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[ty] Function argument inlay hints (#19269)
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This commit is contained in:
Matthew Mckee 2025-08-12 14:56:54 +01:00 committed by GitHub
parent 3458f365da
commit ad28b80f96
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GPG key ID: B5690EEEBB952194
6 changed files with 692 additions and 67 deletions
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594
crates/ty_ide/src/inlay_hints.rs
View file

@ -6,7 +6,7 @@ use ruff_python_ast::{AnyNodeRef, Expr, Stmt};
use ruff_text_size::{Ranged, TextRange, TextSize};
use std::fmt;
use std::fmt::Formatter;
use ty_python_semantic::types::Type;
use ty_python_semantic::types::{Type, inlay_hint_function_argument_details};
use ty_python_semantic::{HasType, SemanticModel};
#[derive(Debug, Clone, Eq, PartialEq)]
@ -24,7 +24,7 @@ impl<'db> InlayHint<'db> {
#[derive(Debug, Clone, Eq, PartialEq)]
pub enum InlayHintContent<'db> {
Type(Type<'db>),
ReturnType(Type<'db>),
FunctionArgumentName(String),
}
impl<'db> InlayHintContent<'db> {
@ -44,8 +44,8 @@ impl fmt::Display for DisplayInlayHint<'_, '_> {
InlayHintContent::Type(ty) => {
write!(f, ": {}", ty.display(self.db))
}
InlayHintContent::ReturnType(ty) => {
write!(f, " -> {}", ty.display(self.db))
InlayHintContent::FunctionArgumentName(name) => {
write!(f, "{name}=")
}
}
}
@ -76,9 +76,18 @@ pub struct InlayHintSettings {
/// x": Literal[1]" = 1
/// ```
pub variable_types: bool,
/// Whether to show function argument names.
///
/// For example, this would enable / disable hints like the ones quoted below:
/// ```python
/// def foo(x: int): pass
/// foo("x="1)
/// ```
pub function_argument_names: bool,
}
struct InlayHintVisitor<'a, 'db> {
db: &'db dyn Db,
model: SemanticModel<'db>,
hints: Vec<InlayHint<'db>>,
in_assignment: bool,
@ -89,6 +98,7 @@ struct InlayHintVisitor<'a, 'db> {
impl<'a, 'db> InlayHintVisitor<'a, 'db> {
fn new(db: &'db dyn Db, file: File, range: TextRange, settings: &'a InlayHintSettings) -> Self {
Self {
db,
model: SemanticModel::new(db, file),
hints: Vec::new(),
in_assignment: false,
@ -98,11 +108,29 @@ impl<'a, 'db> InlayHintVisitor<'a, 'db> {
}
fn add_type_hint(&mut self, position: TextSize, ty: Type<'db>) {
if !self.settings.variable_types {
return;
}
self.hints.push(InlayHint {
position,
content: InlayHintContent::Type(ty),
});
}
fn add_function_argument_name(&mut self, position: TextSize, name: String) {
if !self.settings.function_argument_names {
return;
}
if name.starts_with('_') {
return;
}
self.hints.push(InlayHint {
position,
content: InlayHintContent::FunctionArgumentName(name),
});
}
}
impl SourceOrderVisitor<'_> for InlayHintVisitor<'_, '_> {
@ -123,25 +151,23 @@ impl SourceOrderVisitor<'_> for InlayHintVisitor<'_, '_> {
match stmt {
Stmt::Assign(assign) => {
if !self.settings.variable_types {
return;
}
self.in_assignment = true;
for target in &assign.targets {
self.visit_expr(target);
}
self.in_assignment = false;
self.visit_expr(&assign.value);
return;
}
Stmt::Expr(expr) => {
self.visit_expr(&expr.value);
return;
}
// TODO
Stmt::FunctionDef(_) => {}
Stmt::For(_) => {}
Stmt::Expr(_) => {
// Don't traverse into expression statements because we don't show any hints.
return;
}
_ => {}
}
@ -149,17 +175,34 @@ impl SourceOrderVisitor<'_> for InlayHintVisitor<'_, '_> {
}
