//! This modules takes care of rendering various definitions as completion items.
//! It also handles scoring (sorting) completions.
use hir::{Docs, HasAttrs, HasSource, HirDisplay, ModPath, ScopeDef, StructKind, Type};
use ra_syntax::ast::NameOwner;
use stdx::SepBy;
use test_utils::mark;
use crate::{
completion::{
completion_item::Builder, CompletionContext, CompletionItem, CompletionItemKind,
CompletionKind, Completions,
},
display::{const_label, function_declaration, macro_label, type_label},
CompletionScore, RootDatabase,
};
impl Completions {
pub(crate) fn add_field(&mut self, ctx: &CompletionContext, field: hir::Field, ty: &Type) {
let is_deprecated = is_deprecated(field, ctx.db);
let name = field.name(ctx.db);
let mut completion_item =
CompletionItem::new(CompletionKind::Reference, ctx.source_range(), name.to_string())
.kind(CompletionItemKind::Field)
.detail(ty.display(ctx.db).to_string())
.set_documentation(field.docs(ctx.db))
.set_deprecated(is_deprecated);
if let Some(score) = compute_score(ctx, &ty, &name.to_string()) {
completion_item = completion_item.set_score(score);
}
completion_item.add_to(self);
}
pub(crate) fn add_tuple_field(&mut self, ctx: &CompletionContext, field: usize, ty: &Type) {
CompletionItem::new(CompletionKind::Reference, ctx.source_range(), field.to_string())
.kind(CompletionItemKind::Field)
.detail(ty.display(ctx.db).to_string())
.add_to(self);
}
pub(crate) fn add_resolution(
&mut self,
ctx: &CompletionContext,
local_name: String,
resolution: &ScopeDef,
) {
use hir::ModuleDef::*;
let completion_kind = match resolution {
ScopeDef::ModuleDef(BuiltinType(..)) => CompletionKind::BuiltinType,
_ => CompletionKind::Reference,
};
let kind = match resolution {
ScopeDef::ModuleDef(Module(..)) => CompletionItemKind::Module,
ScopeDef::ModuleDef(Function(func)) => {
return self.add_function(ctx, *func, Some(local_name));
}
ScopeDef::ModuleDef(Adt(hir::Adt::Struct(_))) => CompletionItemKind::Struct,
// FIXME: add CompletionItemKind::Union
ScopeDef::ModuleDef(Adt(hir::Adt::Union(_))) => CompletionItemKind::Struct,
ScopeDef::ModuleDef(Adt(hir::Adt::Enum(_))) => CompletionItemKind::Enum,
ScopeDef::ModuleDef(EnumVariant(var)) => {
return self.add_enum_variant(ctx, *var, Some(local_name));
}
ScopeDef::ModuleDef(Const(..)) => CompletionItemKind::Const,
ScopeDef::ModuleDef(Static(..)) => CompletionItemKind::Static,
ScopeDef::ModuleDef(Trait(..)) => CompletionItemKind::Trait,
ScopeDef::ModuleDef(TypeAlias(..)) => CompletionItemKind::TypeAlias,
ScopeDef::ModuleDef(BuiltinType(..)) => CompletionItemKind::BuiltinType,
ScopeDef::GenericParam(..) => CompletionItemKind::TypeParam,
ScopeDef::Local(..) => CompletionItemKind::Binding,
// (does this need its own kind?)
