diff options
Diffstat (limited to 'syn/tests/debug/gen.rs')
| -rw-r--r-- | syn/tests/debug/gen.rs | 5633 |
1 files changed, 0 insertions, 5633 deletions
diff --git a/syn/tests/debug/gen.rs b/syn/tests/debug/gen.rs deleted file mode 100644 index 8450c09..0000000 --- a/syn/tests/debug/gen.rs +++ /dev/null @@ -1,5633 +0,0 @@ -// This file is @generated by syn-internal-codegen. -// It is not intended for manual editing. - -use super::{Lite, RefCast}; -use std::fmt::{self, Debug}; -impl Debug for Lite<syn::Abi> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Abi"); - if let Some(val) = &_val.name { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::LitStr); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("name", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::AngleBracketedGenericArguments> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("AngleBracketedGenericArguments"); - if let Some(val) = &_val.colon2_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon2); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("colon2_token", Print::ref_cast(val)); - } - if !_val.args.is_empty() { - formatter.field("args", Lite(&_val.args)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::Arm> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Arm"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("pat", Lite(&_val.pat)); - if let Some(val) = &_val.guard { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::If, Box<syn::Expr>)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("guard", Print::ref_cast(val)); - } - formatter.field("body", Lite(&_val.body)); - if let Some(val) = &_val.comma { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Comma); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("comma", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::AttrStyle> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::AttrStyle::Outer => formatter.write_str("Outer"), - syn::AttrStyle::Inner(_val) => { - formatter.write_str("Inner")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::Attribute> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Attribute"); - formatter.field("style", Lite(&_val.style)); - formatter.field("path", Lite(&_val.path)); - formatter.field("tokens", Lite(&_val.tokens)); - formatter.finish() - } -} -impl Debug for Lite<syn::BareFnArg> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("BareFnArg"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.name { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((proc_macro2::Ident, syn::token::Colon)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.0), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("name", Print::ref_cast(val)); - } - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } -} -impl Debug for Lite<syn::BinOp> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::BinOp::Add(_val) => { - formatter.write_str("Add")?; - Ok(()) - } - syn::BinOp::Sub(_val) => { - formatter.write_str("Sub")?; - Ok(()) - } - syn::BinOp::Mul(_val) => { - formatter.write_str("Mul")?; - Ok(()) - } - syn::BinOp::Div(_val) => { - formatter.write_str("Div")?; - Ok(()) - } - syn::BinOp::Rem(_val) => { - formatter.write_str("Rem")?; - Ok(()) - } - syn::BinOp::And(_val) => { - formatter.write_str("And")?; - Ok(()) - } - syn::BinOp::Or(_val) => { - formatter.write_str("Or")?; - Ok(()) - } - syn::BinOp::BitXor(_val) => { - formatter.write_str("BitXor")?; - Ok(()) - } - syn::BinOp::BitAnd(_val) => { - formatter.write_str("BitAnd")?; - Ok(()) - } - syn::BinOp::BitOr(_val) => { - formatter.write_str("BitOr")?; - Ok(()) - } - syn::BinOp::Shl(_val) => { - formatter.write_str("Shl")?; - Ok(()) - } - syn::BinOp::Shr(_val) => { - formatter.write_str("Shr")?; - Ok(()) - } - syn::BinOp::Eq(_val) => { - formatter.write_str("Eq")?; - Ok(()) - } - syn::BinOp::Lt(_val) => { - formatter.write_str("Lt")?; - Ok(()) - } - syn::BinOp::Le(_val) => { - formatter.write_str("Le")?; - Ok(()) - } - syn::BinOp::Ne(_val) => { - formatter.write_str("Ne")?; - Ok(()) - } - syn::BinOp::Ge(_val) => { - formatter.write_str("Ge")?; - Ok(()) - } - syn::BinOp::Gt(_val) => { - formatter.write_str("Gt")?; - Ok(()) - } - syn::BinOp::AddEq(_val) => { - formatter.write_str("AddEq")?; - Ok(()) - } - syn::BinOp::SubEq(_val) => { - formatter.write_str("SubEq")?; - Ok(()) - } - syn::BinOp::MulEq(_val) => { - formatter.write_str("MulEq")?; - Ok(()) - } - syn::BinOp::DivEq(_val) => { - formatter.write_str("DivEq")?; - Ok(()) - } - syn::BinOp::RemEq(_val) => { - formatter.write_str("RemEq")?; - Ok(()) - } - syn::BinOp::BitXorEq(_val) => { - formatter.write_str("BitXorEq")?; - Ok(()) - } - syn::BinOp::BitAndEq(_val) => { - formatter.write_str("BitAndEq")?; - Ok(()) - } - syn::BinOp::BitOrEq(_val) => { - formatter.write_str("BitOrEq")?; - Ok(()) - } - syn::BinOp::ShlEq(_val) => { - formatter.write_str("ShlEq")?; - Ok(()) - } - syn::BinOp::ShrEq(_val) => { - formatter.write_str("ShrEq")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::Binding> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Binding"); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } -} -impl Debug for Lite<syn::Block> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Block"); - if !_val.stmts.is_empty() { - formatter.field("stmts", Lite(&_val.stmts)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::BoundLifetimes> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("BoundLifetimes"); - if !_val.lifetimes.is_empty() { - formatter.field("lifetimes", Lite(&_val.lifetimes)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ConstParam> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ConstParam"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("ty", Lite(&_val.ty)); - if let Some(val) = &_val.eq_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Eq); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("eq_token", Print::ref_cast(val)); - } - if let Some(val) = &_val.default { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Expr); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("default", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::Constraint> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Constraint"); - formatter.field("ident", Lite(&_val.ident)); - if !