//! This module contains functions for editing syntax trees. As the trees are //! immutable, all function here return a fresh copy of the tree, instead of //! doing an in-place modification. use std::{iter, ops::RangeInclusive}; use arrayvec::ArrayVec; use crate::{ algo, ast::{ self, make::{self, tokens}, AstNode, TypeBoundsOwner, }, AstToken, Direction, InsertPosition, SmolStr, SyntaxElement, SyntaxKind::{ATTR, COMMENT, WHITESPACE}, SyntaxNode, T, }; impl ast::FnDef { #[must_use] pub fn with_body(&self, body: ast::Block) -> ast::FnDef { let mut to_insert: ArrayVec<[SyntaxElement; 2]> = ArrayVec::new(); let old_body_or_semi: SyntaxElement = if let Some(old_body) = self.body() { old_body.syntax().clone().into() } else if let Some(semi) = self.semicolon_token() { to_insert.push(make::tokens::single_space().into()); semi.into() } else { to_insert.push(make::tokens::single_space().into()); to_insert.push(body.syntax().clone().into()); return insert_children(self, InsertPosition::Last, to_insert.into_iter()); }; to_insert.push(body.syntax().clone().into()); let replace_range = RangeInclusive::new(old_body_or_semi.clone(), old_body_or_semi); replace_children(self, replace_range, to_insert.into_iter()) } } impl ast::ItemList { #[must_use] pub fn append_items(&self, items: impl Iterator) -> ast::ItemList { let mut res = self.clone(); if !self.syntax().text().contains_char('\n') { res = res.make_multiline(); } items.for_each(|it| res = res.append_item(it)); res } #[must_use] pub fn append_item(&self, item: ast::ImplItem) -> ast::ItemList { let (indent, position) = match self.impl_items().last() { Some(it) => ( leading_indent(it.syntax()).unwrap_or_default().to_string(), InsertPosition::After(it.syntax().clone().into()), ), None => match self.l_curly() { Some(it) => ( " ".to_string() + &leading_indent(self.syntax()).unwrap_or_default(), InsertPosition::After(it), ), None => return self.clone(), }, }; let ws = tokens::WsBuilder::new(&format!("\n{}", indent)); let to_insert: ArrayVec<[SyntaxElement; 2]> = [ws.ws().into(), item.syntax().clone().into()].into(); insert_children(self, position, to_insert.into_iter()) } fn l_curly(&self) -> Option { self.syntax().children_with_tokens().find(|it| it.kind() == T!['{']) } fn make_multiline(&self) -> ast::ItemList { let l_curly = match self.syntax().children_with_tokens().find(|it| it.kind() == T!['{']) { Some(it) => it, None => return self.clone(), }; let sibling = match l_curly.next_sibling_or_token() { Some(it) => it, None => return self.clone(), }; let existing_ws = match sibling.as_token() { None => None, Some(tok) if tok.kind() != WHITESPACE => None, Some(ws) => { if ws.text().contains('\n') { return self.clone(); } Some(ws.clone()) } }; let indent = leading_indent(self.syntax()).unwrap_or("".into()); let ws = tokens::WsBuilder::new(&format!("\n{}", indent)); let to_insert = iter::once(ws.ws().into()); match existing_ws { None => insert_children(self, InsertPosition::After(l_curly), to_insert), Some(ws) => { replace_children(self, RangeInclusive::new(ws.clone().into(), ws.into()), to_insert) } } } } impl ast::RecordFieldList { #[must_use] pub fn append_field(&self, field: &ast::RecordField) -> ast::RecordFieldList { self.insert_field(InsertPosition::Last, field) } #[must_use] pub fn insert_field( &self, position: InsertPosition<&'_ ast::RecordField>, field: &ast::RecordField, ) -> ast::RecordFieldList { let is_multiline = self.syntax().text().contains_char('\n'); let ws; let space = if is_multiline { ws = tokens::WsBuilder::new(&format!( "\n{} ", leading_indent(self.syntax()).unwrap_or("".into()) )); ws.ws() } else { tokens::single_space() }; let mut to_insert: ArrayVec<[SyntaxElement; 4]> = ArrayVec::new(); to_insert.push(space.into()); to_insert.push(field.syntax().clone().into()); to_insert.push(tokens::comma().into()); macro_rules! after_l_curly { () => {{ let anchor = match self.l_curly() { Some(it) => it, None => return self.clone(), }; InsertPosition::After(anchor) }}; } macro_rules! after_field { ($anchor:expr) => { if let Some(comma) = $anchor .syntax() .siblings_with_tokens(Direction::Next) .find(|it| it.kind() == T![,]) { InsertPosition::After(comma) } else { to_insert.insert(0, tokens::comma().into()); InsertPosition::After($anchor.syntax().clone().into()) } }; }; let position = match position { InsertPosition::First => after_l_curly!(), InsertPosition::Last => { if !is_multiline { // don't insert comma before curly to_insert.pop(); } match self.fields().last() { Some(it) => after_field!(it), None => after_l_curly!(), } } InsertPosition::Before(anchor) => { InsertPosition::Before(anchor.syntax().clone().into()) } InsertPosition::After(anchor) => after_field!(anchor), }; insert_children(self, position, to_insert.iter().cloned()) } fn l_curly(&self) -> Option { self.syntax().children_with_tokens().find(|it| it.kind() == T!['{']) } } impl ast::TypeParam { pub fn remove_bounds(&self) -> ast::TypeParam { let colon = match self.colon_token() { Some(it) => it, None => return self.clone(), }; let end = match self.type_bound_list() { Some(it) => it.syntax().clone().into(), None => colon.clone().into(), }; replace_children(self, RangeInclusive::new(colon.into(), end), iter::empty()) } } pub fn strip_attrs_and_docs(node: N) -> N { N::cast(strip_attrs_and_docs_inner(node.syntax().clone())).unwrap() } fn strip_attrs_and_docs_inner(mut node: SyntaxNode) -> SyntaxNode { while let Some(start) = node.children_with_tokens().find(|it| it.kind() == ATTR || it.kind() == COMMENT) { let end = match &start.next_sibling_or_token() { Some(el) if el.kind() == WHITESPACE => el.clone(), Some(_) | None => start.clone(), }; node = algo::replace_children(&node, RangeInclusive::new(start, end), &mut iter::empty()); } node } // Note this is copy-pasted from fmt. It seems like fmt should be a separate // crate, but basic tree building should be this crate. However, tree building // might want to call into fmt... fn leading_indent(node: &SyntaxNode) -> Option { let prev_tokens = std::iter::successors(node.first_token(), |token| token.prev_token()); for token in prev_tokens { if let Some(ws) = ast::Whitespace::cast(token.clone()) { let ws_text = ws.text(); if let Some(pos) = ws_text.rfind('\n') { return Some(ws_text[pos + 1..].into()); } } if token.text().contains('\n') { break; } } None } #[must_use] fn insert_children( parent: &N, position: InsertPosition, mut to_insert: impl Iterator, ) -> N { let new_syntax = algo::insert_children(parent.syntax(), position, &mut to_insert); N::cast(new_syntax).unwrap() } #[must_use] fn replace_children( parent: &N, to_replace: RangeInclusive, mut to_insert: impl Iterator, ) -> N { let new_syntax = algo::replace_children(parent.syntax(), to_replace, &mut to_insert); N::cast(new_syntax).unwrap() }