use ra_syntax::{SourceFileNode, SyntaxKind, SyntaxNode, SyntaxNodeRef, TextRange}; use crate::db::SyntaxDatabase; use crate::FileId; pub(crate) fn resolve_syntax_ptr(db: &impl SyntaxDatabase, ptr: SyntaxPtr) -> SyntaxNode { let syntax = db.file_syntax(ptr.file_id); ptr.local.resolve(&syntax) } /// SyntaxPtr is a cheap `Copy` id which identifies a particular syntax node, /// without retaining syntax tree in memory. You need to explicitly `resolve` /// `SyntaxPtr` to get a `SyntaxNode` #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)] pub(crate) struct SyntaxPtr { file_id: FileId, local: LocalSyntaxPtr, } impl SyntaxPtr { pub(crate) fn new(file_id: FileId, node: SyntaxNodeRef) -> SyntaxPtr { let local = LocalSyntaxPtr::new(node); SyntaxPtr { file_id, local } } } /// A pionter to a syntax node inside a file. #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)] pub(crate) struct LocalSyntaxPtr { range: TextRange, kind: SyntaxKind, } impl LocalSyntaxPtr { pub(crate) fn new(node: SyntaxNodeRef) -> LocalSyntaxPtr { LocalSyntaxPtr { range: node.range(), kind: node.kind(), } } pub(crate) fn resolve(self, file: &SourceFileNode) -> SyntaxNode { let mut curr = file.syntax(); loop { if curr.range() == self.range && curr.kind() == self.kind { return curr.owned(); } curr = curr .children() .find(|it| self.range.is_subrange(&it.range())) .unwrap_or_else(|| panic!("can't resolve local ptr to SyntaxNode: {:?}", self)) } } pub(crate) fn range(self) -> TextRange { self.range } } #[test] fn test_local_syntax_ptr() { use ra_syntax::{ast, AstNode}; let file = SourceFileNode::parse("struct Foo { f: u32, }"); let field = file .syntax() .descendants() .find_map(ast::NamedFieldDef::cast) .unwrap(); let ptr = LocalSyntaxPtr::new(field.syntax()); let field_syntax = ptr.resolve(&file); assert_eq!(field.syntax(), field_syntax); }