ScopeDef::AdtSelfType(..) | ScopeDef::ImplSelfType(..) => CompletionItemKind::TypeParam,
ScopeDef::MacroDef(mac) => {
return self.add_macro(ctx, Some(local_name), *mac);
}
ScopeDef::Unknown => {
return self.add(
CompletionItem::new(CompletionKind::Reference, ctx.source_range(), local_name)
.kind(CompletionItemKind::UnresolvedReference),
);
}
};
let docs = match resolution {
ScopeDef::ModuleDef(Module(it)) => it.docs(ctx.db),
ScopeDef::ModuleDef(Adt(it)) => it.docs(ctx.db),
ScopeDef::ModuleDef(EnumVariant(it)) => it.docs(ctx.db),
ScopeDef::ModuleDef(Const(it)) => it.docs(ctx.db),
ScopeDef::ModuleDef(Static(it)) => it.docs(ctx.db),
ScopeDef::ModuleDef(Trait(it)) => it.docs(ctx.db),
ScopeDef::ModuleDef(TypeAlias(it)) => it.docs(ctx.db),
_ => None,
};
let mut completion_item =
CompletionItem::new(completion_kind, ctx.source_range(), local_name.clone());
if let ScopeDef::Local(local) = resolution {
let ty = local.ty(ctx.db);
if !ty.is_unknown() {
completion_item = completion_item.detail(ty.display(ctx.db).to_string());
}
};
if let ScopeDef::Local(local) = resolution {
if let Some(score) = compute_score(ctx, &local.ty(ctx.db), &local_name) {
completion_item = completion_item.set_score(score);
}
}
// Add `<>` for generic types
if ctx.is_path_type && !ctx.has_type_args && ctx.config.add_call_parenthesis {
if let Some(cap) = ctx.config.snippet_cap {
let has_non_default_type_params = match resolution {
ScopeDef::ModuleDef(Adt(it)) => it.has_non_default_type_params(ctx.db),
ScopeDef::ModuleDef(TypeAlias(it)) => it.has_non_default_type_params(ctx.db),
_ => false,
};
if has_non_default_type_params {
mark::hit!(inserts_angle_brackets_for_generics);
completion_item = completion_item
.lookup_by(local_name.clone())
.label(format!("{}<…>", local_name))
.insert_snippet(cap, format!("{}<$0>", local_name));
}
}
}
completion_item.kind(kind).set_documentation(docs).add_to(self)
}
pub(crate) fn add_macro(
&mut self,
ctx: &CompletionContext,
name: Option<String>,
macro_: hir::MacroDef,
) {
// FIXME: Currently proc-macro do not have ast-node,
// such that it does not have source
if macro_.is_proc_macro() {
return;
}
let name = match name {
Some(it) => it,
None => return,
};
let ast_node = macro_.source(ctx.db).value;
let detail = macro_label(&ast_node);
let docs = macro_.docs(ctx.db);
let mut builder = CompletionItem::new(
CompletionKind::Reference,
ctx.source_range(),
&format!("{}!", name),
)
.kind(CompletionItemKind::Macro)
.set_documentation(docs.clone())
.set_deprecated(is_deprecated(macro_, ctx.db))
.detail(detail);
let needs_bang = ctx.use_item_syntax.is_none() && !ctx.is_macro_call;
builder = match ctx.config.snippet_cap {
Some(cap) if needs_bang => {
let docs = docs.as_ref().map_or("", |s| s.as_str());
let (bra, ket) = guess_macro_braces(&name, docs);
builder
.insert_snippet(cap, format!("{}!{}$0{}", name, bra, ket))
.label(format!("{}!{}…{}", name, bra, ket))
.lookup_by(format!("{}!", name))
}
None if needs_bang => builder.insert_text(format!("{}!", name)),
_ => {
mark::hit!(dont_insert_macro_call_parens_unncessary);
builder.insert_text(name)
}
};
self.add(builder);
}
pub(crate) fn add_function(
&mut self,
ctx: &CompletionContext,
func: hir::Function,
local_name: Option<String>,
) {
let has_self_param = func.has_self_param(ctx.db);