fn visit_expr(&mut self, expr: &'_ Expr) {
if !self.in_assignment {
return;
}
match expr {
Expr::Name(name) => {
if self.in_assignment {
if name.ctx.is_store() {
let ty = expr.inferred_type(&self.model);
self.add_type_hint(expr.range().end(), ty);
}
}
source_order::walk_expr(self, expr);
}
Expr::Call(call) => {
let argument_names =
inlay_hint_function_argument_details(self.db, &self.model, call)
.map(|details| details.argument_names)
.unwrap_or_default();
self.visit_expr(&call.func);
for (index, arg_or_keyword) in call.arguments.arguments_source_order().enumerate() {
if let Some(name) = argument_names.get(&index) {
self.add_function_argument_name(
arg_or_keyword.range().start(),
name.to_string(),
);
}
self.visit_expr(arg_or_keyword.value());
}
}
_ => {
source_order::walk_expr(self, expr);
}
@ -177,6 +220,7 @@ mod tests {
files::{File, system_path_to_file},
source::source_text,
};
use ruff_python_trivia::textwrap::dedent;
use ruff_text_size::TextSize;
use ruff_db::system::{DbWithWritableSystem, SystemPathBuf};
@ -194,6 +238,8 @@ mod tests {
SystemPathBuf::from("/"),
));
let source = dedent(source);
let start = source.find(START);
let end = source
.find(END)
@ -245,6 +291,7 @@ mod tests {
fn inlay_hints(&self) -> String {
self.inlay_hints_with_settings(&InlayHintSettings {
variable_types: true,
function_argument_names: true,
})
}
@ -314,16 +361,529 @@ mod tests {
}
#[test]
fn disabled_variable_types() {
fn test_disabled_variable_types() {
let test = inlay_hint_test("x = 1");
assert_snapshot!(
test.inlay_hints_with_settings(&InlayHintSettings {
variable_types: false,
..Default::default()
}),
@r"
x = 1
"
);
}
#[test]
fn test_function_call_with_positional_or_keyword_parameter() {
let test = inlay_hint_test(
"
def foo(x: int): pass
foo(1)",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(x: int): pass
foo([x=]1)
");
}
#[test]
fn test_function_call_with_positional_only_parameter() {
let test = inlay_hint_test(
"
def foo(x: int, /): pass
foo(1)",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(x: int, /): pass
foo(1)
");
}
#[test]
fn test_function_call_with_variadic_parameter() {
let test = inlay_hint_test(
"
def foo(*args: int): pass
foo(1)",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(*args: int): pass
foo(1)
");
}
#[test]
fn test_function_call_with_keyword_variadic_parameter() {
let test = inlay_hint_test(
"
def foo(**kwargs: int): pass
foo(x=1)",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(**kwargs: int): pass
foo(x=1)
");
}
#[test]
fn test_function_call_with_keyword_only_parameter() {
let test = inlay_hint_test(
"
def foo(*, x: int): pass
foo(x=1)",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(*, x: int): pass
foo(x=1)
");
}
#[test]
fn test_function_call_positional_only_and_positional_or_keyword_parameters() {
let test = inlay_hint_test(
"
def foo(x: int, /, y: int): pass
foo(1, 2)",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(x: int, /, y: int): pass
foo(1, [y=]2)
");
}
#[test]
fn test_function_call_positional_only_and_variadic_parameters() {
let test = inlay_hint_test(
"
def foo(x: int, /, *args: int): pass
foo(1, 2, 3)",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(x: int, /, *args: int): pass
foo(1, 2, 3)
");
}
#[test]
fn test_function_call_positional_only_and_keyword_variadic_parameters() {
let test = inlay_hint_test(
"