_val.bounds.is_empty() { - formatter.field("bounds", Lite(&_val.bounds)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::Data> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::Data::Struct(_val) => { - let mut formatter = formatter.debug_struct("Data::Struct"); - formatter.field("fields", Lite(&_val.fields)); - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } - syn::Data::Enum(_val) => { - let mut formatter = formatter.debug_struct("Data::Enum"); - if !_val.variants.is_empty() { - formatter.field("variants", Lite(&_val.variants)); - } - formatter.finish() - } - syn::Data::Union(_val) => { - let mut formatter = formatter.debug_struct("Data::Union"); - formatter.field("fields", Lite(&_val.fields)); - formatter.finish() - } - } - } -} -impl Debug for Lite<syn::DataEnum> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("DataEnum"); - if !_val.variants.is_empty() { - formatter.field("variants", Lite(&_val.variants)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::DataStruct> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("DataStruct"); - formatter.field("fields", Lite(&_val.fields)); - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::DataUnion> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("DataUnion"); - formatter.field("fields", Lite(&_val.fields)); - formatter.finish() - } -} -impl Debug for Lite<syn::DeriveInput> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("DeriveInput"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - formatter.field("data", Lite(&_val.data)); - formatter.finish() - } -} -impl Debug for Lite<syn::Expr> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::Expr::Array(_val) => { - let mut formatter = formatter.debug_struct("Expr::Array"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if !_val.elems.is_empty() { - formatter.field("elems", Lite(&_val.elems)); - } - formatter.finish() - } - syn::Expr::Assign(_val) => { - let mut formatter = formatter.debug_struct("Expr::Assign"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("left", Lite(&_val.left)); - formatter.field("right", Lite(&_val.right)); - formatter.finish() - } - syn::Expr::AssignOp(_val) => { - let mut formatter = formatter.debug_struct("Expr::AssignOp"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("left", Lite(&_val.left)); - formatter.field("op", Lite(&_val.op)); - formatter.field("right", Lite(&_val.right)); - formatter.finish() - } - syn::Expr::Async(_val) => { - let mut formatter = formatter.debug_struct("Expr::Async"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.capture { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Move); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("capture", Print::ref_cast(val)); - } - formatter.field("block", Lite(&_val.block)); - formatter.finish() - } - syn::Expr::Await(_val) => { - let mut formatter = formatter.debug_struct("Expr::Await"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("base", Lite(&_val.base)); - formatter.finish() - } - syn::Expr::Binary(_val) => { - let mut formatter = formatter.debug_struct("Expr::Binary"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("left", Lite(&_val.left)); - formatter.field("op", Lite(&_val.op)); - formatter.field("right", Lite(&_val.right)); - formatter.finish() - } - syn::Expr::Block(_val) => { - let mut formatter = formatter.debug_struct("Expr::Block"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.label { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Label); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("label", Print::ref_cast(val)); - } - formatter.field("block", Lite(&_val.block)); - formatter.finish() - } - syn::Expr::Box(_val) => { - let mut formatter = formatter.debug_struct("Expr::Box"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } - syn::Expr::Break(_val) => { - let mut formatter = formatter.debug_struct("Expr::Break"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.label { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Lifetime); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("label", Print::ref_cast(val)); - } - if let Some(val) = &_val.expr { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Box<syn::Expr>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("expr", Print::ref_cast(val)); - } - formatter.finish() - } - syn::Expr::Call(_val) => { - let mut formatter = formatter.debug_struct("Expr::Call"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("func", Lite(&_val.func)); - if !_val.args.is_empty() { - formatter.field("args", Lite(&_val.args)); - } - formatter.finish() - } - syn::Expr::Cast(_val) => { - let mut formatter = formatter.debug_struct("Expr::Cast"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } - syn::Expr::Closure(_val) => { - let mut formatter = formatter.debug_struct("Expr::Closure"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.asyncness { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Async); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("asyncness", Print::ref_cast(val)); - } - if let Some(val) = &_val.movability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Static); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("movability", Print::ref_cast(val)); - } - if let Some(val) = &_val.capture { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Move); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("capture", Print::ref_cast(val)); - } - if !