use ide_db::{famous_defs::FamousDefs, helpers::mod_path_to_ast, traits::resolve_target_trait}; use syntax::ast::{self, AstNode, HasName}; use crate::{AssistContext, AssistId, AssistKind, Assists}; // FIXME: this should be a diagnostic // Assist: convert_into_to_from // // Converts an Into impl to an equivalent From impl. // // ``` // # //- minicore: from // impl $0Into for usize { // fn into(self) -> Thing { // Thing { // b: self.to_string(), // a: self // } // } // } // ``` // -> // ``` // impl From for Thing { // fn from(val: usize) -> Self { // Thing { // b: val.to_string(), // a: val // } // } // } // ``` pub(crate) fn convert_into_to_from(acc: &mut Assists, ctx: &AssistContext<'_>) -> Option<()> { let impl_ = ctx.find_node_at_offset::()?; let src_type = impl_.self_ty()?; let ast_trait = impl_.trait_()?; let module = ctx.sema.scope(impl_.syntax())?.module(); let trait_ = resolve_target_trait(&ctx.sema, &impl_)?; if trait_ != FamousDefs(&ctx.sema, module.krate()).core_convert_Into()? { return None; } let src_type_path = { let src_type_path = src_type.syntax().descendants().find_map(ast::Path::cast)?; let src_type_def = match ctx.sema.resolve_path(&src_type_path) { Some(hir::PathResolution::Def(module_def)) => module_def, _ => return None, }; mod_path_to_ast(&module.find_use_path(ctx.db(), src_type_def, ctx.config.prefer_no_std)?) }; let dest_type = match &ast_trait { ast::Type::PathType(path) => { path.path()?.segment()?.generic_arg_list()?.generic_args().next()? } _ => return None, }; let into_fn = impl_.assoc_item_list()?.assoc_items().find_map(|item| { if let ast::AssocItem::Fn(f) = item { if f.name()?.text() == "into" { return Some(f); } }; None })?; let into_fn_name = into_fn.name()?; let into_fn_params = into_fn.param_list()?; let into_fn_return = into_fn.ret_type()?; let selfs = into_fn .body()? .syntax() .descendants() .filter_map(ast::NameRef::cast) .filter(|name| name.text() == "self" || name.text() == "Self"); acc.add( AssistId("convert_into_to_from", AssistKind::RefactorRewrite), "Convert Into to From", impl_.syntax().text_range(), |builder| { builder.replace(src_type.syntax().text_range(), dest_type.to_string()); builder.replace(ast_trait.syntax().text_range(), format!("From<{}>", src_type)); builder.replace(into_fn_return.syntax().text_range(), "-> Self"); builder.replace(into_fn_params.syntax().text_range(), format!("(val: {})", src_type)); builder.replace(into_fn_name.syntax().text_range(), "from"); for s in selfs { match s.text().as_ref() { "self" => builder.replace(s.syntax().text_range(), "val"), "Self" => builder.replace(s.syntax().text_range(), src_type_path.to_string()), _ => {} } } }, ) } #[cfg(test)] mod tests { use super::*; use crate::tests::{check_assist, check_assist_not_applicable}; #[test] fn convert_into_to_from_converts_a_struct() { check_assist( convert_into_to_from, r#" //- minicore: from struct Thing { a: String, b: usize } impl $0core::convert::Into for usize { fn into(self) -> Thing { Thing { b: self.to_string(), a: self } } } "#, r#" struct Thing { a: String, b: usize } impl From for Thing { fn from(val: usize) -> Self { Thing { b: val.to_string(), a: val } } } "#, ) } #[test] fn convert_into_to_from_converts_enums() { check_assist( convert_into_to_from, r#" //- minicore: from enum Thing { Foo(String), Bar(String) } impl $0core::convert::Into for Thing { fn into(self) -> String { match self { Self::Foo(s) => s, Self::Bar(s) => s } } } "#, r#" enum Thing { Foo(String), Bar(String) } impl From for String { fn from(val: Thing) -> Self { match val { Thing::Foo(s) => s, Thing::Bar(s) => s } } } "#, ) } #[test] fn convert_into_to_from_on_enum_with_lifetimes() { check_assist( convert_into_to_from, r#" //- minicore: from enum Thing<'a> { Foo(&'a str), Bar(&'a str) } impl<'a> $0core::convert::Into<&'a str> for Thing<'a> { fn into(self) -> &'a str { match self { Self::Foo(s) => s, Self::Bar(s) => s } } } "#, r#" enum Thing<'a> { Foo(&'a str), Bar(&'a str) } impl<'a> From> for &'a str { fn from(val: Thing<'a>) -> Self { match val { Thing::Foo(s) => s, Thing::Bar(s) => s } } } "#, ) } #[test] fn convert_into_to_from_works_on_references() { check_assist( convert_into_to_from, r#" //- minicore: from struct Thing(String); impl $0core::convert::Into for &Thing { fn into(self) -> Thing { self.0.clone() } } "#, r#" struct Thing(String); impl From<&Thing> for String { fn from(val: &Thing) -> Self { val.0.clone() } } "#, ) } #[test] fn convert_into_to_from_works_on_qualified_structs() { check_assist( convert_into_to_from, r#" //- minicore: from mod things { pub struct Thing(String); pub struct BetterThing(String); } impl $0core::convert::Into for &things::Thing { fn into(self) -> Thing { things::BetterThing(self.0.clone()) } } "#, r#" mod things { pub struct Thing(String); pub struct BetterThing(String); } impl From<&things::Thing> for things::BetterThing { fn from(val: &things::Thing) -> Self { things::BetterThing(val.0.clone()) } } "#, ) } #[test] fn convert_into_to_from_works_on_qualified_enums() { check_assist( convert_into_to_from, r#" //- minicore: from mod things { pub enum Thing { A(String) } pub struct BetterThing { B(String) } } impl $0core::convert::Into for &things::Thing { fn into(self) -> Thing { match self { Self::A(s) => things::BetterThing::B(s) } } } "#, r#" mod things { pub enum Thing { A(String) } pub struct BetterThing { B(String) } } impl From<&things::Thing> for things::BetterThing { fn from(val: &things::Thing) -> Self { match val { things::Thing::A(s) => things::BetterThing::B(s) } } } "#, ) } #[test] fn convert_into_to_from_not_applicable_on_any_trait_named_into() { check_assist_not_applicable( convert_into_to_from, r#" //- minicore: from pub trait Into { pub fn into(self) -> T; } struct Thing { a: String, } impl $0Into for String { fn into(self) -> Thing { Thing { a: self } } } "#, ); } }