def foo(x: int, /, **kwargs: int): pass
foo(1, x=2)",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(x: int, /, **kwargs: int): pass
foo(1, x=2)
");
}
#[test]
fn test_class_constructor_call_init() {
let test = inlay_hint_test(
"
class Foo:
def __init__(self, x: int): pass
Foo(1)
f = Foo(1)",
);
assert_snapshot!(test.inlay_hints(), @r"
class Foo:
def __init__(self, x: int): pass
Foo([x=]1)
f[: Foo] = Foo([x=]1)
");
}
#[test]
fn test_class_constructor_call_new() {
let test = inlay_hint_test(
"
class Foo:
def __new__(cls, x: int): pass
Foo(1)
f = Foo(1)",
);
assert_snapshot!(test.inlay_hints(), @r"
class Foo:
def __new__(cls, x: int): pass
Foo([x=]1)
f[: Foo] = Foo([x=]1)
");
}
#[test]
fn test_class_constructor_call_meta_class_call() {
let test = inlay_hint_test(
"
class MetaFoo:
def __call__(self, x: int): pass
class Foo(metaclass=MetaFoo):
pass
Foo(1)",
);
assert_snapshot!(test.inlay_hints(), @r"
class MetaFoo:
def __call__(self, x: int): pass
class Foo(metaclass=MetaFoo):
pass
Foo([x=]1)
");
}
#[test]
fn test_callable_call() {
let test = inlay_hint_test(
"
from typing import Callable
def foo(x: Callable[[int], int]):
x(1)",
);
assert_snapshot!(test.inlay_hints(), @r"
from typing import Callable
def foo(x: Callable[[int], int]):
x(1)
");
}
#[test]
fn test_instance_method_call() {
let test = inlay_hint_test(
"
class Foo:
def bar(self, y: int): pass
Foo().bar(2)",
);
assert_snapshot!(test.inlay_hints(), @r"
class Foo:
def bar(self, y: int): pass
Foo().bar([y=]2)
");
}
#[test]
fn test_class_method_call() {
let test = inlay_hint_test(
"
class Foo:
@classmethod
def bar(cls, y: int): pass
Foo.bar(2)",
);
assert_snapshot!(test.inlay_hints(), @r"
class Foo:
@classmethod
def bar(cls, y: int): pass
Foo.bar([y=]2)
");
}
#[test]
fn test_static_method_call() {
let test = inlay_hint_test(
"
class Foo:
@staticmethod
def bar(y: int): pass
Foo.bar(2)",
);
assert_snapshot!(test.inlay_hints(), @r"
class Foo:
@staticmethod
def bar(y: int): pass
Foo.bar([y=]2)
");
}
#[test]
fn test_function_call_with_union_type() {
let test = inlay_hint_test(
"
def foo(x: int | str): pass
foo(1)
foo('abc')",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(x: int | str): pass
foo([x=]1)
foo([x=]'abc')
");
}
#[test]
fn test_function_call_multiple_positional_arguments() {
let test = inlay_hint_test(
"
def foo(x: int, y: str, z: bool): pass
foo(1, 'hello', True)",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(x: int, y: str, z: bool): pass
foo([x=]1, [y=]'hello', [z=]True)
");
}
#[test]
fn test_function_call_mixed_positional_and_keyword() {
let test = inlay_hint_test(
"
def foo(x: int, y: str, z: bool): pass
foo(1, z=True, y='hello')",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(x: int, y: str, z: bool): pass
foo([x=]1, z=True, y='hello')
");
}
#[test]
fn test_function_call_with_default_parameters() {
let test = inlay_hint_test(
"
def foo(x: int, y: str = 'default', z: bool = False): pass
foo(1)
foo(1, 'custom')
foo(1, 'custom', True)",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(x: int, y: str = 'default', z: bool = False): pass
foo([x=]1)
foo([x=]1, [y=]'custom')
foo([x=]1, [y=]'custom', [z=]True)
");
}
#[test]
fn test_nested_function_calls() {
let test = inlay_hint_test(
"
def foo(x: int) -> int:
return x * 2
def bar(y: str) -> str:
return y
def baz(a: int, b: str, c: bool): pass
