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android / platform / external / rust / crates / syn / 62de5e50c9199bed18111720a0429e879c28445a / . / src / gen / fold.rs
blob: ec1bcfda15f642b0713fe11b9d6740d086272f13 [file] [log] [blame]
// This file is @generated by syn-internal-codegen.
// It is not intended for manual editing.
#![allow(unreachable_code, unused_variables)]
#![allow(clippy::match_wildcard_for_single_variants)]
#[cfg(any(feature = "full", feature = "derive"))]
use crate::gen::helper::fold::*;
#[cfg(any(feature = "full", feature = "derive"))]
use crate::token::{Brace, Bracket, Group, Paren};
use crate::*;
use proc_macro2::Span;
#[cfg(feature = "full")]
macro_rules! full {
($e:expr) => {
$e
};
}
#[cfg(all(feature = "derive", not(feature = "full")))]
macro_rules! full {
($e:expr) => {
unreachable!()
};
}
/// Syntax tree traversal to transform the nodes of an owned syntax tree.
///
/// See the [module documentation] for details.
///
/// [module documentation]: self
///
/// *This trait is available only if Syn is built with the `"fold"` feature.*
pub trait Fold {
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_abi(&mut self, i: Abi) -> Abi {
fold_abi(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_angle_bracketed_generic_arguments(
&mut self,
i: AngleBracketedGenericArguments,
) -> AngleBracketedGenericArguments {
fold_angle_bracketed_generic_arguments(self, i)
}
#[cfg(feature = "full")]
fn fold_arm(&mut self, i: Arm) -> Arm {
fold_arm(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_attr_style(&mut self, i: AttrStyle) -> AttrStyle {
fold_attr_style(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_attribute(&mut self, i: Attribute) -> Attribute {
fold_attribute(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_bare_fn_arg(&mut self, i: BareFnArg) -> BareFnArg {
fold_bare_fn_arg(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_bin_op(&mut self, i: BinOp) -> BinOp {
fold_bin_op(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_binding(&mut self, i: Binding) -> Binding {
fold_binding(self, i)
}
#[cfg(feature = "full")]
fn fold_block(&mut self, i: Block) -> Block {
fold_block(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_bound_lifetimes(&mut self, i: BoundLifetimes) -> BoundLifetimes {
fold_bound_lifetimes(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_const_param(&mut self, i: ConstParam) -> ConstParam {
fold_const_param(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_constraint(&mut self, i: Constraint) -> Constraint {
fold_constraint(self, i)
}
#[cfg(feature = "derive")]
fn fold_data(&mut self, i: Data) -> Data {
fold_data(self, i)
}
#[cfg(feature = "derive")]
fn fold_data_enum(&mut self, i: DataEnum) -> DataEnum {
fold_data_enum(self, i)
}
#[cfg(feature = "derive")]
fn fold_data_struct(&mut self, i: DataStruct) -> DataStruct {
fold_data_struct(self, i)
}
#[cfg(feature = "derive")]
fn fold_data_union(&mut self, i: DataUnion) -> DataUnion {
fold_data_union(self, i)
}
#[cfg(feature = "derive")]
fn fold_derive_input(&mut self, i: DeriveInput) -> DeriveInput {
fold_derive_input(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_expr(&mut self, i: Expr) -> Expr {
fold_expr(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_array(&mut self, i: ExprArray) -> ExprArray {
fold_expr_array(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_assign(&mut self, i: ExprAssign) -> ExprAssign {
fold_expr_assign(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_assign_op(&mut self, i: ExprAssignOp) -> ExprAssignOp {
fold_expr_assign_op(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_async(&mut self, i: ExprAsync) -> ExprAsync {
fold_expr_async(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_await(&mut self, i: ExprAwait) -> ExprAwait {
fold_expr_await(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_expr_binary(&mut self, i: ExprBinary) -> ExprBinary {
fold_expr_binary(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_block(&mut self, i: ExprBlock) -> ExprBlock {
fold_expr_block(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_box(&mut self, i: ExprBox) -> ExprBox {
fold_expr_box(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_break(&mut self, i: ExprBreak) -> ExprBreak {
fold_expr_break(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_expr_call(&mut self, i: ExprCall) -> ExprCall {
fold_expr_call(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_expr_cast(&mut self, i: ExprCast) -> ExprCast {
fold_expr_cast(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_closure(&mut self, i: ExprClosure) -> ExprClosure {
fold_expr_closure(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_continue(&mut self, i: ExprContinue) -> ExprContinue {
fold_expr_continue(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_expr_field(&mut self, i: ExprField) -> ExprField {
fold_expr_field(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_for_loop(&mut self, i: ExprForLoop) -> ExprForLoop {
fold_expr_for_loop(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_group(&mut self, i: ExprGroup) -> ExprGroup {
fold_expr_group(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_if(&mut self, i: ExprIf) -> ExprIf {
fold_expr_if(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_expr_index(&mut self, i: ExprIndex) -> ExprIndex {
fold_expr_index(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_let(&mut self, i: ExprLet) -> ExprLet {
fold_expr_let(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_expr_lit(&mut self, i: ExprLit) -> ExprLit {
fold_expr_lit(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_loop(&mut self, i: ExprLoop) -> ExprLoop {
fold_expr_loop(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_macro(&mut self, i: ExprMacro) -> ExprMacro {
fold_expr_macro(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_match(&mut self, i: ExprMatch) -> ExprMatch {
fold_expr_match(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_method_call(&mut self, i: ExprMethodCall) -> ExprMethodCall {
fold_expr_method_call(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_expr_paren(&mut self, i: ExprParen) -> ExprParen {
fold_expr_paren(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_expr_path(&mut self, i: ExprPath) -> ExprPath {
fold_expr_path(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_range(&mut self, i: ExprRange) -> ExprRange {
fold_expr_range(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_reference(&mut self, i: ExprReference) -> ExprReference {
fold_expr_reference(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_repeat(&mut self, i: ExprRepeat) -> ExprRepeat {
fold_expr_repeat(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_return(&mut self, i: ExprReturn) -> ExprReturn {
fold_expr_return(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_struct(&mut self, i: ExprStruct) -> ExprStruct {
fold_expr_struct(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_try(&mut self, i: ExprTry) -> ExprTry {
fold_expr_try(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_try_block(&mut self, i: ExprTryBlock) -> ExprTryBlock {
fold_expr_try_block(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_tuple(&mut self, i: ExprTuple) -> ExprTuple {
fold_expr_tuple(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_type(&mut self, i: ExprType) -> ExprType {
fold_expr_type(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_expr_unary(&mut self, i: ExprUnary) -> ExprUnary {
fold_expr_unary(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_unsafe(&mut self, i: ExprUnsafe) -> ExprUnsafe {
fold_expr_unsafe(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_while(&mut self, i: ExprWhile) -> ExprWhile {
fold_expr_while(self, i)
}
#[cfg(feature = "full")]
fn fold_expr_yield(&mut self, i: ExprYield) -> ExprYield {
fold_expr_yield(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_field(&mut self, i: Field) -> Field {
fold_field(self, i)
}
#[cfg(feature = "full")]
fn fold_field_pat(&mut self, i: FieldPat) -> FieldPat {
fold_field_pat(self, i)
}
#[cfg(feature = "full")]
fn fold_field_value(&mut self, i: FieldValue) -> FieldValue {
fold_field_value(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_fields(&mut self, i: Fields) -> Fields {
fold_fields(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_fields_named(&mut self, i: FieldsNamed) -> FieldsNamed {
fold_fields_named(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_fields_unnamed(&mut self, i: FieldsUnnamed) -> FieldsUnnamed {
fold_fields_unnamed(self, i)
}
#[cfg(feature = "full")]
fn fold_file(&mut self, i: File) -> File {
fold_file(self, i)
}
#[cfg(feature = "full")]
fn fold_fn_arg(&mut self, i: FnArg) -> FnArg {
fold_fn_arg(self, i)
}
#[cfg(feature = "full")]
fn fold_foreign_item(&mut self, i: ForeignItem) -> ForeignItem {
fold_foreign_item(self, i)
}
#[cfg(feature = "full")]
fn fold_foreign_item_fn(&mut self, i: ForeignItemFn) -> ForeignItemFn {
fold_foreign_item_fn(self, i)
}
#[cfg(feature = "full")]
fn fold_foreign_item_macro(&mut self, i: ForeignItemMacro) -> ForeignItemMacro {
fold_foreign_item_macro(self, i)
}
#[cfg(feature = "full")]
fn fold_foreign_item_static(&mut self, i: ForeignItemStatic) -> ForeignItemStatic {
fold_foreign_item_static(self, i)
}
#[cfg(feature = "full")]
fn fold_foreign_item_type(&mut self, i: ForeignItemType) -> ForeignItemType {
fold_foreign_item_type(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_generic_argument(&mut self, i: GenericArgument) -> GenericArgument {
fold_generic_argument(self, i)
}
#[cfg(feature = "full")]
fn fold_generic_method_argument(&mut self, i: GenericMethodArgument) -> GenericMethodArgument {
fold_generic_method_argument(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_generic_param(&mut self, i: GenericParam) -> GenericParam {
fold_generic_param(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_generics(&mut self, i: Generics) -> Generics {
fold_generics(self, i)
}
fn fold_ident(&mut self, i: Ident) -> Ident {
fold_ident(self, i)
}
#[cfg(feature = "full")]
fn fold_impl_item(&mut self, i: ImplItem) -> ImplItem {
fold_impl_item(self, i)
}
#[cfg(feature = "full")]
fn fold_impl_item_const(&mut self, i: ImplItemConst) -> ImplItemConst {
fold_impl_item_const(self, i)
}
#[cfg(feature = "full")]
fn fold_impl_item_macro(&mut self, i: ImplItemMacro) -> ImplItemMacro {
fold_impl_item_macro(self, i)
}
#[cfg(feature = "full")]
fn fold_impl_item_method(&mut self, i: ImplItemMethod) -> ImplItemMethod {
fold_impl_item_method(self, i)
}
#[cfg(feature = "full")]
fn fold_impl_item_type(&mut self, i: ImplItemType) -> ImplItemType {
fold_impl_item_type(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_index(&mut self, i: Index) -> Index {
fold_index(self, i)
}
#[cfg(feature = "full")]
fn fold_item(&mut self, i: Item) -> Item {
fold_item(self, i)
}
#[cfg(feature = "full")]
fn fold_item_const(&mut self, i: ItemConst) -> ItemConst {
fold_item_const(self, i)
}
#[cfg(feature = "full")]
fn fold_item_enum(&mut self, i: ItemEnum) -> ItemEnum {
fold_item_enum(self, i)
}
#[cfg(feature = "full")]
fn fold_item_extern_crate(&mut self, i: ItemExternCrate) -> ItemExternCrate {
fold_item_extern_crate(self, i)
}
#[cfg(feature = "full")]
fn fold_item_fn(&mut self, i: ItemFn) -> ItemFn {
fold_item_fn(self, i)
}
#[cfg(feature = "full")]
fn fold_item_foreign_mod(&mut self, i: ItemForeignMod) -> ItemForeignMod {
fold_item_foreign_mod(self, i)
}
#[cfg(feature = "full")]
fn fold_item_impl(&mut self, i: ItemImpl) -> ItemImpl {
fold_item_impl(self, i)
}
#[cfg(feature = "full")]
fn fold_item_macro(&mut self, i: ItemMacro) -> ItemMacro {
fold_item_macro(self, i)
}
#[cfg(feature = "full")]
fn fold_item_macro2(&mut self, i: ItemMacro2) -> ItemMacro2 {
fold_item_macro2(self, i)
}
#[cfg(feature = "full")]
fn fold_item_mod(&mut self, i: ItemMod) -> ItemMod {
fold_item_mod(self, i)
}
#[cfg(feature = "full")]
fn fold_item_static(&mut self, i: ItemStatic) -> ItemStatic {
fold_item_static(self, i)
}
#[cfg(feature = "full")]
fn fold_item_struct(&mut self, i: ItemStruct) -> ItemStruct {
fold_item_struct(self, i)
}
#[cfg(feature = "full")]
fn fold_item_trait(&mut self, i: ItemTrait) -> ItemTrait {
