r"
fn foo(file_id: FileId) {}
fn bar(file_id: FileId) {}
fn baz(file<|>, x: i32) {}
",
r#"file_id "file_id: FileId""#,
);
}
#[test]
fn test_param_completion_trait_param() {
check_magic_completion(
r"
pub(crate) trait SourceRoot {
pub fn contains(&self, file_id: FileId) -> bool;
pub fn module_map(&self) -> &ModuleMap;
pub fn lines(&self, file_id: FileId) -> &LineIndex;
pub fn syntax(&self, file<|>)
}
",
r#"file_id "file_id: FileId""#,
);
}
}

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@ -0,0 +1,103 @@
use ra_syntax::{
algo::visit::{visitor_ctx, VisitorCtx},
ast,
AstNode,
};
use rustc_hash::FxHashMap;
use crate::completion::{CompletionContext, Completions, CompletionKind, CompletionItem};
/// Complete repeated parametes, both name and type. For example, if all
/// functions in a file have a `spam: &mut Spam` parameter, a completion with
/// `spam: &mut Spam` insert text/label and `spam` lookup string will be
/// suggested.
pub(super) fn complete_fn_param(acc: &mut Completions, ctx: &CompletionContext) {
if !ctx.is_param {
return;
}
let mut params = FxHashMap::default();
for node in ctx.leaf.ancestors() {
let _ = visitor_ctx(&mut params)
.visit::<ast::SourceFile, _>(process)
.visit::<ast::ItemList, _>(process)
.accept(node);
}
params
.into_iter()
.filter_map(|(label, (count, param))| {
let lookup = param.pat()?.syntax().text().to_string();
if count < 2 {
None
} else {
Some((label, lookup))
}
})
.for_each(|(label, lookup)| {
CompletionItem::new(label)
.lookup_by(lookup)
.kind(CompletionKind::Magic)
.add_to(acc)
});
fn process<'a, N: ast::FnDefOwner<'a>>(
node: N,
params: &mut FxHashMap<String, (u32, ast::Param<'a>)>,
) {
node.functions()
.filter_map(|it| it.param_list())
.flat_map(|it| it.params())
.for_each(|param| {
let text = param.syntax().text().to_string();
params.entry(text).or_insert((0, param)).0 += 1;
})
}
}
#[cfg(test)]
mod tests {
use crate::completion::*;
fn check_magic_completion(code: &str, expected_completions: &str) {
check_completion(code, expected_completions, CompletionKind::Magic);
}
#[test]
fn test_param_completion_last_param() {
check_magic_completion(
r"
fn foo(file_id: FileId) {}
fn bar(file_id: FileId) {}
fn baz(file<|>) {}
",
r#"file_id "file_id: FileId""#,
);
}
#[test]
fn test_param_completion_nth_param() {
check_magic_completion(
r"
fn foo(file_id: FileId) {}
fn bar(file_id: FileId) {}
fn baz(file<|>, x: i32) {}
",
r#"file_id "file_id: FileId""#,
);
}
#[test]
fn test_param_completion_trait_param() {
check_magic_completion(
r"
pub(crate) trait SourceRoot {
pub fn contains(&self, file_id: FileId) -> bool;
pub fn module_map(&self) -> &ModuleMap;
pub fn lines(&self, file_id: FileId) -> &LineIndex;
pub fn syntax(&self, file<|>)
}
",
r#"file_id "file_id: FileId""#,
);
}
}

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@ -0,0 +1,204 @@
use ra_syntax::{
algo::visit::{visitor, Visitor},
AstNode,
ast::{self, LoopBodyOwner},
SyntaxKind::*, SyntaxNodeRef,
};
use crate::completion::{CompletionContext, CompletionItem, Completions, CompletionKind::*};
pub(super) fn complete_expr_keyword(acc: &mut Completions, ctx: &CompletionContext) {
if !ctx.is_trivial_path {
return;
}
let fn_def = match ctx.enclosing_fn {
Some(it) => it,
None => return,
};
acc.add(keyword("if", "if $0 {}"));
acc.add(keyword("match", "match $0 {}"));
acc.add(keyword("while", "while $0 {}"));
acc.add(keyword("loop", "loop {$0}"));
if ctx.after_if {
acc.add(keyword("else", "else {$0}"));
acc.add(keyword("else if", "else if $0 {}"));
}
if is_in_loop_body(ctx.leaf) {
acc.add(keyword("continue", "continue"));
acc.add(keyword("break", "break"));