baz(foo(5), bar(bar('test')), True)",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(x: int) -> int:
return x * 2
def bar(y: str) -> str:
return y
def baz(a: int, b: str, c: bool): pass
baz([a=]foo([x=]5), [b=]bar([y=]bar([y=]'test')), [c=]True)
");
}
#[test]
fn test_method_chaining() {
let test = inlay_hint_test(
"
class A:
def foo(self, value: int) -> 'A':
return self
def bar(self, name: str) -> 'A':
return self
def baz(self): pass
A().foo(42).bar('test').baz()",
);
assert_snapshot!(test.inlay_hints(), @r"
class A:
def foo(self, value: int) -> 'A':
return self
def bar(self, name: str) -> 'A':
return self
def baz(self): pass
A().foo([value=]42).bar([name=]'test').baz()
");
}
#[test]
fn test_nexted_keyword_function_calls() {
let test = inlay_hint_test(
"
def foo(x: str) -> str:
return x
def bar(y: int): pass
bar(y=foo('test'))
",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(x: str) -> str:
return x
def bar(y: int): pass
bar(y=foo([x=]'test'))
");
}
#[test]
fn test_lambda_function_calls() {
let test = inlay_hint_test(
"
foo = lambda x: x * 2
bar = lambda a, b: a + b
foo(5)
bar(1, 2)",
);
assert_snapshot!(test.inlay_hints(), @r"
foo[: (x) -> Unknown] = lambda x: x * 2
bar[: (a, b) -> Unknown] = lambda a, b: a + b
foo([x=]5)
bar([a=]1, [b=]2)
");
}
#[test]
fn test_complex_parameter_combinations() {
let test = inlay_hint_test(
"
def foo(a: int, b: str, /, c: float, d: bool = True, *, e: int, f: str = 'default'): pass
foo(1, 'pos', 3.14, False, e=42)
foo(1, 'pos', 3.14, e=42, f='custom')",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(a: int, b: str, /, c: float, d: bool = True, *, e: int, f: str = 'default'): pass
foo(1, 'pos', [c=]3.14, [d=]False, e=42)
foo(1, 'pos', [c=]3.14, e=42, f='custom')
");
}
#[test]
fn test_generic_function_calls() {
let test = inlay_hint_test(
"
from typing import TypeVar, Generic
T = TypeVar('T')
def identity(x: T) -> T:
return x
identity(42)
identity('hello')",
);
assert_snapshot!(test.inlay_hints(), @r#"
from typing import TypeVar, Generic
T[: typing.TypeVar("T")] = TypeVar([name=]'T')
def identity(x: T) -> T:
return x
identity([x=]42)
identity([x=]'hello')
"#);
}
#[test]
fn test_overloaded_function_calls() {
let test = inlay_hint_test(
"
from typing import overload
@overload
def foo(x: int) -> str: ...
@overload
def foo(x: str) -> int: ...
def foo(x):
return x
foo(42)
foo('hello')",
);
assert_snapshot!(test.inlay_hints(), @r"
from typing import overload
@overload
def foo(x: int) -> str: ...
@overload
def foo(x: str) -> int: ...
def foo(x):
return x
foo([x=]42)
foo([x=]'hello')
");
}
#[test]
fn test_disabled_function_argument_names() {
let test = inlay_hint_test(
"
def foo(x: int): pass
foo(1)",
);
assert_snapshot!(test.inlay_hints_with_settings(&InlayHintSettings {
function_argument_names: false,
..Default::default()
}), @r"
def foo(x: int): pass
foo(1)
");
}
#[test]
fn test_function_call_out_of_range() {
let test = inlay_hint_test(
"
<START>def foo(x: int): pass
def bar(y: int): pass
foo(1)<END>
bar(2)",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(x: int): pass
def bar(y: int): pass
foo([x=]1)
bar(2)
");
}
#[test]
fn test_function_call_with_argument_name_starting_with_underscore() {
let test = inlay_hint_test(
"
def foo(_x: int, y: int): pass
foo(1, 2)",
);
assert_snapshot!(test.inlay_hints(), @r"
def foo(_x: int, y: int): pass
foo(1, [y=]2)
");
}
}