_val.inputs.is_empty() { - formatter.field("inputs", Lite(&_val.inputs)); - } - formatter.field("output", Lite(&_val.output)); - formatter.field("body", Lite(&_val.body)); - formatter.finish() - } - syn::Expr::Continue(_val) => { - let mut formatter = formatter.debug_struct("Expr::Continue"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.label { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Lifetime); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("label", Print::ref_cast(val)); - } - formatter.finish() - } - syn::Expr::Field(_val) => { - let mut formatter = formatter.debug_struct("Expr::Field"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("base", Lite(&_val.base)); - formatter.field("member", Lite(&_val.member)); - formatter.finish() - } - syn::Expr::ForLoop(_val) => { - let mut formatter = formatter.debug_struct("Expr::ForLoop"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.label { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Label); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("label", Print::ref_cast(val)); - } - formatter.field("pat", Lite(&_val.pat)); - formatter.field("expr", Lite(&_val.expr)); - formatter.field("body", Lite(&_val.body)); - formatter.finish() - } - syn::Expr::Group(_val) => { - let mut formatter = formatter.debug_struct("Expr::Group"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } - syn::Expr::If(_val) => { - let mut formatter = formatter.debug_struct("Expr::If"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("cond", Lite(&_val.cond)); - formatter.field("then_branch", Lite(&_val.then_branch)); - if let Some(val) = &_val.else_branch { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::Else, Box<syn::Expr>)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("else_branch", Print::ref_cast(val)); - } - formatter.finish() - } - syn::Expr::Index(_val) => { - let mut formatter = formatter.debug_struct("Expr::Index"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.field("index", Lite(&_val.index)); - formatter.finish() - } - syn::Expr::Let(_val) => { - let mut formatter = formatter.debug_struct("Expr::Let"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("pat", Lite(&_val.pat)); - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } - syn::Expr::Lit(_val) => { - let mut formatter = formatter.debug_struct("Expr::Lit"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("lit", Lite(&_val.lit)); - formatter.finish() - } - syn::Expr::Loop(_val) => { - let mut formatter = formatter.debug_struct("Expr::Loop"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.label { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Label); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("label", Print::ref_cast(val)); - } - formatter.field("body", Lite(&_val.body)); - formatter.finish() - } - syn::Expr::Macro(_val) => { - let mut formatter = formatter.debug_struct("Expr::Macro"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("mac", Lite(&_val.mac)); - formatter.finish() - } - syn::Expr::Match(_val) => { - let mut formatter = formatter.debug_struct("Expr::Match"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - if !_val.arms.is_empty() { - formatter.field("arms", Lite(&_val.arms)); - } - formatter.finish() - } - syn::Expr::MethodCall(_val) => { - let mut formatter = formatter.debug_struct("Expr::MethodCall"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("receiver", Lite(&_val.receiver)); - formatter.field("method", Lite(&_val.method)); - if let Some(val) = &_val.turbofish { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::MethodTurbofish); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("turbofish", Print::ref_cast(val)); - } - if !_val.args.is_empty() { - formatter.field("args", Lite(&_val.args)); - } - formatter.finish() - } - syn::Expr::Paren(_val) => { - let mut formatter = formatter.debug_struct("Expr::Paren"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } - syn::Expr::Path(_val) => { - let mut formatter = formatter.debug_struct("Expr::Path"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.qself { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::QSelf); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("qself", Print::ref_cast(val)); - } - formatter.field("path", Lite(&_val.path)); - formatter.finish() - } - syn::Expr::Range(_val) => { - let mut formatter = formatter.debug_struct("Expr::Range"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.from { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Box<syn::Expr>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("from", Print::ref_cast(val)); - } - formatter.field("limits", Lite(&_val.limits)); - if let Some(val) = &_val.to { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Box<syn::Expr>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("to", Print::ref_cast(val)); - } - formatter.finish() - } - syn::Expr::Reference(_val) => { - let mut formatter = formatter.debug_struct("Expr::Reference"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } - syn::Expr::Repeat(_val) => { - let mut formatter = formatter.debug_struct("Expr::Repeat"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.field("len", Lite(&_val.len)); - formatter.finish() - } - syn::Expr::Return(_val) => { - let mut formatter = formatter.debug_struct("Expr::Return"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.expr { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Box<syn::Expr>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("expr", Print::ref_cast(val)); - } - formatter.finish() - } - syn::Expr::Struct(_val) => { - let mut formatter = formatter.debug_struct("Expr::Struct"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("path", Lite(&_val.path)); - if !_val.fields.is_empty() { - formatter.field("fields", Lite(&_val.fields)); - } - if let Some(val) = &_val.dot2_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Dot2); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("dot2_token", Print::ref_cast(val)); - } - if let Some(val) = &_val.rest { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Box<syn::Expr>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("rest", Print::ref_cast(val)); - } - formatter.finish() - } - syn::Expr::Try(_val) => { - let mut formatter = formatter.debug_struct("Expr::Try"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } - syn::Expr::TryBlock(_val) => { - let mut formatter = formatter.debug_struct("Expr::TryBlock"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("block", Lite(&_val.block)); - formatter.finish() - } - syn::Expr::Tuple(_val) => { - let mut formatter = formatter.debug_struct("Expr::Tuple"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if !