}
acc.add_all(complete_return(fn_def, ctx.is_stmt));
}
fn is_in_loop_body(leaf: SyntaxNodeRef) -> bool {
for node in leaf.ancestors() {
if node.kind() == FN_DEF || node.kind() == LAMBDA_EXPR {
break;
}
let loop_body = visitor()
.visit::<ast::ForExpr, _>(LoopBodyOwner::loop_body)
.visit::<ast::WhileExpr, _>(LoopBodyOwner::loop_body)
.visit::<ast::LoopExpr, _>(LoopBodyOwner::loop_body)
.accept(node);
if let Some(Some(body)) = loop_body {
if leaf.range().is_subrange(&body.syntax().range()) {
return true;
}
}
}
false
}
fn complete_return(fn_def: ast::FnDef, is_stmt: bool) -> Option<CompletionItem> {
let snip = match (is_stmt, fn_def.ret_type().is_some()) {
(true, true) => "return $0;",
(true, false) => "return;",
(false, true) => "return $0",
(false, false) => "return",
};
Some(keyword("return", snip))
}
fn keyword(kw: &str, snippet: &str) -> CompletionItem {
CompletionItem::new(kw)
.kind(Keyword)
.snippet(snippet)
.build()
}
#[cfg(test)]
mod tests {
use crate::completion::{CompletionKind, check_completion};
fn check_keyword_completion(code: &str, expected_completions: &str) {
check_completion(code, expected_completions, CompletionKind::Keyword);
}
#[test]
fn test_completion_kewords() {
check_keyword_completion(
r"
fn quux() {
<|>
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
return "return"
"#,
);
}
#[test]
fn test_completion_else() {
check_keyword_completion(
r"
fn quux() {
if true {
()
} <|>
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
else "else {$0}"
else if "else if $0 {}"
return "return"
"#,
);
}
#[test]
fn test_completion_return_value() {
check_keyword_completion(
r"
fn quux() -> i32 {
<|>
92
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
return "return $0;"
"#,
);
check_keyword_completion(
r"
fn quux() {
<|>
92
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
return "return;"
"#,
);
}
#[test]
fn test_completion_return_no_stmt() {
check_keyword_completion(
r"
fn quux() -> i32 {
match () {
() => <|>
}
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
return "return $0"
"#,
);
}
#[test]
fn test_continue_break_completion() {
check_keyword_completion(
r"
fn quux() -> i32 {
loop { <|> }
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
continue "continue"
break "break"
return "return $0"
"#,
);
check_keyword_completion(
r"
fn quux() -> i32 {
loop { || { <|> } }
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
return "return $0"
"#,
);
}
}

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@ -0,0 +1,95 @@
use crate::{
Cancelable,
completion::{CompletionItem, Completions, CompletionKind::*, CompletionContext},
};
pub(super) fn complete_path(acc: &mut Completions, ctx: &CompletionContext) -> Cancelable<()> {
let (path, module) = match (&ctx.path_prefix, &ctx.module) {
(Some(path), Some(module)) => (path.clone(), module),
_ => return Ok(()),
};
let def_id = match module.resolve_path(ctx.db, path)? {
Some(it) => it,
None => return Ok(()),
};
let target_module = match def_id.resolve(ctx.db)? {
hir::Def::Module(it) => it,
_ => return Ok(()),
};
let module_scope = target_module.scope(ctx.db)?;
module_scope.entries().for_each(|(name, _res)| {
CompletionItem::new(name.to_string())
.kind(Reference)
.add_to(acc)
});
Ok(())
}
#[cfg(test)]
mod tests {
use crate::completion::{CompletionKind, check_completion};
fn check_reference_completion(code: &str, expected_completions: &str) {
check_completion(code, expected_completions, CompletionKind::Reference);
}
#[test]
fn completes_use_item_starting_with_self() {
check_reference_completion(
r"
use self::m::<|>;
mod m {
struct Bar;
