Merge #6456

6456: Support record variants in extract_struct_from_enum_variant r=matklad a=Veykril

As requested :)

This also prevents the assist from being disabled if a definition in the value namespace exists with the same name as our new struct since that won't cause a collision

#4468

Co-authored-by: Lukas Wirth <[email protected]>

1 files changed, 110 insertions, 38 deletions

diff --git a/crates/assists/src/handlers/extract_struct_from_enum_variant.rs b/crates/assists/src/handlers/extract_struct_from_enum_variant.rs
index dddab255e..14209b771 100644
--- a/crates/assists/src/handlers/extract_struct_from_enum_variant.rs
+++ b/crates/assists/src/handlers/extract_struct_from_enum_variant.rs
@@ -1,3 +1,6 @@
+use std::iter;
+
+use either::Either;
 use hir::{AsName, EnumVariant, Module, ModuleDef, Name};
 use ide_db::{defs::Definition, search::Reference, RootDatabase};
 use rustc_hash::{FxHashMap, FxHashSet};
@@ -31,40 +34,32 @@ pub(crate) fn extract_struct_from_enum_variant(
     ctx: &AssistContext,
 ) -> Option<()> {
     let variant = ctx.find_node_at_offset::<ast::Variant>()?;
-    let field_list = match variant.kind() {
-        ast::StructKind::Tuple(field_list) => field_list,
-        _ => return None,
-    };
-
-    // skip 1-tuple variants
-    if field_list.fields().count() == 1 {
-        return None;
-    }
+    let field_list = extract_field_list_if_applicable(&variant)?;
 
     let variant_name = variant.name()?;
     let variant_hir = ctx.sema.to_def(&variant)?;
-    if existing_struct_def(ctx.db(), &variant_name, &variant_hir) {
+    if existing_definition(ctx.db(), &variant_name, &variant_hir) {
         return None;
     }
+
     let enum_ast = variant.parent_enum();
-    let visibility = enum_ast.visibility();
     let enum_hir = ctx.sema.to_def(&enum_ast)?;
-    let variant_hir_name = variant_hir.name(ctx.db());
-    let enum_module_def = ModuleDef::from(enum_hir);
-    let current_module = enum_hir.module(ctx.db());
     let target = variant.syntax().text_range();
     acc.add(
         AssistId("extract_struct_from_enum_variant", AssistKind::RefactorRewrite),
         "Extract struct from enum variant",
         target,
         |builder| {
-            let definition = Definition::ModuleDef(ModuleDef::EnumVariant(variant_hir));
-            let res = definition.usages(&ctx.sema).all();
+            let variant_hir_name = variant_hir.name(ctx.db());
+            let enum_module_def = ModuleDef::from(enum_hir);
+            let usages =
+                Definition::ModuleDef(ModuleDef::EnumVariant(variant_hir)).usages(&ctx.sema).all();
 
             let mut visited_modules_set = FxHashSet::default();
+            let current_module = enum_hir.module(ctx.db());
             visited_modules_set.insert(current_module);
             let mut rewriters = FxHashMap::default();
-            for reference in res {
+            for reference in usages {
                 let rewriter = rewriters
                     .entry(reference.file_range.file_id)
                     .or_insert_with(SyntaxRewriter::default);
@@ -86,26 +81,49 @@ pub(crate) fn extract_struct_from_enum_variant(
                 builder.rewrite(rewriter);
             }
             builder.edit_file(ctx.frange.file_id);
-            update_variant(&mut rewriter, &variant_name, &field_list);
+            update_variant(&mut rewriter, &variant);
             extract_struct_def(
                 &mut rewriter,
                 &enum_ast,
                 variant_name.clone(),
                 &field_list,
                 &variant.parent_enum().syntax().clone().into(),
-                visibility,
+                enum_ast.visibility(),
             );
             builder.rewrite(rewriter);
         },
     )
 }
 
-fn existing_struct_def(db: &RootDatabase, variant_name: &ast::Name, variant: &EnumVariant) -> bool {
+fn extract_field_list_if_applicable(
+    variant: &ast::Variant,
+) -> Option<Either<ast::RecordFieldList, ast::TupleFieldList>> {
+    match variant.kind() {
+        ast::StructKind::Record(field_list) if field_list.fields().next().is_some() => {
+            Some(Either::Left(field_list))
+        }
+        ast::StructKind::Tuple(field_list) if field_list.fields().count() > 1 => {
+            Some(Either::Right(field_list))
+        }
+        _ => None,
+    }
+}
+
+fn existing_definition(db: &RootDatabase, variant_name: &ast::Name, variant: &EnumVariant) -> bool {
     variant
         .parent_enum(db)
         .module(db)
         .scope(db, None)
         .into_iter()
+        .filter(|(_, def)| match def {
+            // only check type-namespace
+            hir::ScopeDef::ModuleDef(def) => matches!(def,
+                ModuleDef::Module(_) | ModuleDef::Adt(_) |
+                ModuleDef::EnumVariant(_) | ModuleDef::Trait(_) |
+                ModuleDef::TypeAlias(_) | ModuleDef::BuiltinType(_)
+            ),
+            _ => false,
+        })
         .any(|(name, _)| name == variant_name.as_name())
 }
 