let name = local_name.unwrap_or_else(|| func.name(ctx.db).to_string());
let ast_node = func.source(ctx.db).value;
let mut builder =
CompletionItem::new(CompletionKind::Reference, ctx.source_range(), name.clone())
.kind(if has_self_param {
CompletionItemKind::Method
} else {
CompletionItemKind::Function
})
.set_documentation(func.docs(ctx.db))
.set_deprecated(is_deprecated(func, ctx.db))
.detail(function_declaration(&ast_node));
let params = ast_node
.param_list()
.into_iter()
.flat_map(|it| it.params())
.flat_map(|it| it.pat())
.map(|pat| pat.to_string().trim_start_matches('_').into())
.collect();
builder = builder.add_call_parens(ctx, name, Params::Named(params));
self.add(builder)
}
pub(crate) fn add_const(&mut self, ctx: &CompletionContext, constant: hir::Const) {
let ast_node = constant.source(ctx.db).value;
let name = match ast_node.name() {
Some(name) => name,
_ => return,
};
let detail = const_label(&ast_node);
CompletionItem::new(CompletionKind::Reference, ctx.source_range(), name.text().to_string())
.kind(CompletionItemKind::Const)
.set_documentation(constant.docs(ctx.db))
.set_deprecated(is_deprecated(constant, ctx.db))
.detail(detail)
.add_to(self);
}
pub(crate) fn add_type_alias(&mut self, ctx: &CompletionContext, type_alias: hir::TypeAlias) {
let type_def = type_alias.source(ctx.db).value;
let name = match type_def.name() {
Some(name) => name,
_ => return,
};
let detail = type_label(&type_def);
CompletionItem::new(CompletionKind::Reference, ctx.source_range(), name.text().to_string())
.kind(CompletionItemKind::TypeAlias)
.set_documentation(type_alias.docs(ctx.db))
.set_deprecated(is_deprecated(type_alias, ctx.db))
.detail(detail)
.add_to(self);
}
pub(crate) fn add_qualified_enum_variant(
&mut self,
ctx: &CompletionContext,
variant: hir::EnumVariant,
path: ModPath,
) {
self.add_enum_variant_impl(ctx, variant, None, Some(path))
}
pub(crate) fn add_enum_variant(
&mut self,
ctx: &CompletionContext,
variant: hir::EnumVariant,
local_name: Option<String>,
) {
self.add_enum_variant_impl(ctx, variant, local_name, None)
}
fn add_enum_variant_impl(
&mut self,
ctx: &CompletionContext,
variant: hir::EnumVariant,
local_name: Option<String>,
path: Option<ModPath>,
) {
let is_deprecated = is_deprecated(variant, ctx.db);
let name = local_name.unwrap_or_else(|| variant.name(ctx.db).to_string());
let qualified_name = match &path {
Some(it) => it.to_string(),
None => name.to_string(),
};
let detail_types = variant
.fields(ctx.db)
.into_iter()
.map(|field| (field.name(ctx.db), field.signature_ty(ctx.db)));
let variant_kind = variant.kind(ctx.db);
let detail = match variant_kind {
StructKind::Tuple | StructKind::Unit => detail_types
.map(|(_, t)| t.display(ctx.db).to_string())
.sep_by(", ")
.surround_with("(", ")")
.to_string(),
StructKind::Record => detail_types
.map(|(n, t)| format!("{}: {}", n, t.display(ctx.db).to_string()))
.sep_by(", ")
.surround_with("{ ", " }")
.to_string(),
};
let mut res = CompletionItem::new(
CompletionKind::Reference,
ctx.source_range(),
qualified_name.clone(),
)
.kind(CompletionItemKind::EnumVariant)
.set_documentation(variant.docs(ctx.db))
.set_deprecated(is_deprecated)
.detail(detail);
if path.is_some() {
res = res.lookup_by(name);
}
if variant_kind == StructKind::Tuple {