}
",
"Bar",
);
}
#[test]
fn completes_use_item_starting_with_crate() {
check_reference_completion(
"
//- /lib.rs
mod foo;
struct Spam;
//- /foo.rs
use crate::Sp<|>
",
"Spam;foo",
);
}
#[test]
fn completes_nested_use_tree() {
check_reference_completion(
"
//- /lib.rs
mod foo;
struct Spam;
//- /foo.rs
use crate::{Sp<|>};
",
"Spam;foo",
);
}
#[test]
fn completes_deeply_nested_use_tree() {
check_reference_completion(
"
//- /lib.rs
mod foo;
pub mod bar {
pub mod baz {
pub struct Spam;
}
}
//- /foo.rs
use crate::{bar::{baz::Sp<|>}};
",
"Spam",
);
}
}

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@ -0,0 +1,171 @@
use rustc_hash::FxHashSet;
use ra_syntax::TextUnit;
use crate::{
Cancelable,
completion::{CompletionItem, Completions, CompletionKind::*, CompletionContext},
};
pub(super) fn complete_scope(acc: &mut Completions, ctx: &CompletionContext) -> Cancelable<()> {
if !ctx.is_trivial_path {
return Ok(());
}
if let Some(fn_def) = ctx.enclosing_fn {
let scopes = hir::FnScopes::new(fn_def);
complete_fn(acc, &scopes, ctx.offset);
}
if let Some(module) = &ctx.module {
let module_scope = module.scope(ctx.db)?;
module_scope
.entries()
.filter(|(_name, res)| {
// Don't expose this item
match res.import {
None => true,
Some(import) => {
let range = import.range(ctx.db, module.source().file_id());
!range.is_subrange(&ctx.leaf.range())
}
}
})
.for_each(|(name, _res)| {
CompletionItem::new(name.to_string())
.kind(Reference)
.add_to(acc)
});
}
Ok(())
}
fn complete_fn(acc: &mut Completions, scopes: &hir::FnScopes, offset: TextUnit) {
let mut shadowed = FxHashSet::default();
scopes
.scope_chain_for_offset(offset)
.flat_map(|scope| scopes.entries(scope).iter())
.filter(|entry| shadowed.insert(entry.name()))
.for_each(|entry| {
CompletionItem::new(entry.name().to_string())
.kind(Reference)
.add_to(acc)
});
if scopes.self_param.is_some() {
CompletionItem::new("self").kind(Reference).add_to(acc);
}
}
#[cfg(test)]
mod tests {
use crate::completion::{CompletionKind, check_completion};
fn check_reference_completion(code: &str, expected_completions: &str) {
check_completion(code, expected_completions, CompletionKind::Reference);
}
#[test]
fn completes_bindings_from_let() {
check_reference_completion(
r"
fn quux(x: i32) {
let y = 92;
1 + <|>;
let z = ();
}
",
"y;x;quux",
);
}
#[test]
fn completes_bindings_from_if_let() {
check_reference_completion(
r"
fn quux() {
if let Some(x) = foo() {
let y = 92;
};
if let Some(a) = bar() {
let b = 62;
1 + <|>
}
}
",
"b;a;quux",
);
}
#[test]
fn completes_bindings_from_for() {
check_reference_completion(
r"
fn quux() {
for x in &[1, 2, 3] {
<|>
}
}
",
"x;quux",
);
}
#[test]
fn completes_module_items() {
check_reference_completion(
r"
struct Foo;
enum Baz {}
fn quux() {
<|>
}
",
"quux;Foo;Baz",
);
}
#[test]
fn completes_module_items_in_nested_modules() {
check_reference_completion(
r"
struct Foo;
mod m {
struct Bar;
fn quux() { <|> }
}
",
"quux;Bar",
);
}
#[test]
fn completes_return_type() {
check_reference_completion(
r"
struct Foo;
fn x() -> <|>
",
"Foo;x",
)
}
#[test]
fn dont_show_to_completions_for_shadowing() {
check_reference_completion(
r"
fn foo() -> {
let bar = 92;
{
let bar = 62;
<|>
}
}
",
"bar;foo",
)
}
#[test]
fn completes_self_in_methods() {
check_reference_completion(r"impl S { fn foo(&self) { <|> } }", "self")
}
}

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@ -0,0 +1,76 @@
use crate::completion::{CompletionItem, Completions, CompletionKind::*, CompletionContext};
pub(super) fn complete_expr_snippet(acc: &mut Completions, ctx: &CompletionContext) {
if !(ctx.is_trivial_path && ctx.enclosing_fn.is_some()) {