_val.elems.is_empty() { - formatter.field("elems", Lite(&_val.elems)); - } - formatter.finish() - } - syn::Expr::Type(_val) => { - let mut formatter = formatter.debug_struct("Expr::Type"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } - syn::Expr::Unary(_val) => { - let mut formatter = formatter.debug_struct("Expr::Unary"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("op", Lite(&_val.op)); - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } - syn::Expr::Unsafe(_val) => { - let mut formatter = formatter.debug_struct("Expr::Unsafe"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("block", Lite(&_val.block)); - formatter.finish() - } - syn::Expr::Verbatim(_val) => { - formatter.write_str("Verbatim")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::Expr::While(_val) => { - let mut formatter = formatter.debug_struct("Expr::While"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.label { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Label); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("label", Print::ref_cast(val)); - } - formatter.field("cond", Lite(&_val.cond)); - formatter.field("body", Lite(&_val.body)); - formatter.finish() - } - syn::Expr::Yield(_val) => { - let mut formatter = formatter.debug_struct("Expr::Yield"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.expr { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Box<syn::Expr>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("expr", Print::ref_cast(val)); - } - formatter.finish() - } - _ => unreachable!(), - } - } -} -impl Debug for Lite<syn::ExprArray> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprArray"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if !_val.elems.is_empty() { - formatter.field("elems", Lite(&_val.elems)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ExprAssign> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprAssign"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("left", Lite(&_val.left)); - formatter.field("right", Lite(&_val.right)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprAssignOp> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprAssignOp"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("left", Lite(&_val.left)); - formatter.field("op", Lite(&_val.op)); - formatter.field("right", Lite(&_val.right)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprAsync> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprAsync"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.capture { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Move); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("capture", Print::ref_cast(val)); - } - formatter.field("block", Lite(&_val.block)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprAwait> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprAwait"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("base", Lite(&_val.base)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprBinary> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprBinary"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("left", Lite(&_val.left)); - formatter.field("op", Lite(&_val.op)); - formatter.field("right", Lite(&_val.right)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprBlock> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprBlock"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.label { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Label); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("label", Print::ref_cast(val)); - } - formatter.field("block", Lite(&_val.block)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprBox> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprBox"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprBreak> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprBreak"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.label { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Lifetime); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("label", Print::ref_cast(val)); - } - if let Some(val) = &_val.expr { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Box<syn::Expr>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("expr", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ExprCall> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprCall"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("func", Lite(&_val.func)); - if !_val.args.is_empty() { - formatter.field("args", Lite(&_val.args)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ExprCast> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprCast"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprClosure> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprClosure"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.asyncness { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Async); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("asyncness", Print::ref_cast(val)); - } - if let Some(val) = &_val.movability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Static); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("movability", Print::ref_cast(val)); - } - if let Some(val) = &_val.capture { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Move); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("capture", Print::ref_cast(val)); - } - if !_val.inputs.is_empty() { - formatter.field("inputs", Lite(&_val.inputs)); - } - formatter.field("output", Lite(&_val.output)); - formatter.field("body", Lite(&_val.body)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprContinue> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprContinue"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.label { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Lifetime); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("label", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ExprField> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprField"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("base", Lite(&_val.base)); - formatter.field("member", Lite(&_val.member)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprForLoop> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprForLoop"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.label { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Label); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("label", Print::ref_cast(val)); - } - formatter.field("pat", Lite(&_val.pat)); - formatter.field("expr", Lite(&_val.expr)); - formatter.field("body", Lite(&_val.body)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprGroup> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprGroup"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprIf> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprIf"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("cond", Lite(&_val.cond)); - formatter.field("then_branch", Lite(&_val.then_branch)); - if let Some(val) = &_val.else_branch { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::Else, Box<syn::Expr>)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("else_branch", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ExprIndex> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprIndex"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.field("index", Lite(&_val.index)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprLet> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprLet"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("pat", Lite(&_val.pat)); - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprLit> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprLit"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("lit", Lite(&_val.lit)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprLoop> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprLoop"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.label { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Label); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("label", Print::ref_cast(val)); - } - formatter.field("body", Lite(&_val.body)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprMacro> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprMacro"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("mac", Lite(&_val.mac)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprMatch> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprMatch"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - if !_val.arms.is_empty() { - formatter.field("arms", Lite(&_val.arms)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ExprMethodCall> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprMethodCall"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("receiver", Lite(&_val.receiver)); - formatter.field("method", Lite(&_val.method)); - if let Some(val) = &_val.turbofish { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::MethodTurbofish); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("turbofish", Print::ref_cast(val)); - } - if !_val.args.is_empty() { - formatter.field("args", Lite(&_val.args)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ExprParen> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprParen"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprPath> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprPath"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.qself { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::QSelf); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("qself", Print::ref_cast(val)); - } - formatter.field("path", Lite(&_val.path)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprRange> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprRange"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.from { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Box<syn::Expr>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("from", Print::ref_cast(val)); - } - formatter.field("limits", Lite(&_val.limits)); - if let Some(val) = &_val.to { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Box<syn::Expr>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("to", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ExprReference> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprReference"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprRepeat> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprRepeat"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.field("len", Lite(&_val.len)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprReturn> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprReturn"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.expr { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Box<syn::Expr>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("expr", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ExprStruct> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprStruct"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("path", Lite(&_val.path)); - if !_val.fields.is_empty() { - formatter.field("fields", Lite(&_val.fields)); - } - if let Some(val) = &_val.dot2_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Dot2); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("dot2_token", Print::ref_cast(val)); - } - if let Some(val) = &_val.rest { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Box<syn::Expr>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("rest", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ExprTry> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprTry"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprTryBlock> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprTryBlock"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("block", Lite(&_val.block)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprTuple> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprTuple"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if !