use join_to_string::join; use ra_syntax::{ File, TextUnit, TextRange, ast::{self, AstNode, AttrsOwner, TypeParamsOwner, NameOwner}, SyntaxKind::{COMMA, WHITESPACE}, SyntaxNodeRef, algo::{ Direction, siblings, find_leaf_at_offset, find_covering_node, }, }; use {EditBuilder, Edit, find_node_at_offset}; #[derive(Debug)] pub struct LocalEdit { pub edit: Edit, pub cursor_position: Option, } pub fn flip_comma<'a>(file: &'a File, offset: TextUnit) -> Option LocalEdit + 'a> { let syntax = file.syntax(); let comma = find_leaf_at_offset(syntax, offset).find(|leaf| leaf.kind() == COMMA)?; let left = non_trivia_sibling(comma, Direction::Backward)?; let right = non_trivia_sibling(comma, Direction::Forward)?; Some(move || { let mut edit = EditBuilder::new(); edit.replace(left.range(), right.text().to_string()); edit.replace(right.range(), left.text().to_string()); LocalEdit { edit: edit.finish(), cursor_position: None, } }) } pub fn add_derive<'a>(file: &'a File, offset: TextUnit) -> Option LocalEdit + 'a> { let nominal = find_node_at_offset::(file.syntax(), offset)?; Some(move || { let derive_attr = nominal .attrs() .filter_map(|x| x.as_call()) .filter(|(name, _arg)| name == "derive") .map(|(_name, arg)| arg) .next(); let mut edit = EditBuilder::new(); let offset = match derive_attr { None => { let node_start = nominal.syntax().range().start(); edit.insert(node_start, "#[derive()]\n".to_string()); node_start + TextUnit::of_str("#[derive(") } Some(tt) => { tt.syntax().range().end() - TextUnit::of_char(')') } }; LocalEdit { edit: edit.finish(), cursor_position: Some(offset), } }) } pub fn add_impl<'a>(file: &'a File, offset: TextUnit) -> Option LocalEdit + 'a> { let nominal = find_node_at_offset::(file.syntax(), offset)?; let name = nominal.name()?; Some(move || { let type_params = nominal.type_param_list(); let mut edit = EditBuilder::new(); let start_offset = nominal.syntax().range().end(); let mut buf = String::new(); buf.push_str("\n\nimpl"); if let Some(type_params) = type_params { type_params.syntax().text() .push_to(&mut buf); } buf.push_str(" "); buf.push_str(name.text().as_str()); if let Some(type_params) = type_params { let lifetime_params = type_params.lifetime_params().filter_map(|it| it.lifetime()).map(|it| it.text()); let type_params = type_params.type_params().filter_map(|it| it.name()).map(|it| it.text()); join(lifetime_params.chain(type_params)) .surround_with("<", ">") .to_buf(&mut buf); } buf.push_str(" {\n"); let offset = start_offset + TextUnit::of_str(&buf); buf.push_str("\n}"); edit.insert(start_offset, buf); LocalEdit { edit: edit.finish(), cursor_position: Some(offset), } }) } pub fn introduce_variable<'a>(file: &'a File, range: TextRange) -> Option LocalEdit + 'a> { let node = find_covering_node(file.syntax(), range); let expr = node.ancestors().filter_map(ast::Expr::cast).next()?; let anchor_stmt = expr.syntax().ancestors().filter_map(ast::Stmt::cast).next()?; let indent = anchor_stmt.syntax().prev_sibling()?; if indent.kind() != WHITESPACE { return None; } Some(move || { let mut buf = String::new(); let mut edit = EditBuilder::new(); buf.push_str("let var_name = "); expr.syntax().text().push_to(&mut buf); if expr.syntax().range().start() == anchor_stmt.syntax().range().start() { edit.replace(expr.syntax().range(), buf); } else { buf.push_str(";"); indent.text().push_to(&mut buf); edit.replace(expr.syntax().range(), "var_name".to_string()); edit.insert(anchor_stmt.syntax().range().start(), buf); } let cursor_position = anchor_stmt.syntax().range().start() + TextUnit::of_str("let "); LocalEdit { edit: edit.finish(), cursor_position: Some(cursor_position), } }) } fn non_trivia_sibling(node: SyntaxNodeRef, direction: Direction) -> Option { siblings(node, direction) .skip(1) .find(|node| !node.kind().is_trivia()) } #[cfg(test)] mod tests { use super::*; use test_utils::{check_action, check_action_range}; #[test] fn test_swap_comma() { check_action( "fn foo(x: i32,<|> y: Result<(), ()>) {}", "fn foo(y: Result<(), ()>,<|> x: i32) {}", |file, off| flip_comma(file, off).map(|f| f()), ) } #[test] fn test_add_derive() { check_action( "struct Foo { a: i32, <|>}", "#[derive(<|>)]\nstruct Foo { a: i32, }", |file, off| add_derive(file, off).map(|f| f()), ); check_action( "struct Foo { <|> a: i32, }", "#[derive(<|>)]\nstruct Foo { a: i32, }", |file, off| add_derive(file, off).map(|f| f()), ); check_action( "#[derive(Clone)]\nstruct Foo { a: i32<|>, }", "#[derive(Clone<|>)]\nstruct Foo { a: i32, }", |file, off| add_derive(file, off).map(|f| f()), ); } #[test] fn test_add_impl() { check_action( "struct Foo {<|>}\n", "struct Foo {}\n\nimpl Foo {\n<|>\n}\n", |file, off| add_impl(file, off).map(|f| f()), ); check_action( "struct Foo {<|>}", "struct Foo {}\n\nimpl Foo {\n<|>\n}", |file, off| add_impl(file, off).map(|f| f()), ); check_action( "struct Foo<'a, T: Foo<'a>> {<|>}", "struct Foo<'a, T: Foo<'a>> {}\n\nimpl<'a, T: Foo<'a>> Foo<'a, T> {\n<|>\n}", |file, off| add_impl(file, off).map(|f| f()), ); } #[test] fn test_intrdoduce_var_simple() { check_action_range( " fn foo() { foo(<|>1 + 1<|>); }", " fn foo() { let <|>var_name = 1 + 1; foo(var_name); }", |file, range| introduce_variable(file, range).map(|f| f()), ); } #[test] fn test_intrdoduce_var_expr_stmt() { check_action_range( " fn foo() { <|>1 + 1<|>; }", " fn foo() { let <|>var_name = 1 + 1; }", |file, range| introduce_variable(file, range).map(|f| f()), ); } }