use hir::{InFile, ModuleDef}; use ide_db::{ helpers::mod_path_to_ast, imports::import_assets::NameToImport, items_locator, syntax_helpers::insert_whitespace_into_node::insert_ws_into, }; use itertools::Itertools; use syntax::{ ast::{self, AstNode, HasName}, SyntaxKind::WHITESPACE, }; use crate::{ assist_context::{AssistContext, Assists, SourceChangeBuilder}, utils::{ add_trait_assoc_items_to_impl, filter_assoc_items, gen_trait_fn_body, generate_trait_impl_text, render_snippet, Cursor, DefaultMethods, }, AssistId, AssistKind, }; // Assist: replace_derive_with_manual_impl // // Converts a `derive` impl into a manual one. // // ``` // # //- minicore: derive // # trait Debug { fn fmt(&self, f: &mut Formatter) -> Result<()>; } // #[derive(Deb$0ug, Display)] // struct S; // ``` // -> // ``` // # trait Debug { fn fmt(&self, f: &mut Formatter) -> Result<()>; } // #[derive(Display)] // struct S; // // impl Debug for S { // $0fn fmt(&self, f: &mut Formatter) -> Result<()> { // f.debug_struct("S").finish() // } // } // ``` pub(crate) fn replace_derive_with_manual_impl( acc: &mut Assists, ctx: &AssistContext<'_>, ) -> Option<()> { let attr = ctx.find_node_at_offset_with_descend::()?; let path = attr.path()?; let hir_file = ctx.sema.hir_file_for(attr.syntax()); if !hir_file.is_derive_attr_pseudo_expansion(ctx.db()) { return None; } let InFile { file_id, value } = hir_file.call_node(ctx.db())?; if file_id.is_macro() { // FIXME: make this work in macro files return None; } // collect the derive paths from the #[derive] expansion let current_derives = ctx .sema .parse_or_expand(hir_file)? .descendants() .filter_map(ast::Attr::cast) .filter_map(|attr| attr.path()) .collect::>(); let adt = value.parent().and_then(ast::Adt::cast)?; let attr = ast::Attr::cast(value)?; let args = attr.token_tree()?; let current_module = ctx.sema.scope(adt.syntax())?.module(); let current_crate = current_module.krate(); let found_traits = items_locator::items_with_name( &ctx.sema, current_crate, NameToImport::exact_case_sensitive(path.segments().last()?.to_string()), items_locator::AssocItemSearch::Exclude, Some(items_locator::DEFAULT_QUERY_SEARCH_LIMIT.inner()), ) .filter_map(|item| match item.as_module_def()? { ModuleDef::Trait(trait_) => Some(trait_), _ => None, }) .flat_map(|trait_| { current_module .find_use_path(ctx.sema.db, hir::ModuleDef::Trait(trait_), ctx.config.prefer_no_std) .as_ref() .map(mod_path_to_ast) .zip(Some(trait_)) }); let mut no_traits_found = true; for (replace_trait_path, trait_) in found_traits.inspect(|_| no_traits_found = false) { add_assist( acc, ctx, &attr, ¤t_derives, &args, &path, &replace_trait_path, Some(trait_), &adt, )?; } if no_traits_found { add_assist(acc, ctx, &attr, ¤t_derives, &args, &path, &path, None, &adt)?; } Some(()) } fn add_assist( acc: &mut Assists, ctx: &AssistContext<'_>, attr: &ast::Attr, old_derives: &[ast::Path], old_tree: &ast::TokenTree, old_trait_path: &ast::Path, replace_trait_path: &ast::Path, trait_: Option, adt: &ast::Adt, ) -> Option<()> { let target = attr.syntax().text_range(); let annotated_name = adt.name()?; let label = format!("Convert to manual `impl {replace_trait_path} for {annotated_name}`"); acc.add( AssistId("replace_derive_with_manual_impl", AssistKind::Refactor), label, target, |builder| { let insert_pos = adt.syntax().text_range().end(); let impl_def_with_items = impl_def_from_trait(&ctx.sema, adt, &annotated_name, trait_, replace_trait_path); update_attribute(builder, old_derives, old_tree, old_trait_path, attr); let trait_path = replace_trait_path.to_string(); match (ctx.config.snippet_cap, impl_def_with_items) { (None, _) => { builder.insert(insert_pos, generate_trait_impl_text(adt, &trait_path, "")) } (Some(cap), None) => builder.insert_snippet( cap, insert_pos, generate_trait_impl_text(adt, &trait_path, " $0"), ), (Some(cap), Some((impl_def, first_assoc_item))) => { let mut cursor = Cursor::Before(first_assoc_item.syntax()); let placeholder; if let ast::AssocItem::Fn(ref func) = first_assoc_item { if let Some(m) = func.syntax().descendants().find_map(ast::MacroCall::cast) { if m.syntax().text() == "todo!