@@ -133,19 +151,29 @@ fn extract_struct_def(
     rewriter: &mut SyntaxRewriter,
     enum_: &ast::Enum,
     variant_name: ast::Name,
-    variant_list: &ast::TupleFieldList,
+    field_list: &Either<ast::RecordFieldList, ast::TupleFieldList>,
     start_offset: &SyntaxElement,
     visibility: Option<ast::Visibility>,
 ) -> Option<()> {
-    let variant_list = make::tuple_field_list(
-        variant_list
-            .fields()
-            .flat_map(|field| Some(make::tuple_field(Some(make::visibility_pub()), field.ty()?))),
-    );
+    let pub_vis = Some(make::visibility_pub());
+    let field_list = match field_list {
+        Either::Left(field_list) => {
+            make::record_field_list(field_list.fields().flat_map(|field| {
+                Some(make::record_field(pub_vis.clone(), field.name()?, field.ty()?))
+            }))
+            .into()
+        }
+        Either::Right(field_list) => make::tuple_field_list(
+            field_list
+                .fields()
+                .flat_map(|field| Some(make::tuple_field(pub_vis.clone(), field.ty()?))),
+        )
+        .into(),
+    };
 
     rewriter.insert_before(
         start_offset,
-        make::struct_(visibility, variant_name, None, variant_list.into()).syntax(),
+        make::struct_(visibility, variant_name, None, field_list).syntax(),
     );
     rewriter.insert_before(start_offset, &make::tokens::blank_line());
 
@@ -156,15 +184,14 @@ fn extract_struct_def(
     Some(())
 }
 
-fn update_variant(
-    rewriter: &mut SyntaxRewriter,
-    variant_name: &ast::Name,
-    field_list: &ast::TupleFieldList,
-) -> Option<()> {
-    let (l, r): (SyntaxElement, SyntaxElement) =
-        (field_list.l_paren_token()?.into(), field_list.r_paren_token()?.into());
-    let replacement = vec![l, variant_name.syntax().clone().into(), r];
-    rewriter.replace_with_many(field_list.syntax(), replacement);
+fn update_variant(rewriter: &mut SyntaxRewriter, variant: &ast::Variant) -> Option<()> {
+    let name = variant.name()?;
+    let tuple_field = make::tuple_field(None, make::ty(name.text()));
+    let replacement = make::variant(
+        name,
+        Some(ast::FieldList::TupleFieldList(make::tuple_field_list(iter::once(tuple_field)))),
+    );
+    rewriter.replace(variant.syntax(), replacement.syntax());
     Some(())
 }
 
@@ -211,7 +238,7 @@ mod tests {
     use super::*;
 
     #[test]
-    fn test_extract_struct_several_fields() {
+    fn test_extract_struct_several_fields_tuple() {
         check_assist(
             extract_struct_from_enum_variant,
             "enum A { <|>One(u32, u32) }",
@@ -222,6 +249,41 @@ enum A { One(One) }"#,
     }
 
     #[test]
+    fn test_extract_struct_several_fields_named() {
+        check_assist(
+            extract_struct_from_enum_variant,
+            "enum A { <|>One { foo: u32, bar: u32 } }",
+            r#"struct One{ pub foo: u32, pub bar: u32 }
+
+enum A { One(One) }"#,
+        );
+    }
+
+    #[test]
+    fn test_extract_struct_one_field_named() {
+        check_assist(
+            extract_struct_from_enum_variant,
+            "enum A { <|>One { foo: u32 } }",
+            r#"struct One{ pub foo: u32 }
+
+enum A { One(One) }"#,
+        );
+    }
+
+    #[test]
+    fn test_extract_enum_variant_name_value_namespace() {
+        check_assist(
+            extract_struct_from_enum_variant,
+            r#"const One: () = ();
+enum A { <|>One(u32, u32) }"#,
+            r#"const One: () = ();
+struct One(pub u32, pub u32);
+
+enum A { One(One) }"#,
+        );
+    }
+
+    #[test]
     fn test_extract_struct_pub_visibility() {
         check_assist(
             extract_struct_from_enum_variant,
@@ -298,7 +360,7 @@ fn another_fn() {
     fn test_extract_enum_not_applicable_if_struct_exists() {
         check_not_applicable(
             r#"struct One;
-        enum A { <|>One(u8) }"#,
+        enum A { <|>One(u8, u32) }"#,
         );
     }
 
@@ -306,4 +368,14 @@ fn another_fn() {
     fn test_extract_not_applicable_one_field() {
         check_not_applicable(r"enum A { <|>One(u32) }");
     }
+
+    #[test]
+    fn test_extract_not_applicable_no_field_tuple() {
+        check_not_applicable(r"enum A { <|>None() }");
+    }
+
+    #[test]
+    fn test_extract_not_applicable_no_field_named() {
+        check_not_applicable(r"enum A { <|>None {} }");
+    }
 }