_val.elems.is_empty() { - formatter.field("elems", Lite(&_val.elems)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ExprType> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprType"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprUnary> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprUnary"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("op", Lite(&_val.op)); - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprUnsafe> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprUnsafe"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("block", Lite(&_val.block)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprWhile> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprWhile"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.label { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Label); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("label", Print::ref_cast(val)); - } - formatter.field("cond", Lite(&_val.cond)); - formatter.field("body", Lite(&_val.body)); - formatter.finish() - } -} -impl Debug for Lite<syn::ExprYield> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ExprYield"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.expr { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Box<syn::Expr>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("expr", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::Field> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Field"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.ident { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(proc_macro2::Ident); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("ident", Print::ref_cast(val)); - } - if let Some(val) = &_val.colon_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("colon_token", Print::ref_cast(val)); - } - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } -} -impl Debug for Lite<syn::FieldPat> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("FieldPat"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("member", Lite(&_val.member)); - if let Some(val) = &_val.colon_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("colon_token", Print::ref_cast(val)); - } - formatter.field("pat", Lite(&_val.pat)); - formatter.finish() - } -} -impl Debug for Lite<syn::FieldValue> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("FieldValue"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("member", Lite(&_val.member)); - if let Some(val) = &_val.colon_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("colon_token", Print::ref_cast(val)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } -} -impl Debug for Lite<syn::Fields> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::Fields::Named(_val) => { - let mut formatter = formatter.debug_struct("Fields::Named"); - if !_val.named.is_empty() { - formatter.field("named", Lite(&_val.named)); - } - formatter.finish() - } - syn::Fields::Unnamed(_val) => { - let mut formatter = formatter.debug_struct("Fields::Unnamed"); - if !_val.unnamed.is_empty() { - formatter.field("unnamed", Lite(&_val.unnamed)); - } - formatter.finish() - } - syn::Fields::Unit => formatter.write_str("Unit"), - } - } -} -impl Debug for Lite<syn::FieldsNamed> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("FieldsNamed"); - if !_val.named.is_empty() { - formatter.field("named", Lite(&_val.named)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::FieldsUnnamed> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("FieldsUnnamed"); - if !_val.unnamed.is_empty() { - formatter.field("unnamed", Lite(&_val.unnamed)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::File> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("File"); - if let Some(val) = &_val.shebang { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(String); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("shebang", Print::ref_cast(val)); - } - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if !_val.items.is_empty() { - formatter.field("items", Lite(&_val.items)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::FnArg> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::FnArg::Receiver(_val) => { - formatter.write_str("Receiver")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::FnArg::Typed(_val) => { - formatter.write_str("Typed")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::ForeignItem> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::ForeignItem::Fn(_val) => { - let mut formatter = formatter.debug_struct("ForeignItem::Fn"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("sig", Lite(&_val.sig)); - formatter.finish() - } - syn::ForeignItem::Static(_val) => { - let mut formatter = formatter.debug_struct("ForeignItem::Static"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } - syn::ForeignItem::Type(_val) => { - let mut formatter = formatter.debug_struct("ForeignItem::Type"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.finish() - } - syn::ForeignItem::Macro(_val) => { - let mut formatter = formatter.debug_struct("ForeignItem::Macro"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("mac", Lite(&_val.mac)); - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } - syn::ForeignItem::Verbatim(_val) => { - formatter.write_str("Verbatim")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - _ => unreachable!(), - } - } -} -impl Debug for Lite<syn::ForeignItemFn> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ForeignItemFn"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("sig", Lite(&_val.sig)); - formatter.finish() - } -} -impl Debug for Lite<syn::ForeignItemMacro> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ForeignItemMacro"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("mac", Lite(&_val.mac)); - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ForeignItemStatic> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ForeignItemStatic"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } -} -impl Debug for Lite<syn::ForeignItemType> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ForeignItemType"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.finish() - } -} -impl Debug for