48
crates/ty_ide/src/signature_help.rs
View file

@ -14,8 +14,11 @@ use ruff_db::parsed::parsed_module;
use ruff_python_ast::{self as ast, AnyNodeRef};
use ruff_text_size::{Ranged, TextRange, TextSize};
use ty_python_semantic::ResolvedDefinition;
use ty_python_semantic::SemanticModel;
use ty_python_semantic::semantic_index::definition::Definition;
use ty_python_semantic::types::{CallSignatureDetails, call_signature_details};
use ty_python_semantic::types::{
CallSignatureDetails, call_signature_details, find_active_signature_from_details,
};
// TODO: We may want to add special-case handling for calls to constructors
// so the class docstring is used in place of (or inaddition to) any docstring
@ -66,9 +69,11 @@ pub fn signature_help(db: &dyn Db, file: File, offset: TextSize) -> Option<Signa
// Get the call expression at the given position.
let (call_expr, current_arg_index) = get_call_expr(&parsed, offset)?;
let model = SemanticModel::new(db, file);
// Get signature details from the semantic analyzer.
let signature_details: Vec<CallSignatureDetails<'_>> =
call_signature_details(db, file, call_expr);
call_signature_details(db, &model, call_expr);
if signature_details.is_empty() {
return None;
@ -258,45 +263,6 @@ fn create_parameters_from_offsets(
.collect()
}
/// Find the active signature index from `CallSignatureDetails`.
/// The active signature is the first signature where all arguments present in the call
/// have valid mappings to parameters (i.e., none of the mappings are None).
fn find_active_signature_from_details(signature_details: &[CallSignatureDetails]) -> Option<usize> {
let first = signature_details.first()?;
// If there are no arguments in the mapping, just return the first signature.
if first.argument_to_parameter_mapping.is_empty() {
return Some(0);
}
// First, try to find a signature where all arguments have valid parameter mappings.
let perfect_match = signature_details.iter().position(|details| {
// Check if all arguments have valid parameter mappings.
details
.argument_to_parameter_mapping
.iter()
.all(|mapping| mapping.matched)
});
if let Some(index) = perfect_match {
return Some(index);
}
// If no perfect match, find the signature with the most valid argument mappings.
let (best_index, _) = signature_details
.iter()
.enumerate()
.max_by_key(|(_, details)| {
details
.argument_to_parameter_mapping
.iter()
.filter(|mapping| mapping.matched)
.count()
})?;
Some(best_index)
}
#[cfg(test)]
mod tests {
use crate::signature_help::SignatureHelpInfo;

2
crates/ty_python_semantic/src/types.rs
View file

@ -53,7 +53,7 @@ use crate::types::generics::{
pub use crate::types::ide_support::{
CallSignatureDetails, Member, all_members, call_signature_details, definition_kind_for_name,
definitions_for_attribute, definitions_for_imported_symbol, definitions_for_keyword_argument,
definitions_for_name,
definitions_for_name, find_active_signature_from_details, inlay_hint_function_argument_details,
};
use crate::types::infer::infer_unpack_types;
use crate::types::mro::{Mro, MroError, MroIterator};

