// This file is automatically generated based on the file `./generated.rs.tera` when `cargo gen-syntax` is run // Do not edit manually #![cfg_attr(rustfmt, rustfmt_skip)] use crate::{ ast, SyntaxNode, SyntaxNodeRef, AstNode, SyntaxKind::*, }; // ArgList #[derive(Debug, Clone)] pub struct ArgListNode(SyntaxNode); impl ArgListNode { pub fn new(ast: ArgList) -> ArgListNode { let syntax = ast.syntax().owned(); ArgListNode(syntax) } pub fn ast(&self) -> ArgList { ArgList::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ArgList<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ArgList<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { ARG_LIST => Some(ArgList { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ArgList<'a> { pub fn args(self) -> impl Iterator> + 'a { super::children(self) } } // ArrayExpr #[derive(Debug, Clone)] pub struct ArrayExprNode(SyntaxNode); impl ArrayExprNode { pub fn new(ast: ArrayExpr) -> ArrayExprNode { let syntax = ast.syntax().owned(); ArrayExprNode(syntax) } pub fn ast(&self) -> ArrayExpr { ArrayExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ArrayExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ArrayExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { ARRAY_EXPR => Some(ArrayExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ArrayExpr<'a> {} // ArrayType #[derive(Debug, Clone)] pub struct ArrayTypeNode(SyntaxNode); impl ArrayTypeNode { pub fn new(ast: ArrayType) -> ArrayTypeNode { let syntax = ast.syntax().owned(); ArrayTypeNode(syntax) } pub fn ast(&self) -> ArrayType { ArrayType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ArrayType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ArrayType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { ARRAY_TYPE => Some(ArrayType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ArrayType<'a> {} // Attr #[derive(Debug, Clone)] pub struct AttrNode(SyntaxNode); impl AttrNode { pub fn new(ast: Attr) -> AttrNode { let syntax = ast.syntax().owned(); AttrNode(syntax) } pub fn ast(&self) -> Attr { Attr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct Attr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for Attr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { ATTR => Some(Attr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> Attr<'a> { pub fn value(self) -> Option> { super::child_opt(self) } } // BinExpr #[derive(Debug, Clone)] pub struct BinExprNode(SyntaxNode); impl BinExprNode { pub fn new(ast: BinExpr) -> BinExprNode { let syntax = ast.syntax().owned(); BinExprNode(syntax) } pub fn ast(&self) -> BinExpr { BinExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct BinExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for BinExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { BIN_EXPR => Some(BinExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> BinExpr<'a> {} // BindPat #[derive(Debug, Clone)] pub struct BindPatNode(SyntaxNode); impl BindPatNode { pub fn new(ast: BindPat) -> BindPatNode { let syntax = ast.syntax().owned(); BindPatNode(syntax) } pub fn ast(&self) -> BindPat { BindPat::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct BindPat<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for BindPat<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { BIND_PAT => Some(BindPat { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::NameOwner<'a> for BindPat<'a> {} impl<'a> BindPat<'a> {} // Block #[derive(Debug, Clone)] pub struct BlockNode(SyntaxNode); impl BlockNode { pub fn new(ast: Block) -> BlockNode { let syntax = ast.syntax().owned(); BlockNode(syntax) } pub fn ast(&self) -> Block { Block::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct Block<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for Block<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { BLOCK => Some(Block { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> Block<'a> { pub fn statements(self) -> impl Iterator> + 'a { super::children(self) } pub fn expr(self) -> Option> { super::child_opt(self) } } // BlockExpr #[derive(Debug, Clone)] pub struct BlockExprNode(SyntaxNode); impl BlockExprNode { pub fn new(ast: BlockExpr) -> BlockExprNode { let syntax = ast.syntax().owned(); BlockExprNode(syntax) } pub fn ast(&self) -> BlockExpr { BlockExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct BlockExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for BlockExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { BLOCK_EXPR => Some(BlockExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> BlockExpr<'a> { pub fn block(self) -> Option> { super::child_opt(self) } } // BreakExpr #[derive(Debug, Clone)] pub struct BreakExprNode(SyntaxNode); impl BreakExprNode { pub fn new(ast: BreakExpr) -> BreakExprNode { let syntax = ast.syntax().owned(); BreakExprNode(syntax) } pub fn ast(&self) -> BreakExpr { BreakExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct BreakExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for BreakExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { BREAK_EXPR => Some(BreakExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> BreakExpr<'a> {} // CallExpr #[derive(Debug, Clone)] pub struct CallExprNode(SyntaxNode); impl CallExprNode { pub fn new(ast: CallExpr) -> CallExprNode { let syntax = ast.syntax().owned(); CallExprNode(syntax) } pub fn ast(&self) -> CallExpr { CallExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct CallExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for CallExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { CALL_EXPR => Some(CallExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::ArgListOwner<'a> for CallExpr<'a> {} impl<'a> CallExpr<'a> { pub fn expr(self) -> Option> { super::child_opt(self) } } // CastExpr #[derive(Debug, Clone)] pub struct CastExprNode(SyntaxNode); impl CastExprNode { pub fn new(ast: CastExpr) -> CastExprNode { let syntax = ast.syntax().owned(); CastExprNode(syntax) } pub fn ast(&self) -> CastExpr { CastExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct CastExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for CastExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { CAST_EXPR => Some(CastExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> CastExpr<'a> {} // Comment #[derive(Debug, Clone)] pub struct CommentNode(SyntaxNode); impl CommentNode { pub fn new(ast: Comment) -> CommentNode { let syntax = ast.syntax().owned(); CommentNode(syntax) } pub fn ast(&self) -> Comment { Comment::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct Comment<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for Comment<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { COMMENT => Some(Comment { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> Comment<'a> {} // Condition #[derive(Debug, Clone)] pub struct ConditionNode(SyntaxNode); impl ConditionNode { pub fn new(ast: Condition) -> ConditionNode { let syntax = ast.syntax().owned(); ConditionNode(syntax) } pub fn ast(&self) -> Condition { Condition::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct Condition<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for Condition<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { CONDITION => Some(Condition { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> Condition<'a> { pub fn pat(self) -> Option> { super::child_opt(self) } pub fn expr(self) -> Option> { super::child_opt(self) } } // ConstDef #[derive(Debug, Clone)] pub struct ConstDefNode(SyntaxNode); impl ConstDefNode { pub fn new(ast: ConstDef) -> ConstDefNode { let syntax = ast.syntax().owned(); ConstDefNode(syntax) } pub fn ast(&self) -> ConstDef { ConstDef::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ConstDef<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ConstDef<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { CONST_DEF => Some(ConstDef { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::NameOwner<'a> for ConstDef<'a> {} impl<'a> ast::TypeParamsOwner<'a> for ConstDef<'a> {} impl<'a> ast::AttrsOwner<'a> for ConstDef<'a> {} impl<'a> ConstDef<'a> {} // ContinueExpr #[derive(Debug, Clone)] pub struct ContinueExprNode(SyntaxNode); impl ContinueExprNode { pub fn new(ast: ContinueExpr) -> ContinueExprNode { let syntax = ast.syntax().owned(); ContinueExprNode(syntax) } pub fn ast(&self) -> ContinueExpr { ContinueExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ContinueExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ContinueExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { CONTINUE_EXPR => Some(ContinueExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ContinueExpr<'a> {} // DynTraitType #[derive(Debug, Clone)] pub struct DynTraitTypeNode(SyntaxNode); impl DynTraitTypeNode { pub fn new(ast: DynTraitType) -> DynTraitTypeNode { let syntax = ast.syntax().owned(); DynTraitTypeNode(syntax) } pub fn ast(&self) -> DynTraitType { DynTraitType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct DynTraitType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for DynTraitType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { DYN_TRAIT_TYPE => Some(DynTraitType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> DynTraitType<'a> {} // EnumDef #[derive(Debug, Clone)] pub struct EnumDefNode(SyntaxNode); impl EnumDefNode { pub fn new(ast: EnumDef) -> EnumDefNode { let syntax = ast.syntax().owned(); EnumDefNode(syntax) } pub fn ast(&self) -> EnumDef { EnumDef::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct EnumDef<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for EnumDef<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { ENUM_DEF => Some(EnumDef { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::NameOwner<'a> for EnumDef<'a> {} impl<'a> ast::TypeParamsOwner<'a> for EnumDef<'a> {} impl<'a> ast::AttrsOwner<'a> for EnumDef<'a> {} impl<'a> EnumDef<'a> {} // Expr #[derive(Debug, Clone)] pub struct ExprNode(SyntaxNode); impl ExprNode { pub fn new(ast: Expr) -> ExprNode { let syntax = ast.syntax().owned(); ExprNode(syntax) } pub fn ast(&self) -> Expr { Expr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub enum Expr<'a> { TupleExpr(TupleExpr<'a>), ArrayExpr(ArrayExpr<'a>), ParenExpr(ParenExpr<'a>), PathExpr(PathExpr<'a>), LambdaExpr(LambdaExpr<'a>), IfExpr(IfExpr<'a>), LoopExpr(LoopExpr<'a>), ForExpr(ForExpr<'a>), WhileExpr(WhileExpr<'a>), ContinueExpr(ContinueExpr<'a>), BreakExpr(BreakExpr<'a>), Label(Label<'a>), BlockExpr(BlockExpr<'a>), ReturnExpr(ReturnExpr<'a>), MatchExpr(MatchExpr<'a>), MatchArmList(MatchArmList<'a>), MatchArm(MatchArm<'a>), MatchGuard(MatchGuard<'a>), StructLit(StructLit<'a>), NamedFieldList(NamedFieldList<'a>), NamedField(NamedField<'a>), CallExpr(CallExpr<'a>), IndexExpr(IndexExpr<'a>), MethodCallExpr(MethodCallExpr<'a>), FieldExpr(FieldExpr<'a>), TryExpr(TryExpr<'a>), CastExpr(CastExpr<'a>), RefExpr(RefExpr<'a>), PrefixExpr(PrefixExpr<'a>), RangeExpr(RangeExpr<'a>), BinExpr(BinExpr<'a>), Literal(Literal<'a>), } impl<'a> AstNode<'a> for Expr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { TUPLE_EXPR => Some(Expr::TupleExpr(TupleExpr { syntax })), ARRAY_EXPR => Some(Expr::ArrayExpr(ArrayExpr { syntax })), PAREN_EXPR => Some(Expr::ParenExpr(ParenExpr { syntax })), PATH_EXPR => Some(Expr::PathExpr(PathExpr { syntax })), LAMBDA_EXPR => Some(Expr::LambdaExpr(LambdaExpr { syntax })), IF_EXPR => Some(Expr::IfExpr(IfExpr { syntax })), LOOP_EXPR => Some(Expr::LoopExpr(LoopExpr { syntax })), FOR_EXPR => Some(Expr::ForExpr(ForExpr { syntax })), WHILE_EXPR => Some(Expr::WhileExpr(WhileExpr { syntax })), CONTINUE_EXPR => Some(Expr::ContinueExpr(ContinueExpr { syntax })), BREAK_EXPR => Some(Expr::BreakExpr(BreakExpr { syntax })), LABEL => Some(Expr::Label(Label { syntax })), BLOCK_EXPR => Some(Expr::BlockExpr(BlockExpr { syntax })), RETURN_EXPR => Some(Expr::ReturnExpr(ReturnExpr { syntax })), MATCH_EXPR => Some(Expr::MatchExpr(MatchExpr { syntax })), MATCH_ARM_LIST => Some(Expr::MatchArmList(MatchArmList { syntax })), MATCH_ARM => Some(Expr::MatchArm(MatchArm { syntax })), MATCH_GUARD => Some(Expr::MatchGuard(MatchGuard { syntax })), STRUCT_LIT => Some(Expr::StructLit(StructLit { syntax })), NAMED_FIELD_LIST => Some(Expr::NamedFieldList(NamedFieldList { syntax })), NAMED_FIELD => Some(Expr::NamedField(NamedField { syntax })), CALL_EXPR => Some(Expr::CallExpr(CallExpr { syntax })), INDEX_EXPR => Some(Expr::IndexExpr(IndexExpr { syntax })), METHOD_CALL_EXPR => Some(Expr::MethodCallExpr(MethodCallExpr { syntax })), FIELD_EXPR => Some(Expr::FieldExpr(FieldExpr { syntax })), TRY_EXPR => Some(Expr::TryExpr(TryExpr { syntax })), CAST_EXPR => Some(Expr::CastExpr(CastExpr { syntax })), REF_EXPR => Some(Expr::RefExpr(RefExpr { syntax })), PREFIX_EXPR => Some(Expr::PrefixExpr(PrefixExpr { syntax })), RANGE_EXPR => Some(Expr::RangeExpr(RangeExpr { syntax })), BIN_EXPR => Some(Expr::BinExpr(BinExpr { syntax })), LITERAL => Some(Expr::Literal(Literal { syntax })), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { match self { Expr::TupleExpr(inner) => inner.syntax(), Expr::ArrayExpr(inner) => inner.syntax(), Expr::ParenExpr(inner) => inner.syntax(), Expr::PathExpr(inner) => inner.syntax(), Expr::LambdaExpr(inner) => inner.syntax(), Expr::IfExpr(inner) => inner.syntax(), Expr::LoopExpr(inner) => inner.syntax(), Expr::ForExpr(inner) => inner.syntax(), Expr::WhileExpr(inner) => inner.syntax(), Expr::ContinueExpr(inner) => inner.syntax(), Expr::BreakExpr(inner) => inner.syntax(), Expr::Label(inner) => inner.syntax(), Expr::BlockExpr(inner) => inner.syntax(), Expr::ReturnExpr(inner) => inner.syntax(), Expr::MatchExpr(inner) => inner.syntax(), Expr::MatchArmList(inner) => inner.syntax(), Expr::MatchArm(inner) => inner.syntax(), Expr::MatchGuard(inner) => inner.syntax(), Expr::StructLit(inner) => inner.syntax(), Expr::NamedFieldList(inner) => inner.syntax(), Expr::NamedField(inner) => inner.syntax(), Expr::CallExpr(inner) => inner.syntax(), Expr::IndexExpr(inner) => inner.syntax(), Expr::MethodCallExpr(inner) => inner.syntax(), Expr::FieldExpr(inner) => inner.syntax(), Expr::TryExpr(inner) => inner.syntax(), Expr::CastExpr(inner) => inner.syntax(), Expr::RefExpr(inner) => inner.syntax(), Expr::PrefixExpr(inner) => inner.syntax(), Expr::RangeExpr(inner) => inner.syntax(), Expr::BinExpr(inner) => inner.syntax(), Expr::Literal(inner) => inner.syntax(), } } } impl<'a> Expr<'a> {} // ExprStmt #[derive(Debug, Clone)] pub struct ExprStmtNode(SyntaxNode); impl ExprStmtNode { pub fn new(ast: ExprStmt) -> ExprStmtNode { let syntax = ast.syntax().owned(); ExprStmtNode(syntax) } pub fn ast(&self) -> ExprStmt { ExprStmt::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ExprStmt<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ExprStmt<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { EXPR_STMT => Some(ExprStmt { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ExprStmt<'a> { pub fn expr(self) -> Option> { super::child_opt(self) } } // ExternCrateItem #[derive(Debug, Clone)] pub struct ExternCrateItemNode(SyntaxNode); impl ExternCrateItemNode { pub fn new(ast: ExternCrateItem) -> ExternCrateItemNode { let syntax = ast.syntax().owned(); ExternCrateItemNode(syntax) } pub fn ast(&self) -> ExternCrateItem { ExternCrateItem::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ExternCrateItem<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ExternCrateItem<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { EXTERN_CRATE_ITEM => Some(ExternCrateItem { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ExternCrateItem<'a> {} // FieldExpr #[derive(Debug, Clone)] pub struct FieldExprNode(SyntaxNode); impl FieldExprNode { pub fn new(ast: FieldExpr) -> FieldExprNode { let syntax = ast.syntax().owned(); FieldExprNode(syntax) } pub fn ast(&self) -> FieldExpr { FieldExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct FieldExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for FieldExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { FIELD_EXPR => Some(FieldExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> FieldExpr<'a> {} // FieldPatList #[derive(Debug, Clone)] pub struct FieldPatListNode(SyntaxNode); impl FieldPatListNode { pub fn new(ast: FieldPatList) -> FieldPatListNode { let syntax = ast.syntax().owned(); FieldPatListNode(syntax) } pub fn ast(&self) -> FieldPatList { FieldPatList::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct FieldPatList<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for FieldPatList<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { FIELD_PAT_LIST => Some(FieldPatList { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> FieldPatList<'a> {} // FnDef #[derive(Debug, Clone)] pub struct FnDefNode(SyntaxNode); impl FnDefNode { pub fn new(ast: FnDef) -> FnDefNode { let syntax = ast.syntax().owned(); FnDefNode(syntax) } pub fn ast(&self) -> FnDef { FnDef::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct FnDef<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for FnDef<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { FN_DEF => Some(FnDef { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::NameOwner<'a> for FnDef<'a> {} impl<'a> ast::TypeParamsOwner<'a> for FnDef<'a> {} impl<'a> ast::AttrsOwner<'a> for FnDef<'a> {} impl<'a> FnDef<'a> { pub fn param_list(self) -> Option> { super::child_opt(self) } pub fn body(self) -> Option> { super::child_opt(self) } pub fn ret_type(self) -> Option> { super::child_opt(self) } } // FnPointerType #[derive(Debug, Clone)] pub struct FnPointerTypeNode(SyntaxNode); impl FnPointerTypeNode { pub fn new(ast: FnPointerType) -> FnPointerTypeNode { let syntax = ast.syntax().owned(); FnPointerTypeNode(syntax) } pub fn ast(&self) -> FnPointerType { FnPointerType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct FnPointerType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for FnPointerType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { FN_POINTER_TYPE => Some(FnPointerType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> FnPointerType<'a> {} // ForExpr #[derive(Debug, Clone)] pub struct ForExprNode(SyntaxNode); impl ForExprNode { pub fn new(ast: ForExpr) -> ForExprNode { let syntax = ast.syntax().owned(); ForExprNode(syntax) } pub fn ast(&self) -> ForExpr { ForExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ForExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ForExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { FOR_EXPR => Some(ForExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::LoopBodyOwner<'a> for ForExpr<'a> {} impl<'a> ForExpr<'a> { pub fn pat(self) -> Option> { super::child_opt(self) } pub fn iterable(self) -> Option> { super::child_opt(self) } } // ForType #[derive(Debug, Clone)] pub struct ForTypeNode(SyntaxNode); impl ForTypeNode { pub fn new(ast: ForType) -> ForTypeNode { let syntax = ast.syntax().owned(); ForTypeNode(syntax) } pub fn ast(&self) -> ForType { ForType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ForType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ForType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { FOR_TYPE => Some(ForType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ForType<'a> {} // IfExpr #[derive(Debug, Clone)] pub struct IfExprNode(SyntaxNode); impl IfExprNode { pub fn new(ast: IfExpr) -> IfExprNode { let syntax = ast.syntax().owned(); IfExprNode(syntax) } pub fn ast(&self) -> IfExpr { IfExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct IfExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for IfExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { IF_EXPR => Some(IfExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> IfExpr<'a> { pub fn condition(self) -> Option> { super::child_opt(self) } } // ImplItem #[derive(Debug, Clone)] pub struct ImplItemNode(SyntaxNode); impl ImplItemNode { pub fn new(ast: ImplItem) -> ImplItemNode { let syntax = ast.syntax().owned(); ImplItemNode(syntax) } pub fn ast(&self) -> ImplItem { ImplItem::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ImplItem<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ImplItem<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { IMPL_ITEM => Some(ImplItem { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ImplItem<'a> {} // ImplTraitType #[derive(Debug, Clone)] pub struct ImplTraitTypeNode(SyntaxNode); impl ImplTraitTypeNode { pub fn new(ast: ImplTraitType) -> ImplTraitTypeNode { let syntax = ast.syntax().owned(); ImplTraitTypeNode(syntax) } pub fn ast(&self) -> ImplTraitType { ImplTraitType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ImplTraitType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ImplTraitType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { IMPL_TRAIT_TYPE => Some(ImplTraitType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ImplTraitType<'a> {} // IndexExpr #[derive(Debug, Clone)] pub struct IndexExprNode(SyntaxNode); impl IndexExprNode { pub fn new(ast: IndexExpr) -> IndexExprNode { let syntax = ast.syntax().owned(); IndexExprNode(syntax) } pub fn ast(&self) -> IndexExpr { IndexExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct IndexExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for IndexExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { INDEX_EXPR => Some(IndexExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> IndexExpr<'a> {} // ItemList #[derive(Debug, Clone)] pub struct ItemListNode(SyntaxNode); impl ItemListNode { pub fn new(ast: ItemList) -> ItemListNode { let syntax = ast.syntax().owned(); ItemListNode(syntax) } pub fn ast(&self) -> ItemList { ItemList::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ItemList<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ItemList<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { ITEM_LIST => Some(ItemList { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::FnDefOwner<'a> for ItemList<'a> {} impl<'a> ast::ModuleItemOwner<'a> for ItemList<'a> {} impl<'a> ItemList<'a> {} // Label #[derive(Debug, Clone)] pub struct LabelNode(SyntaxNode); impl LabelNode { pub fn new(ast: Label) -> LabelNode { let syntax = ast.syntax().owned(); LabelNode(syntax) } pub fn ast(&self) -> Label { Label::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct Label<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for Label<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { LABEL => Some(Label { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> Label<'a> {} // LambdaExpr #[derive(Debug, Clone)] pub struct LambdaExprNode(SyntaxNode); impl LambdaExprNode { pub fn new(ast: LambdaExpr) -> LambdaExprNode { let syntax = ast.syntax().owned(); LambdaExprNode(syntax) } pub fn ast(&self) -> LambdaExpr { LambdaExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct LambdaExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for LambdaExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { LAMBDA_EXPR => Some(LambdaExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> LambdaExpr<'a> { pub fn param_list(self) -> Option> { super::child_opt(self) } pub fn body(self) -> Option> { super::child_opt(self) } } // LetStmt #[derive(Debug, Clone)] pub struct LetStmtNode(SyntaxNode); impl LetStmtNode { pub fn new(ast: LetStmt) -> LetStmtNode { let syntax = ast.syntax().owned(); LetStmtNode(syntax) } pub fn ast(&self) -> LetStmt { LetStmt::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct LetStmt<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for LetStmt<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { LET_STMT => Some(LetStmt { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> LetStmt<'a> { pub fn pat(self) -> Option> { super::child_opt(self) } pub fn initializer(self) -> Option> { super::child_opt(self) } } // Lifetime #[derive(Debug, Clone)] pub struct LifetimeNode(SyntaxNode); impl LifetimeNode { pub fn new(ast: Lifetime) -> LifetimeNode { let syntax = ast.syntax().owned(); LifetimeNode(syntax) } pub fn ast(&self) -> Lifetime { Lifetime::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct Lifetime<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for Lifetime<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { LIFETIME => Some(Lifetime { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> Lifetime<'a> {} // LifetimeParam #[derive(Debug, Clone)] pub struct LifetimeParamNode(SyntaxNode); impl LifetimeParamNode { pub fn new(ast: LifetimeParam) -> LifetimeParamNode { let syntax = ast.syntax().owned(); LifetimeParamNode(syntax) } pub fn ast(&self) -> LifetimeParam { LifetimeParam::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct LifetimeParam<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for LifetimeParam<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { LIFETIME_PARAM => Some(LifetimeParam { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> LifetimeParam<'a> { pub