use itertools::Itertools; use ra_syntax::{ AstNode, SyntaxNode, SyntaxKind::*, ast::{self, AstToken}, algo::generate, }; pub fn reindent(text: &str, indent: &str) -> String { let indent = format!("\n{}", indent); text.lines().intersperse(&indent).collect() } /// If the node is on the beginning of the line, calculate indent. pub fn leading_indent(node: &SyntaxNode) -> Option<&str> { for leaf in prev_leaves(node) { if let Some(ws) = ast::Whitespace::cast(leaf) { let ws_text = ws.text(); if let Some(pos) = ws_text.rfind('\n') { return Some(&ws_text[pos + 1..]); } } if leaf.leaf_text().unwrap().contains('\n') { break; } } None } fn prev_leaves(node: &SyntaxNode) -> impl Iterator { generate(prev_leaf(node), |&node| prev_leaf(node)) } fn prev_leaf(node: &SyntaxNode) -> Option<&SyntaxNode> { generate(node.ancestors().find_map(SyntaxNode::prev_sibling), |it| it.last_child()).last() } pub fn extract_trivial_expression(block: &ast::Block) -> Option<&ast::Expr> { let expr = block.expr()?; if expr.syntax().text().contains('\n') { return None; } let non_trivial_children = block.syntax().children().filter(|it| match it.kind() { WHITESPACE | L_CURLY | R_CURLY => false, _ => it != &expr.syntax(), }); if non_trivial_children.count() > 0 { return None; } Some(expr) } pub(crate) fn compute_ws(left: &SyntaxNode, right: &SyntaxNode) -> &'static str { match left.kind() { L_PAREN | L_BRACK => return "", L_CURLY => { if let USE_TREE = right.kind() { return ""; } } _ => (), } match right.kind() { R_PAREN | R_BRACK => return "", R_CURLY => { if let USE_TREE = left.kind() { return ""; } } DOT => return "", _ => (), } " " }