fold_item_trait(self, i)
}
#[cfg(feature = "full")]
fn fold_item_trait_alias(&mut self, i: ItemTraitAlias) -> ItemTraitAlias {
fold_item_trait_alias(self, i)
}
#[cfg(feature = "full")]
fn fold_item_type(&mut self, i: ItemType) -> ItemType {
fold_item_type(self, i)
}
#[cfg(feature = "full")]
fn fold_item_union(&mut self, i: ItemUnion) -> ItemUnion {
fold_item_union(self, i)
}
#[cfg(feature = "full")]
fn fold_item_use(&mut self, i: ItemUse) -> ItemUse {
fold_item_use(self, i)
}
#[cfg(feature = "full")]
fn fold_label(&mut self, i: Label) -> Label {
fold_label(self, i)
}
fn fold_lifetime(&mut self, i: Lifetime) -> Lifetime {
fold_lifetime(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_lifetime_def(&mut self, i: LifetimeDef) -> LifetimeDef {
fold_lifetime_def(self, i)
}
fn fold_lit(&mut self, i: Lit) -> Lit {
fold_lit(self, i)
}
fn fold_lit_bool(&mut self, i: LitBool) -> LitBool {
fold_lit_bool(self, i)
}
fn fold_lit_byte(&mut self, i: LitByte) -> LitByte {
fold_lit_byte(self, i)
}
fn fold_lit_byte_str(&mut self, i: LitByteStr) -> LitByteStr {
fold_lit_byte_str(self, i)
}
fn fold_lit_char(&mut self, i: LitChar) -> LitChar {
fold_lit_char(self, i)
}
fn fold_lit_float(&mut self, i: LitFloat) -> LitFloat {
fold_lit_float(self, i)
}
fn fold_lit_int(&mut self, i: LitInt) -> LitInt {
fold_lit_int(self, i)
}
fn fold_lit_str(&mut self, i: LitStr) -> LitStr {
fold_lit_str(self, i)
}
#[cfg(feature = "full")]
fn fold_local(&mut self, i: Local) -> Local {
fold_local(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_macro(&mut self, i: Macro) -> Macro {
fold_macro(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_macro_delimiter(&mut self, i: MacroDelimiter) -> MacroDelimiter {
fold_macro_delimiter(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_member(&mut self, i: Member) -> Member {
fold_member(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_meta(&mut self, i: Meta) -> Meta {
fold_meta(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_meta_list(&mut self, i: MetaList) -> MetaList {
fold_meta_list(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_meta_name_value(&mut self, i: MetaNameValue) -> MetaNameValue {
fold_meta_name_value(self, i)
}
#[cfg(feature = "full")]
fn fold_method_turbofish(&mut self, i: MethodTurbofish) -> MethodTurbofish {
fold_method_turbofish(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_nested_meta(&mut self, i: NestedMeta) -> NestedMeta {
fold_nested_meta(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_parenthesized_generic_arguments(
&mut self,
i: ParenthesizedGenericArguments,
) -> ParenthesizedGenericArguments {
fold_parenthesized_generic_arguments(self, i)
}
#[cfg(feature = "full")]
fn fold_pat(&mut self, i: Pat) -> Pat {
fold_pat(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_box(&mut self, i: PatBox) -> PatBox {
fold_pat_box(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_ident(&mut self, i: PatIdent) -> PatIdent {
fold_pat_ident(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_lit(&mut self, i: PatLit) -> PatLit {
fold_pat_lit(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_macro(&mut self, i: PatMacro) -> PatMacro {
fold_pat_macro(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_or(&mut self, i: PatOr) -> PatOr {
fold_pat_or(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_path(&mut self, i: PatPath) -> PatPath {
fold_pat_path(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_range(&mut self, i: PatRange) -> PatRange {
fold_pat_range(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_reference(&mut self, i: PatReference) -> PatReference {
fold_pat_reference(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_rest(&mut self, i: PatRest) -> PatRest {
fold_pat_rest(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_slice(&mut self, i: PatSlice) -> PatSlice {
fold_pat_slice(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_struct(&mut self, i: PatStruct) -> PatStruct {
fold_pat_struct(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_tuple(&mut self, i: PatTuple) -> PatTuple {
fold_pat_tuple(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_tuple_struct(&mut self, i: PatTupleStruct) -> PatTupleStruct {
fold_pat_tuple_struct(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_type(&mut self, i: PatType) -> PatType {
fold_pat_type(self, i)
}
#[cfg(feature = "full")]
fn fold_pat_wild(&mut self, i: PatWild) -> PatWild {
fold_pat_wild(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_path(&mut self, i: Path) -> Path {
fold_path(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_path_arguments(&mut self, i: PathArguments) -> PathArguments {
fold_path_arguments(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_path_segment(&mut self, i: PathSegment) -> PathSegment {
fold_path_segment(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_predicate_eq(&mut self, i: PredicateEq) -> PredicateEq {
fold_predicate_eq(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_predicate_lifetime(&mut self, i: PredicateLifetime) -> PredicateLifetime {
fold_predicate_lifetime(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_predicate_type(&mut self, i: PredicateType) -> PredicateType {
fold_predicate_type(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_qself(&mut self, i: QSelf) -> QSelf {
fold_qself(self, i)
}
#[cfg(feature = "full")]
fn fold_range_limits(&mut self, i: RangeLimits) -> RangeLimits {
fold_range_limits(self, i)
}
#[cfg(feature = "full")]
fn fold_receiver(&mut self, i: Receiver) -> Receiver {
fold_receiver(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_return_type(&mut self, i: ReturnType) -> ReturnType {
fold_return_type(self, i)
}
#[cfg(feature = "full")]
fn fold_signature(&mut self, i: Signature) -> Signature {
fold_signature(self, i)
}
fn fold_span(&mut self, i: Span) -> Span {
fold_span(self, i)
}
#[cfg(feature = "full")]
fn fold_stmt(&mut self, i: Stmt) -> Stmt {
fold_stmt(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_trait_bound(&mut self, i: TraitBound) -> TraitBound {
fold_trait_bound(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_trait_bound_modifier(&mut self, i: TraitBoundModifier) -> TraitBoundModifier {
fold_trait_bound_modifier(self, i)
}
#[cfg(feature = "full")]
fn fold_trait_item(&mut self, i: TraitItem) -> TraitItem {
fold_trait_item(self, i)
}
#[cfg(feature = "full")]
fn fold_trait_item_const(&mut self, i: TraitItemConst) -> TraitItemConst {
fold_trait_item_const(self, i)
}
#[cfg(feature = "full")]
fn fold_trait_item_macro(&mut self, i: TraitItemMacro) -> TraitItemMacro {
fold_trait_item_macro(self, i)
}
#[cfg(feature = "full")]
fn fold_trait_item_method(&mut self, i: TraitItemMethod) -> TraitItemMethod {
fold_trait_item_method(self, i)
}
#[cfg(feature = "full")]
fn fold_trait_item_type(&mut self, i: TraitItemType) -> TraitItemType {
fold_trait_item_type(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type(&mut self, i: Type) -> Type {
fold_type(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_array(&mut self, i: TypeArray) -> TypeArray {
fold_type_array(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_bare_fn(&mut self, i: TypeBareFn) -> TypeBareFn {
fold_type_bare_fn(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_group(&mut self, i: TypeGroup) -> TypeGroup {
fold_type_group(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_impl_trait(&mut self, i: TypeImplTrait) -> TypeImplTrait {
fold_type_impl_trait(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_infer(&mut self, i: TypeInfer) -> TypeInfer {
fold_type_infer(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_macro(&mut self, i: TypeMacro) -> TypeMacro {
fold_type_macro(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_never(&mut self, i: TypeNever) -> TypeNever {
fold_type_never(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_param(&mut self, i: TypeParam) -> TypeParam {
fold_type_param(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_param_bound(&mut self, i: TypeParamBound) -> TypeParamBound {
fold_type_param_bound(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_paren(&mut self, i: TypeParen) -> TypeParen {
fold_type_paren(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_path(&mut self, i: TypePath) -> TypePath {
fold_type_path(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_ptr(&mut self, i: TypePtr) -> TypePtr {
fold_type_ptr(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_reference(&mut self, i: TypeReference) -> TypeReference {
fold_type_reference(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_slice(&mut self, i: TypeSlice) -> TypeSlice {
fold_type_slice(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_trait_object(&mut self, i: TypeTraitObject) -> TypeTraitObject {
fold_type_trait_object(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_type_tuple(&mut self, i: TypeTuple) -> TypeTuple {
fold_type_tuple(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_un_op(&mut self, i: UnOp) -> UnOp {
fold_un_op(self, i)
}
#[cfg(feature = "full")]
fn fold_use_glob(&mut self, i: UseGlob) -> UseGlob {
fold_use_glob(self, i)
}
#[cfg(feature = "full")]
fn fold_use_group(&mut self, i: UseGroup) -> UseGroup {
fold_use_group(self, i)
}
#[cfg(feature = "full")]
fn fold_use_name(&mut self, i: UseName) -> UseName {
fold_use_name(self, i)
}
#[cfg(feature = "full")]
fn fold_use_path(&mut self, i: UsePath) -> UsePath {
fold_use_path(self, i)
}
#[cfg(feature = "full")]
fn fold_use_rename(&mut self, i: UseRename) -> UseRename {
fold_use_rename(self, i)
}
#[cfg(feature = "full")]
fn fold_use_tree(&mut self, i: UseTree) -> UseTree {
fold_use_tree(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_variadic(&mut self, i: Variadic) -> Variadic {
fold_variadic(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_variant(&mut self, i: Variant) -> Variant {
fold_variant(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_vis_crate(&mut self, i: VisCrate) -> VisCrate {
fold_vis_crate(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_vis_public(&mut self, i: VisPublic) -> VisPublic {
fold_vis_public(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_vis_restricted(&mut self, i: VisRestricted) -> VisRestricted {
fold_vis_restricted(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_visibility(&mut self, i: Visibility) -> Visibility {
fold_visibility(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_where_clause(&mut self, i: WhereClause) -> WhereClause {
fold_where_clause(self, i)
}
#[cfg(any(feature = "derive", feature = "full"))]
fn fold_where_predicate(&mut self, i: WherePredicate) -> WherePredicate {
fold_where_predicate(self, i)
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_abi<F>(f: &mut F, node: Abi) -> Abi
where
F: Fold + ?Sized,
{
Abi {
extern_token: Token![extern](tokens_helper(f, &node.extern_token.span)),
name: (node.name).map(|it| f.fold_lit_str(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_angle_bracketed_generic_arguments<F>(
f: &mut F,
node: AngleBracketedGenericArguments,
) -> AngleBracketedGenericArguments
where
F: Fold + ?Sized,
{
AngleBracketedGenericArguments {
colon2_token: (node.colon2_token).map(|it| Token ! [ :: ](tokens_helper(f, &it.spans))),
lt_token: Token ! [ < ](tokens_helper(f, &node.lt_token.spans)),
args: FoldHelper::lift(node.args, |it| f.fold_generic_argument(it)),
gt_token: Token ! [ > ](tokens_helper(f, &node.gt_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_arm<F>(f: &mut F, node: Arm) -> Arm
where
F: Fold + ?Sized,
{
Arm {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
pat: f.fold_pat(node.pat),
guard: (node.guard).map(|it| {
(
Token![if](tokens_helper(f, &(it).0.span)),
Box::new(f.fold_expr(*(it).1)),
)
}),
fat_arrow_token: Token ! [ => ](tokens_helper(f, &node.fat_arrow_token.spans)),
body: Box::new(f.fold_expr(*node.body)),
comma: (node.comma).map(|it| Token ! [ , ](tokens_helper(f, &it.spans))),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_attr_style<F>(f: &mut F, node: AttrStyle) -> AttrStyle
where
F: Fold + ?Sized,
{
match node {
AttrStyle::Outer => AttrStyle::Outer,
AttrStyle::Inner(_binding_0) => {
AttrStyle::Inner(Token![!](tokens_helper(f, &_binding_0.spans)))