106
crates/ty_python_semantic/src/types/ide_support.rs
View file

@ -1,4 +1,5 @@
use std::cmp::Ordering;
use std::collections::HashMap;
use crate::place::{
Place, builtins_module_scope, imported_symbol, place_from_bindings, place_from_declarations,
@ -15,8 +16,8 @@ use crate::types::{ClassBase, ClassLiteral, DynamicType, KnownClass, KnownInstan
use crate::{Db, HasType, NameKind, SemanticModel};
use ruff_db::files::{File, FileRange};
use ruff_db::parsed::parsed_module;
use ruff_python_ast as ast;
use ruff_python_ast::name::Name;
use ruff_python_ast::{self as ast};
use ruff_text_size::{Ranged, TextRange};
use rustc_hash::FxHashSet;
@ -805,17 +806,16 @@ pub struct CallSignatureDetails<'db> {
/// (in case of overloads or union types).
pub fn call_signature_details<'db>(
db: &'db dyn Db,
file: File,
model: &SemanticModel<'db>,
call_expr: &ast::ExprCall,
) -> Vec<CallSignatureDetails<'db>> {
let model = SemanticModel::new(db, file);
let func_type = call_expr.func.inferred_type(&model);
let func_type = call_expr.func.inferred_type(model);
// Use into_callable to handle all the complex type conversions
if let Some(callable_type) = func_type.into_callable(db) {
let call_arguments =
CallArguments::from_arguments(db, &call_expr.arguments, |_, splatted_value| {
splatted_value.inferred_type(&model)
splatted_value.inferred_type(model)
});
let bindings = callable_type.bindings(db).match_parameters(&call_arguments);
@ -845,6 +845,102 @@ pub fn call_signature_details<'db>(
}
}
/// Find the active signature index from `CallSignatureDetails`.
/// The active signature is the first signature where all arguments present in the call
/// have valid mappings to parameters (i.e., none of the mappings are None).
pub fn find_active_signature_from_details(
signature_details: &[CallSignatureDetails],
) -> Option<usize> {
let first = signature_details.first()?;
// If there are no arguments in the mapping, just return the first signature.
if first.argument_to_parameter_mapping.is_empty() {
return Some(0);
}
// First, try to find a signature where all arguments have valid parameter mappings.
let perfect_match = signature_details.iter().position(|details| {
// Check if all arguments have valid parameter mappings.
details
.argument_to_parameter_mapping
.iter()
.all(|mapping| mapping.matched)
});
if let Some(index) = perfect_match {
return Some(index);
}
// If no perfect match, find the signature with the most valid argument mappings.
let (best_index, _) = signature_details
.iter()
.enumerate()
.max_by_key(|(_, details)| {
details
.argument_to_parameter_mapping
.iter()
.filter(|mapping| mapping.matched)
.count()
})?;
Some(best_index)
}
#[derive(Default)]
pub struct InlayHintFunctionArgumentDetails {
pub argument_names: HashMap<usize, String>,
}
pub fn inlay_hint_function_argument_details<'db>(
db: &'db dyn Db,
model: &SemanticModel<'db>,
call_expr: &ast::ExprCall,
) -> Option<InlayHintFunctionArgumentDetails> {
let signature_details = call_signature_details(db, model, call_expr);
if signature_details.is_empty() {
return None;
}
let active_signature_index = find_active_signature_from_details(&signature_details)?;
let call_signature_details = signature_details.get(active_signature_index)?;
let parameters = call_signature_details.signature.parameters();
let mut argument_names = HashMap::new();
for arg_index in 0..call_expr.arguments.args.len() {
let Some(arg_mapping) = call_signature_details
.argument_to_parameter_mapping
.get(arg_index)
else {
continue;
};
if !arg_mapping.matched {
continue;
}
let Some(param_index) = arg_mapping.parameters.first() else {
continue;
};
let Some(param) = parameters.get(*param_index) else {
continue;
};
// Only add hints for parameters that can be specified by name
if !param.is_positional_only() && !param.is_variadic() && !param.is_keyword_variadic() {
let Some(name) = param.name() else {
continue;
};
argument_names.insert(arg_index, name.to_string());
}
}
Some(InlayHintFunctionArgumentDetails { argument_names })
}
/// Find the text range of a specific parameter in function parameters by name.
/// Only searches for parameters that can be addressed by name in keyword arguments.
fn find_parameter_range(parameters: &ast::Parameters, parameter_name: &str) -> Option<TextRange> {

2
crates/ty_server/src/session/options.rs
View file

@ -237,12 +237,14 @@ impl WorkspaceOptions {
#[serde(rename_all = "camelCase")]
struct InlayHintOptions {
variable_types: Option<bool>,
function_argument_names: Option<bool>,
}
impl InlayHintOptions {
fn into_settings(self) -> InlayHintSettings {
InlayHintSettings {
variable_types: self.variable_types.unwrap_or_default(),
function_argument_names: self.function_argument_names.unwrap_or_default(),
}
}
}

1
crates/ty_wasm/src/lib.rs
View file

@ -438,6 +438,7 @@ impl Workspace {
// TODO: Provide a way to configure this
&InlayHintSettings {
variable_types: true,
function_argument_names: true,
},
);