use itertools::Itertools; use stdx::to_lower_snake_case; use syntax::ast::VisibilityOwner; use syntax::ast::{self, AstNode, NameOwner}; use crate::{AssistContext, AssistId, AssistKind, Assists, assist_context::AssistBuilder, utils::{find_impl_block_end, find_struct_impl, generate_impl_text}}; // Assist: generate_enum_is_method // // Generate an `is_` method for an enum variant. // // ``` // enum Version { // Undefined, // Minor$0, // Major, // } // ``` // -> // ``` // enum Version { // Undefined, // Minor, // Major, // } // // impl Version { // /// Returns `true` if the version is [`Minor`]. // fn is_minor(&self) -> bool { // matches!(self, Self::Minor) // } // } // ``` pub(crate) fn generate_enum_is_method(acc: &mut Assists, ctx: &AssistContext) -> Option<()> { let variant = ctx.find_node_at_offset::()?; let variant_name = variant.name()?; let parent_enum = ast::Adt::Enum(variant.parent_enum()); let variant_kind = variant_kind(&variant); let enum_lowercase_name = to_lower_snake_case(&parent_enum.name()?.to_string()); let fn_name = format!("is_{}", &to_lower_snake_case(variant_name.text())); // Return early if we've found an existing new fn let impl_def = find_struct_impl( &ctx, &parent_enum, &fn_name, )?; let target = variant.syntax().text_range(); acc.add( AssistId("generate_enum_is_method", AssistKind::Generate), "Generate an `is_` method for an enum variant", target, |builder| { let vis = parent_enum.visibility().map_or(String::new(), |v| format!("{} ", v)); let method = format!( " /// Returns `true` if the {} is [`{}`]. {}fn {}(&self) -> bool {{ matches!(self, Self::{}{}) }}", enum_lowercase_name, variant_name, vis, fn_name, variant_name, variant_kind.pattern_suffix(), ); add_method_to_adt(builder, &parent_enum, impl_def, &method); }, ) } // Assist: generate_enum_into_method // // Generate an `into_` method for an enum variant. // // ``` // enum Value { // Number(i32), // Text(String)$0, // } // ``` // -> // ``` // enum Value { // Number(i32), // Text(String), // } // // impl Value { // fn into_text(self) -> Option { // if let Self::Text(v) = self { // Some(v) // } else { // None // } // } // } // ``` pub(crate) fn generate_enum_into_method(acc: &mut Assists, ctx: &AssistContext) -> Option<()> { let variant = ctx.find_node_at_offset::()?; let variant_name = variant.name()?; let parent_enum = ast::Adt::Enum(variant.parent_enum()); let variant_kind = variant_kind(&variant); let fn_name = format!("into_{}", &to_lower_snake_case(variant_name.text())); // Return early if we've found an existing new fn let impl_def = find_struct_impl( &ctx, &parent_enum, &fn_name, )?; let field_type = variant_kind.single_field_type()?; let (pattern_suffix, bound_name) = variant_kind.binding_pattern()?; let target = variant.syntax().text_range(); acc.add( AssistId("generate_enum_into_method", AssistKind::Generate), "Generate an `into_` method for an enum variant", target, |builder| { let vis = parent_enum.visibility().map_or(String::new(), |v| format!("{} ", v)); let method = format!( " {}fn {}(self) -> Option<{}> {{ if let Self::{}{} = self {{ Some({}) }} else {{ None }} }}", vis, fn_name, field_type.syntax(), variant_name, pattern_suffix, bound_name, ); add_method_to_adt(builder, &parent_enum, impl_def, &method); }, ) } fn add_method_to_adt( builder: &mut AssistBuilder, adt: &ast::Adt, impl_def: Option, method: &str, ) { let mut buf = String::with_capacity(method.len() + 2); if impl_def.is_some() { buf.push('\n'); } buf.push_str(method); let start_offset = impl_def .and_then(|impl_def| find_impl_block_end(impl_def, &mut buf)) .unwrap_or_else(|| { buf = generate_impl_text(&adt, &buf); adt.syntax().text_range().end() }); builder.insert(start_offset, buf); } enum VariantKind { Unit, /// Tuple with a single field NewtypeTuple { ty: Option }, /// Tuple with 0 or more than 2 fields Tuple, /// Record with a single field NewtypeRecord { field_name: Option, field_type: Option, }, /// Record with 0 or more than 2 fields Record, } impl VariantKind { fn pattern_suffix(&self) -> &'static str { match self { VariantKind::Unit => "", VariantKind::NewtypeTuple { .. } | VariantKind::Tuple => "(..)", VariantKind::NewtypeRecord { .. } | VariantKind::Record => " { .. }", } } fn binding_pattern(&self) -> Option<(String, String)> { match self { VariantKind::Unit | VariantKind::Tuple | VariantKind::Record | VariantKind::NewtypeRecord { field_name: None, .. } => None, VariantKind::NewtypeTuple { .. } => { Some(("(v)".to_owned(), "v".to_owned())) } VariantKind::NewtypeRecord { field_name: Some(name), .. } => { Some(( format!