}
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_attribute<F>(f: &mut F, node: Attribute) -> Attribute
where
F: Fold + ?Sized,
{
Attribute {
pound_token: Token ! [ # ](tokens_helper(f, &node.pound_token.spans)),
style: f.fold_attr_style(node.style),
bracket_token: Bracket(tokens_helper(f, &node.bracket_token.span)),
path: f.fold_path(node.path),
tokens: node.tokens,
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_bare_fn_arg<F>(f: &mut F, node: BareFnArg) -> BareFnArg
where
F: Fold + ?Sized,
{
BareFnArg {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
name: (node.name).map(|it| {
(
f.fold_ident((it).0),
Token ! [ : ](tokens_helper(f, &(it).1.spans)),
)
}),
ty: f.fold_type(node.ty),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_bin_op<F>(f: &mut F, node: BinOp) -> BinOp
where
F: Fold + ?Sized,
{
match node {
BinOp::Add(_binding_0) => BinOp::Add(Token ! [ + ](tokens_helper(f, &_binding_0.spans))),
BinOp::Sub(_binding_0) => BinOp::Sub(Token ! [ - ](tokens_helper(f, &_binding_0.spans))),
BinOp::Mul(_binding_0) => BinOp::Mul(Token ! [ * ](tokens_helper(f, &_binding_0.spans))),
BinOp::Div(_binding_0) => BinOp::Div(Token ! [ / ](tokens_helper(f, &_binding_0.spans))),
BinOp::Rem(_binding_0) => BinOp::Rem(Token ! [ % ](tokens_helper(f, &_binding_0.spans))),
BinOp::And(_binding_0) => BinOp::And(Token ! [ && ](tokens_helper(f, &_binding_0.spans))),
BinOp::Or(_binding_0) => BinOp::Or(Token ! [ || ](tokens_helper(f, &_binding_0.spans))),
BinOp::BitXor(_binding_0) => {
BinOp::BitXor(Token ! [ ^ ](tokens_helper(f, &_binding_0.spans)))
}
BinOp::BitAnd(_binding_0) => {
BinOp::BitAnd(Token ! [ & ](tokens_helper(f, &_binding_0.spans)))
}
BinOp::BitOr(_binding_0) => {
BinOp::BitOr(Token ! [ | ](tokens_helper(f, &_binding_0.spans)))
}
BinOp::Shl(_binding_0) => BinOp::Shl(Token ! [ << ](tokens_helper(f, &_binding_0.spans))),
BinOp::Shr(_binding_0) => BinOp::Shr(Token ! [ >> ](tokens_helper(f, &_binding_0.spans))),
BinOp::Eq(_binding_0) => BinOp::Eq(Token ! [ == ](tokens_helper(f, &_binding_0.spans))),
BinOp::Lt(_binding_0) => BinOp::Lt(Token ! [ < ](tokens_helper(f, &_binding_0.spans))),
BinOp::Le(_binding_0) => BinOp::Le(Token ! [ <= ](tokens_helper(f, &_binding_0.spans))),
BinOp::Ne(_binding_0) => BinOp::Ne(Token ! [ != ](tokens_helper(f, &_binding_0.spans))),
BinOp::Ge(_binding_0) => BinOp::Ge(Token ! [ >= ](tokens_helper(f, &_binding_0.spans))),
BinOp::Gt(_binding_0) => BinOp::Gt(Token ! [ > ](tokens_helper(f, &_binding_0.spans))),
BinOp::AddEq(_binding_0) => {
BinOp::AddEq(Token ! [ += ](tokens_helper(f, &_binding_0.spans)))
}
BinOp::SubEq(_binding_0) => {
BinOp::SubEq(Token ! [ -= ](tokens_helper(f, &_binding_0.spans)))
}
BinOp::MulEq(_binding_0) => {
BinOp::MulEq(Token ! [ *= ](tokens_helper(f, &_binding_0.spans)))
}
BinOp::DivEq(_binding_0) => {
BinOp::DivEq(Token ! [ /= ](tokens_helper(f, &_binding_0.spans)))
}
BinOp::RemEq(_binding_0) => {
BinOp::RemEq(Token ! [ %= ](tokens_helper(f, &_binding_0.spans)))
}
BinOp::BitXorEq(_binding_0) => {
BinOp::BitXorEq(Token ! [ ^= ](tokens_helper(f, &_binding_0.spans)))
}
BinOp::BitAndEq(_binding_0) => {
BinOp::BitAndEq(Token ! [ &= ](tokens_helper(f, &_binding_0.spans)))
}
BinOp::BitOrEq(_binding_0) => {
BinOp::BitOrEq(Token ! [ |= ](tokens_helper(f, &_binding_0.spans)))
}
BinOp::ShlEq(_binding_0) => {
BinOp::ShlEq(Token ! [ <<= ](tokens_helper(f, &_binding_0.spans)))
}
BinOp::ShrEq(_binding_0) => {
BinOp::ShrEq(Token ! [ >>= ](tokens_helper(f, &_binding_0.spans)))
}
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_binding<F>(f: &mut F, node: Binding) -> Binding
where
F: Fold + ?Sized,
{
Binding {
ident: f.fold_ident(node.ident),
eq_token: Token ! [ = ](tokens_helper(f, &node.eq_token.spans)),
ty: f.fold_type(node.ty),
}
}
#[cfg(feature = "full")]
pub fn fold_block<F>(f: &mut F, node: Block) -> Block
where
F: Fold + ?Sized,
{
Block {
brace_token: Brace(tokens_helper(f, &node.brace_token.span)),
stmts: FoldHelper::lift(node.stmts, |it| f.fold_stmt(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_bound_lifetimes<F>(f: &mut F, node: BoundLifetimes) -> BoundLifetimes
where
F: Fold + ?Sized,
{
BoundLifetimes {
for_token: Token![for](tokens_helper(f, &node.for_token.span)),
lt_token: Token ! [ < ](tokens_helper(f, &node.lt_token.spans)),
lifetimes: FoldHelper::lift(node.lifetimes, |it| f.fold_lifetime_def(it)),
gt_token: Token ! [ > ](tokens_helper(f, &node.gt_token.spans)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_const_param<F>(f: &mut F, node: ConstParam) -> ConstParam
where
F: Fold + ?Sized,
{
ConstParam {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
const_token: Token![const](tokens_helper(f, &node.const_token.span)),
ident: f.fold_ident(node.ident),
colon_token: Token ! [ : ](tokens_helper(f, &node.colon_token.spans)),
ty: f.fold_type(node.ty),
eq_token: (node.eq_token).map(|it| Token ! [ = ](tokens_helper(f, &it.spans))),
default: (node.default).map(|it| f.fold_expr(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_constraint<F>(f: &mut F, node: Constraint) -> Constraint
where
F: Fold + ?Sized,
{
Constraint {
ident: f.fold_ident(node.ident),
colon_token: Token ! [ : ](tokens_helper(f, &node.colon_token.spans)),
bounds: FoldHelper::lift(node.bounds, |it| f.fold_type_param_bound(it)),
}
}
#[cfg(feature = "derive")]
pub fn fold_data<F>(f: &mut F, node: Data) -> Data
where
F: Fold + ?Sized,
{
match node {
Data::Struct(_binding_0) => Data::Struct(f.fold_data_struct(_binding_0)),
Data::Enum(_binding_0) => Data::Enum(f.fold_data_enum(_binding_0)),
Data::Union(_binding_0) => Data::Union(f.fold_data_union(_binding_0)),
}
}
#[cfg(feature = "derive")]
pub fn fold_data_enum<F>(f: &mut F, node: DataEnum) -> DataEnum
where
F: Fold + ?Sized,
{
DataEnum {
enum_token: Token![enum](tokens_helper(f, &node.enum_token.span)),
brace_token: Brace(tokens_helper(f, &node.brace_token.span)),
variants: FoldHelper::lift(node.variants, |it| f.fold_variant(it)),
}
}
#[cfg(feature = "derive")]
pub fn fold_data_struct<F>(f: &mut F, node: DataStruct) -> DataStruct
where
F: Fold + ?Sized,
{
DataStruct {
struct_token: Token![struct](tokens_helper(f, &node.struct_token.span)),
fields: f.fold_fields(node.fields),
semi_token: (node.semi_token).map(|it| Token ! [ ; ](tokens_helper(f, &it.spans))),
}
}
#[cfg(feature = "derive")]
pub fn fold_data_union<F>(f: &mut F, node: DataUnion) -> DataUnion
where
F: Fold + ?Sized,
{
DataUnion {
union_token: Token![union](tokens_helper(f, &node.union_token.span)),
fields: f.fold_fields_named(node.fields),
}
}
#[cfg(feature = "derive")]
pub fn fold_derive_input<F>(f: &mut F, node: DeriveInput) -> DeriveInput
where
F: Fold + ?Sized,
{
DeriveInput {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
ident: f.fold_ident(node.ident),
generics: f.fold_generics(node.generics),
data: f.fold_data(node.data),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_expr<F>(f: &mut F, node: Expr) -> Expr
where
F: Fold + ?Sized,
{
match node {
Expr::Array(_binding_0) => Expr::Array(full!(f.fold_expr_array(_binding_0))),
Expr::Assign(_binding_0) => Expr::Assign(full!(f.fold_expr_assign(_binding_0))),
Expr::AssignOp(_binding_0) => Expr::AssignOp(full!(f.fold_expr_assign_op(_binding_0))),
Expr::Async(_binding_0) => Expr::Async(full!(f.fold_expr_async(_binding_0))),
Expr::Await(_binding_0) => Expr::Await(full!(f.fold_expr_await(_binding_0))),
Expr::Binary(_binding_0) => Expr::Binary(f.fold_expr_binary(_binding_0)),
Expr::Block(_binding_0) => Expr::Block(full!(f.fold_expr_block(_binding_0))),
Expr::Box(_binding_0) => Expr::Box(full!(f.fold_expr_box(_binding_0))),
Expr::Break(_binding_0) => Expr::Break(full!(f.fold_expr_break(_binding_0))),
Expr::Call(_binding_0) => Expr::Call(f.fold_expr_call(_binding_0)),
Expr::Cast(_binding_0) => Expr::Cast(f.fold_expr_cast(_binding_0)),
Expr::Closure(_binding_0) => Expr::Closure(full!(f.fold_expr_closure(_binding_0))),
Expr::Continue(_binding_0) => Expr::Continue(full!(f.fold_expr_continue(_binding_0))),
Expr::Field(_binding_0) => Expr::Field(f.fold_expr_field(_binding_0)),
Expr::ForLoop(_binding_0) => Expr::ForLoop(full!(f.fold_expr_for_loop(_binding_0))),
Expr::Group(_binding_0) => Expr::Group(full!(f.fold_expr_group(_binding_0))),
Expr::If(_binding_0) => Expr::If(full!(f.fold_expr_if(_binding_0))),
Expr::Index(_binding_0) => Expr::Index(f.fold_expr_index(_binding_0)),
Expr::Let(_binding_0) => Expr::Let(full!(f.fold_expr_let(_binding_0))),
Expr::Lit(_binding_0) => Expr::Lit(f.fold_expr_lit(_binding_0)),
Expr::Loop(_binding_0) => Expr::Loop(full!(f.fold_expr_loop(_binding_0))),
Expr::Macro(_binding_0) => Expr::Macro(full!(f.fold_expr_macro(_binding_0))),
Expr::Match(_binding_0) => Expr::Match(full!(f.fold_expr_match(_binding_0))),
Expr::MethodCall(_binding_0) => {
Expr::MethodCall(full!(f.fold_expr_method_call(_binding_0)))
}
Expr::Paren(_binding_0) => Expr::Paren(f.fold_expr_paren(_binding_0)),
Expr::Path(_binding_0) => Expr::Path(f.fold_expr_path(_binding_0)),
Expr::Range(_binding_0) => Expr::Range(full!(f.fold_expr_range(_binding_0))),
Expr::Reference(_binding_0) => Expr::Reference(full!(f.fold_expr_reference(_binding_0))),
Expr::Repeat(_binding_0) => Expr::Repeat(full!(f.fold_expr_repeat(_binding_0))),
Expr::Return(_binding_0) => Expr::Return(full!(f.fold_expr_return(_binding_0))),
Expr::Struct(_binding_0) => Expr::Struct(full!(f.fold_expr_struct(_binding_0))),
Expr::Try(_binding_0) => Expr::Try(full!(f.fold_expr_try(_binding_0))),
Expr::TryBlock(_binding_0) => Expr::TryBlock(full!(f.fold_expr_try_block(_binding_0))),
Expr::Tuple(_binding_0) => Expr::Tuple(full!(f.fold_expr_tuple(_binding_0))),
Expr::Type(_binding_0) => Expr::Type(full!(f.fold_expr_type(_binding_0))),
Expr::Unary(_binding_0) => Expr::Unary(f.fold_expr_unary(_binding_0)),
Expr::Unsafe(_binding_0) => Expr::Unsafe(full!(f.fold_expr_unsafe(_binding_0))),
Expr::Verbatim(_binding_0) => Expr::Verbatim(_binding_0),
Expr::While(_binding_0) => Expr::While(full!(f.fold_expr_while(_binding_0))),
Expr::Yield(_binding_0) => Expr::Yield(full!(f.fold_expr_yield(_binding_0))),
_ => unreachable!(),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_array<F>(f: &mut F, node: ExprArray) -> ExprArray
where
F: Fold + ?Sized,
{
ExprArray {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
bracket_token: Bracket(tokens_helper(f, &node.bracket_token.span)),
elems: FoldHelper::lift(node.elems, |it| f.fold_expr(it)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_assign<F>(f: &mut F, node: ExprAssign) -> ExprAssign
where
F: Fold + ?Sized,
{
ExprAssign {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
left: Box::new(f.fold_expr(*node.left)),
eq_token: Token ! [ = ](tokens_helper(f, &node.eq_token.spans)),
right: Box::new(f.fold_expr(*node.right)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_assign_op<F>(f: &mut F, node: ExprAssignOp) -> ExprAssignOp
where
F: Fold + ?Sized,
{
ExprAssignOp {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
left: Box::new(f.fold_expr(*node.left)),
op: f.fold_bin_op(node.op),
right: Box::new(f.fold_expr(*node.right)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_async<F>(f: &mut F, node: ExprAsync) -> ExprAsync
where
F: Fold + ?Sized,
{
ExprAsync {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
async_token: Token![async](tokens_helper(f, &node.async_token.span)),
capture: (node.capture).map(|it| Token![move](tokens_helper(f, &it.span))),
block: f.fold_block(node.block),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_await<F>(f: &mut F, node: ExprAwait) -> ExprAwait
where
F: Fold + ?Sized,
{
ExprAwait {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
base: Box::new(f.fold_expr(*node.base)),
dot_token: Token ! [ . ](tokens_helper(f, &node.dot_token.spans)),
await_token: crate::token::Await(tokens_helper(f, &node.await_token.span)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_expr_binary<F>(f: &mut F, node: ExprBinary) -> ExprBinary
where
F: Fold + ?Sized,
{
ExprBinary {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
left: Box::new(f.fold_expr(*node.left)),
op: f.fold_bin_op(node.op),
right: Box::new(f.fold_expr(*node.right)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_block<F>(f: &mut F, node: ExprBlock) -> ExprBlock