mark::hit!(inserts_parens_for_tuple_enums);
let params = Params::Anonymous(variant.fields(ctx.db).len());
res = res.add_call_parens(ctx, qualified_name, params)
}
res.add_to(self);
}
}
pub(crate) fn compute_score(
ctx: &CompletionContext,
ty: &Type,
name: &str,
) -> Option<CompletionScore> {
let (active_name, active_type) = if let Some(record_field) = &ctx.record_field_syntax {
mark::hit!(record_field_type_match);
let (struct_field, _local) = ctx.sema.resolve_record_field(record_field)?;
(struct_field.name(ctx.db).to_string(), struct_field.signature_ty(ctx.db))
} else if let Some(active_parameter) = &ctx.active_parameter {
mark::hit!(active_param_type_match);
(active_parameter.name.clone(), active_parameter.ty.clone())
} else {
return None;
};
// Compute score
// For the same type
if &active_type != ty {
return None;
}
let mut res = CompletionScore::TypeMatch;
// If same type + same name then go top position
if active_name == name {
res = CompletionScore::TypeAndNameMatch
}
Some(res)
}
enum Params {
Named(Vec<String>),
Anonymous(usize),
}
impl Params {
fn len(&self) -> usize {
match self {
Params::Named(xs) => xs.len(),
Params::Anonymous(len) => *len,
}
}
fn is_empty(&self) -> bool {
self.len() == 0
}
}
impl Builder {
fn add_call_parens(mut self, ctx: &CompletionContext, name: String, params: Params) -> Builder {
if !ctx.config.add_call_parenthesis {
return self;
}
if ctx.use_item_syntax.is_some() {
mark::hit!(no_parens_in_use_item);
return self;
}
if ctx.is_pattern_call {
mark::hit!(dont_duplicate_pattern_parens);
return self;
}
if ctx.is_call {
return self;
}
// Don't add parentheses if the expected type is some function reference.
if let Some(ty) = &ctx.expected_type {
if ty.is_fn() {
mark::hit!(no_call_parens_if_fn_ptr_needed);
return self;
}
}
let cap = match ctx.config.snippet_cap {
Some(it) => it,
None => return self,
};
// If not an import, add parenthesis automatically.
mark::hit!(inserts_parens_for_function_calls);
let (snippet, label) = if params.is_empty() {
(format!("{}()$0", name), format!("{}()", name))
} else {
self = self.trigger_call_info();
let snippet = match (ctx.config.add_call_argument_snippets, params) {
(true, Params::Named(params)) => {
let function_params_snippet = params
.iter()
.enumerate()
.map(|(index, param_name)| format!("${{{}:{}}}", index + 1, param_name))
.sep_by(", ");
format!("{}({})$0", name, function_params_snippet)
}
_ => {
mark::hit!(suppress_arg_snippets);
format!("{}($0)", name)
}
};
(snippet, format!("{}(…)", name))
};
self.lookup_by(name).label(label).insert_snippet(cap, snippet)
}
}
fn is_deprecated(node: impl HasAttrs, db: &RootDatabase) -> bool {
node.attrs(db).by_key("deprecated").exists()
}
fn guess_macro_braces(macro_name: &str, docs: &str) -> (&'static str, &'static str) {
let mut votes = [0, 0, 0];
for (idx, s) in docs.match_indices(¯o_name) {
let (before, after) = (&docs[..idx], &docs[idx + s.len()..]);
// Ensure to match the full word
if after.starts_with('!')
&& !before.ends_with(|c: char| c == '_' || c.is_ascii_alphanumeric())
{
// It may have spaces before the braces like `foo! {}`
match after[1..].chars().find(|&c| !c.is_whitespace()) {
Some('{') => votes[0] += 1,
Some('[') => votes[1] += 1,
Some('(') => votes[2] += 1,
_ => {}
}
}
}
// Insert a space before `{}`.