return;
}
CompletionItem::new("pd")
.snippet("eprintln!(\"$0 = {:?}\", $0);")
.kind(Snippet)
.add_to(acc);
CompletionItem::new("ppd")
.snippet("eprintln!(\"$0 = {:#?}\", $0);")
.kind(Snippet)
.add_to(acc);
}
pub(super) fn complete_item_snippet(acc: &mut Completions, ctx: &CompletionContext) {
if !ctx.is_new_item {
return;
}
CompletionItem::new("Test function")
.lookup_by("tfn")
.snippet(
"\
#[test]
fn ${1:feature}() {
$0
}",
)
.kind(Snippet)
.add_to(acc);
CompletionItem::new("pub(crate)")
.snippet("pub(crate) $0")
.kind(Snippet)
.add_to(acc);
}
#[cfg(test)]
mod tests {
use crate::completion::{CompletionKind, check_completion};
fn check_snippet_completion(code: &str, expected_completions: &str) {
check_completion(code, expected_completions, CompletionKind::Snippet);
}
#[test]
fn completes_snippets_in_expressions() {
check_snippet_completion(
r"fn foo(x: i32) { <|> }",
r##"
pd "eprintln!(\"$0 = {:?}\", $0);"
ppd "eprintln!(\"$0 = {:#?}\", $0);"
"##,
);
}
#[test]
fn completes_snippets_in_items() {
// check_snippet_completion(r"
// <|>
// ",
// r##"[CompletionItem { label: "Test function", lookup: None, snippet: Some("#[test]\nfn test_${1:feature}() {\n$0\n}"##,
// );
check_snippet_completion(
r"
#[cfg(test)]
mod tests {
<|>
}
",
r##"
tfn "Test function" "#[test]\nfn ${1:feature}() {\n $0\n}"
pub(crate) "pub(crate) $0"
"##,
);
}
}

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@ -0,0 +1,156 @@
use ra_editor::find_node_at_offset;
use ra_text_edit::AtomTextEdit;
use ra_syntax::{
algo::find_leaf_at_offset,
ast,
AstNode,
SyntaxNodeRef,
SourceFileNode,
TextUnit,
SyntaxKind::*,
};
use hir::source_binder;
use crate::{db, FilePosition, Cancelable};
/// `CompletionContext` is created early during completion to figure out, where
/// exactly is the cursor, syntax-wise.
#[derive(Debug)]
pub(super) struct CompletionContext<'a> {
pub(super) db: &'a db::RootDatabase,
pub(super) offset: TextUnit,
pub(super) leaf: SyntaxNodeRef<'a>,
pub(super) module: Option<hir::Module>,
pub(super) enclosing_fn: Option<ast::FnDef<'a>>,
pub(super) is_param: bool,
/// A single-indent path, like `foo`.
pub(super) is_trivial_path: bool,
/// If not a trivial, path, the prefix (qualifier).
pub(super) path_prefix: Option<hir::Path>,
pub(super) after_if: bool,
pub(super) is_stmt: bool,
/// Something is typed at the "top" level, in module or impl/trait.
pub(super) is_new_item: bool,
}
impl<'a> CompletionContext<'a> {
pub(super) fn new(
db: &'a db::RootDatabase,
original_file: &'a SourceFileNode,
position: FilePosition,
) -> Cancelable<Option<CompletionContext<'a>>> {
let module = source_binder::module_from_position(db, position)?;
let leaf =
ctry!(find_leaf_at_offset(original_file.syntax(), position.offset).left_biased());
let mut ctx = CompletionContext {
db,
leaf,
offset: position.offset,
module,
enclosing_fn: None,
is_param: false,
is_trivial_path: false,
path_prefix: None,
after_if: false,
is_stmt: false,
is_new_item: false,
};
ctx.fill(original_file, position.offset);
Ok(Some(ctx))
}
fn fill(&mut self, original_file: &SourceFileNode, offset: TextUnit) {
// Insert a fake ident to get a valid parse tree. We will use this file
// to determine context, though the original_file will be used for
// actual completion.
let file = {
let edit = AtomTextEdit::insert(offset, "intellijRulezz".to_string());
original_file.reparse(&edit)
};
// First, let's try to complete a reference to some declaration.
if let Some(name_ref) = find_node_at_offset::<ast::NameRef>(file.syntax(), offset) {
// Special case, `trait T { fn foo(i_am_a_name_ref) {} }`.