where
F: Fold + ?Sized,
{
ExprBlock {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
label: (node.label).map(|it| f.fold_label(it)),
block: f.fold_block(node.block),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_box<F>(f: &mut F, node: ExprBox) -> ExprBox
where
F: Fold + ?Sized,
{
ExprBox {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
box_token: Token![box](tokens_helper(f, &node.box_token.span)),
expr: Box::new(f.fold_expr(*node.expr)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_break<F>(f: &mut F, node: ExprBreak) -> ExprBreak
where
F: Fold + ?Sized,
{
ExprBreak {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
break_token: Token![break](tokens_helper(f, &node.break_token.span)),
label: (node.label).map(|it| f.fold_lifetime(it)),
expr: (node.expr).map(|it| Box::new(f.fold_expr(*it))),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_expr_call<F>(f: &mut F, node: ExprCall) -> ExprCall
where
F: Fold + ?Sized,
{
ExprCall {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
func: Box::new(f.fold_expr(*node.func)),
paren_token: Paren(tokens_helper(f, &node.paren_token.span)),
args: FoldHelper::lift(node.args, |it| f.fold_expr(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_expr_cast<F>(f: &mut F, node: ExprCast) -> ExprCast
where
F: Fold + ?Sized,
{
ExprCast {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
expr: Box::new(f.fold_expr(*node.expr)),
as_token: Token![as](tokens_helper(f, &node.as_token.span)),
ty: Box::new(f.fold_type(*node.ty)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_closure<F>(f: &mut F, node: ExprClosure) -> ExprClosure
where
F: Fold + ?Sized,
{
ExprClosure {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
asyncness: (node.asyncness).map(|it| Token![async](tokens_helper(f, &it.span))),
movability: (node.movability).map(|it| Token![static](tokens_helper(f, &it.span))),
capture: (node.capture).map(|it| Token![move](tokens_helper(f, &it.span))),
or1_token: Token ! [ | ](tokens_helper(f, &node.or1_token.spans)),
inputs: FoldHelper::lift(node.inputs, |it| f.fold_pat(it)),
or2_token: Token ! [ | ](tokens_helper(f, &node.or2_token.spans)),
output: f.fold_return_type(node.output),
body: Box::new(f.fold_expr(*node.body)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_continue<F>(f: &mut F, node: ExprContinue) -> ExprContinue
where
F: Fold + ?Sized,
{
ExprContinue {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
continue_token: Token![continue](tokens_helper(f, &node.continue_token.span)),
label: (node.label).map(|it| f.fold_lifetime(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_expr_field<F>(f: &mut F, node: ExprField) -> ExprField
where
F: Fold + ?Sized,
{
ExprField {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
base: Box::new(f.fold_expr(*node.base)),
dot_token: Token ! [ . ](tokens_helper(f, &node.dot_token.spans)),
member: f.fold_member(node.member),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_for_loop<F>(f: &mut F, node: ExprForLoop) -> ExprForLoop
where
F: Fold + ?Sized,
{
ExprForLoop {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
label: (node.label).map(|it| f.fold_label(it)),
for_token: Token![for](tokens_helper(f, &node.for_token.span)),
pat: f.fold_pat(node.pat),
in_token: Token![in](tokens_helper(f, &node.in_token.span)),
expr: Box::new(f.fold_expr(*node.expr)),
body: f.fold_block(node.body),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_group<F>(f: &mut F, node: ExprGroup) -> ExprGroup
where
F: Fold + ?Sized,
{
ExprGroup {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
group_token: Group(tokens_helper(f, &node.group_token.span)),
expr: Box::new(f.fold_expr(*node.expr)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_if<F>(f: &mut F, node: ExprIf) -> ExprIf
where
F: Fold + ?Sized,
{
ExprIf {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
if_token: Token![if](tokens_helper(f, &node.if_token.span)),
cond: Box::new(f.fold_expr(*node.cond)),
then_branch: f.fold_block(node.then_branch),
else_branch: (node.else_branch).map(|it| {
(
Token![else](tokens_helper(f, &(it).0.span)),
Box::new(f.fold_expr(*(it).1)),
)
}),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_expr_index<F>(f: &mut F, node: ExprIndex) -> ExprIndex
where
F: Fold + ?Sized,
{
ExprIndex {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
expr: Box::new(f.fold_expr(*node.expr)),
bracket_token: Bracket(tokens_helper(f, &node.bracket_token.span)),
index: Box::new(f.fold_expr(*node.index)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_let<F>(f: &mut F, node: ExprLet) -> ExprLet
where
F: Fold + ?Sized,
{
ExprLet {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
let_token: Token![let](tokens_helper(f, &node.let_token.span)),
pat: f.fold_pat(node.pat),
eq_token: Token ! [ = ](tokens_helper(f, &node.eq_token.spans)),
expr: Box::new(f.fold_expr(*node.expr)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_expr_lit<F>(f: &mut F, node: ExprLit) -> ExprLit
where
F: Fold + ?Sized,
{
ExprLit {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
lit: f.fold_lit(node.lit),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_loop<F>(f: &mut F, node: ExprLoop) -> ExprLoop
where
F: Fold + ?Sized,
{
ExprLoop {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
label: (node.label).map(|it| f.fold_label(it)),
loop_token: Token![loop](tokens_helper(f, &node.loop_token.span)),
body: f.fold_block(node.body),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_macro<F>(f: &mut F, node: ExprMacro) -> ExprMacro
where
F: Fold + ?Sized,
{
ExprMacro {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
mac: f.fold_macro(node.mac),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_match<F>(f: &mut F, node: ExprMatch) -> ExprMatch
where
F: Fold + ?Sized,
{
ExprMatch {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
match_token: Token![match](tokens_helper(f, &node.match_token.span)),
expr: Box::new(f.fold_expr(*node.expr)),
brace_token: Brace(tokens_helper(f, &node.brace_token.span)),
arms: FoldHelper::lift(node.arms, |it| f.fold_arm(it)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_method_call<F>(f: &mut F, node: ExprMethodCall) -> ExprMethodCall
where
F: Fold + ?Sized,
{
ExprMethodCall {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
receiver: Box::new(f.fold_expr(*node.receiver)),
dot_token: Token ! [ . ](tokens_helper(f, &node.dot_token.spans)),
method: f.fold_ident(node.method),
turbofish: (node.turbofish).map(|it| f.fold_method_turbofish(it)),
paren_token: Paren(tokens_helper(f, &node.paren_token.span)),
args: FoldHelper::lift(node.args, |it| f.fold_expr(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_expr_paren<F>(f: &mut F, node: ExprParen) -> ExprParen
where
F: Fold + ?Sized,
{
ExprParen {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
paren_token: Paren(tokens_helper(f, &node.paren_token.span)),
expr: Box::new(f.fold_expr(*node.expr)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_expr_path<F>(f: &mut F, node: ExprPath) -> ExprPath
where
F: Fold + ?Sized,
{
ExprPath {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
qself: (node.qself).map(|it| f.fold_qself(it)),
path: f.fold_path(node.path),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_range<F>(f: &mut F, node: ExprRange) -> ExprRange
where
F: Fold + ?Sized,
{
ExprRange {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
from: (node.from).map(|it| Box::new(f.fold_expr(*it))),
limits: f.fold_range_limits(node.limits),
to: (node.to).map(|it| Box::new(f.fold_expr(*it))),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_reference<F>(f: &mut F, node: ExprReference) -> ExprReference
where
F: Fold + ?Sized,
{
ExprReference {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
and_token: Token ! [ & ](tokens_helper(f, &node.and_token.spans)),
raw: node.raw,
mutability: (node.mutability).map(|it| Token![mut](tokens_helper(f, &it.span))),
expr: Box::new(f.fold_expr(*node.expr)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_repeat<F>(f: &mut F, node: ExprRepeat) -> ExprRepeat
where
F: Fold + ?Sized,
{
ExprRepeat {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
bracket_token: Bracket(tokens_helper(f, &node.bracket_token.span)),
expr: Box::new(f.fold_expr(*node.expr)),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
len: Box::new(f.fold_expr(*node.len)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_return<F>(f: &mut F, node: ExprReturn) -> ExprReturn
where
F: Fold + ?Sized,
{
ExprReturn {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
return_token: Token![return](tokens_helper(f, &node.return_token.span)),
expr: (node.expr).map(|it| Box::new(f.fold_expr(*it))),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_struct<F>(f: &mut F, node: ExprStruct) -> ExprStruct
where
F: Fold + ?Sized,
{
ExprStruct {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
path: f.fold_path(node.path),
brace_token: Brace(tokens_helper(f, &node.brace_token.span)),
fields: FoldHelper::lift(node.fields, |it| f.fold_field_value(it)),
dot2_token: (node.dot2_token).map(|it| Token![..](tokens_helper(f, &it.spans))),
rest: (node.rest).map(|it| Box::new(f.fold_expr(*it))),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_try<F>(f: &mut F, node: ExprTry) -> ExprTry
where
F: Fold + ?Sized,
{
ExprTry {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
expr: Box::new(f.fold_expr(*node.expr)),
question_token: Token ! [ ? ](tokens_helper(f, &node.question_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_try_block<F>(f: &mut F, node: ExprTryBlock) -> ExprTryBlock
where
F: Fold + ?Sized,
{
ExprTryBlock {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
try_token: Token![try](tokens_helper(f, &node.try_token.span)),
block: f.fold_block(node.block),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_tuple<F>(f: &mut F, node: ExprTuple) -> ExprTuple
where
F: Fold + ?Sized,
{
ExprTuple {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
paren_token: Paren(tokens_helper(f, &node.paren_token.span)),
elems: FoldHelper::lift(node.elems, |it| f.fold_expr(it)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_type<F>(f: &mut F, node: ExprType) -> ExprType
where
F: Fold + ?Sized,
{
ExprType {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
expr: Box::new(f.fold_expr(*node.expr)),
colon_token: Token ! [ : ](tokens_helper(f, &node.colon_token.spans)),
ty: Box::new(f.fold_type(*node.ty)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_expr_unary<F>(f: &mut F, node: ExprUnary) -> ExprUnary
where
F: Fold + ?Sized,
{
ExprUnary {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
op: f.fold_un_op(node.op),
expr: Box::new(f.fold_expr(*node.expr)),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_unsafe<F>(f: &mut F, node: ExprUnsafe) -> ExprUnsafe
where
F: Fold + ?Sized,
{
ExprUnsafe {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
unsafe_token: Token![unsafe](tokens_helper(f, &node.unsafe_token.span)),
block: f.fold_block(node.block),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_while<F>(f: &mut F, node: ExprWhile) -> ExprWhile
where
F: Fold + ?Sized,
{
ExprWhile {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
label: (node.label).map(|it| f.fold_label(it)),
while_token: Token![while](tokens_helper(f, &node.while_token.span)),
cond: Box::new(f.fold_expr(*node.cond)),
body: f.fold_block(node.body),
}
}
#[cfg(feature = "full")]
pub fn fold_expr_yield<F>(f: &mut F, node: ExprYield) -> ExprYield
where
F: Fold + ?Sized,
{
ExprYield {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
yield_token: Token![yield](tokens_helper(f, &node.yield_token.span)),
expr: (node.expr).map(|it| Box::new(f.fold_expr(*it))),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_field<F>(f: &mut F, node: Field) -> Field
where
F: Fold + ?Sized,
{
Field {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
ident: (node.ident).map(|it| f.fold_ident(it)),
colon_token: (node.colon_token).map(|it| Token ! [ : ](tokens_helper(f, &it.spans))),
ty: f.fold_type(node.ty),
}
}
#[cfg(feature = "full")]
pub fn fold_field_pat<F>(f: &mut F, node: FieldPat) -> FieldPat
where