// We prefer the last one when some votes equal.
let (_vote, (bra, ket)) = votes
.iter()
.zip(&[(" {", "}"), ("[", "]"), ("(", ")")])
.max_by_key(|&(&vote, _)| vote)
.unwrap();
(*bra, *ket)
}
#[cfg(test)]
mod tests {
use std::cmp::Reverse;
use expect::{expect, Expect};
use test_utils::mark;
use crate::{
completion::{
test_utils::{
check_edit, check_edit_with_config, do_completion, get_all_completion_items,
},
CompletionConfig, CompletionKind,
},
CompletionScore,
};
fn check(ra_fixture: &str, expect: Expect) {
let actual = do_completion(ra_fixture, CompletionKind::Reference);
expect.assert_debug_eq(&actual);
}
fn check_scores(ra_fixture: &str, expect: Expect) {
fn display_score(score: Option<CompletionScore>) -> &'static str {
match score {
Some(CompletionScore::TypeMatch) => "[type]",
Some(CompletionScore::TypeAndNameMatch) => "[type+name]",
None => "[]".into(),
}
}
let mut completions = get_all_completion_items(CompletionConfig::default(), ra_fixture);
completions.sort_by_key(|it| (Reverse(it.score()), it.label().to_string()));
let actual = completions
.into_iter()
.filter(|it| it.completion_kind == CompletionKind::Reference)
.map(|it| {
let tag = it.kind().unwrap().tag();
let score = display_score(it.score());
format!("{} {} {}\n", tag, it.label(), score)
})
.collect::<String>();
expect.assert_eq(&actual);
}
#[test]
fn enum_detail_includes_record_fields() {
check(
r#"
enum Foo { Foo { x: i32, y: i32 } }
fn main() { Foo::Fo<|> }
"#,
expect![[r#"
[
CompletionItem {
label: "Foo",
source_range: 54..56,
delete: 54..56,
insert: "Foo",
kind: EnumVariant,
detail: "{ x: i32, y: i32 }",
},
]
"#]],
);
}
#[test]
fn enum_detail_doesnt_include_tuple_fields() {
check(
r#"
enum Foo { Foo (i32, i32) }
fn main() { Foo::Fo<|> }
"#,
expect![[r#"
[
CompletionItem {
label: "Foo(…)",
source_range: 46..48,
delete: 46..48,
insert: "Foo($0)",
kind: EnumVariant,
lookup: "Foo",
detail: "(i32, i32)",
trigger_call_info: true,
},
]
"#]],
);
}
#[test]
fn enum_detail_just_parentheses_for_unit() {
check(
r#"
enum Foo { Foo }
fn main() { Foo::Fo<|> }
"#,
expect![[r#"
[
CompletionItem {
label: "Foo",
source_range: 35..37,
delete: 35..37,
insert: "Foo",
kind: EnumVariant,
detail: "()",
},
]
"#]],
);
}
#[test]
fn sets_deprecated_flag_in_completion_items() {
check(
r#"
#[deprecated]
fn something_deprecated() {}
#[deprecated(since = "1.0.0")]
fn something_else_deprecated() {}
fn main() { som<|> }
"#,
expect![[r#"
[
CompletionItem {
label: "main()",
source_range: 121..124,
delete: 121..124,
insert: "main()$0",
kind: Function,
lookup: "main",
detail: "fn main()",
},
CompletionItem {
label: "something_deprecated()",
source_range: 121..124,
delete: 121..124,
insert: "something_deprecated()$0",
kind: Function,
lookup: "something_deprecated",
detail: "fn something_deprecated()",
deprecated: true,