// See RFC#1685.
if is_node::<ast::Param>(name_ref.syntax()) {
self.is_param = true;
return;
}
self.classify_name_ref(&file, name_ref);
}
// Otherwise, see if this is a declaration. We can use heuristics to
// suggest declaration names, see `CompletionKind::Magic`.
if let Some(name) = find_node_at_offset::<ast::Name>(file.syntax(), offset) {
if is_node::<ast::Param>(name.syntax()) {
self.is_param = true;
return;
}
}
}
fn classify_name_ref(&mut self, file: &SourceFileNode, name_ref: ast::NameRef) {
let name_range = name_ref.syntax().range();
let top_node = name_ref
.syntax()
.ancestors()
.take_while(|it| it.range() == name_range)
.last()
.unwrap();
match top_node.parent().map(|it| it.kind()) {
Some(SOURCE_FILE) | Some(ITEM_LIST) => {
self.is_new_item = true;
return;
}
_ => (),
}
let parent = match name_ref.syntax().parent() {
Some(it) => it,
None => return,
};
if let Some(segment) = ast::PathSegment::cast(parent) {
let path = segment.parent_path();
if let Some(mut path) = hir::Path::from_ast(path) {
if !path.is_ident() {
path.segments.pop().unwrap();
self.path_prefix = Some(path);
return;
}
}
if path.qualifier().is_none() {
self.is_trivial_path = true;
self.enclosing_fn = self
.leaf
.ancestors()
.take_while(|it| it.kind() != SOURCE_FILE && it.kind() != MODULE)
.find_map(ast::FnDef::cast);
self.is_stmt = match name_ref
.syntax()
.ancestors()
.filter_map(ast::ExprStmt::cast)
.next()
{
None => false,
Some(expr_stmt) => expr_stmt.syntax().range() == name_ref.syntax().range(),
};
if let Some(off) = name_ref.syntax().range().start().checked_sub(2.into()) {
if let Some(if_expr) = find_node_at_offset::<ast::IfExpr>(file.syntax(), off) {
if if_expr.syntax().range().end() < name_ref.syntax().range().start() {
self.after_if = true;
}
}
}
}
}
}
}
fn is_node<'a, N: AstNode<'a>>(node: SyntaxNodeRef<'a>) -> bool {
match node.ancestors().filter_map(N::cast).next() {
None => false,
Some(n) => n.syntax().range() == node.range(),
}
}

View File

@ -1,633 +0,0 @@
use rustc_hash::{FxHashSet};
use ra_editor::find_node_at_offset;
use ra_syntax::{
algo::visit::{visitor, Visitor},
SourceFileNode, AstNode,
ast::{self, LoopBodyOwner},
SyntaxKind::*,
};
use hir::{
self,
FnScopes, Def, Path
};
use crate::{
db::RootDatabase,
completion::{CompletionItem, Completions, CompletionKind::*},
Cancelable
};
pub(super) fn completions(
acc: &mut Completions,
db: &RootDatabase,
module: &hir::Module,
file: &SourceFileNode,
name_ref: ast::NameRef,
) -> Cancelable<()> {
let kind = match classify_name_ref(name_ref) {
Some(it) => it,
None => return Ok(()),
};
match kind {
NameRefKind::LocalRef { enclosing_fn } => {
if let Some(fn_def) = enclosing_fn {
let scopes = FnScopes::new(fn_def);
complete_fn(name_ref, &scopes, acc);
complete_expr_keywords(&file, fn_def, name_ref, acc);
complete_expr_snippets(acc);
}
let module_scope = module.scope(db)?;
module_scope
.entries()
.filter(|(_name, res)| {
// Don't expose this item
match res.import {
None => true,
Some(import) => {
let range = import.range(db, module.source().file_id());
!range.is_subrange(&name_ref.syntax().range())
}
}
})
.for_each(|(name, _res)| {
CompletionItem::new(name.to_string())
.kind(Reference)
.add_to(acc)
});
}
NameRefKind::Path(path) => complete_path(acc, db, module, path)?,
NameRefKind::BareIdentInMod => {
let name_range = name_ref.syntax().range();
let top_node = name_ref
.syntax()
.ancestors()
.take_while(|it| it.range() == name_range)
.last()
.unwrap();
match top_node.parent().map(|it| it.kind()) {
Some(SOURCE_FILE) | Some(ITEM_LIST) => complete_mod_item_snippets(acc),
_ => (),
}
}
}
Ok(())
}
enum NameRefKind<'a> {
/// NameRef is a part of single-segment path, for example, a refernece to a
/// local variable.
LocalRef {
enclosing_fn: Option<ast::FnDef<'a>>,
},
/// NameRef is the last segment in some path
Path(Path),
/// NameRef is bare identifier at the module's root.