(" {{ {} }}", name.syntax()), name.syntax().to_string(), )) } } } fn single_field_type(&self) -> Option<&ast::Type> { match self { VariantKind::Unit | VariantKind::Tuple | VariantKind::Record => None, VariantKind::NewtypeTuple { ty } => ty.as_ref(), VariantKind::NewtypeRecord { field_type, .. } => field_type.as_ref(), } } } fn variant_kind(variant: &ast::Variant) -> VariantKind { match variant.kind() { ast::StructKind::Record(record) => { if let Some((single_field,)) = record.fields().collect_tuple() { let field_name = single_field.name(); let field_type = single_field.ty(); VariantKind::NewtypeRecord { field_name, field_type } } else { VariantKind::Record } } ast::StructKind::Tuple(tuple) => { if let Some((single_field,)) = tuple.fields().collect_tuple() { let ty = single_field.ty(); VariantKind::NewtypeTuple { ty } } else { VariantKind::Tuple } } ast::StructKind::Unit => VariantKind::Unit, } } #[cfg(test)] mod tests { use crate::tests::{check_assist, check_assist_not_applicable}; use super::*; #[test] fn test_generate_enum_is_from_variant() { check_assist( generate_enum_is_method, r#" enum Variant { Undefined, Minor$0, Major, }"#, r#"enum Variant { Undefined, Minor, Major, } impl Variant { /// Returns `true` if the variant is [`Minor`]. fn is_minor(&self) -> bool { matches!(self, Self::Minor) } }"#, ); } #[test] fn test_generate_enum_is_already_implemented() { check_assist_not_applicable( generate_enum_is_method, r#" enum Variant { Undefined, Minor$0, Major, } impl Variant { fn is_minor(&self) -> bool { matches!(self, Self::Minor) } }"#, ); } #[test] fn test_generate_enum_is_from_tuple_variant() { check_assist( generate_enum_is_method, r#" enum Variant { Undefined, Minor(u32)$0, Major, }"#, r#"enum Variant { Undefined, Minor(u32), Major, } impl Variant { /// Returns `true` if the variant is [`Minor`]. fn is_minor(&self) -> bool { matches!(self, Self::Minor(..)) } }"#, ); } #[test] fn test_generate_enum_is_from_record_variant() { check_assist( generate_enum_is_method, r#" enum Variant { Undefined, Minor { foo: i32 }$0, Major, }"#, r#"enum Variant { Undefined, Minor { foo: i32 }, Major, } impl Variant { /// Returns `true` if the variant is [`Minor`]. fn is_minor(&self) -> bool { matches!(self, Self::Minor { .. }) } }"#, ); } #[test] fn test_generate_enum_is_from_variant_with_one_variant() { check_assist( generate_enum_is_method, r#"enum Variant { Undefi$0ned }"#, r#" enum Variant { Undefined } impl Variant { /// Returns `true` if the variant is [`Undefined`]. fn is_undefined(&self) -> bool { matches!(self, Self::Undefined) } }"#, ); } #[test] fn test_generate_enum_is_from_variant_with_visibility_marker() { check_assist( generate_enum_is_method, r#" pub(crate) enum Variant { Undefined, Minor$0, Major, }"#, r#"pub(crate) enum Variant { Undefined, Minor, Major, } impl Variant { /// Returns `true` if the variant is [`Minor`]. pub(crate) fn is_minor(&self) -> bool { matches!(self, Self::Minor) } }"#, ); } #[test] fn test_multiple_generate_enum_is_from_variant() { check_assist( generate_enum_is_method, r#" enum Variant { Undefined, Minor, Major$0, } impl Variant { /// Returns `true` if the variant is [`Minor`]. fn is_minor(&self) -> bool { matches!(self, Self::Minor) } }"#, r#"enum Variant { Undefined, Minor, Major, } impl Variant { /// Returns `true` if the variant is [`Minor`]. fn is_minor(&self) -> bool { matches!(self, Self::Minor) } /// Returns `true` if the variant is [`Major`]. fn is_major(&self) -> bool { matches!(self, Self::Major) } }"#, ); } #[test] fn test_generate_enum_into_tuple_variant() { check_assist( generate_enum_into_method, r#" enum Value { Number(i32), Text(String)$0, }"#, r#"enum Value { Number(i32), Text(String), } impl Value { fn into_text(self) -> Option { if let Self::Text(v) = self { Some(v) } else { None } } }"#, ); } #[test] fn test_generate_enum_into_already_implemented() { check_assist_not_applicable( generate_enum_into_method, r#"enum Value { Number(i32), Text(String)$0, } impl Value { fn into_text(self) -> Option { if let Self::Text(v) = self { Some(v) } else { None } } }"#, ); } #[test] fn test_generate_enum_into_unit_variant() { check_assist_not_applicable( generate_enum_into_method, r#"enum Value { Number(i32), Text(String), Unit$0, }"#, ); } #[test] fn test_generate_enum_into_record_with_multiple_fields() { check_assist_not_applicable( generate_enum_into_method, r#"enum Value { Number(i32), Text(String), Both { first: i32, second: String }$0, }"#, ); } #[test] fn test_generate_enum_into_tuple_with_multiple_fields() { check_assist_not_applicable( generate_enum_into_method, r#"enum Value { Number(i32), Text(String, String)$0, }"#, ); } #[test] fn test_generate_enum_into_record_variant() { check_assist( generate_enum_into_method, r#"enum Value { Number(i32), Text { text: String }$0, }"#, r#"enum Value { Number(i32), Text { text: String }, } impl Value { fn into_text(self) -> Option { if let Self::Text { text } = self { Some(text) } else { None } } }"#, ); } }