use std::fmt::Write; use hir::{AdtDef, db::HirDatabase}; use ra_syntax::ast::{self, AstNode}; use crate::{AssistCtx, Assist, AssistId}; pub(crate) fn fill_struct_fields(mut ctx: AssistCtx) -> Option { let struct_lit = ctx.node_at_offset::()?; let mut fsf = FillStructFields { ctx: &mut ctx, named_field_list: struct_lit.named_field_list()?, struct_fields: vec![], struct_lit, }; fsf.evaluate_struct_def_fields()?; if fsf.struct_lit_and_def_have_the_same_number_of_fields() { return None; } fsf.remove_already_included_fields()?; fsf.add_action()?; ctx.build() } struct FillStructFields<'a, 'b: 'a, DB> { ctx: &'a mut AssistCtx<'b, DB>, named_field_list: &'a ast::NamedFieldList, struct_fields: Vec<(String, String)>, struct_lit: &'a ast::StructLit, } impl FillStructFields<'_, '_, DB> where DB: HirDatabase, { fn add_action(&mut self) -> Option<()> { let named_field_list = self.named_field_list; let struct_fields_string = self.struct_fields_string()?; let struct_lit = self.struct_lit; self.ctx.add_action(AssistId("fill_struct_fields"), "fill struct fields", |edit| { edit.target(struct_lit.syntax().range()); edit.set_cursor(struct_lit.syntax().range().start()); edit.replace_node_and_indent(named_field_list.syntax(), struct_fields_string); }); Some(()) } fn struct_lit_and_def_have_the_same_number_of_fields(&self) -> bool { self.named_field_list.fields().count() == self.struct_fields.len() } fn evaluate_struct_def_fields(&mut self) -> Option<()> { let analyzer = hir::SourceAnalyzer::new( self.ctx.db, self.ctx.frange.file_id, self.struct_lit.syntax(), ); let struct_lit_ty = analyzer.type_of(self.ctx.db, self.struct_lit.into())?; let struct_def = match struct_lit_ty.as_adt() { Some((AdtDef::Struct(s), _)) => s, _ => return None, }; self.struct_fields = struct_def .fields(self.ctx.db) .into_iter() .map(|f| (f.name(self.ctx.db).to_string(), "()".into())) .collect(); Some(()) } fn remove_already_included_fields(&mut self) -> Option<()> { for ast_field in self.named_field_list.fields() { let expr = ast_field.expr()?.syntax().text().to_string(); let name_from_ast = ast_field.name_ref()?.text().to_string(); if let Some(idx) = self.struct_fields.iter().position(|(n, _)| n == &name_from_ast) { self.struct_fields[idx] = (name_from_ast, expr); } } Some(()) } fn struct_fields_string(&mut self) -> Option { let mut buf = String::from("{\n"); for (name, expr) in &self.struct_fields { write!(&mut buf, " {}: {},\n", name, expr).unwrap(); } buf.push_str("}"); Some(buf) } } #[cfg(test)] mod tests { use crate::helpers::{check_assist, check_assist_target}; use super::fill_struct_fields; #[test] fn fill_struct_fields_empty_body() { check_assist( fill_struct_fields, r#" struct S<'a, D> { a: u32, b: String, c: (i32, i32), d: D, e: &'a str, } fn main() { let s = S<|> {} } "#, r#" struct S<'a, D> { a: u32, b: String, c: (i32, i32), d: D, e: &'a str, } fn main() { let s = <|>S { a: (), b: (), c: (), d: (), e: (), } } "#, ); } #[test] fn fill_struct_fields_target() { check_assist_target( fill_struct_fields, r#" struct S<'a, D> { a: u32, b: String, c: (i32, i32), d: D, e: &'a str, } fn main() { let s = S<|> {} } "#, "S {}", ); } #[test] fn fill_struct_fields_preserve_self() { check_assist( fill_struct_fields, r#" struct Foo { foo: u8, bar: String, baz: i128, } impl Foo { pub fn new() -> Self { Self <|>{} } } "#, r#" struct Foo { foo: u8, bar: String, baz: i128, } impl Foo { pub fn new() -> Self { <|>Self { foo: (), bar: (), baz: (), } } } "#, ); } #[test] fn fill_struct_fields_partial() { check_assist( fill_struct_fields, r#" struct S<'a, D> { a: u32, b: String, c: (i32, i32), d: D, e: &'a str, } fn main() { let s = S { c: (1, 2), e: "foo",<|> } } "#, r#" struct S<'a, D> { a: u32, b: String, c: (i32, i32), d: D, e: &'a str, } fn main() { let s = <|>S { a: (), b: (), c: (1, 2), d: (), e: "foo", } } "#, ); } }