/// Used for keyword completion
BareIdentInMod,
}
fn classify_name_ref(name_ref: ast::NameRef) -> Option<NameRefKind> {
let name_range = name_ref.syntax().range();
let top_node = name_ref
.syntax()
.ancestors()
.take_while(|it| it.range() == name_range)
.last()
.unwrap();
match top_node.parent().map(|it| it.kind()) {
Some(SOURCE_FILE) | Some(ITEM_LIST) => return Some(NameRefKind::BareIdentInMod),
_ => (),
}
let parent = name_ref.syntax().parent()?;
if let Some(segment) = ast::PathSegment::cast(parent) {
let path = segment.parent_path();
if let Some(path) = Path::from_ast(path) {
if !path.is_ident() {
return Some(NameRefKind::Path(path));
}
}
if path.qualifier().is_none() {
let enclosing_fn = name_ref
.syntax()
.ancestors()
.take_while(|it| it.kind() != SOURCE_FILE && it.kind() != MODULE)
.find_map(ast::FnDef::cast);
return Some(NameRefKind::LocalRef { enclosing_fn });
}
}
None
}
fn complete_fn(name_ref: ast::NameRef, scopes: &FnScopes, acc: &mut Completions) {
let mut shadowed = FxHashSet::default();
scopes
.scope_chain(name_ref.syntax())
.flat_map(|scope| scopes.entries(scope).iter())
.filter(|entry| shadowed.insert(entry.name()))
.for_each(|entry| {
CompletionItem::new(entry.name().to_string())
.kind(Reference)
.add_to(acc)
});
if scopes.self_param.is_some() {
CompletionItem::new("self").kind(Reference).add_to(acc);
}
}
fn complete_path(
acc: &mut Completions,
db: &RootDatabase,
module: &hir::Module,
mut path: Path,
) -> Cancelable<()> {
if path.segments.is_empty() {
return Ok(());
}
path.segments.pop();
let def_id = match module.resolve_path(db, path)? {
None => return Ok(()),
Some(it) => it,
};
let target_module = match def_id.resolve(db)? {
Def::Module(it) => it,
_ => return Ok(()),
};
let module_scope = target_module.scope(db)?;
module_scope.entries().for_each(|(name, _res)| {
CompletionItem::new(name.to_string())
.kind(Reference)
.add_to(acc)
});
Ok(())
}
fn complete_mod_item_snippets(acc: &mut Completions) {
CompletionItem::new("Test function")
.lookup_by("tfn")
.snippet(
"\
#[test]
fn ${1:feature}() {
$0
}",
)
.kind(Snippet)
.add_to(acc);
CompletionItem::new("pub(crate)")
.snippet("pub(crate) $0")
.kind(Snippet)
.add_to(acc);
}
fn complete_expr_keywords(
file: &SourceFileNode,
fn_def: ast::FnDef,
name_ref: ast::NameRef,
acc: &mut Completions,
) {
acc.add(keyword("if", "if $0 {}"));
acc.add(keyword("match", "match $0 {}"));
acc.add(keyword("while", "while $0 {}"));
acc.add(keyword("loop", "loop {$0}"));
if let Some(off) = name_ref.syntax().range().start().checked_sub(2.into()) {
if let Some(if_expr) = find_node_at_offset::<ast::IfExpr>(file.syntax(), off) {
if if_expr.syntax().range().end() < name_ref.syntax().range().start() {
acc.add(keyword("else", "else {$0}"));
acc.add(keyword("else if", "else if $0 {}"));
}
}
}
if is_in_loop_body(name_ref) {
acc.add(keyword("continue", "continue"));
acc.add(keyword("break", "break"));
}
acc.add_all(complete_return(fn_def, name_ref));
}
fn is_in_loop_body(name_ref: ast::NameRef) -> bool {
for node in name_ref.syntax().ancestors() {
if node.kind() == FN_DEF || node.kind() == LAMBDA_EXPR {
break;
}
let loop_body = visitor()
.visit::<ast::ForExpr, _>(LoopBodyOwner::loop_body)
.visit::<ast::WhileExpr, _>(LoopBodyOwner::loop_body)
.visit::<ast::LoopExpr, _>(LoopBodyOwner::loop_body)
.accept(node);
if let Some(Some(body)) = loop_body {
if name_ref
.syntax()
.range()
.is_subrange(&body.syntax().range())
{
return true;
}
}
}
false
}
fn complete_return(fn_def: ast::FnDef, name_ref: ast::NameRef) -> Option<CompletionItem> {
// let is_last_in_block = name_ref.syntax().ancestors().filter_map(ast::Expr::cast)