F: Fold + ?Sized,
{
FieldPat {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
member: f.fold_member(node.member),
colon_token: (node.colon_token).map(|it| Token ! [ : ](tokens_helper(f, &it.spans))),
pat: Box::new(f.fold_pat(*node.pat)),
}
}
#[cfg(feature = "full")]
pub fn fold_field_value<F>(f: &mut F, node: FieldValue) -> FieldValue
where
F: Fold + ?Sized,
{
FieldValue {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
member: f.fold_member(node.member),
colon_token: (node.colon_token).map(|it| Token ! [ : ](tokens_helper(f, &it.spans))),
expr: f.fold_expr(node.expr),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_fields<F>(f: &mut F, node: Fields) -> Fields
where
F: Fold + ?Sized,
{
match node {
Fields::Named(_binding_0) => Fields::Named(f.fold_fields_named(_binding_0)),
Fields::Unnamed(_binding_0) => Fields::Unnamed(f.fold_fields_unnamed(_binding_0)),
Fields::Unit => Fields::Unit,
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_fields_named<F>(f: &mut F, node: FieldsNamed) -> FieldsNamed
where
F: Fold + ?Sized,
{
FieldsNamed {
brace_token: Brace(tokens_helper(f, &node.brace_token.span)),
named: FoldHelper::lift(node.named, |it| f.fold_field(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_fields_unnamed<F>(f: &mut F, node: FieldsUnnamed) -> FieldsUnnamed
where
F: Fold + ?Sized,
{
FieldsUnnamed {
paren_token: Paren(tokens_helper(f, &node.paren_token.span)),
unnamed: FoldHelper::lift(node.unnamed, |it| f.fold_field(it)),
}
}
#[cfg(feature = "full")]
pub fn fold_file<F>(f: &mut F, node: File) -> File
where
F: Fold + ?Sized,
{
File {
shebang: node.shebang,
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
items: FoldHelper::lift(node.items, |it| f.fold_item(it)),
}
}
#[cfg(feature = "full")]
pub fn fold_fn_arg<F>(f: &mut F, node: FnArg) -> FnArg
where
F: Fold + ?Sized,
{
match node {
FnArg::Receiver(_binding_0) => FnArg::Receiver(f.fold_receiver(_binding_0)),
FnArg::Typed(_binding_0) => FnArg::Typed(f.fold_pat_type(_binding_0)),
}
}
#[cfg(feature = "full")]
pub fn fold_foreign_item<F>(f: &mut F, node: ForeignItem) -> ForeignItem
where
F: Fold + ?Sized,
{
match node {
ForeignItem::Fn(_binding_0) => ForeignItem::Fn(f.fold_foreign_item_fn(_binding_0)),
ForeignItem::Static(_binding_0) => {
ForeignItem::Static(f.fold_foreign_item_static(_binding_0))
}
ForeignItem::Type(_binding_0) => ForeignItem::Type(f.fold_foreign_item_type(_binding_0)),
ForeignItem::Macro(_binding_0) => ForeignItem::Macro(f.fold_foreign_item_macro(_binding_0)),
ForeignItem::Verbatim(_binding_0) => ForeignItem::Verbatim(_binding_0),
_ => unreachable!(),
}
}
#[cfg(feature = "full")]
pub fn fold_foreign_item_fn<F>(f: &mut F, node: ForeignItemFn) -> ForeignItemFn
where
F: Fold + ?Sized,
{
ForeignItemFn {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
sig: f.fold_signature(node.sig),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_foreign_item_macro<F>(f: &mut F, node: ForeignItemMacro) -> ForeignItemMacro
where
F: Fold + ?Sized,
{
ForeignItemMacro {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
mac: f.fold_macro(node.mac),
semi_token: (node.semi_token).map(|it| Token ! [ ; ](tokens_helper(f, &it.spans))),
}
}
#[cfg(feature = "full")]
pub fn fold_foreign_item_static<F>(f: &mut F, node: ForeignItemStatic) -> ForeignItemStatic
where
F: Fold + ?Sized,
{
ForeignItemStatic {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
static_token: Token![static](tokens_helper(f, &node.static_token.span)),
mutability: (node.mutability).map(|it| Token![mut](tokens_helper(f, &it.span))),
ident: f.fold_ident(node.ident),
colon_token: Token ! [ : ](tokens_helper(f, &node.colon_token.spans)),
ty: Box::new(f.fold_type(*node.ty)),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_foreign_item_type<F>(f: &mut F, node: ForeignItemType) -> ForeignItemType
where
F: Fold + ?Sized,
{
ForeignItemType {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
type_token: Token![type](tokens_helper(f, &node.type_token.span)),
ident: f.fold_ident(node.ident),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_generic_argument<F>(f: &mut F, node: GenericArgument) -> GenericArgument
where
F: Fold + ?Sized,
{
match node {
GenericArgument::Lifetime(_binding_0) => {
GenericArgument::Lifetime(f.fold_lifetime(_binding_0))
}
GenericArgument::Type(_binding_0) => GenericArgument::Type(f.fold_type(_binding_0)),
GenericArgument::Binding(_binding_0) => {
GenericArgument::Binding(f.fold_binding(_binding_0))
}
GenericArgument::Constraint(_binding_0) => {
GenericArgument::Constraint(f.fold_constraint(_binding_0))
}
GenericArgument::Const(_binding_0) => GenericArgument::Const(f.fold_expr(_binding_0)),
}
}
#[cfg(feature = "full")]
pub fn fold_generic_method_argument<F>(
f: &mut F,
node: GenericMethodArgument,
) -> GenericMethodArgument
where
F: Fold + ?Sized,
{
match node {
GenericMethodArgument::Type(_binding_0) => {
GenericMethodArgument::Type(f.fold_type(_binding_0))
}
GenericMethodArgument::Const(_binding_0) => {
GenericMethodArgument::Const(f.fold_expr(_binding_0))
}
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_generic_param<F>(f: &mut F, node: GenericParam) -> GenericParam
where
F: Fold + ?Sized,
{
match node {
GenericParam::Type(_binding_0) => GenericParam::Type(f.fold_type_param(_binding_0)),
GenericParam::Lifetime(_binding_0) => {
GenericParam::Lifetime(f.fold_lifetime_def(_binding_0))
}
GenericParam::Const(_binding_0) => GenericParam::Const(f.fold_const_param(_binding_0)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_generics<F>(f: &mut F, node: Generics) -> Generics
where
F: Fold + ?Sized,
{
Generics {
lt_token: (node.lt_token).map(|it| Token ! [ < ](tokens_helper(f, &it.spans))),
params: FoldHelper::lift(node.params, |it| f.fold_generic_param(it)),
gt_token: (node.gt_token).map(|it| Token ! [ > ](tokens_helper(f, &it.spans))),
where_clause: (node.where_clause).map(|it| f.fold_where_clause(it)),
}
}
pub fn fold_ident<F>(f: &mut F, node: Ident) -> Ident
where
F: Fold + ?Sized,
{
let mut node = node;
let span = f.fold_span(node.span());
node.set_span(span);
node
}
#[cfg(feature = "full")]
pub fn fold_impl_item<F>(f: &mut F, node: ImplItem) -> ImplItem
where
F: Fold + ?Sized,
{
match node {
ImplItem::Const(_binding_0) => ImplItem::Const(f.fold_impl_item_const(_binding_0)),
ImplItem::Method(_binding_0) => ImplItem::Method(f.fold_impl_item_method(_binding_0)),
ImplItem::Type(_binding_0) => ImplItem::Type(f.fold_impl_item_type(_binding_0)),
ImplItem::Macro(_binding_0) => ImplItem::Macro(f.fold_impl_item_macro(_binding_0)),
ImplItem::Verbatim(_binding_0) => ImplItem::Verbatim(_binding_0),
_ => unreachable!(),
}
}
#[cfg(feature = "full")]
pub fn fold_impl_item_const<F>(f: &mut F, node: ImplItemConst) -> ImplItemConst
where
F: Fold + ?Sized,
{
ImplItemConst {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
defaultness: (node.defaultness).map(|it| Token![default](tokens_helper(f, &it.span))),
const_token: Token![const](tokens_helper(f, &node.const_token.span)),
ident: f.fold_ident(node.ident),
colon_token: Token ! [ : ](tokens_helper(f, &node.colon_token.spans)),
ty: f.fold_type(node.ty),
eq_token: Token ! [ = ](tokens_helper(f, &node.eq_token.spans)),
expr: f.fold_expr(node.expr),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_impl_item_macro<F>(f: &mut F, node: ImplItemMacro) -> ImplItemMacro
where
F: Fold + ?Sized,
{
ImplItemMacro {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
mac: f.fold_macro(node.mac),
semi_token: (node.semi_token).map(|it| Token ! [ ; ](tokens_helper(f, &it.spans))),
}
}
#[cfg(feature = "full")]
pub fn fold_impl_item_method<F>(f: &mut F, node: ImplItemMethod) -> ImplItemMethod
where
F: Fold + ?Sized,
{
ImplItemMethod {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
defaultness: (node.defaultness).map(|it| Token![default](tokens_helper(f, &it.span))),
sig: f.fold_signature(node.sig),
block: f.fold_block(node.block),
}
}
#[cfg(feature = "full")]
pub fn fold_impl_item_type<F>(f: &mut F, node: ImplItemType) -> ImplItemType
where
F: Fold + ?Sized,
{
ImplItemType {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
defaultness: (node.defaultness).map(|it| Token![default](tokens_helper(f, &it.span))),
type_token: Token![type](tokens_helper(f, &node.type_token.span)),
ident: f.fold_ident(node.ident),
generics: f.fold_generics(node.generics),
eq_token: Token ! [ = ](tokens_helper(f, &node.eq_token.spans)),
ty: f.fold_type(node.ty),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_index<F>(f: &mut F, node: Index) -> Index
where
F: Fold + ?Sized,
{
Index {
index: node.index,
span: f.fold_span(node.span),
}
}
#[cfg(feature = "full")]
pub fn fold_item<F>(f: &mut F, node: Item) -> Item
where
F: Fold + ?Sized,
{
match node {
Item::Const(_binding_0) => Item::Const(f.fold_item_const(_binding_0)),
Item::Enum(_binding_0) => Item::Enum(f.fold_item_enum(_binding_0)),
Item::ExternCrate(_binding_0) => Item::ExternCrate(f.fold_item_extern_crate(_binding_0)),
Item::Fn(_binding_0) => Item::Fn(f.fold_item_fn(_binding_0)),
Item::ForeignMod(_binding_0) => Item::ForeignMod(f.fold_item_foreign_mod(_binding_0)),
Item::Impl(_binding_0) => Item::Impl(f.fold_item_impl(_binding_0)),
Item::Macro(_binding_0) => Item::Macro(f.fold_item_macro(_binding_0)),
Item::Macro2(_binding_0) => Item::Macro2(f.fold_item_macro2(_binding_0)),
Item::Mod(_binding_0) => Item::Mod(f.fold_item_mod(_binding_0)),
Item::Static(_binding_0) => Item::Static(f.fold_item_static(_binding_0)),
Item::Struct(_binding_0) => Item::Struct(f.fold_item_struct(_binding_0)),
Item::Trait(_binding_0) => Item::Trait(f.fold_item_trait(_binding_0)),
Item::TraitAlias(_binding_0) => Item::TraitAlias(f.fold_item_trait_alias(_binding_0)),
Item::Type(_binding_0) => Item::Type(f.fold_item_type(_binding_0)),
Item::Union(_binding_0) => Item::Union(f.fold_item_union(_binding_0)),
Item::Use(_binding_0) => Item::Use(f.fold_item_use(_binding_0)),
Item::Verbatim(_binding_0) => Item::Verbatim(_binding_0),
_ => unreachable!(),
}
}
#[cfg(feature = "full")]
pub fn fold_item_const<F>(f: &mut F, node: ItemConst) -> ItemConst
where
F: Fold + ?Sized,
{
ItemConst {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
const_token: Token![const](tokens_helper(f, &node.const_token.span)),
ident: f.fold_ident(node.ident),
colon_token: Token ! [ : ](tokens_helper(f, &node.colon_token.spans)),
ty: Box::new(f.fold_type(*node.ty)),
eq_token: Token ! [ = ](tokens_helper(f, &node.eq_token.spans)),
expr: Box::new(f.fold_expr(*node.expr)),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_item_enum<F>(f: &mut F, node: ItemEnum) -> ItemEnum
where
F: Fold + ?Sized,
{
ItemEnum {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
enum_token: Token![enum](tokens_helper(f, &node.enum_token.span)),
ident: f.fold_ident(node.ident),
generics: f.fold_generics(node.generics),
brace_token: Brace(tokens_helper(f, &node.brace_token.span)),
variants: FoldHelper::lift(node.variants, |it| f.fold_variant(it)),
}
}
#[cfg(feature = "full")]
pub fn fold_item_extern_crate<F>(f: &mut F, node: ItemExternCrate) -> ItemExternCrate
where
F: Fold + ?Sized,
{
ItemExternCrate {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
extern_token: Token![extern](tokens_helper(f, &node.extern_token.span)),
crate_token: Token![crate](tokens_helper(f, &node.crate_token.span)),
ident: f.fold_ident(node.ident),
rename: (node.rename).map(|it| {
(
Token![as](tokens_helper(f, &(it).0.span)),
f.fold_ident((it).1),
)
}),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_item_fn<F>(f: &mut F, node: ItemFn) -> ItemFn
where
F: Fold + ?Sized,
{
ItemFn {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
sig: f.fold_signature(node.sig),
block: Box::new(f.fold_block(*node.block)),
}
}
#[cfg(feature = "full")]
pub fn fold_item_foreign_mod<F>(f: &mut F, node: ItemForeignMod) -> ItemForeignMod
where
F: Fold + ?Sized,
{
ItemForeignMod {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
abi: f.fold_abi(node.abi),
brace_token: Brace(tokens_helper(f, &node.brace_token.span)),
items: FoldHelper::lift(node.items, |it| f.fold_foreign_item(it)),
}
}
#[cfg(feature = "full")]
pub fn fold_item_impl<F>(f: &mut F, node: ItemImpl) -> ItemImpl
where
F: Fold + ?Sized,
{