fn lifetime(self) -> Option> { super::child_opt(self) } } // Literal #[derive(Debug, Clone)] pub struct LiteralNode(SyntaxNode); impl LiteralNode { pub fn new(ast: Literal) -> LiteralNode { let syntax = ast.syntax().owned(); LiteralNode(syntax) } pub fn ast(&self) -> Literal { Literal::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct Literal<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for Literal<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { LITERAL => Some(Literal { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> Literal<'a> {} // LoopExpr #[derive(Debug, Clone)] pub struct LoopExprNode(SyntaxNode); impl LoopExprNode { pub fn new(ast: LoopExpr) -> LoopExprNode { let syntax = ast.syntax().owned(); LoopExprNode(syntax) } pub fn ast(&self) -> LoopExpr { LoopExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct LoopExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for LoopExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { LOOP_EXPR => Some(LoopExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::LoopBodyOwner<'a> for LoopExpr<'a> {} impl<'a> LoopExpr<'a> {} // MatchArm #[derive(Debug, Clone)] pub struct MatchArmNode(SyntaxNode); impl MatchArmNode { pub fn new(ast: MatchArm) -> MatchArmNode { let syntax = ast.syntax().owned(); MatchArmNode(syntax) } pub fn ast(&self) -> MatchArm { MatchArm::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct MatchArm<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for MatchArm<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { MATCH_ARM => Some(MatchArm { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> MatchArm<'a> { pub fn pats(self) -> impl Iterator> + 'a { super::children(self) } pub fn guard(self) -> Option> { super::child_opt(self) } pub fn expr(self) -> Option> { super::child_opt(self) } } // MatchArmList #[derive(Debug, Clone)] pub struct MatchArmListNode(SyntaxNode); impl MatchArmListNode { pub fn new(ast: MatchArmList) -> MatchArmListNode { let syntax = ast.syntax().owned(); MatchArmListNode(syntax) } pub fn ast(&self) -> MatchArmList { MatchArmList::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct MatchArmList<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for MatchArmList<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { MATCH_ARM_LIST => Some(MatchArmList { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> MatchArmList<'a> { pub fn arms(self) -> impl Iterator> + 'a { super::children(self) } } // MatchExpr #[derive(Debug, Clone)] pub struct MatchExprNode(SyntaxNode); impl MatchExprNode { pub fn new(ast: MatchExpr) -> MatchExprNode { let syntax = ast.syntax().owned(); MatchExprNode(syntax) } pub fn ast(&self) -> MatchExpr { MatchExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct MatchExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for MatchExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { MATCH_EXPR => Some(MatchExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> MatchExpr<'a> { pub fn expr(self) -> Option> { super::child_opt(self) } pub fn match_arm_list(self) -> Option> { super::child_opt(self) } } // MatchGuard #[derive(Debug, Clone)] pub struct MatchGuardNode(SyntaxNode); impl MatchGuardNode { pub fn new(ast: MatchGuard) -> MatchGuardNode { let syntax = ast.syntax().owned(); MatchGuardNode(syntax) } pub fn ast(&self) -> MatchGuard { MatchGuard::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct MatchGuard<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for MatchGuard<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { MATCH_GUARD => Some(MatchGuard { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> MatchGuard<'a> {} // MethodCallExpr #[derive(Debug, Clone)] pub struct MethodCallExprNode(SyntaxNode); impl MethodCallExprNode { pub fn new(ast: MethodCallExpr) -> MethodCallExprNode { let syntax = ast.syntax().owned(); MethodCallExprNode(syntax) } pub fn ast(&self) -> MethodCallExpr { MethodCallExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct MethodCallExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for MethodCallExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { METHOD_CALL_EXPR => Some(MethodCallExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::ArgListOwner<'a> for MethodCallExpr<'a> {} impl<'a> MethodCallExpr<'a> { pub fn expr(self) -> Option> { super::child_opt(self) } } // Module #[derive(Debug, Clone)] pub struct ModuleNode(SyntaxNode); impl ModuleNode { pub fn new(ast: Module) -> ModuleNode { let syntax = ast.syntax().owned(); ModuleNode(syntax) } pub fn ast(&self) -> Module { Module::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct Module<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for Module<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { MODULE => Some(Module { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::NameOwner<'a> for Module<'a> {} impl<'a> ast::AttrsOwner<'a> for Module<'a> {} impl<'a> Module<'a> { pub fn item_list(self) -> Option> { super::child_opt(self) } } // ModuleItem #[derive(Debug, Clone)] pub struct ModuleItemNode(SyntaxNode); impl ModuleItemNode { pub fn new(ast: ModuleItem) -> ModuleItemNode { let syntax = ast.syntax().owned(); ModuleItemNode(syntax) } pub fn ast(&self) -> ModuleItem { ModuleItem::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub enum ModuleItem<'a> { StructDef(StructDef<'a>), EnumDef(EnumDef<'a>), FnDef(FnDef<'a>), TraitDef(TraitDef<'a>), TypeDef(TypeDef<'a>), ImplItem(ImplItem<'a>), UseItem(UseItem<'a>), ExternCrateItem(ExternCrateItem<'a>), ConstDef(ConstDef<'a>), StaticDef(StaticDef<'a>), Module(Module<'a>), } impl<'a> AstNode<'a> for ModuleItem<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { STRUCT_DEF => Some(ModuleItem::StructDef(StructDef { syntax })), ENUM_DEF => Some(ModuleItem::EnumDef(EnumDef { syntax })), FN_DEF => Some(ModuleItem::FnDef(FnDef { syntax })), TRAIT_DEF => Some(ModuleItem::TraitDef(TraitDef { syntax })), TYPE_DEF => Some(ModuleItem::TypeDef(TypeDef { syntax })), IMPL_ITEM => Some(ModuleItem::ImplItem(ImplItem { syntax })), USE_ITEM => Some(ModuleItem::UseItem(UseItem { syntax })), EXTERN_CRATE_ITEM => Some(ModuleItem::ExternCrateItem(ExternCrateItem { syntax })), CONST_DEF => Some(ModuleItem::ConstDef(ConstDef { syntax })), STATIC_DEF => Some(ModuleItem::StaticDef(StaticDef { syntax })), MODULE => Some(ModuleItem::Module(Module { syntax })), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { match self { ModuleItem::StructDef(inner) => inner.syntax(), ModuleItem::EnumDef(inner) => inner.syntax(), ModuleItem::FnDef(inner) => inner.syntax(), ModuleItem::TraitDef(inner) => inner.syntax(), ModuleItem::TypeDef(inner) => inner.syntax(), ModuleItem::ImplItem(inner) => inner.syntax(), ModuleItem::UseItem(inner) => inner.syntax(), ModuleItem::ExternCrateItem(inner) => inner.syntax(), ModuleItem::ConstDef(inner) => inner.syntax(), ModuleItem::StaticDef(inner) => inner.syntax(), ModuleItem::Module(inner) => inner.syntax(), } } } impl<'a> ModuleItem<'a> {} // Name #[derive(Debug, Clone)] pub struct NameNode(SyntaxNode); impl NameNode { pub fn new(ast: Name) -> NameNode { let syntax = ast.syntax().owned(); NameNode(syntax) } pub fn ast(&self) -> Name { Name::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct Name<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for Name<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { NAME => Some(Name { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> Name<'a> {} // NameRef #[derive(Debug, Clone)] pub struct NameRefNode(SyntaxNode); impl NameRefNode { pub fn new(ast: NameRef) -> NameRefNode { let syntax = ast.syntax().owned(); NameRefNode(syntax) } pub fn ast(&self) -> NameRef { NameRef::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct NameRef<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for NameRef<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { NAME_REF => Some(NameRef { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> NameRef<'a> {} // NamedField #[derive(Debug, Clone)] pub struct NamedFieldNode(SyntaxNode); impl NamedFieldNode { pub fn new(ast: NamedField) -> NamedFieldNode { let syntax = ast.syntax().owned(); NamedFieldNode(syntax) } pub fn ast(&self) -> NamedField { NamedField::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct NamedField<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for NamedField<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { NAMED_FIELD => Some(NamedField { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> NamedField<'a> {} // NamedFieldDef #[derive(Debug, Clone)] pub struct NamedFieldDefNode(SyntaxNode); impl NamedFieldDefNode { pub fn new(ast: NamedFieldDef) -> NamedFieldDefNode { let syntax = ast.syntax().owned(); NamedFieldDefNode(syntax) } pub fn ast(&self) -> NamedFieldDef { NamedFieldDef::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct NamedFieldDef<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for NamedFieldDef<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { NAMED_FIELD_DEF => Some(NamedFieldDef { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::NameOwner<'a> for NamedFieldDef<'a> {} impl<'a> ast::AttrsOwner<'a> for NamedFieldDef<'a> {} impl<'a> NamedFieldDef<'a> {} // NamedFieldList #[derive(Debug, Clone)] pub struct NamedFieldListNode(SyntaxNode); impl NamedFieldListNode { pub fn new(ast: NamedFieldList) -> NamedFieldListNode { let syntax = ast.syntax().owned(); NamedFieldListNode(syntax) } pub fn ast(&self) -> NamedFieldList { NamedFieldList::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct NamedFieldList<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for NamedFieldList<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { NAMED_FIELD_LIST => Some(NamedFieldList { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> NamedFieldList<'a> {} // NeverType #[derive(Debug, Clone)] pub struct NeverTypeNode(SyntaxNode); impl NeverTypeNode { pub fn new(ast: NeverType) -> NeverTypeNode { let syntax = ast.syntax().owned(); NeverTypeNode(syntax) } pub fn ast(&self) -> NeverType { NeverType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct NeverType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for NeverType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { NEVER_TYPE => Some(NeverType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> NeverType<'a> {} // NominalDef #[derive(Debug, Clone)] pub struct NominalDefNode(SyntaxNode); impl NominalDefNode { pub fn new(ast: NominalDef) -> NominalDefNode { let syntax = ast.syntax().owned(); NominalDefNode(syntax) } pub fn ast(&self) -> NominalDef { NominalDef::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub enum NominalDef<'a> { StructDef(StructDef<'a>), EnumDef(EnumDef<'a>), } impl<'a> AstNode<'a> for NominalDef<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { STRUCT_DEF => Some(NominalDef::StructDef(StructDef { syntax })), ENUM_DEF => Some(NominalDef::EnumDef(EnumDef { syntax })), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { match self { NominalDef::StructDef(inner) => inner.syntax(), NominalDef::EnumDef(inner) => inner.syntax(), } } } impl<'a> ast::NameOwner<'a> for NominalDef<'a> {} impl<'a> ast::TypeParamsOwner<'a> for NominalDef<'a> {} impl<'a> ast::AttrsOwner<'a> for NominalDef<'a> {} impl<'a> NominalDef<'a> {} // Param #[derive(Debug, Clone)] pub struct ParamNode(SyntaxNode); impl ParamNode { pub fn new(ast: Param) -> ParamNode { let syntax = ast.syntax().owned(); ParamNode(syntax) } pub fn ast(&self) -> Param { Param::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct Param<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for Param<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { PARAM => Some(Param { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> Param<'a> { pub fn pat(self) -> Option> { super::child_opt(self) } } // ParamList #[derive(Debug, Clone)] pub struct ParamListNode(SyntaxNode); impl ParamListNode { pub fn new(ast: ParamList) -> ParamListNode { let syntax = ast.syntax().owned(); ParamListNode(syntax) } pub fn ast(&self) -> ParamList { ParamList::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ParamList<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ParamList<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { PARAM_LIST => Some(ParamList { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ParamList<'a> { pub fn params(self) -> impl Iterator> + 'a { super::children(self) } pub fn self_param(self) -> Option> { super::child_opt(self) } } // ParenExpr #[derive(Debug, Clone)] pub struct ParenExprNode(SyntaxNode); impl ParenExprNode { pub fn new(ast: ParenExpr) -> ParenExprNode { let syntax = ast.syntax().owned(); ParenExprNode(syntax) } pub fn ast(&self) -> ParenExpr { ParenExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ParenExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ParenExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { PAREN_EXPR => Some(ParenExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ParenExpr<'a> {} // ParenType #[derive(Debug, Clone)] pub struct ParenTypeNode(SyntaxNode); impl ParenTypeNode { pub fn new(ast: ParenType) -> ParenTypeNode { let syntax = ast.syntax().owned(); ParenTypeNode(syntax) } pub fn ast(&self) -> ParenType { ParenType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ParenType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ParenType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { PAREN_TYPE => Some(ParenType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ParenType<'a> {} // Pat #[derive(Debug, Clone)] pub struct PatNode(SyntaxNode); impl PatNode { pub fn new(ast: Pat) -> PatNode { let syntax = ast.syntax().owned(); PatNode(syntax) } pub fn ast(&self) -> Pat { Pat::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub enum Pat<'a> { RefPat(RefPat<'a>), BindPat(BindPat<'a>), PlaceholderPat(PlaceholderPat<'a>), PathPat(PathPat<'a>), StructPat(StructPat<'a>), FieldPatList(FieldPatList<'a>), TupleStructPat(TupleStructPat<'a>), TuplePat(TuplePat<'a>), SlicePat(SlicePat<'a>), RangePat(RangePat<'a>), } impl<'a> AstNode<'a> for Pat<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { REF_PAT => Some(Pat::RefPat(RefPat { syntax })), BIND_PAT => Some(Pat::BindPat(BindPat { syntax })), PLACEHOLDER_PAT => Some(Pat::PlaceholderPat(PlaceholderPat { syntax })), PATH_PAT => Some(Pat::PathPat(PathPat { syntax })), STRUCT_PAT => Some(Pat::StructPat(StructPat { syntax })), FIELD_PAT_LIST => Some(Pat::FieldPatList(FieldPatList { syntax })), TUPLE_STRUCT_PAT => Some(Pat::TupleStructPat(TupleStructPat { syntax })), TUPLE_PAT => Some(Pat::TuplePat(TuplePat { syntax })), SLICE_PAT => Some(Pat::SlicePat(SlicePat { syntax })), RANGE_PAT => Some(Pat::RangePat(RangePat { syntax })), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { match self { Pat::RefPat(inner) => inner.syntax(), Pat::BindPat(inner) => inner.syntax(), Pat::PlaceholderPat(inner) => inner.syntax(), Pat::PathPat(inner) => inner.syntax(), Pat::StructPat(inner) => inner.syntax(), Pat::FieldPatList(inner) => inner.syntax(), Pat::TupleStructPat(inner) => inner.syntax(), Pat::TuplePat(inner) => inner.syntax(), Pat::SlicePat(inner) => inner.syntax(), Pat::RangePat(inner) => inner.syntax(), } } } impl<'a> Pat<'a> {} // Path #[derive(Debug, Clone)] pub struct PathNode(SyntaxNode); impl PathNode { pub fn new(ast: Path) -> PathNode { let syntax = ast.syntax().owned(); PathNode(syntax) } pub fn ast(&self) -> Path { Path::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct Path<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for Path<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { PATH => Some(Path { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> Path<'a> { pub fn segment(self) -> Option> { super::child_opt(self) } pub fn qualifier(self) -> Option> { super::child_opt(self) } } // PathExpr #[derive(Debug, Clone)] pub struct PathExprNode(SyntaxNode); impl PathExprNode { pub fn new(ast: PathExpr) -> PathExprNode { let syntax = ast.syntax().owned(); PathExprNode(syntax) } pub fn ast(&self) -> PathExpr { PathExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct PathExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for PathExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { PATH_EXPR => Some(PathExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> PathExpr<'a> { pub fn path(self) -> Option> { super::child_opt(self) } } // PathPat #[derive(Debug, Clone)] pub struct PathPatNode(SyntaxNode); impl