rust-analyzer

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//! Primitive tree editor, ed for trees. //! //! The `_raw`-suffixed functions insert elements as is, unsuffixed versions fix //! up elements around the edges. use std::{mem, ops::RangeInclusive}; use parser::T; use crate::{ ast::{self, edit::IndentLevel, make, AstNode}, SyntaxElement, SyntaxKind, SyntaxNode, SyntaxToken, }; /// Utility trait to allow calling `ted` functions with references or owned /// nodes. Do not use outside of this module. pub trait Element { fn syntax_element(self) -> SyntaxElement; } impl<E: Element + Clone> Element for &'_ E { fn syntax_element(self) -> SyntaxElement { self.clone().syntax_element() } } impl Element for SyntaxElement { fn syntax_element(self) -> SyntaxElement { self } } impl Element for SyntaxNode { fn syntax_element(self) -> SyntaxElement { self.into() } } impl Element for SyntaxToken { fn syntax_element(self) -> SyntaxElement { self.into() } } #[derive(Debug)] pub struct Position { repr: PositionRepr, } #[derive(Debug)] enum PositionRepr { FirstChild(SyntaxNode), After(SyntaxElement), } impl Position { pub fn after(elem: impl Element) -> Position { let repr = PositionRepr::After(elem.syntax_element()); Position { repr } } pub fn before(elem: impl Element) -> Position { let elem = elem.syntax_element(); let repr = match elem.prev_sibling_or_token() { Some(it) => PositionRepr::After(it), None => PositionRepr::FirstChild(elem.parent().unwrap()), }; Position { repr } } pub fn first_child_of(node: &(impl Into<SyntaxNode> + Clone)) -> Position { let repr = PositionRepr::FirstChild(node.clone().into()); Position { repr } } pub fn last_child_of(node: &(impl Into<SyntaxNode> + Clone)) -> Position { let node = node.clone().into(); let repr = match node.last_child_or_token() { Some(it) => PositionRepr::After(it), None => PositionRepr::FirstChild(node), }; Position { repr } } } pub fn insert(position: Position, elem: impl Element) { insert_all(position, vec![elem.syntax_element()]); } pub fn insert_raw(position: Position, elem: impl Element) { insert_all_raw(position, vec![elem.syntax_element()]); } pub fn insert_all(position: Position, mut elements: Vec<SyntaxElement>) { if let Some(first) = elements.first() { if let Some(ws) = ws_before(&position, first) { elements.insert(0, ws.into()); } } if let Some(last) = elements.last() { if let Some(ws) = ws_after(&position, last) { elements.push(ws.into()); } } insert_all_raw(position, elements); } pub fn insert_all_raw(position: Position, elements: Vec<SyntaxElement>) { let (parent, index) = match position.repr { PositionRepr::FirstChild(parent) => (parent, 0), PositionRepr::After(child) => (child.parent().unwrap(), child.index() + 1), }; parent.splice_children(index..index, elements); } pub fn remove(elem: impl Element) { elem.syntax_element().detach(); } pub fn remove_all(range: RangeInclusive<SyntaxElement>) { replace_all(range, Vec::new()); } pub fn remove_all_iter(range: impl IntoIterator<Item = SyntaxElement>) { let mut it = range.into_iter(); if let Some(mut first) = it.next() { match it.last() { Some(mut last) => { if first.index() > last.index() { mem::swap(&mut first, &mut last); } remove_all(first..=last); } None => remove(first), } } } pub fn replace(old: impl Element, new: impl Element) { replace_with_many(old, vec![new.syntax_element()]); } pub fn replace_with_many(old: impl Element, new: Vec<SyntaxElement>) { let old = old.syntax_element(); replace_all(old.clone()..=old, new); } pub fn replace_all(range: RangeInclusive<SyntaxElement>, new: Vec<SyntaxElement>) { let start = range.start().index(); let end = range.end().index(); let parent = range.start().parent().unwrap(); parent.splice_children(start..end + 1, new); } pub fn append_child(node: &(impl Into<SyntaxNode> + Clone), child: impl Element) { let position = Position::last_child_of(node); insert(position, child); } pub fn append_child_raw(node: &(impl Into<SyntaxNode> + Clone), child: impl Element) { let position = Position::last_child_of(node); insert_raw(position, child); } fn ws_before(position: &Position, new: &SyntaxElement) -> Option<SyntaxToken> { let prev = match &position.repr { PositionRepr::FirstChild(_) => return None, PositionRepr::After(it) => it, }; if prev.kind() == T!['{'] && new.kind() == SyntaxKind::USE { if let Some(item_list) = prev.parent().and_then(ast::ItemList::cast) { let mut indent = IndentLevel::from_element(&item_list.syntax().clone().into()); indent.0 += 1; return Some(make::tokens::whitespace(&format!("\n{indent}"))); } } if prev.kind() == T!['{'] && ast::Stmt::can_cast(new.kind()) { if let Some(stmt_list) = prev.parent().and_then(ast::StmtList::cast) { let mut indent = IndentLevel::from_element(&stmt_list.syntax().clone().into()); indent.0 += 1; return Some(make::tokens::whitespace(&format!("\n{indent}"))); } } ws_between(prev, new) } fn ws_after(position: &Position, new: &SyntaxElement) -> Option<SyntaxToken> { let next = match &position.repr { PositionRepr::FirstChild(parent) => parent.first_child_or_token()?, PositionRepr::After(sibling) => sibling.next_sibling_or_token()?, }; ws_between(new, &next) } fn ws_between(left: &SyntaxElement, right: &SyntaxElement) -> Option<SyntaxToken> { if left.kind() == SyntaxKind::WHITESPACE || right.kind() == SyntaxKind::WHITESPACE { return None; } if right.kind() == T![;] || right.kind() == T![,] { return None; } if left.kind() == T![<] || right.kind() == T![>] { return None; } if left.kind() == T![&] && right.kind() == SyntaxKind::LIFETIME { return None; } if right.kind() == SyntaxKind::GENERIC_ARG_LIST { return None; } if right.kind() == SyntaxKind::USE { let mut indent = IndentLevel::from_element(left); if left.kind() == SyntaxKind::USE { indent.0 = IndentLevel::from_element(right).0.max(indent.0); } return Some(make::tokens::whitespace(&format!("\n{indent}"))); } Some(make::tokens::single_space()) }