ItemImpl {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
defaultness: (node.defaultness).map(|it| Token![default](tokens_helper(f, &it.span))),
unsafety: (node.unsafety).map(|it| Token![unsafe](tokens_helper(f, &it.span))),
impl_token: Token![impl](tokens_helper(f, &node.impl_token.span)),
generics: f.fold_generics(node.generics),
trait_: (node.trait_).map(|it| {
(
((it).0).map(|it| Token![!](tokens_helper(f, &it.spans))),
f.fold_path((it).1),
Token![for](tokens_helper(f, &(it).2.span)),
)
}),
self_ty: Box::new(f.fold_type(*node.self_ty)),
brace_token: Brace(tokens_helper(f, &node.brace_token.span)),
items: FoldHelper::lift(node.items, |it| f.fold_impl_item(it)),
}
}
#[cfg(feature = "full")]
pub fn fold_item_macro<F>(f: &mut F, node: ItemMacro) -> ItemMacro
where
F: Fold + ?Sized,
{
ItemMacro {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
ident: (node.ident).map(|it| f.fold_ident(it)),
mac: f.fold_macro(node.mac),
semi_token: (node.semi_token).map(|it| Token ! [ ; ](tokens_helper(f, &it.spans))),
}
}
#[cfg(feature = "full")]
pub fn fold_item_macro2<F>(f: &mut F, node: ItemMacro2) -> ItemMacro2
where
F: Fold + ?Sized,
{
ItemMacro2 {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
macro_token: Token![macro](tokens_helper(f, &node.macro_token.span)),
ident: f.fold_ident(node.ident),
rules: node.rules,
}
}
#[cfg(feature = "full")]
pub fn fold_item_mod<F>(f: &mut F, node: ItemMod) -> ItemMod
where
F: Fold + ?Sized,
{
ItemMod {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
mod_token: Token![mod](tokens_helper(f, &node.mod_token.span)),
ident: f.fold_ident(node.ident),
content: (node.content).map(|it| {
(
Brace(tokens_helper(f, &(it).0.span)),
FoldHelper::lift((it).1, |it| f.fold_item(it)),
)
}),
semi: (node.semi).map(|it| Token ! [ ; ](tokens_helper(f, &it.spans))),
}
}
#[cfg(feature = "full")]
pub fn fold_item_static<F>(f: &mut F, node: ItemStatic) -> ItemStatic
where
F: Fold + ?Sized,
{
ItemStatic {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
static_token: Token![static](tokens_helper(f, &node.static_token.span)),
mutability: (node.mutability).map(|it| Token![mut](tokens_helper(f, &it.span))),
ident: f.fold_ident(node.ident),
colon_token: Token ! [ : ](tokens_helper(f, &node.colon_token.spans)),
ty: Box::new(f.fold_type(*node.ty)),
eq_token: Token ! [ = ](tokens_helper(f, &node.eq_token.spans)),
expr: Box::new(f.fold_expr(*node.expr)),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_item_struct<F>(f: &mut F, node: ItemStruct) -> ItemStruct
where
F: Fold + ?Sized,
{
ItemStruct {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
struct_token: Token![struct](tokens_helper(f, &node.struct_token.span)),
ident: f.fold_ident(node.ident),
generics: f.fold_generics(node.generics),
fields: f.fold_fields(node.fields),
semi_token: (node.semi_token).map(|it| Token ! [ ; ](tokens_helper(f, &it.spans))),
}
}
#[cfg(feature = "full")]
pub fn fold_item_trait<F>(f: &mut F, node: ItemTrait) -> ItemTrait
where
F: Fold + ?Sized,
{
ItemTrait {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
unsafety: (node.unsafety).map(|it| Token![unsafe](tokens_helper(f, &it.span))),
auto_token: (node.auto_token).map(|it| Token![auto](tokens_helper(f, &it.span))),
trait_token: Token![trait](tokens_helper(f, &node.trait_token.span)),
ident: f.fold_ident(node.ident),
generics: f.fold_generics(node.generics),
colon_token: (node.colon_token).map(|it| Token ! [ : ](tokens_helper(f, &it.spans))),
supertraits: FoldHelper::lift(node.supertraits, |it| f.fold_type_param_bound(it)),
brace_token: Brace(tokens_helper(f, &node.brace_token.span)),
items: FoldHelper::lift(node.items, |it| f.fold_trait_item(it)),
}
}
#[cfg(feature = "full")]
pub fn fold_item_trait_alias<F>(f: &mut F, node: ItemTraitAlias) -> ItemTraitAlias
where
F: Fold + ?Sized,
{
ItemTraitAlias {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
trait_token: Token![trait](tokens_helper(f, &node.trait_token.span)),
ident: f.fold_ident(node.ident),
generics: f.fold_generics(node.generics),
eq_token: Token ! [ = ](tokens_helper(f, &node.eq_token.spans)),
bounds: FoldHelper::lift(node.bounds, |it| f.fold_type_param_bound(it)),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_item_type<F>(f: &mut F, node: ItemType) -> ItemType
where
F: Fold + ?Sized,
{
ItemType {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
type_token: Token![type](tokens_helper(f, &node.type_token.span)),
ident: f.fold_ident(node.ident),
generics: f.fold_generics(node.generics),
eq_token: Token ! [ = ](tokens_helper(f, &node.eq_token.spans)),
ty: Box::new(f.fold_type(*node.ty)),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_item_union<F>(f: &mut F, node: ItemUnion) -> ItemUnion
where
F: Fold + ?Sized,
{
ItemUnion {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
union_token: Token![union](tokens_helper(f, &node.union_token.span)),
ident: f.fold_ident(node.ident),
generics: f.fold_generics(node.generics),
fields: f.fold_fields_named(node.fields),
}
}
#[cfg(feature = "full")]
pub fn fold_item_use<F>(f: &mut F, node: ItemUse) -> ItemUse
where
F: Fold + ?Sized,
{
ItemUse {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
vis: f.fold_visibility(node.vis),
use_token: Token![use](tokens_helper(f, &node.use_token.span)),
leading_colon: (node.leading_colon).map(|it| Token ! [ :: ](tokens_helper(f, &it.spans))),
tree: f.fold_use_tree(node.tree),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_label<F>(f: &mut F, node: Label) -> Label
where
F: Fold + ?Sized,
{
Label {
name: f.fold_lifetime(node.name),
colon_token: Token ! [ : ](tokens_helper(f, &node.colon_token.spans)),
}
}
pub fn fold_lifetime<F>(f: &mut F, node: Lifetime) -> Lifetime
where
F: Fold + ?Sized,
{
Lifetime {
apostrophe: f.fold_span(node.apostrophe),
ident: f.fold_ident(node.ident),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_lifetime_def<F>(f: &mut F, node: LifetimeDef) -> LifetimeDef
where
F: Fold + ?Sized,
{
LifetimeDef {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
lifetime: f.fold_lifetime(node.lifetime),
colon_token: (node.colon_token).map(|it| Token ! [ : ](tokens_helper(f, &it.spans))),
bounds: FoldHelper::lift(node.bounds, |it| f.fold_lifetime(it)),
}
}
pub fn fold_lit<F>(f: &mut F, node: Lit) -> Lit
where
F: Fold + ?Sized,
{
match node {
Lit::Str(_binding_0) => Lit::Str(f.fold_lit_str(_binding_0)),
Lit::ByteStr(_binding_0) => Lit::ByteStr(f.fold_lit_byte_str(_binding_0)),
Lit::Byte(_binding_0) => Lit::Byte(f.fold_lit_byte(_binding_0)),
Lit::Char(_binding_0) => Lit::Char(f.fold_lit_char(_binding_0)),
Lit::Int(_binding_0) => Lit::Int(f.fold_lit_int(_binding_0)),
Lit::Float(_binding_0) => Lit::Float(f.fold_lit_float(_binding_0)),
Lit::Bool(_binding_0) => Lit::Bool(f.fold_lit_bool(_binding_0)),
Lit::Verbatim(_binding_0) => Lit::Verbatim(_binding_0),
}
}
pub fn fold_lit_bool<F>(f: &mut F, node: LitBool) -> LitBool
where
F: Fold + ?Sized,
{
LitBool {
value: node.value,
span: f.fold_span(node.span),
}
}
pub fn fold_lit_byte<F>(f: &mut F, node: LitByte) -> LitByte
where
F: Fold + ?Sized,
{
let span = f.fold_span(node.span());
let mut node = node;
node.set_span(span);
node
}
pub fn fold_lit_byte_str<F>(f: &mut F, node: LitByteStr) -> LitByteStr
where
F: Fold + ?Sized,
{
let span = f.fold_span(node.span());
let mut node = node;
node.set_span(span);
node
}
pub fn fold_lit_char<F>(f: &mut F, node: LitChar) -> LitChar
where
F: Fold + ?Sized,
{
let span = f.fold_span(node.span());
let mut node = node;
node.set_span(span);
node
}
pub fn fold_lit_float<F>(f: &mut F, node: LitFloat) -> LitFloat
where
F: Fold + ?Sized,
{
let span = f.fold_span(node.span());
let mut node = node;
node.set_span(span);
node
}
pub fn fold_lit_int<F>(f: &mut F, node: LitInt) -> LitInt
where
F: Fold + ?Sized,
{
let span = f.fold_span(node.span());
let mut node = node;
node.set_span(span);
node
}
pub fn fold_lit_str<F>(f: &mut F, node: LitStr) -> LitStr
where
F: Fold + ?Sized,
{
let span = f.fold_span(node.span());
let mut node = node;
node.set_span(span);
node
}
#[cfg(feature = "full")]
pub fn fold_local<F>(f: &mut F, node: Local) -> Local
where
F: Fold + ?Sized,
{
Local {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
let_token: Token![let](tokens_helper(f, &node.let_token.span)),
pat: f.fold_pat(node.pat),
init: (node.init).map(|it| {
(
Token ! [ = ](tokens_helper(f, &(it).0.spans)),
Box::new(f.fold_expr(*(it).1)),
)
}),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_macro<F>(f: &mut F, node: Macro) -> Macro
where
F: Fold + ?Sized,
{
Macro {
path: f.fold_path(node.path),
bang_token: Token![!](tokens_helper(f, &node.bang_token.spans)),
delimiter: f.fold_macro_delimiter(node.delimiter),
tokens: node.tokens,
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_macro_delimiter<F>(f: &mut F, node: MacroDelimiter) -> MacroDelimiter
where
F: Fold + ?Sized,
{
match node {
MacroDelimiter::Paren(_binding_0) => {
MacroDelimiter::Paren(Paren(tokens_helper(f, &_binding_0.span)))
}
MacroDelimiter::Brace(_binding_0) => {
MacroDelimiter::Brace(Brace(tokens_helper(f, &_binding_0.span)))
}
MacroDelimiter::Bracket(_binding_0) => {
MacroDelimiter::Bracket(Bracket(tokens_helper(f, &_binding_0.span)))
}
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_member<F>(f: &mut F, node: Member) -> Member
where
F: Fold + ?Sized,
{
match node {
Member::Named(_binding_0) => Member::Named(f.fold_ident(_binding_0)),
Member::Unnamed(_binding_0) => Member::Unnamed(f.fold_index(_binding_0)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_meta<F>(f: &mut F, node: Meta) -> Meta
where
F: Fold + ?Sized,
{
match node {
Meta::Path(_binding_0) => Meta::Path(f.fold_path(_binding_0)),
Meta::List(_binding_0) => Meta::List(f.fold_meta_list(_binding_0)),
Meta::NameValue(_binding_0) => Meta::NameValue(f.fold_meta_name_value(_binding_0)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_meta_list<F>(f: &mut F, node: MetaList) -> MetaList
where
F: Fold + ?Sized,
{
MetaList {
path: f.fold_path(node.path),
paren_token: Paren(tokens_helper(f, &node.paren_token.span)),
nested: FoldHelper::lift(node.nested, |it| f.fold_nested_meta(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_meta_name_value<F>(f: &mut F, node: MetaNameValue) -> MetaNameValue
where
F: Fold + ?Sized,
{
MetaNameValue {
path: f.fold_path(node.path),
eq_token: Token ! [ = ](tokens_helper(f, &node.eq_token.spans)),
lit: f.fold_lit(node.lit),
}
}
#[cfg(feature = "full")]
pub fn fold_method_turbofish<F>(f: &mut F, node: MethodTurbofish) -> MethodTurbofish
where
F: Fold + ?Sized,
{
MethodTurbofish {
colon2_token: Token ! [ :: ](tokens_helper(f, &node.colon2_token.spans)),
lt_token: Token ! [ < ](tokens_helper(f, &node.lt_token.spans)),
args: FoldHelper::lift(node.args, |it| f.fold_generic_method_argument(it)),
gt_token: Token ! [ > ](tokens_helper(f, &node.gt_token.spans)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_nested_meta<F>(f: &mut F, node: NestedMeta) -> NestedMeta
where
F: Fold + ?Sized,
{
match node {
NestedMeta::Meta(_binding_0) => NestedMeta::Meta(f.fold_meta(_binding_0)),
NestedMeta::Lit(_binding_0) => NestedMeta::Lit(f.fold_lit(_binding_0)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_parenthesized_generic_arguments<F>(
f: &mut F,
node: ParenthesizedGenericArguments,
) -> ParenthesizedGenericArguments
where
F: Fold + ?Sized,
{
ParenthesizedGenericArguments {
paren_token: Paren(tokens_helper(f, &node.paren_token.span)),
inputs: FoldHelper::lift(node.inputs, |it| f.fold_type(it)),
output: f.fold_return_type(node.output),
}
}
#[cfg(feature = "full")]
pub fn fold_pat<F>(f: &mut F, node: Pat) -> Pat
where
F: Fold + ?Sized,
{
match node {
Pat::Box(_binding_0) => Pat::Box(f.fold_pat_box(_binding_0)),
Pat::Ident(_binding_0) => Pat::Ident(f.fold_pat_ident(_binding_0)),
Pat::Lit(_binding_0) => Pat::Lit(f.fold_pat_lit(_binding_0)),
Pat::Macro(_binding_0) => Pat::Macro(f.fold_pat_macro(_binding_0)),
Pat::Or(_binding_0) => Pat::Or(f.fold_pat_or(_binding_0)),
Pat::Path(_binding_0) => Pat::Path(f.fold_pat_path(_binding_0)),
Pat::Range(_binding_0) => Pat::Range(f.fold_pat_range(_binding_0)),
Pat::Reference(_binding_0) => Pat::Reference(f.fold_pat_reference(_binding_0)),