},
CompletionItem {
label: "something_else_deprecated()",
source_range: 121..124,
delete: 121..124,
insert: "something_else_deprecated()$0",
kind: Function,
lookup: "something_else_deprecated",
detail: "fn something_else_deprecated()",
deprecated: true,
},
]
"#]],
);
check(
r#"
struct A { #[deprecated] the_field: u32 }
fn foo() { A { the<|> } }
"#,
expect![[r#"
[
CompletionItem {
label: "the_field",
source_range: 57..60,
delete: 57..60,
insert: "the_field",
kind: Field,
detail: "u32",
deprecated: true,
},
]
"#]],
);
}
#[test]
fn renders_docs() {
check(
r#"
struct S {
/// Field docs
foo:
}
impl S {
/// Method docs
fn bar(self) { self.<|> }
}"#,
expect![[r#"
[
CompletionItem {
label: "bar()",
source_range: 94..94,
delete: 94..94,
insert: "bar()$0",
kind: Method,
lookup: "bar",
detail: "fn bar(self)",
documentation: Documentation(
"Method docs",
),
},
CompletionItem {
label: "foo",
source_range: 94..94,
delete: 94..94,
insert: "foo",
kind: Field,
detail: "{unknown}",
documentation: Documentation(
"Field docs",
),
},
]
"#]],
);
check(
r#"
use self::my<|>;
/// mod docs
mod my { }
/// enum docs
enum E {
/// variant docs
V
}
use self::E::*;
"#,
expect![[r#"
[
CompletionItem {
label: "E",
source_range: 10..12,
delete: 10..12,
insert: "E",
kind: Enum,
documentation: Documentation(
"enum docs",
),
},
CompletionItem {
label: "V",
source_range: 10..12,
delete: 10..12,
insert: "V",
kind: EnumVariant,
detail: "()",
documentation: Documentation(
"variant docs",
),
},
CompletionItem {
label: "my",
source_range: 10..12,
delete: 10..12,
insert: "my",
kind: Module,
documentation: Documentation(
"mod docs",
),
},
]
"#]],
)
}
#[test]
fn dont_render_attrs() {
check(
r#"
struct S;
impl S {
#[inline]
fn the_method(&self) { }
}
fn foo(s: S) { s.<|> }
"#,
expect![[r#"
[
CompletionItem {
label: "the_method()",
source_range: 81..81,
delete: 81..81,
insert: "the_method()$0",
kind: Method,
lookup: "the_method",
detail: "fn the_method(&self)",
},
]
"#]],
)
}
#[test]
fn inserts_parens_for_function_calls() {
mark::check!(inserts_parens_for_function_calls);
check_edit(
"no_args",
r#"
fn no_args() {}
fn main() { no_<|> }
"#,
r#"
fn no_args() {}
fn main() { no_args()$0 }
"#,
);
check_edit(
"with_args",
r#"
fn with_args(x: i32, y: String) {}
fn main() { with_<|> }
"#,
r#"
fn with_args(x: i32, y: String) {}
fn main() { with_args(${1:x}, ${2:y})$0 }
"#,
);
check_edit(
"foo",
r#"
struct S;
impl S {
fn foo(&self) {}
}
fn bar(s: &S) { s.f<|> }
"#,
r#"
struct S;
impl S {
fn foo(&self) {}
}
fn bar(s: &S) { s.foo()$0 }
"#,
);
check_edit(
"foo",
r#"
struct S {}
impl S {
fn foo(&self, x: i32) {}
}
fn bar(s: &S) {
s.f<|>
}
"#,
r#"
struct S {}
impl S {
fn foo(&self, x: i32) {}
}
fn bar(s: &S) {
s.foo(${1:x})$0
}
"#,
);
}
#[test]
fn suppress_arg_snippets() {
mark::check!(suppress_arg_snippets);