()" { placeholder = m; cursor = Cursor::Replace(placeholder.syntax()); } } } let rendered = render_snippet(cap, impl_def.syntax(), cursor); builder.insert_snippet(cap, insert_pos, format!("\n\n{rendered}")) } }; }, ) } fn impl_def_from_trait( sema: &hir::Semantics<'_, ide_db::RootDatabase>, adt: &ast::Adt, annotated_name: &ast::Name, trait_: Option, trait_path: &ast::Path, ) -> Option<(ast::Impl, ast::AssocItem)> { let trait_ = trait_?; let target_scope = sema.scope(annotated_name.syntax())?; let trait_items = filter_assoc_items(sema, &trait_.items(sema.db), DefaultMethods::No); if trait_items.is_empty() { return None; } let impl_def = { use syntax::ast::Impl; let text = generate_trait_impl_text(adt, trait_path.to_string().as_str(), ""); let parse = syntax::SourceFile::parse(&text); let node = match parse.tree().syntax().descendants().find_map(Impl::cast) { Some(it) => it, None => { panic!( "Failed to make ast node `{}` from text {}", std::any::type_name::(), text ) } }; let node = node.clone_subtree(); assert_eq!(node.syntax().text_range().start(), 0.into()); node }; let trait_items = trait_items .into_iter() .map(|it| { if sema.hir_file_for(it.syntax()).is_macro() { if let Some(it) = ast::AssocItem::cast(insert_ws_into(it.syntax().clone())) { return it; } } it.clone_for_update() }) .collect(); let (impl_def, first_assoc_item) = add_trait_assoc_items_to_impl(sema, trait_items, trait_, impl_def, target_scope); // Generate a default `impl` function body for the derived trait. if let ast::AssocItem::Fn(ref func) = first_assoc_item { let _ = gen_trait_fn_body(func, trait_path, adt); }; Some((impl_def, first_assoc_item)) } fn update_attribute( builder: &mut SourceChangeBuilder, old_derives: &[ast::Path], old_tree: &ast::TokenTree, old_trait_path: &ast::Path, attr: &ast::Attr, ) { let new_derives = old_derives .iter() .filter(|t| t.to_string() != old_trait_path.to_string()) .collect::>(); let has_more_derives = !new_derives.is_empty(); if has_more_derives { let new_derives = format!("({})", new_derives.iter().format(", ")); builder.replace(old_tree.syntax().text_range(), new_derives); } else { let attr_range = attr.syntax().text_range(); builder.delete(attr_range); if let Some(line_break_range) = attr .syntax() .next_sibling_or_token() .filter(|t| t.kind() == WHITESPACE) .map(|t| t.text_range()) { builder.delete(line_break_range); } } } #[cfg(test)] mod tests { use crate::tests::{check_assist, check_assist_not_applicable}; use super::*; #[test] fn add_custom_impl_debug_record_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: fmt, derive #[derive(Debu$0g)] struct Foo { bar: String, } "#, r#" struct Foo { bar: String, } impl core::fmt::Debug for Foo { $0fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { f.debug_struct("Foo").field("bar", &self.bar).finish() } } "#, ) } #[test] fn add_custom_impl_debug_tuple_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: fmt, derive #[derive(Debu$0g)] struct Foo(String, usize); "#, r#"struct Foo(String, usize); impl core::fmt::Debug for Foo { $0fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { f.debug_tuple("Foo").field(&self.0).field(&self.1).finish() } } "#, ) } #[test] fn add_custom_impl_debug_empty_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: fmt, derive #[derive(Debu$0g)] struct Foo; "#, r#" struct Foo; impl core::fmt::Debug for Foo { $0fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { f.debug_struct("Foo").finish() } } "#, ) } #[test] fn add_custom_impl_debug_enum() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: fmt, derive #[derive(Debu$0g)] enum Foo { Bar, Baz, } "#, r#" enum Foo { Bar, Baz, } impl core::fmt::Debug for Foo { $0fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { match self { Self::Bar => write!(f, "Bar"), Self::Baz => write!