PathPatNode { pub fn new(ast: PathPat) -> PathPatNode { let syntax = ast.syntax().owned(); PathPatNode(syntax) } pub fn ast(&self) -> PathPat { PathPat::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct PathPat<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for PathPat<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { PATH_PAT => Some(PathPat { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> PathPat<'a> {} // PathSegment #[derive(Debug, Clone)] pub struct PathSegmentNode(SyntaxNode); impl PathSegmentNode { pub fn new(ast: PathSegment) -> PathSegmentNode { let syntax = ast.syntax().owned(); PathSegmentNode(syntax) } pub fn ast(&self) -> PathSegment { PathSegment::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct PathSegment<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for PathSegment<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { PATH_SEGMENT => Some(PathSegment { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> PathSegment<'a> { pub fn name_ref(self) -> Option> { super::child_opt(self) } } // PathType #[derive(Debug, Clone)] pub struct PathTypeNode(SyntaxNode); impl PathTypeNode { pub fn new(ast: PathType) -> PathTypeNode { let syntax = ast.syntax().owned(); PathTypeNode(syntax) } pub fn ast(&self) -> PathType { PathType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct PathType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for PathType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { PATH_TYPE => Some(PathType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> PathType<'a> {} // PlaceholderPat #[derive(Debug, Clone)] pub struct PlaceholderPatNode(SyntaxNode); impl PlaceholderPatNode { pub fn new(ast: PlaceholderPat) -> PlaceholderPatNode { let syntax = ast.syntax().owned(); PlaceholderPatNode(syntax) } pub fn ast(&self) -> PlaceholderPat { PlaceholderPat::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct PlaceholderPat<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for PlaceholderPat<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { PLACEHOLDER_PAT => Some(PlaceholderPat { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> PlaceholderPat<'a> {} // PlaceholderType #[derive(Debug, Clone)] pub struct PlaceholderTypeNode(SyntaxNode); impl PlaceholderTypeNode { pub fn new(ast: PlaceholderType) -> PlaceholderTypeNode { let syntax = ast.syntax().owned(); PlaceholderTypeNode(syntax) } pub fn ast(&self) -> PlaceholderType { PlaceholderType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct PlaceholderType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for PlaceholderType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { PLACEHOLDER_TYPE => Some(PlaceholderType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> PlaceholderType<'a> {} // PointerType #[derive(Debug, Clone)] pub struct PointerTypeNode(SyntaxNode); impl PointerTypeNode { pub fn new(ast: PointerType) -> PointerTypeNode { let syntax = ast.syntax().owned(); PointerTypeNode(syntax) } pub fn ast(&self) -> PointerType { PointerType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct PointerType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for PointerType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { POINTER_TYPE => Some(PointerType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> PointerType<'a> {} // PrefixExpr #[derive(Debug, Clone)] pub struct PrefixExprNode(SyntaxNode); impl PrefixExprNode { pub fn new(ast: PrefixExpr) -> PrefixExprNode { let syntax = ast.syntax().owned(); PrefixExprNode(syntax) } pub fn ast(&self) -> PrefixExpr { PrefixExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct PrefixExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for PrefixExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { PREFIX_EXPR => Some(PrefixExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> PrefixExpr<'a> {} // RangeExpr #[derive(Debug, Clone)] pub struct RangeExprNode(SyntaxNode); impl RangeExprNode { pub fn new(ast: RangeExpr) -> RangeExprNode { let syntax = ast.syntax().owned(); RangeExprNode(syntax) } pub fn ast(&self) -> RangeExpr { RangeExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct RangeExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for RangeExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { RANGE_EXPR => Some(RangeExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> RangeExpr<'a> {} // RangePat #[derive(Debug, Clone)] pub struct RangePatNode(SyntaxNode); impl RangePatNode { pub fn new(ast: RangePat) -> RangePatNode { let syntax = ast.syntax().owned(); RangePatNode(syntax) } pub fn ast(&self) -> RangePat { RangePat::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct RangePat<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for RangePat<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { RANGE_PAT => Some(RangePat { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> RangePat<'a> {} // RefExpr #[derive(Debug, Clone)] pub struct RefExprNode(SyntaxNode); impl RefExprNode { pub fn new(ast: RefExpr) -> RefExprNode { let syntax = ast.syntax().owned(); RefExprNode(syntax) } pub fn ast(&self) -> RefExpr { RefExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct RefExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for RefExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { REF_EXPR => Some(RefExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> RefExpr<'a> {} // RefPat #[derive(Debug, Clone)] pub struct RefPatNode(SyntaxNode); impl RefPatNode { pub fn new(ast: RefPat) -> RefPatNode { let syntax = ast.syntax().owned(); RefPatNode(syntax) } pub fn ast(&self) -> RefPat { RefPat::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct RefPat<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for RefPat<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { REF_PAT => Some(RefPat { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> RefPat<'a> {} // ReferenceType #[derive(Debug, Clone)] pub struct ReferenceTypeNode(SyntaxNode); impl ReferenceTypeNode { pub fn new(ast: ReferenceType) -> ReferenceTypeNode { let syntax = ast.syntax().owned(); ReferenceTypeNode(syntax) } pub fn ast(&self) -> ReferenceType { ReferenceType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ReferenceType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ReferenceType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { REFERENCE_TYPE => Some(ReferenceType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ReferenceType<'a> {} // RetType #[derive(Debug, Clone)] pub struct RetTypeNode(SyntaxNode); impl RetTypeNode { pub fn new(ast: RetType) -> RetTypeNode { let syntax = ast.syntax().owned(); RetTypeNode(syntax) } pub fn ast(&self) -> RetType { RetType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct RetType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for RetType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { RET_TYPE => Some(RetType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> RetType<'a> {} // ReturnExpr #[derive(Debug, Clone)] pub struct ReturnExprNode(SyntaxNode); impl ReturnExprNode { pub fn new(ast: ReturnExpr) -> ReturnExprNode { let syntax = ast.syntax().owned(); ReturnExprNode(syntax) } pub fn ast(&self) -> ReturnExpr { ReturnExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct ReturnExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for ReturnExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { RETURN_EXPR => Some(ReturnExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ReturnExpr<'a> {} // Root #[derive(Debug, Clone)] pub struct RootNode(SyntaxNode); impl RootNode { pub fn new(ast: Root) -> RootNode { let syntax = ast.syntax().owned(); RootNode(syntax) } pub fn ast(&self) -> Root { Root::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct Root<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for Root<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { ROOT => Some(Root { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::ModuleItemOwner<'a> for Root<'a> {} impl<'a> ast::FnDefOwner<'a> for Root<'a> {} impl<'a> Root<'a> { pub fn modules(self) -> impl Iterator> + 'a { super::children(self) } } // SelfParam #[derive(Debug, Clone)] pub struct SelfParamNode(SyntaxNode); impl SelfParamNode { pub fn