check_edit_with_config(
CompletionConfig { add_call_argument_snippets: false, ..CompletionConfig::default() },
"with_args",
r#"
fn with_args(x: i32, y: String) {}
fn main() { with_<|> }
"#,
r#"
fn with_args(x: i32, y: String) {}
fn main() { with_args($0) }
"#,
);
}
#[test]
fn strips_underscores_from_args() {
check_edit(
"foo",
r#"
fn foo(_foo: i32, ___bar: bool, ho_ge_: String) {}
fn main() { f<|> }
"#,
r#"
fn foo(_foo: i32, ___bar: bool, ho_ge_: String) {}
fn main() { foo(${1:foo}, ${2:bar}, ${3:ho_ge_})$0 }
"#,
);
}
#[test]
fn inserts_parens_for_tuple_enums() {
mark::check!(inserts_parens_for_tuple_enums);
check_edit(
"Some",
r#"
enum Option<T> { Some(T), None }
use Option::*;
fn main() -> Option<i32> {
Som<|>
}
"#,
r#"
enum Option<T> { Some(T), None }
use Option::*;
fn main() -> Option<i32> {
Some($0)
}
"#,
);
check_edit(
"Some",
r#"
enum Option<T> { Some(T), None }
use Option::*;
fn main(value: Option<i32>) {
match value {
Som<|>
}
}
"#,
r#"
enum Option<T> { Some(T), None }
use Option::*;
fn main(value: Option<i32>) {
match value {
Some($0)
}
}
"#,
);
}
#[test]
fn dont_duplicate_pattern_parens() {
mark::check!(dont_duplicate_pattern_parens);
check_edit(
"Var",
r#"
enum E { Var(i32) }
fn main() {
match E::Var(92) {
E::<|>(92) => (),
}
}
"#,
r#"
enum E { Var(i32) }
fn main() {
match E::Var(92) {
E::Var(92) => (),
}
}
"#,
);
}
#[test]
fn no_call_parens_if_fn_ptr_needed() {
mark::check!(no_call_parens_if_fn_ptr_needed);
check_edit(
"foo",
r#"
fn foo(foo: u8, bar: u8) {}
struct ManualVtable { f: fn(u8, u8) }
fn main() -> ManualVtable {
ManualVtable { f: f<|> }
}
"#,
r#"
fn foo(foo: u8, bar: u8) {}
struct ManualVtable { f: fn(u8, u8) }
fn main() -> ManualVtable {
ManualVtable { f: foo }
}
"#,
);
}
#[test]
fn no_parens_in_use_item() {
mark::check!(no_parens_in_use_item);
check_edit(
"foo",
r#"
mod m { pub fn foo() {} }
use crate::m::f<|>;
"#,
r#"
mod m { pub fn foo() {} }
use crate::m::foo;
"#,
);
}
#[test]
fn no_parens_in_call() {
check_edit(
"foo",
r#"
fn foo(x: i32) {}
fn main() { f<|>(); }
"#,
r#"
fn foo(x: i32) {}
fn main() { foo(); }
"#,
);
check_edit(
"foo",
r#"
struct Foo;
impl Foo { fn foo(&self){} }
fn f(foo: &Foo) { foo.f<|>(); }
"#,
r#"
struct Foo;
impl Foo { fn foo(&self){} }
fn f(foo: &Foo) { foo.foo(); }
"#,
);
}
#[test]
fn inserts_angle_brackets_for_generics() {
mark::check!(inserts_angle_brackets_for_generics);
check_edit(
"Vec",
r#"
struct Vec<T> {}
fn foo(xs: Ve<|>)
"#,
r#"
struct Vec<T> {}
fn foo(xs: Vec<$0>)
"#,
);
check_edit(
"Vec",
r#"
type Vec<T> = (T,);
fn foo(xs: Ve<|>)
"#,
r#"
type Vec<T> = (T,);
fn foo(xs: Vec<$0>)
"#,
);
check_edit(
"Vec",
r#"
struct Vec<T = i128> {}
fn foo(xs: Ve<|>)
"#,
r#"
struct Vec<T = i128> {}
fn foo(xs: Vec)
"#,
);
check_edit(
"Vec",
r#"
struct Vec<T> {}
fn foo(xs: Ve<|><i128>)
"#,
r#"
struct Vec<T> {}