// .next()
// .and_then(|it| it.syntax().parent())
// .and_then(ast::Block::cast)
// .is_some();
// if is_last_in_block {
// return None;
// }
let is_stmt = match name_ref
.syntax()
.ancestors()
.filter_map(ast::ExprStmt::cast)
.next()
{
None => false,
Some(expr_stmt) => expr_stmt.syntax().range() == name_ref.syntax().range(),
};
let snip = match (is_stmt, fn_def.ret_type().is_some()) {
(true, true) => "return $0;",
(true, false) => "return;",
(false, true) => "return $0",
(false, false) => "return",
};
Some(keyword("return", snip))
}
fn keyword(kw: &str, snippet: &str) -> CompletionItem {
CompletionItem::new(kw)
.kind(Keyword)
.snippet(snippet)
.build()
}
fn complete_expr_snippets(acc: &mut Completions) {
CompletionItem::new("pd")
.snippet("eprintln!(\"$0 = {:?}\", $0);")
.kind(Snippet)
.add_to(acc);
CompletionItem::new("ppd")
.snippet("eprintln!(\"$0 = {:#?}\", $0);")
.kind(Snippet)
.add_to(acc);
}
#[cfg(test)]
mod tests {
use crate::completion::{CompletionKind, check_completion};
fn check_reference_completion(code: &str, expected_completions: &str) {
check_completion(code, expected_completions, CompletionKind::Reference);
}
fn check_keyword_completion(code: &str, expected_completions: &str) {
check_completion(code, expected_completions, CompletionKind::Keyword);
}
fn check_snippet_completion(code: &str, expected_completions: &str) {
check_completion(code, expected_completions, CompletionKind::Snippet);
}
#[test]
fn test_completion_let_scope() {
check_reference_completion(
r"
fn quux(x: i32) {
let y = 92;
1 + <|>;
let z = ();
}
",
"y;x;quux",
);
}
#[test]
fn test_completion_if_let_scope() {
check_reference_completion(
r"
fn quux() {
if let Some(x) = foo() {
let y = 92;
};
if let Some(a) = bar() {
let b = 62;
1 + <|>
}
}
",
"b;a;quux",
);
}
#[test]
fn test_completion_for_scope() {
check_reference_completion(
r"
fn quux() {
for x in &[1, 2, 3] {
<|>
}
}
",
"x;quux",
);
}
#[test]
fn test_completion_mod_scope() {
check_reference_completion(
r"
struct Foo;
enum Baz {}
fn quux() {
<|>
}
",
"quux;Foo;Baz",
);
}
#[test]
fn test_completion_mod_scope_no_self_use() {
check_reference_completion(
r"
use foo<|>;
",
"",
);
}
#[test]
fn test_completion_self_path() {
check_reference_completion(
r"
use self::m::<|>;
mod m {
struct Bar;
}
",
"Bar",
);
}
#[test]
fn test_completion_mod_scope_nested() {
check_reference_completion(
r"
struct Foo;
mod m {
struct Bar;
fn quux() { <|> }
}
",
"quux;Bar",
);
}
#[test]
fn test_complete_type() {
check_reference_completion(
r"
struct Foo;
fn x() -> <|>
",
"Foo;x",
)
}
#[test]
fn test_complete_shadowing() {
check_reference_completion(
r"
fn foo() -> {
let bar = 92;
{
let bar = 62;
<|>
}
}
",
"bar;foo",
)
}
#[test]
fn test_complete_self() {
check_reference_completion(r"impl S { fn foo(&self) { <|> } }", "self")
}
#[test]
fn test_complete_crate_path() {
check_reference_completion(
"
//- /lib.rs
mod foo;
struct Spam;
//- /foo.rs
use crate::Sp<|>
",
"Spam;foo",
);
}
#[test]
fn test_complete_crate_path_with_braces() {
check_reference_completion(
"
//- /lib.rs
mod foo;
struct Spam;
//- /foo.rs
use crate::{Sp<|>};
",
"Spam;foo",
);
}
#[test]
fn test_complete_crate_path_in_nested_tree() {
check_reference_completion(
"
//- /lib.rs
mod foo;
pub mod bar {
pub mod baz {
pub struct Spam;
}
}
//- /foo.rs
use crate::{bar::{baz::Sp<|>}};
",
"Spam",
);
}
#[test]
fn test_completion_kewords() {
check_keyword_completion(
r"
fn quux() {
<|>
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
return "return"
"#,
);
}
#[test]
fn test_completion_else() {
check_keyword_completion(
r"
fn quux() {
if true {
()
} <|>
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