Pat::Rest(_binding_0) => Pat::Rest(f.fold_pat_rest(_binding_0)),
Pat::Slice(_binding_0) => Pat::Slice(f.fold_pat_slice(_binding_0)),
Pat::Struct(_binding_0) => Pat::Struct(f.fold_pat_struct(_binding_0)),
Pat::Tuple(_binding_0) => Pat::Tuple(f.fold_pat_tuple(_binding_0)),
Pat::TupleStruct(_binding_0) => Pat::TupleStruct(f.fold_pat_tuple_struct(_binding_0)),
Pat::Type(_binding_0) => Pat::Type(f.fold_pat_type(_binding_0)),
Pat::Verbatim(_binding_0) => Pat::Verbatim(_binding_0),
Pat::Wild(_binding_0) => Pat::Wild(f.fold_pat_wild(_binding_0)),
_ => unreachable!(),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_box<F>(f: &mut F, node: PatBox) -> PatBox
where
F: Fold + ?Sized,
{
PatBox {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
box_token: Token![box](tokens_helper(f, &node.box_token.span)),
pat: Box::new(f.fold_pat(*node.pat)),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_ident<F>(f: &mut F, node: PatIdent) -> PatIdent
where
F: Fold + ?Sized,
{
PatIdent {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
by_ref: (node.by_ref).map(|it| Token![ref](tokens_helper(f, &it.span))),
mutability: (node.mutability).map(|it| Token![mut](tokens_helper(f, &it.span))),
ident: f.fold_ident(node.ident),
subpat: (node.subpat).map(|it| {
(
Token ! [ @ ](tokens_helper(f, &(it).0.spans)),
Box::new(f.fold_pat(*(it).1)),
)
}),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_lit<F>(f: &mut F, node: PatLit) -> PatLit
where
F: Fold + ?Sized,
{
PatLit {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
expr: Box::new(f.fold_expr(*node.expr)),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_macro<F>(f: &mut F, node: PatMacro) -> PatMacro
where
F: Fold + ?Sized,
{
PatMacro {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
mac: f.fold_macro(node.mac),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_or<F>(f: &mut F, node: PatOr) -> PatOr
where
F: Fold + ?Sized,
{
PatOr {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
leading_vert: (node.leading_vert).map(|it| Token ! [ | ](tokens_helper(f, &it.spans))),
cases: FoldHelper::lift(node.cases, |it| f.fold_pat(it)),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_path<F>(f: &mut F, node: PatPath) -> PatPath
where
F: Fold + ?Sized,
{
PatPath {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
qself: (node.qself).map(|it| f.fold_qself(it)),
path: f.fold_path(node.path),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_range<F>(f: &mut F, node: PatRange) -> PatRange
where
F: Fold + ?Sized,
{
PatRange {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
lo: Box::new(f.fold_expr(*node.lo)),
limits: f.fold_range_limits(node.limits),
hi: Box::new(f.fold_expr(*node.hi)),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_reference<F>(f: &mut F, node: PatReference) -> PatReference
where
F: Fold + ?Sized,
{
PatReference {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
and_token: Token ! [ & ](tokens_helper(f, &node.and_token.spans)),
mutability: (node.mutability).map(|it| Token![mut](tokens_helper(f, &it.span))),
pat: Box::new(f.fold_pat(*node.pat)),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_rest<F>(f: &mut F, node: PatRest) -> PatRest
where
F: Fold + ?Sized,
{
PatRest {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
dot2_token: Token![..](tokens_helper(f, &node.dot2_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_slice<F>(f: &mut F, node: PatSlice) -> PatSlice
where
F: Fold + ?Sized,
{
PatSlice {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
bracket_token: Bracket(tokens_helper(f, &node.bracket_token.span)),
elems: FoldHelper::lift(node.elems, |it| f.fold_pat(it)),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_struct<F>(f: &mut F, node: PatStruct) -> PatStruct
where
F: Fold + ?Sized,
{
PatStruct {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
path: f.fold_path(node.path),
brace_token: Brace(tokens_helper(f, &node.brace_token.span)),
fields: FoldHelper::lift(node.fields, |it| f.fold_field_pat(it)),
dot2_token: (node.dot2_token).map(|it| Token![..](tokens_helper(f, &it.spans))),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_tuple<F>(f: &mut F, node: PatTuple) -> PatTuple
where
F: Fold + ?Sized,
{
PatTuple {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
paren_token: Paren(tokens_helper(f, &node.paren_token.span)),
elems: FoldHelper::lift(node.elems, |it| f.fold_pat(it)),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_tuple_struct<F>(f: &mut F, node: PatTupleStruct) -> PatTupleStruct
where
F: Fold + ?Sized,
{
PatTupleStruct {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
path: f.fold_path(node.path),
pat: f.fold_pat_tuple(node.pat),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_type<F>(f: &mut F, node: PatType) -> PatType
where
F: Fold + ?Sized,
{
PatType {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
pat: Box::new(f.fold_pat(*node.pat)),
colon_token: Token ! [ : ](tokens_helper(f, &node.colon_token.spans)),
ty: Box::new(f.fold_type(*node.ty)),
}
}
#[cfg(feature = "full")]
pub fn fold_pat_wild<F>(f: &mut F, node: PatWild) -> PatWild
where
F: Fold + ?Sized,
{
PatWild {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
underscore_token: Token![_](tokens_helper(f, &node.underscore_token.spans)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_path<F>(f: &mut F, node: Path) -> Path
where
F: Fold + ?Sized,
{
Path {
leading_colon: (node.leading_colon).map(|it| Token ! [ :: ](tokens_helper(f, &it.spans))),
segments: FoldHelper::lift(node.segments, |it| f.fold_path_segment(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_path_arguments<F>(f: &mut F, node: PathArguments) -> PathArguments
where
F: Fold + ?Sized,
{
match node {
PathArguments::None => PathArguments::None,
PathArguments::AngleBracketed(_binding_0) => {
PathArguments::AngleBracketed(f.fold_angle_bracketed_generic_arguments(_binding_0))
}
PathArguments::Parenthesized(_binding_0) => {
PathArguments::Parenthesized(f.fold_parenthesized_generic_arguments(_binding_0))
}
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_path_segment<F>(f: &mut F, node: PathSegment) -> PathSegment
where
F: Fold + ?Sized,
{
PathSegment {
ident: f.fold_ident(node.ident),
arguments: f.fold_path_arguments(node.arguments),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_predicate_eq<F>(f: &mut F, node: PredicateEq) -> PredicateEq
where
F: Fold + ?Sized,
{
PredicateEq {
lhs_ty: f.fold_type(node.lhs_ty),
eq_token: Token ! [ = ](tokens_helper(f, &node.eq_token.spans)),
rhs_ty: f.fold_type(node.rhs_ty),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_predicate_lifetime<F>(f: &mut F, node: PredicateLifetime) -> PredicateLifetime
where
F: Fold + ?Sized,
{
PredicateLifetime {
lifetime: f.fold_lifetime(node.lifetime),
colon_token: Token ! [ : ](tokens_helper(f, &node.colon_token.spans)),
bounds: FoldHelper::lift(node.bounds, |it| f.fold_lifetime(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_predicate_type<F>(f: &mut F, node: PredicateType) -> PredicateType
where
F: Fold + ?Sized,
{
PredicateType {
lifetimes: (node.lifetimes).map(|it| f.fold_bound_lifetimes(it)),
bounded_ty: f.fold_type(node.bounded_ty),
colon_token: Token ! [ : ](tokens_helper(f, &node.colon_token.spans)),
bounds: FoldHelper::lift(node.bounds, |it| f.fold_type_param_bound(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_qself<F>(f: &mut F, node: QSelf) -> QSelf
where
F: Fold + ?Sized,
{
QSelf {
lt_token: Token ! [ < ](tokens_helper(f, &node.lt_token.spans)),
ty: Box::new(f.fold_type(*node.ty)),
position: node.position,
as_token: (node.as_token).map(|it| Token![as](tokens_helper(f, &it.span))),
gt_token: Token ! [ > ](tokens_helper(f, &node.gt_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_range_limits<F>(f: &mut F, node: RangeLimits) -> RangeLimits
where
F: Fold + ?Sized,
{
match node {
RangeLimits::HalfOpen(_binding_0) => {
RangeLimits::HalfOpen(Token![..](tokens_helper(f, &_binding_0.spans)))
}
RangeLimits::Closed(_binding_0) => {
RangeLimits::Closed(Token ! [ ..= ](tokens_helper(f, &_binding_0.spans)))
}
}
}
#[cfg(feature = "full")]
pub fn fold_receiver<F>(f: &mut F, node: Receiver) -> Receiver
where
F: Fold + ?Sized,
{
Receiver {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
reference: (node.reference).map(|it| {
(
Token ! [ & ](tokens_helper(f, &(it).0.spans)),
((it).1).map(|it| f.fold_lifetime(it)),
)
}),
mutability: (node.mutability).map(|it| Token![mut](tokens_helper(f, &it.span))),
self_token: Token![self](tokens_helper(f, &node.self_token.span)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_return_type<F>(f: &mut F, node: ReturnType) -> ReturnType
where
F: Fold + ?Sized,
{
match node {
ReturnType::Default => ReturnType::Default,
ReturnType::Type(_binding_0, _binding_1) => ReturnType::Type(
Token ! [ -> ](tokens_helper(f, &_binding_0.spans)),
Box::new(f.fold_type(*_binding_1)),
),
}
}
#[cfg(feature = "full")]
pub fn fold_signature<F>(f: &mut F, node: Signature) -> Signature
where
F: Fold + ?Sized,
{
Signature {
constness: (node.constness).map(|it| Token![const](tokens_helper(f, &it.span))),
asyncness: (node.asyncness).map(|it| Token![async](tokens_helper(f, &it.span))),
unsafety: (node.unsafety).map(|it| Token![unsafe](tokens_helper(f, &it.span))),
abi: (node.abi).map(|it| f.fold_abi(it)),
fn_token: Token![fn](tokens_helper(f, &node.fn_token.span)),
ident: f.fold_ident(node.ident),
generics: f.fold_generics(node.generics),
paren_token: Paren(tokens_helper(f, &node.paren_token.span)),
inputs: FoldHelper::lift(node.inputs, |it| f.fold_fn_arg(it)),
variadic: (node.variadic).map(|it| f.fold_variadic(it)),
output: f.fold_return_type(node.output),
}
}
pub fn fold_span<F>(f: &mut F, node: Span) -> Span
where
F: Fold + ?Sized,
{
node
}
#[cfg(feature = "full")]
pub fn fold_stmt<F>(f: &mut F, node: Stmt) -> Stmt
where
F: Fold + ?Sized,
{
match node {
Stmt::Local(_binding_0) => Stmt::Local(f.fold_local(_binding_0)),
Stmt::Item(_binding_0) => Stmt::Item(f.fold_item(_binding_0)),
Stmt::Expr(_binding_0) => Stmt::Expr(f.fold_expr(_binding_0)),
Stmt::Semi(_binding_0, _binding_1) => Stmt::Semi(
f.fold_expr(_binding_0),
Token ! [ ; ](tokens_helper(f, &_binding_1.spans)),
),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_trait_bound<F>(f: &mut F, node: TraitBound) -> TraitBound
where
F: Fold + ?Sized,
{
TraitBound {
paren_token: (node.paren_token).map(|it| Paren(tokens_helper(f, &it.span))),
modifier: f.fold_trait_bound_modifier(node.modifier),
lifetimes: (node.lifetimes).map(|it| f.fold_bound_lifetimes(it)),
path: f.fold_path(node.path),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_trait_bound_modifier<F>(f: &mut F, node: TraitBoundModifier) -> TraitBoundModifier
where
F: Fold + ?Sized,
{
match node {
TraitBoundModifier::None => TraitBoundModifier::None,
TraitBoundModifier::Maybe(_binding_0) => {
TraitBoundModifier::Maybe(Token ! [ ? ](tokens_helper(f, &_binding_0.spans)))
}
}
}
#[cfg(feature = "full")]
pub fn fold_trait_item<F>(f: &mut F, node: TraitItem) -> TraitItem
where
F: Fold + ?Sized,
{
match node {
TraitItem::Const(_binding_0) => TraitItem::Const(f.fold_trait_item_const(_binding_0)),
TraitItem::Method(_binding_0) => TraitItem::Method(f.fold_trait_item_method(_binding_0)),
TraitItem::Type(_binding_0) => TraitItem::Type(f.fold_trait_item_type(_binding_0)),
TraitItem::Macro(_binding_0) => TraitItem::Macro(f.fold_trait_item_macro(_binding_0)),
TraitItem::Verbatim(_binding_0) => TraitItem::Verbatim(_binding_0),
_ => unreachable!(),
}
}
#[cfg(feature = "full")]
pub fn fold_trait_item_const<F>(f: &mut F, node: TraitItemConst) -> TraitItemConst
where
F: Fold + ?Sized,
{
TraitItemConst {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
const_token: Token![const](tokens_helper(f, &node.const_token.span)),
ident: f.fold_ident(node.ident),
colon_token: Token ! [ : ](tokens_helper(f, &node.colon_token.spans)),
ty: f.fold_type(node.ty),
default: (node.default).map(|it| {
(
Token ! [ = ](tokens_helper(f, &(it).0.spans)),
f.fold_expr((it).1),
)
}),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_trait_item_macro<F>(f: &mut F, node: TraitItemMacro) -> TraitItemMacro
where
F: Fold + ?Sized,
{
TraitItemMacro {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