fn foo(xs: Vec<i128>)
"#,
);
}
#[test]
fn dont_insert_macro_call_parens_unncessary() {
mark::check!(dont_insert_macro_call_parens_unncessary);
check_edit(
"frobnicate!",
r#"
//- /main.rs
use foo::<|>;
//- /foo/lib.rs
#[macro_export]
macro_rules frobnicate { () => () }
"#,
r#"
use foo::frobnicate;
"#,
);
check_edit(
"frobnicate!",
r#"
macro_rules frobnicate { () => () }
fn main() { frob<|>!(); }
"#,
r#"
macro_rules frobnicate { () => () }
fn main() { frobnicate!(); }
"#,
);
}
#[test]
fn active_param_score() {
mark::check!(active_param_type_match);
check_scores(
r#"
struct S { foo: i64, bar: u32, baz: u32 }
fn test(bar: u32) { }
fn foo(s: S) { test(s.<|>) }
"#,
expect![[r#"
fd bar [type+name]
fd baz [type]
fd foo []
"#]],
);
}
#[test]
fn record_field_scores() {
mark::check!(record_field_type_match);
check_scores(
r#"
struct A { foo: i64, bar: u32, baz: u32 }
struct B { x: (), y: f32, bar: u32 }
fn foo(a: A) { B { bar: a.<|> }; }
"#,
expect![[r#"
fd bar [type+name]
fd baz [type]
fd foo []
"#]],
)
}
#[test]
fn record_field_and_call_scores() {
check_scores(
r#"
struct A { foo: i64, bar: u32, baz: u32 }
struct B { x: (), y: f32, bar: u32 }
fn f(foo: i64) { }
fn foo(a: A) { B { bar: f(a.<|>) }; }
"#,
expect![[r#"
fd foo [type+name]
fd bar []
fd baz []
"#]],
);
check_scores(
r#"
struct A { foo: i64, bar: u32, baz: u32 }
struct B { x: (), y: f32, bar: u32 }
fn f(foo: i64) { }
fn foo(a: A) { f(B { bar: a.<|> }); }
"#,
expect![[r#"
fd bar [type+name]
fd baz [type]
fd foo []
"#]],
);
}
#[test]
fn prioritize_exact_ref_match() {
check_scores(
r#"
struct WorldSnapshot { _f: () };
fn go(world: &WorldSnapshot) { go(w<|>) }
"#,
expect![[r#"
bn world [type+name]
st WorldSnapshot []
fn go(…) []
"#]],
);
}
#[test]
fn too_many_arguments() {
mark::check!(too_many_arguments);
check_scores(
r#"
struct Foo;
fn f(foo: &Foo) { f(foo, w<|>) }
"#,
expect![[r#"
st Foo []
fn f(…) []
bn foo []
"#]],
);
}
#[test]
fn guesses_macro_braces() {
check_edit(
"vec!",
r#"
/// Creates a [`Vec`] containing the arguments.
///
/// ```
/// let v = vec![1, 2, 3];
/// assert_eq!(v[0], 1);
/// assert_eq!(v[1], 2);
/// assert_eq!(v[2], 3);
/// ```
macro_rules! vec { () => {} }
fn fn main() { v<|> }
"#,
r#"
/// Creates a [`Vec`] containing the arguments.
///
/// ```
/// let v = vec![1, 2, 3];
/// assert_eq!(v[0], 1);
/// assert_eq!(v[1], 2);
/// assert_eq!(v[2], 3);
/// ```
macro_rules! vec { () => {} }
fn fn main() { vec![$0] }
"#,
);
check_edit(
"foo!",
r#"
/// Foo
///
/// Don't call `fooo!()` `fooo!()`, or `_foo![]` `_foo![]`,
/// call as `let _=foo! { hello world };`
macro_rules! foo { () => {} }
fn main() { <|> }
"#,
r#"
/// Foo
///
/// Don't call `fooo!()` `fooo!()`, or `_foo![]` `_foo![]`,
/// call as `let _=foo! { hello world };`
macro_rules! foo { () => {} }
fn main() { foo! {$0} }
"#,
)
}
}