(f, "Baz"), } } } "#, ) } #[test] fn add_custom_impl_debug_tuple_enum() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: fmt, derive #[derive(Debu$0g)] enum Foo { Bar(usize, usize), Baz, } "#, r#" enum Foo { Bar(usize, usize), Baz, } impl core::fmt::Debug for Foo { $0fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { match self { Self::Bar(arg0, arg1) => f.debug_tuple("Bar").field(arg0).field(arg1).finish(), Self::Baz => write!(f, "Baz"), } } } "#, ) } #[test] fn add_custom_impl_debug_record_enum() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: fmt, derive #[derive(Debu$0g)] enum Foo { Bar { baz: usize, qux: usize, }, Baz, } "#, r#" enum Foo { Bar { baz: usize, qux: usize, }, Baz, } impl core::fmt::Debug for Foo { $0fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { match self { Self::Bar { baz, qux } => f.debug_struct("Bar").field("baz", baz).field("qux", qux).finish(), Self::Baz => write!(f, "Baz"), } } } "#, ) } #[test] fn add_custom_impl_default_record_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: default, derive #[derive(Defau$0lt)] struct Foo { foo: usize, } "#, r#" struct Foo { foo: usize, } impl Default for Foo { $0fn default() -> Self { Self { foo: Default::default() } } } "#, ) } #[test] fn add_custom_impl_default_tuple_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: default, derive #[derive(Defau$0lt)] struct Foo(usize); "#, r#" struct Foo(usize); impl Default for Foo { $0fn default() -> Self { Self(Default::default()) } } "#, ) } #[test] fn add_custom_impl_default_empty_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: default, derive #[derive(Defau$0lt)] struct Foo; "#, r#" struct Foo; impl Default for Foo { $0fn default() -> Self { Self { } } } "#, ) } #[test] fn add_custom_impl_hash_record_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: hash, derive #[derive(Has$0h)] struct Foo { bin: usize, bar: usize, } "#, r#" struct Foo { bin: usize, bar: usize, } impl core::hash::Hash for Foo { $0fn hash(&self, state: &mut H) { self.bin.hash(state); self.bar.hash(state); } } "#, ) } #[test] fn add_custom_impl_hash_tuple_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: hash, derive #[derive(Has$0h)] struct Foo(usize, usize); "#, r#" struct Foo(usize, usize); impl core::hash::Hash for Foo { $0fn hash(&self, state: &mut H) { self.0.hash(state); self.1.hash(state); } } "#, ) } #[test] fn add_custom_impl_hash_enum() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: hash, derive #[derive(Has$0h)] enum Foo { Bar, Baz, } "#, r#" enum Foo { Bar, Baz, } impl core::hash::Hash for Foo { $0fn hash(&self, state: &mut H) { core::mem::discriminant(self).hash(state); } } "#, ) } #[test] fn add_custom_impl_clone_record_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: clone, derive #[derive(Clo$0ne)] struct Foo { bin: usize, bar: usize, } "#, r#" struct Foo { bin: usize, bar: usize, } impl Clone for Foo { $0fn clone(&self) -> Self { Self { bin: self.bin.clone(), bar: self.bar.clone() } } } "#, ) } #[test] fn add_custom_impl_clone_tuple_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: clone, derive #[derive(Clo$0ne)] struct Foo(usize, usize); "#, r#" struct Foo(usize, usize); impl Clone for Foo { $0fn clone(&self) -> Self { Self(self.0.clone(), self.1.clone()) } } "#, ) } #[test] fn add_custom_impl_clone_empty_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: clone, derive #[derive(Clo$0ne)] struct Foo; "#, r#" struct Foo; impl Clone for Foo { $0fn clone(&self) -> Self { Self { } } } "#, ) } #[test] fn add_custom_impl_clone_enum() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: clone, derive #[derive(Clo$0ne)] enum Foo { Bar, Baz, } "#, r#" enum Foo { Bar, Baz, } impl Clone for Foo { $0fn clone(&self) -> Self { match self { Self::Bar => Self::Bar, Self::Baz => Self::Baz, } } } "#, ) } #[test] fn add_custom_impl_clone_tuple_enum() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: clone, derive #[derive(Clo$0ne)] enum Foo { Bar(String), Baz, } "#, r#" enum Foo { Bar(String), Baz, } impl Clone for Foo { $0fn clone(&self) -> Self { match self { Self::Bar(arg0) => Self::Bar(arg0.clone()), Self::Baz => Self::Baz, } } } "#, ) } #[test] fn add_custom_impl_clone_record_enum() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: clone, derive #[derive(Clo$0ne)] enum Foo { Bar { bin: String, }, Baz, } "#, r#" enum Foo { Bar { bin: String, }, Baz, } impl Clone for Foo { $0fn clone(&self) -> Self { match self { Self::Bar { bin } => Self::Bar { bin: bin.clone() }, Self::Baz => Self::Baz, } } } "#, ) } #[test] fn add_custom_impl_partial_ord_record_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: ord, derive #[derive(Partial$0Ord)] struct Foo { bin: usize, } "#, r#" struct Foo { bin: usize, } impl PartialOrd for Foo { $0fn partial_cmp(&self, other: &Self) -> Option { self.bin.partial_cmp(&other.bin) } } "#, ) } #[test] fn add_custom_impl_partial_ord_record_struct_multi_field() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: ord, derive #[derive(Partial$0Ord)] struct Foo { bin: usize, bar: usize, baz: usize, } "#, r#" struct Foo { bin: usize, bar: usize, baz: usize, } impl PartialOrd for Foo { $0fn partial_cmp(&self, other: &Self) -> Option { match self.bin.partial_cmp(&other.bin) { Some(core::cmp::Ordering::Equal) => {} ord => return ord, } match self.bar.partial_cmp(&other.bar) { Some(core::cmp::Ordering::Equal) => {} ord => return ord, } self.baz.partial_cmp(&other.baz) } } "#, ) } #[test] fn add_custom_impl_partial_ord_tuple_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: ord, derive #[derive(Partial$0Ord)] struct Foo(usize, usize, usize); "#, r#" struct Foo(usize, usize, usize); impl PartialOrd for Foo { $0fn partial_cmp(&self, other: &Self) -> Option { match self.0.partial_cmp(&other.0) { Some(core::cmp::Ordering::Equal) => {} ord => return ord, } match self.1.partial_cmp(&other.1) { Some(core::cmp::Ordering::Equal) => {} ord => return ord, } self.2.partial_cmp(&other.2) } } "#, ) } #[test] fn add_custom_impl_partial_eq_record_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: eq, derive #[derive(Partial$0Eq)] struct Foo { bin: usize, bar: usize, } "#, r#" struct Foo { bin: usize, bar: usize, } impl PartialEq for Foo { $0fn eq(&self, other: &Self) -> bool { self.bin == other.bin && self.bar == other.bar } } "#, ) } #[test] fn add_custom_impl_partial_eq_tuple_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: eq, derive #[derive(Partial$0Eq)] struct Foo(usize, usize); "#, r#" struct Foo(usize, usize); impl PartialEq for Foo { $0fn eq(&self, other: &Self) -> bool { self.0 == other.0 && self.1 == other.1 } } "#, ) } #[test] fn add_custom_impl_partial_eq_empty_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: eq, derive #[derive(Partial$0Eq)] struct Foo; "#, r#" struct Foo; impl PartialEq for Foo { $0fn eq(&self, other: &Self) -> bool { true } } "#, ) } #[test] fn add_custom_impl_partial_eq_enum() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: eq, derive #[derive(Partial$0Eq)] enum Foo { Bar, Baz, } "#, r#" enum Foo { Bar, Baz, } impl PartialEq for Foo { $0fn eq(&self, other: &Self) -> bool { core::mem::discriminant(self) == core::mem::discriminant(other) } } "#, ) } #[test] fn add_custom_impl_partial_eq_single_variant_tuple_enum() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: eq, derive #[derive(Partial$0Eq)] enum Foo { Bar(String), } "#, r#" enum Foo { Bar(String), } impl PartialEq for Foo { $0fn eq(&self, other: &Self) -> bool { match (self, other) { (Self::Bar(l0), Self::Bar(r0)) => l0 == r0, } } } "#, ) } #[test] fn add_custom_impl_partial_eq_partial_tuple_enum() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: eq, derive #[derive(Partial$0Eq)] enum Foo { Bar(String), Baz, } "#, r#" enum Foo { Bar(String), Baz, } impl PartialEq for Foo { $0fn eq(&self, other: &Self) -> bool { match (self, other) { (Self::Bar(l0), Self::Bar(r0)) => l0 == r0, _ => core::mem::discriminant(self) == core::mem::discriminant(other), } } } "#, ) } #[test] fn add_custom_impl_partial_eq_tuple_enum() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: eq, derive #[derive(Partial$0Eq)] enum Foo { Bar(String), Baz(i32), } "#, r#" enum Foo { Bar(String), Baz(i32), } impl PartialEq for Foo { $0fn eq(&self, other: &Self) -> bool { match (self, other) { (Self::Bar(l0), Self::Bar(r0)) => l0 == r0, (Self::Baz(l0), Self::Baz(r0)) => l0 == r0, _ => false, } } } "#, ) } #[test] fn add_custom_impl_partial_eq_record_enum() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: eq, derive #[derive(Partial$0Eq)] enum Foo { Bar { bin: String, }, Baz { qux: String, fez: String, }, Qux {}, Bin, } "#, r#" enum Foo { Bar { bin: String, }, Baz { qux: String, fez: String, }, Qux {}, Bin, } impl PartialEq for Foo { $0fn eq(&self, other: &Self) -> bool { match (self, other) { (Self::Bar { bin: l_bin }, Self::Bar { bin: r_bin }) => l_bin == r_bin, (Self::Baz { qux: l_qux, fez: l_fez }, Self::Baz { qux: r_qux, fez: r_fez }) => l_qux == r_qux && l_fez == r_fez, _ => core::mem::discriminant(self) == core::mem::discriminant(other), } } } "#, ) } #[test] fn add_custom_impl_all() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: derive mod foo { pub trait Bar { type Qux; const Baz: usize = 42; const Fez: usize; fn foo(); fn bar() {} } } #[derive($0Bar)] struct Foo { bar: String, } "#, r#" mod foo { pub trait Bar { type Qux; const Baz: usize = 42; const Fez: usize; fn foo(); fn bar() {} } } struct Foo { bar: String, } impl foo::Bar for Foo { $0type Qux; const Fez: usize; fn foo() { todo!() } } "#, ) } #[test] fn add_custom_impl_for_unique_input_unknown() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: derive #[derive(Debu$0g)] struct Foo { bar: String, } "#, r#" struct Foo { bar: String, } impl Debug for Foo { $0 } "#, ) } #[test] fn add_custom_impl_for_with_visibility_modifier() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: derive #[derive(Debug$0)] pub struct Foo { bar: String, } "#, r#" pub struct Foo { bar: String, } impl Debug for Foo { $0 } "#, ) } #[test] fn add_custom_impl_when_multiple_inputs() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: derive #[derive(Display, Debug$0, Serialize)] struct Foo {} "#, r#" #[derive(Display, Serialize)] struct Foo {} impl Debug for Foo { $0 } "#, ) } #[test] fn add_custom_impl_default_generic_record_struct() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: default, derive #[derive(Defau$0lt)] struct Foo { foo: T, bar: U, } "#, r#" struct Foo { foo: T, bar: U, } impl Default for Foo { $0fn default() -> Self { Self { foo: Default::default(), bar: Default::default() } } } "#, ) } #[test] fn add_custom_impl_clone_generic_tuple_struct_with_bounds() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: clone, derive #[derive(Clo$0ne)] struct Foo(T, usize); "#, r#" struct Foo(T, usize); impl Clone for Foo { $0fn clone(&self) -> Self { Self(self.0.clone(), self.1.clone()) } } "#, ) } #[test] fn test_ignore_derive_macro_without_input() { check_assist_not_applicable( replace_derive_with_manual_impl, r#" //- minicore: derive #[derive($0)] struct Foo {} "#, ) } #[test] fn test_ignore_if_cursor_on_param() { check_assist_not_applicable( replace_derive_with_manual_impl, r#" //- minicore: derive, fmt #[derive$0(Debug)] struct Foo {} "#, ); check_assist_not_applicable( replace_derive_with_manual_impl, r#" //- minicore: derive, fmt #[derive(Debug)$0] struct Foo {} "#, ) } #[test] fn test_ignore_if_not_derive() { check_assist_not_applicable( replace_derive_with_manual_impl, r#" //- minicore: derive #[allow(non_camel_$0case_types)] struct Foo {} "#, ) } #[test] fn works_at_start_of_file() { check_assist_not_applicable( replace_derive_with_manual_impl, r#" //- minicore: derive, fmt $0#[derive(Debug)] struct S; "#, ); } #[test] fn add_custom_impl_keep_path() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: clone, derive #[derive(std::fmt::Debug, Clo$0ne)] pub struct Foo; "#, r#" #[derive(std::fmt::Debug)] pub struct Foo; impl Clone for Foo { $0fn clone(&self) -> Self { Self { } } } "#, ) } #[test] fn add_custom_impl_replace_path() { check_assist( replace_derive_with_manual_impl, r#" //- minicore: fmt, derive #[derive(core::fmt::Deb$0ug, Clone)] pub struct Foo; "#, r#" #[derive(Clone)] pub struct Foo; impl core::fmt::Debug for Foo { $0fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { f.debug_struct("Foo").finish() } } "#, ) } }