mac: f.fold_macro(node.mac),
semi_token: (node.semi_token).map(|it| Token ! [ ; ](tokens_helper(f, &it.spans))),
}
}
#[cfg(feature = "full")]
pub fn fold_trait_item_method<F>(f: &mut F, node: TraitItemMethod) -> TraitItemMethod
where
F: Fold + ?Sized,
{
TraitItemMethod {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
sig: f.fold_signature(node.sig),
default: (node.default).map(|it| f.fold_block(it)),
semi_token: (node.semi_token).map(|it| Token ! [ ; ](tokens_helper(f, &it.spans))),
}
}
#[cfg(feature = "full")]
pub fn fold_trait_item_type<F>(f: &mut F, node: TraitItemType) -> TraitItemType
where
F: Fold + ?Sized,
{
TraitItemType {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
type_token: Token![type](tokens_helper(f, &node.type_token.span)),
ident: f.fold_ident(node.ident),
generics: f.fold_generics(node.generics),
colon_token: (node.colon_token).map(|it| Token ! [ : ](tokens_helper(f, &it.spans))),
bounds: FoldHelper::lift(node.bounds, |it| f.fold_type_param_bound(it)),
default: (node.default).map(|it| {
(
Token ! [ = ](tokens_helper(f, &(it).0.spans)),
f.fold_type((it).1),
)
}),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type<F>(f: &mut F, node: Type) -> Type
where
F: Fold + ?Sized,
{
match node {
Type::Array(_binding_0) => Type::Array(f.fold_type_array(_binding_0)),
Type::BareFn(_binding_0) => Type::BareFn(f.fold_type_bare_fn(_binding_0)),
Type::Group(_binding_0) => Type::Group(f.fold_type_group(_binding_0)),
Type::ImplTrait(_binding_0) => Type::ImplTrait(f.fold_type_impl_trait(_binding_0)),
Type::Infer(_binding_0) => Type::Infer(f.fold_type_infer(_binding_0)),
Type::Macro(_binding_0) => Type::Macro(f.fold_type_macro(_binding_0)),
Type::Never(_binding_0) => Type::Never(f.fold_type_never(_binding_0)),
Type::Paren(_binding_0) => Type::Paren(f.fold_type_paren(_binding_0)),
Type::Path(_binding_0) => Type::Path(f.fold_type_path(_binding_0)),
Type::Ptr(_binding_0) => Type::Ptr(f.fold_type_ptr(_binding_0)),
Type::Reference(_binding_0) => Type::Reference(f.fold_type_reference(_binding_0)),
Type::Slice(_binding_0) => Type::Slice(f.fold_type_slice(_binding_0)),
Type::TraitObject(_binding_0) => Type::TraitObject(f.fold_type_trait_object(_binding_0)),
Type::Tuple(_binding_0) => Type::Tuple(f.fold_type_tuple(_binding_0)),
Type::Verbatim(_binding_0) => Type::Verbatim(_binding_0),
_ => unreachable!(),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_array<F>(f: &mut F, node: TypeArray) -> TypeArray
where
F: Fold + ?Sized,
{
TypeArray {
bracket_token: Bracket(tokens_helper(f, &node.bracket_token.span)),
elem: Box::new(f.fold_type(*node.elem)),
semi_token: Token ! [ ; ](tokens_helper(f, &node.semi_token.spans)),
len: f.fold_expr(node.len),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_bare_fn<F>(f: &mut F, node: TypeBareFn) -> TypeBareFn
where
F: Fold + ?Sized,
{
TypeBareFn {
lifetimes: (node.lifetimes).map(|it| f.fold_bound_lifetimes(it)),
unsafety: (node.unsafety).map(|it| Token![unsafe](tokens_helper(f, &it.span))),
abi: (node.abi).map(|it| f.fold_abi(it)),
fn_token: Token![fn](tokens_helper(f, &node.fn_token.span)),
paren_token: Paren(tokens_helper(f, &node.paren_token.span)),
inputs: FoldHelper::lift(node.inputs, |it| f.fold_bare_fn_arg(it)),
variadic: (node.variadic).map(|it| f.fold_variadic(it)),
output: f.fold_return_type(node.output),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_group<F>(f: &mut F, node: TypeGroup) -> TypeGroup
where
F: Fold + ?Sized,
{
TypeGroup {
group_token: Group(tokens_helper(f, &node.group_token.span)),
elem: Box::new(f.fold_type(*node.elem)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_impl_trait<F>(f: &mut F, node: TypeImplTrait) -> TypeImplTrait
where
F: Fold + ?Sized,
{
TypeImplTrait {
impl_token: Token![impl](tokens_helper(f, &node.impl_token.span)),
bounds: FoldHelper::lift(node.bounds, |it| f.fold_type_param_bound(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_infer<F>(f: &mut F, node: TypeInfer) -> TypeInfer
where
F: Fold + ?Sized,
{
TypeInfer {
underscore_token: Token![_](tokens_helper(f, &node.underscore_token.spans)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_macro<F>(f: &mut F, node: TypeMacro) -> TypeMacro
where
F: Fold + ?Sized,
{
TypeMacro {
mac: f.fold_macro(node.mac),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_never<F>(f: &mut F, node: TypeNever) -> TypeNever
where
F: Fold + ?Sized,
{
TypeNever {
bang_token: Token![!](tokens_helper(f, &node.bang_token.spans)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_param<F>(f: &mut F, node: TypeParam) -> TypeParam
where
F: Fold + ?Sized,
{
TypeParam {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
ident: f.fold_ident(node.ident),
colon_token: (node.colon_token).map(|it| Token ! [ : ](tokens_helper(f, &it.spans))),
bounds: FoldHelper::lift(node.bounds, |it| f.fold_type_param_bound(it)),
eq_token: (node.eq_token).map(|it| Token ! [ = ](tokens_helper(f, &it.spans))),
default: (node.default).map(|it| f.fold_type(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_param_bound<F>(f: &mut F, node: TypeParamBound) -> TypeParamBound
where
F: Fold + ?Sized,
{
match node {
TypeParamBound::Trait(_binding_0) => TypeParamBound::Trait(f.fold_trait_bound(_binding_0)),
TypeParamBound::Lifetime(_binding_0) => {
TypeParamBound::Lifetime(f.fold_lifetime(_binding_0))
}
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_paren<F>(f: &mut F, node: TypeParen) -> TypeParen
where
F: Fold + ?Sized,
{
TypeParen {
paren_token: Paren(tokens_helper(f, &node.paren_token.span)),
elem: Box::new(f.fold_type(*node.elem)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_path<F>(f: &mut F, node: TypePath) -> TypePath
where
F: Fold + ?Sized,
{
TypePath {
qself: (node.qself).map(|it| f.fold_qself(it)),
path: f.fold_path(node.path),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_ptr<F>(f: &mut F, node: TypePtr) -> TypePtr
where
F: Fold + ?Sized,
{
TypePtr {
star_token: Token ! [ * ](tokens_helper(f, &node.star_token.spans)),
const_token: (node.const_token).map(|it| Token![const](tokens_helper(f, &it.span))),
mutability: (node.mutability).map(|it| Token![mut](tokens_helper(f, &it.span))),
elem: Box::new(f.fold_type(*node.elem)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_reference<F>(f: &mut F, node: TypeReference) -> TypeReference
where
F: Fold + ?Sized,
{
TypeReference {
and_token: Token ! [ & ](tokens_helper(f, &node.and_token.spans)),
lifetime: (node.lifetime).map(|it| f.fold_lifetime(it)),
mutability: (node.mutability).map(|it| Token![mut](tokens_helper(f, &it.span))),
elem: Box::new(f.fold_type(*node.elem)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_slice<F>(f: &mut F, node: TypeSlice) -> TypeSlice
where
F: Fold + ?Sized,
{
TypeSlice {
bracket_token: Bracket(tokens_helper(f, &node.bracket_token.span)),
elem: Box::new(f.fold_type(*node.elem)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_trait_object<F>(f: &mut F, node: TypeTraitObject) -> TypeTraitObject
where
F: Fold + ?Sized,
{
TypeTraitObject {
dyn_token: (node.dyn_token).map(|it| Token![dyn](tokens_helper(f, &it.span))),
bounds: FoldHelper::lift(node.bounds, |it| f.fold_type_param_bound(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_type_tuple<F>(f: &mut F, node: TypeTuple) -> TypeTuple
where
F: Fold + ?Sized,
{
TypeTuple {
paren_token: Paren(tokens_helper(f, &node.paren_token.span)),
elems: FoldHelper::lift(node.elems, |it| f.fold_type(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_un_op<F>(f: &mut F, node: UnOp) -> UnOp
where
F: Fold + ?Sized,
{
match node {
UnOp::Deref(_binding_0) => UnOp::Deref(Token ! [ * ](tokens_helper(f, &_binding_0.spans))),
UnOp::Not(_binding_0) => UnOp::Not(Token![!](tokens_helper(f, &_binding_0.spans))),
UnOp::Neg(_binding_0) => UnOp::Neg(Token ! [ - ](tokens_helper(f, &_binding_0.spans))),
}
}
#[cfg(feature = "full")]
pub fn fold_use_glob<F>(f: &mut F, node: UseGlob) -> UseGlob
where
F: Fold + ?Sized,
{
UseGlob {
star_token: Token ! [ * ](tokens_helper(f, &node.star_token.spans)),
}
}
#[cfg(feature = "full")]
pub fn fold_use_group<F>(f: &mut F, node: UseGroup) -> UseGroup
where
F: Fold + ?Sized,
{
UseGroup {
brace_token: Brace(tokens_helper(f, &node.brace_token.span)),
items: FoldHelper::lift(node.items, |it| f.fold_use_tree(it)),
}
}
#[cfg(feature = "full")]
pub fn fold_use_name<F>(f: &mut F, node: UseName) -> UseName
where
F: Fold + ?Sized,
{
UseName {
ident: f.fold_ident(node.ident),
}
}
#[cfg(feature = "full")]
pub fn fold_use_path<F>(f: &mut F, node: UsePath) -> UsePath
where
F: Fold + ?Sized,
{
UsePath {
ident: f.fold_ident(node.ident),
colon2_token: Token ! [ :: ](tokens_helper(f, &node.colon2_token.spans)),
tree: Box::new(f.fold_use_tree(*node.tree)),
}
}
#[cfg(feature = "full")]
pub fn fold_use_rename<F>(f: &mut F, node: UseRename) -> UseRename
where
F: Fold + ?Sized,
{
UseRename {
ident: f.fold_ident(node.ident),
as_token: Token![as](tokens_helper(f, &node.as_token.span)),
rename: f.fold_ident(node.rename),
}
}
#[cfg(feature = "full")]
pub fn fold_use_tree<F>(f: &mut F, node: UseTree) -> UseTree
where
F: Fold + ?Sized,
{
match node {
UseTree::Path(_binding_0) => UseTree::Path(f.fold_use_path(_binding_0)),
UseTree::Name(_binding_0) => UseTree::Name(f.fold_use_name(_binding_0)),
UseTree::Rename(_binding_0) => UseTree::Rename(f.fold_use_rename(_binding_0)),
UseTree::Glob(_binding_0) => UseTree::Glob(f.fold_use_glob(_binding_0)),
UseTree::Group(_binding_0) => UseTree::Group(f.fold_use_group(_binding_0)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_variadic<F>(f: &mut F, node: Variadic) -> Variadic
where
F: Fold + ?Sized,
{
Variadic {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
dots: Token ! [ ... ](tokens_helper(f, &node.dots.spans)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_variant<F>(f: &mut F, node: Variant) -> Variant
where
F: Fold + ?Sized,
{
Variant {
attrs: FoldHelper::lift(node.attrs, |it| f.fold_attribute(it)),
ident: f.fold_ident(node.ident),
fields: f.fold_fields(node.fields),
discriminant: (node.discriminant).map(|it| {
(
Token ! [ = ](tokens_helper(f, &(it).0.spans)),
f.fold_expr((it).1),
)
}),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_vis_crate<F>(f: &mut F, node: VisCrate) -> VisCrate
where
F: Fold + ?Sized,
{
VisCrate {
crate_token: Token![crate](tokens_helper(f, &node.crate_token.span)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_vis_public<F>(f: &mut F, node: VisPublic) -> VisPublic
where
F: Fold + ?Sized,
{
VisPublic {
pub_token: Token![pub](tokens_helper(f, &node.pub_token.span)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_vis_restricted<F>(f: &mut F, node: VisRestricted) -> VisRestricted
where
F: Fold + ?Sized,
{
VisRestricted {
pub_token: Token![pub](tokens_helper(f, &node.pub_token.span)),
paren_token: Paren(tokens_helper(f, &node.paren_token.span)),
in_token: (node.in_token).map(|it| Token![in](tokens_helper(f, &it.span))),
path: Box::new(f.fold_path(*node.path)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_visibility<F>(f: &mut F, node: Visibility) -> Visibility
where
F: Fold + ?Sized,
{
match node {
Visibility::Public(_binding_0) => Visibility::Public(f.fold_vis_public(_binding_0)),
Visibility::Crate(_binding_0) => Visibility::Crate(f.fold_vis_crate(_binding_0)),
Visibility::Restricted(_binding_0) => {
Visibility::Restricted(f.fold_vis_restricted(_binding_0))
}
Visibility::Inherited => Visibility::Inherited,
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_where_clause<F>(f: &mut F, node: WhereClause) -> WhereClause
where
F: Fold + ?Sized,
{
WhereClause {
where_token: Token![where](tokens_helper(f, &node.where_token.span)),
predicates: FoldHelper::lift(node.predicates, |it| f.fold_where_predicate(it)),
}
}
#[cfg(any(feature = "derive", feature = "full"))]
pub fn fold_where_predicate<F>(f: &mut F, node: WherePredicate) -> WherePredicate
where
F: Fold + ?Sized,
{
match node {
WherePredicate::Type(_binding_0) => WherePredicate::Type(f.fold_predicate_type(_binding_0)),
WherePredicate::Lifetime(_binding_0) => {
WherePredicate::Lifetime(f.fold_predicate_lifetime(_binding_0))
}
WherePredicate::Eq(_binding_0) => WherePredicate::Eq(f.fold_predicate_eq(_binding_0)),
}
}