else "else {$0}"
else if "else if $0 {}"
return "return"
"#,
);
}
#[test]
fn test_completion_return_value() {
check_keyword_completion(
r"
fn quux() -> i32 {
<|>
92
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
return "return $0;"
"#,
);
check_keyword_completion(
r"
fn quux() {
<|>
92
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
return "return;"
"#,
);
}
#[test]
fn test_completion_return_no_stmt() {
check_keyword_completion(
r"
fn quux() -> i32 {
match () {
() => <|>
}
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
return "return $0"
"#,
);
}
#[test]
fn test_continue_break_completion() {
check_keyword_completion(
r"
fn quux() -> i32 {
loop { <|> }
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
continue "continue"
break "break"
return "return $0"
"#,
);
check_keyword_completion(
r"
fn quux() -> i32 {
loop { || { <|> } }
}
",
r#"
if "if $0 {}"
match "match $0 {}"
while "while $0 {}"
loop "loop {$0}"
return "return $0"
"#,
);
}
#[test]
fn completes_snippets_in_expressions() {
check_snippet_completion(
r"fn foo(x: i32) { <|> }",
r##"
pd "eprintln!(\"$0 = {:?}\", $0);"
ppd "eprintln!(\"$0 = {:#?}\", $0);"
"##,
);
}
#[test]
fn completes_snippets_in_items() {
// check_snippet_completion(r"
// <|>
// ",
// r##"[CompletionItem { label: "Test function", lookup: None, snippet: Some("#[test]\nfn test_${1:feature}() {\n$0\n}"##,
// );
check_snippet_completion(
r"
#[cfg(test)]
mod tests {
<|>
}
",
r##"
tfn "Test function" "#[test]\nfn ${1:feature}() {\n $0\n}"
pub(crate) "pub(crate) $0"
"##,
);
}
}

View File

@ -1,7 +1,7 @@
use rustc_hash::{FxHashMap, FxHashSet};
use ra_syntax::{
AstNode, SmolStr, SyntaxNodeRef, TextRange,
AstNode, SmolStr, SyntaxNodeRef, TextUnit, TextRange,
algo::generate,
ast::{self, ArgListOwner, LoopBodyOwner, NameOwner},
};
@ -57,6 +57,48 @@ impl FnScopes {
self.scopes[scope].parent
})
}
pub fn scope_chain_for_offset<'a>(
&'a self,
offset: TextUnit,
) -> impl Iterator<Item = ScopeId> + 'a {
let scope = self
.scope_for
.iter()
// find containin scope
.min_by_key(|(ptr, _scope)| {
(
!(ptr.range().start() <= offset && offset <= ptr.range().end()),
ptr.range().len(),
)
})
.map(|(ptr, scope)| self.adjust(*ptr, *scope, offset));
generate(scope, move |&scope| self.scopes[scope].parent)
}
// XXX: during completion, cursor might be outside of any particular
// expression. Try to figure out the correct scope...
fn adjust(&self, ptr: LocalSyntaxPtr, original_scope: ScopeId, offset: TextUnit) -> ScopeId {
let r = ptr.range();
let child_scopes = self
.scope_for
.iter()
.map(|(ptr, scope)| (ptr.range(), scope))
.filter(|(range, _)| range.start() <= offset && range.is_subrange(&r) && *range != r);
child_scopes
.max_by(|(r1, _), (r2, _)| {
if r2.is_subrange(&r1) {
std::cmp::Ordering::Greater
} else if r1.is_subrange(&r2) {
std::cmp::Ordering::Less
} else {
r1.start().cmp(&r2.start())
}
})
.map(|(ptr, scope)| *scope)
.unwrap_or(original_scope)
}
pub fn resolve_local_name<'a>(&'a self, name_ref: ast::NameRef) -> Option<&'a ScopeEntry> {
let mut shadowed = FxHashSet::default();
let ret = self
@ -144,6 +186,8 @@ impl ScopeEntry {
}
fn compute_block_scopes(block: ast::Block, scopes: &mut FnScopes, mut scope: ScopeId) {
// A hack for completion :(
scopes.set_scope(block.syntax(), scope);
for stmt in block.statements() {
match stmt {
ast::Stmt::LetStmt(stmt) => {
@ -165,6 +209,7 @@ fn compute_block_scopes(block: ast::Block, scopes: &mut FnScopes, mut scope: Sco
}
}
if let Some(expr) = block.expr() {
eprintln!("{:?}", expr);
scopes.set_scope(expr.syntax(), scope);
compute_expr_scopes(expr, scopes, scope);
}