new(ast: SelfParam) -> SelfParamNode { let syntax = ast.syntax().owned(); SelfParamNode(syntax) } pub fn ast(&self) -> SelfParam { SelfParam::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct SelfParam<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for SelfParam<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { SELF_PARAM => Some(SelfParam { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> SelfParam<'a> {} // SlicePat #[derive(Debug, Clone)] pub struct SlicePatNode(SyntaxNode); impl SlicePatNode { pub fn new(ast: SlicePat) -> SlicePatNode { let syntax = ast.syntax().owned(); SlicePatNode(syntax) } pub fn ast(&self) -> SlicePat { SlicePat::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct SlicePat<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for SlicePat<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { SLICE_PAT => Some(SlicePat { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> SlicePat<'a> {} // SliceType #[derive(Debug, Clone)] pub struct SliceTypeNode(SyntaxNode); impl SliceTypeNode { pub fn new(ast: SliceType) -> SliceTypeNode { let syntax = ast.syntax().owned(); SliceTypeNode(syntax) } pub fn ast(&self) -> SliceType { SliceType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct SliceType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for SliceType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { SLICE_TYPE => Some(SliceType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> SliceType<'a> {} // StaticDef #[derive(Debug, Clone)] pub struct StaticDefNode(SyntaxNode); impl StaticDefNode { pub fn new(ast: StaticDef) -> StaticDefNode { let syntax = ast.syntax().owned(); StaticDefNode(syntax) } pub fn ast(&self) -> StaticDef { StaticDef::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct StaticDef<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for StaticDef<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { STATIC_DEF => Some(StaticDef { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::NameOwner<'a> for StaticDef<'a> {} impl<'a> ast::TypeParamsOwner<'a> for StaticDef<'a> {} impl<'a> ast::AttrsOwner<'a> for StaticDef<'a> {} impl<'a> StaticDef<'a> {} // Stmt #[derive(Debug, Clone)] pub struct StmtNode(SyntaxNode); impl StmtNode { pub fn new(ast: Stmt) -> StmtNode { let syntax = ast.syntax().owned(); StmtNode(syntax) } pub fn ast(&self) -> Stmt { Stmt::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub enum Stmt<'a> { ExprStmt(ExprStmt<'a>), LetStmt(LetStmt<'a>), } impl<'a> AstNode<'a> for Stmt<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { EXPR_STMT => Some(Stmt::ExprStmt(ExprStmt { syntax })), LET_STMT => Some(Stmt::LetStmt(LetStmt { syntax })), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { match self { Stmt::ExprStmt(inner) => inner.syntax(), Stmt::LetStmt(inner) => inner.syntax(), } } } impl<'a> Stmt<'a> {} // StructDef #[derive(Debug, Clone)] pub struct StructDefNode(SyntaxNode); impl StructDefNode { pub fn new(ast: StructDef) -> StructDefNode { let syntax = ast.syntax().owned(); StructDefNode(syntax) } pub fn ast(&self) -> StructDef { StructDef::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct StructDef<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for StructDef<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { STRUCT_DEF => Some(StructDef { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::NameOwner<'a> for StructDef<'a> {} impl<'a> ast::TypeParamsOwner<'a> for StructDef<'a> {} impl<'a> ast::AttrsOwner<'a> for StructDef<'a> {} impl<'a> StructDef<'a> { pub fn fields(self) -> impl Iterator> + 'a { super::children(self) } } // StructLit #[derive(Debug, Clone)] pub struct StructLitNode(SyntaxNode); impl StructLitNode { pub fn new(ast: StructLit) -> StructLitNode { let syntax = ast.syntax().owned(); StructLitNode(syntax) } pub fn ast(&self) -> StructLit { StructLit::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct StructLit<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for StructLit<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { STRUCT_LIT => Some(StructLit { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> StructLit<'a> {} // StructPat #[derive(Debug, Clone)] pub struct StructPatNode(SyntaxNode); impl StructPatNode { pub fn new(ast: StructPat) -> StructPatNode { let syntax = ast.syntax().owned(); StructPatNode(syntax) } pub fn ast(&self) -> StructPat { StructPat::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct StructPat<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for StructPat<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { STRUCT_PAT => Some(StructPat { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> StructPat<'a> {} // TokenTree #[derive(Debug, Clone)] pub struct TokenTreeNode(SyntaxNode); impl TokenTreeNode { pub fn new(ast: TokenTree) -> TokenTreeNode { let syntax = ast.syntax().owned(); TokenTreeNode(syntax) } pub fn ast(&self) -> TokenTree { TokenTree::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct TokenTree<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for TokenTree<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { TOKEN_TREE => Some(TokenTree { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> TokenTree<'a> {} // TraitDef #[derive(Debug, Clone)] pub struct TraitDefNode(SyntaxNode); impl TraitDefNode { pub fn new(ast: TraitDef) -> TraitDefNode { let syntax = ast.syntax().owned(); TraitDefNode(syntax) } pub fn ast(&self) -> TraitDef { TraitDef::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct TraitDef<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for TraitDef<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { TRAIT_DEF => Some(TraitDef { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::NameOwner<'a> for TraitDef<'a> {} impl<'a> ast::AttrsOwner<'a> for TraitDef<'a> {} impl<'a> TraitDef<'a> {} // TryExpr #[derive(Debug, Clone)] pub struct TryExprNode(SyntaxNode); impl TryExprNode { pub fn new(ast: TryExpr) -> TryExprNode { let syntax = ast.syntax().owned(); TryExprNode(syntax) } pub fn ast(&self) -> TryExpr { TryExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct TryExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for TryExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { TRY_EXPR => Some(TryExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> TryExpr<'a> {} // TupleExpr #[derive(Debug, Clone)] pub struct TupleExprNode(SyntaxNode); impl TupleExprNode { pub fn new(ast: TupleExpr) -> TupleExprNode { let syntax = ast.syntax().owned(); TupleExprNode(syntax) } pub fn ast(&self) -> TupleExpr { TupleExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct TupleExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for TupleExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { TUPLE_EXPR => Some(TupleExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> TupleExpr<'a> {} // TuplePat #[derive(Debug, Clone)] pub struct TuplePatNode(SyntaxNode); impl TuplePatNode { pub fn new(ast: TuplePat) -> TuplePatNode { let syntax = ast.syntax().owned(); TuplePatNode(syntax) } pub fn ast(&self) -> TuplePat { TuplePat::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct TuplePat<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for TuplePat<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { TUPLE_PAT => Some(TuplePat { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> TuplePat<'a> {} // TupleStructPat #[derive(Debug, Clone)] pub struct TupleStructPatNode(SyntaxNode); impl TupleStructPatNode { pub fn new(ast: TupleStructPat) -> TupleStructPatNode { let syntax = ast.syntax().owned(); TupleStructPatNode(syntax) } pub fn ast(&self) -> TupleStructPat { TupleStructPat::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct TupleStructPat<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for TupleStructPat<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { TUPLE_STRUCT_PAT => Some(TupleStructPat { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> TupleStructPat<'a> {} // TupleType #[derive(Debug, Clone)] pub struct TupleTypeNode(SyntaxNode); impl TupleTypeNode { pub fn new(ast: TupleType) -> TupleTypeNode { let syntax = ast.syntax().owned(); TupleTypeNode(syntax) } pub fn ast(&self) -> TupleType { TupleType::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct TupleType<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for TupleType<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { TUPLE_TYPE => Some(TupleType { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> TupleType<'a> {} // TypeDef #[derive(Debug, Clone)] pub struct TypeDefNode(SyntaxNode); impl TypeDefNode { pub fn new(ast: TypeDef) -> TypeDefNode { let syntax = ast.syntax().owned(); TypeDefNode(syntax) } pub fn ast(&self) -> TypeDef { TypeDef::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct TypeDef<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for TypeDef<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { TYPE_DEF => Some(TypeDef { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::NameOwner<'a> for TypeDef<'a> {} impl<'a> ast::TypeParamsOwner<'a> for TypeDef<'a> {} impl<'a> ast::AttrsOwner<'a> for TypeDef<'a> {} impl<'a> TypeDef<'a> {} // TypeParam #[derive(Debug, Clone)] pub struct TypeParamNode(SyntaxNode); impl TypeParamNode { pub fn new(ast: TypeParam) -> TypeParamNode { let syntax = ast.syntax().owned(); TypeParamNode(syntax) } pub fn ast(&self) -> TypeParam { TypeParam::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct TypeParam<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for TypeParam<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { TYPE_PARAM => Some(TypeParam { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::NameOwner<'a> for TypeParam<'a> {} impl<'a> TypeParam<'a> {} // TypeParamList #[derive(Debug, Clone)] pub struct TypeParamListNode(SyntaxNode); impl TypeParamListNode { pub fn new(ast: TypeParamList) -> TypeParamListNode { let syntax = ast.syntax().owned(); TypeParamListNode(syntax) } pub fn ast(&self) -> TypeParamList { TypeParamList::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct TypeParamList<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for TypeParamList<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { TYPE_PARAM_LIST => Some(TypeParamList { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> TypeParamList<'a> { pub fn type_params(self) -> impl Iterator> + 'a { super::children(self) } pub fn lifetime_params(self) -> impl Iterator> + 'a { super::children(self) } } // TypeRef #[derive(Debug, Clone)] pub struct TypeRefNode(SyntaxNode); impl TypeRefNode { pub fn new(ast: TypeRef) -> TypeRefNode { let syntax = ast.syntax().owned(); TypeRefNode(syntax) } pub fn ast(&self) -> TypeRef { TypeRef::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub enum TypeRef<'a> { ParenType(ParenType<'a>), TupleType(TupleType<'a>), NeverType(NeverType<'a>), PathType(PathType<'a>), PointerType(PointerType<'a>), ArrayType(ArrayType<'a>), SliceType(SliceType<'a>), ReferenceType(ReferenceType<'a>), PlaceholderType(PlaceholderType<'a>), FnPointerType(FnPointerType<'a>), ForType(ForType<'a>), ImplTraitType(ImplTraitType<'a>), DynTraitType(DynTraitType<'a>), } impl<'a> AstNode<'a> for TypeRef<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { PAREN_TYPE => Some(TypeRef::ParenType(ParenType { syntax })), TUPLE_TYPE => Some(TypeRef::TupleType(TupleType { syntax })), NEVER_TYPE => Some(TypeRef::NeverType(NeverType { syntax })), PATH_TYPE => Some(TypeRef::PathType(PathType { syntax })), POINTER_TYPE => Some(TypeRef::PointerType(PointerType { syntax })), ARRAY_TYPE => Some(TypeRef::ArrayType(ArrayType { syntax })), SLICE_TYPE => Some(TypeRef::SliceType(SliceType { syntax })), REFERENCE_TYPE => Some(TypeRef::ReferenceType(ReferenceType { syntax })), PLACEHOLDER_TYPE => Some(TypeRef::PlaceholderType(PlaceholderType { syntax })), FN_POINTER_TYPE => Some(TypeRef::FnPointerType(FnPointerType { syntax })), FOR_TYPE => Some(TypeRef::ForType(ForType { syntax })), IMPL_TRAIT_TYPE => Some(TypeRef::ImplTraitType(ImplTraitType { syntax })), DYN_TRAIT_TYPE => Some(TypeRef::DynTraitType(DynTraitType { syntax })), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { match self { TypeRef::ParenType(inner) => inner.syntax(), TypeRef::TupleType(inner) => inner.syntax(), TypeRef::NeverType(inner) => inner.syntax(), TypeRef::PathType(inner) => inner.syntax(), TypeRef::PointerType(inner) => inner.syntax(), TypeRef::ArrayType(inner) => inner.syntax(), TypeRef::SliceType(inner) => inner.syntax(), TypeRef::ReferenceType(inner) => inner.syntax(), TypeRef::PlaceholderType(inner) => inner.syntax(), TypeRef::FnPointerType(inner) => inner.syntax(), TypeRef::ForType(inner) => inner.syntax(), TypeRef::ImplTraitType(inner) => inner.syntax(), TypeRef::DynTraitType(inner) => inner.syntax(), } } } impl<'a> TypeRef<'a> {} // UseItem #[derive(Debug, Clone)] pub struct UseItemNode(SyntaxNode); impl UseItemNode { pub fn new(ast: UseItem) -> UseItemNode { let syntax = ast.syntax().owned(); UseItemNode(syntax) } pub fn ast(&self) -> UseItem { UseItem::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct UseItem<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for UseItem<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { USE_ITEM => Some(UseItem { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> UseItem<'a> { pub fn use_tree(self) -> Option> { super::child_opt(self) } } // UseTree #[derive(Debug, Clone)] pub struct UseTreeNode(SyntaxNode); impl UseTreeNode { pub fn new(ast: UseTree) -> UseTreeNode { let syntax = ast.syntax().owned(); UseTreeNode(syntax) } pub fn ast(&self) -> UseTree { UseTree::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct UseTree<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for UseTree<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { USE_TREE => Some(UseTree { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> UseTree<'a> { pub fn path(self) -> Option> { super::child_opt(self) } pub fn use_tree_list(self) -> Option> { super::child_opt(self) } } // UseTreeList #[derive(Debug, Clone)] pub struct UseTreeListNode(SyntaxNode); impl UseTreeListNode { pub fn new(ast: UseTreeList) -> UseTreeListNode { let syntax = ast.syntax().owned(); UseTreeListNode(syntax) } pub fn ast(&self) -> UseTreeList { UseTreeList::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct UseTreeList<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for UseTreeList<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { USE_TREE_LIST => Some(UseTreeList { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> UseTreeList<'a> { pub fn use_trees(self) -> impl Iterator> + 'a { super::children(self) } } // WhereClause #[derive(Debug, Clone)] pub struct WhereClauseNode(SyntaxNode); impl WhereClauseNode { pub fn new(ast: WhereClause) -> WhereClauseNode { let syntax = ast.syntax().owned(); WhereClauseNode(syntax) } pub fn ast(&self) -> WhereClause { WhereClause::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct WhereClause<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for WhereClause<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { WHERE_CLAUSE => Some(WhereClause { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> WhereClause<'a> {} // WhileExpr #[derive(Debug, Clone)] pub struct WhileExprNode(SyntaxNode); impl WhileExprNode { pub fn new(ast: WhileExpr) -> WhileExprNode { let syntax = ast.syntax().owned(); WhileExprNode(syntax) } pub fn ast(&self) -> WhileExpr { WhileExpr::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct WhileExpr<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for WhileExpr<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { WHILE_EXPR => Some(WhileExpr { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> ast::LoopBodyOwner<'a> for WhileExpr<'a> {} impl<'a> WhileExpr<'a> { pub fn condition(self) -> Option> { super::child_opt(self) } } // Whitespace #[derive(Debug, Clone)] pub struct WhitespaceNode(SyntaxNode); impl WhitespaceNode { pub fn new(ast: Whitespace) -> WhitespaceNode { let syntax = ast.syntax().owned(); WhitespaceNode(syntax) } pub fn ast(&self) -> Whitespace { Whitespace::cast(self.0.borrowed()).unwrap() } } #[derive(Debug, Clone, Copy)] pub struct Whitespace<'a> { syntax: SyntaxNodeRef<'a>, } impl<'a> AstNode<'a> for Whitespace<'a> { fn cast(syntax: SyntaxNodeRef<'a>) -> Option { match syntax.kind() { WHITESPACE => Some(Whitespace { syntax }), _ => None, } } fn syntax(self) -> SyntaxNodeRef<'a> { self.syntax } } impl<'a> Whitespace<'a> {}