Lite<syn::GenericArgument> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::GenericArgument::Lifetime(_val) => { - formatter.write_str("Lifetime")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::GenericArgument::Type(_val) => { - formatter.write_str("Type")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::GenericArgument::Binding(_val) => { - formatter.write_str("Binding")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::GenericArgument::Constraint(_val) => { - formatter.write_str("Constraint")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::GenericArgument::Const(_val) => { - formatter.write_str("Const")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::GenericMethodArgument> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::GenericMethodArgument::Type(_val) => { - formatter.write_str("Type")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::GenericMethodArgument::Const(_val) => { - formatter.write_str("Const")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::GenericParam> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::GenericParam::Type(_val) => { - formatter.write_str("Type")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::GenericParam::Lifetime(_val) => { - formatter.write_str("Lifetime")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::GenericParam::Const(_val) => { - formatter.write_str("Const")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::Generics> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Generics"); - if let Some(val) = &_val.lt_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Lt); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("lt_token", Print::ref_cast(val)); - } - if !_val.params.is_empty() { - formatter.field("params", Lite(&_val.params)); - } - if let Some(val) = &_val.gt_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Gt); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("gt_token", Print::ref_cast(val)); - } - if let Some(val) = &_val.where_clause { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::WhereClause); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("where_clause", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ImplItem> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::ImplItem::Const(_val) => { - let mut formatter = formatter.debug_struct("ImplItem::Const"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.defaultness { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Default); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("defaultness", Print::ref_cast(val)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("ty", Lite(&_val.ty)); - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } - syn::ImplItem::Method(_val) => { - let mut formatter = formatter.debug_struct("ImplItem::Method"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.defaultness { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Default); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("defaultness", Print::ref_cast(val)); - } - formatter.field("sig", Lite(&_val.sig)); - formatter.field("block", Lite(&_val.block)); - formatter.finish() - } - syn::ImplItem::Type(_val) => { - let mut formatter = formatter.debug_struct("ImplItem::Type"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.defaultness { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Default); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("defaultness", Print::ref_cast(val)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } - syn::ImplItem::Macro(_val) => { - let mut formatter = formatter.debug_struct("ImplItem::Macro"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("mac", Lite(&_val.mac)); - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } - syn::ImplItem::Verbatim(_val) => { - formatter.write_str("Verbatim")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - _ => unreachable!(), - } - } -} -impl Debug for Lite<syn::ImplItemConst> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ImplItemConst"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.defaultness { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Default); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("defaultness", Print::ref_cast(val)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("ty", Lite(&_val.ty)); - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } -} -impl Debug for Lite<syn::ImplItemMacro> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ImplItemMacro"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("mac", Lite(&_val.mac)); - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ImplItemMethod> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ImplItemMethod"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.defaultness { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Default); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("defaultness", Print::ref_cast(val)); - } - formatter.field("sig", Lite(&_val.sig)); - formatter.field("block", Lite(&_val.block)); - formatter.finish() - } -} -impl Debug for Lite<syn::ImplItemType> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ImplItemType"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.defaultness { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Default); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("defaultness", Print::ref_cast(val)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } -} -impl Debug for Lite<syn::Index> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Index"); - formatter.field("index", Lite(&_val.index)); - formatter.finish() - } -} -impl Debug for Lite<syn::Item> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::Item::Const(_val) => { - let mut formatter = formatter.debug_struct("Item::Const"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("ty", Lite(&_val.ty)); - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } - syn::Item::Enum(_val) => { - let mut formatter = formatter.debug_struct("Item::Enum"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - if !_val.variants.is_empty() { - formatter.field("variants", Lite(&_val.variants)); - } - formatter.finish() - } - syn::Item::ExternCrate(_val) => { - let mut formatter = formatter.debug_struct("Item::ExternCrate"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - if let Some(val) = &_val.rename { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::As, proc_macro2::Ident)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("rename", Print::ref_cast(val)); - } - formatter.finish() - } - syn::Item::Fn(_val) => { - let mut formatter = formatter.debug_struct("Item::Fn"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("sig", Lite(&_val.sig)); - formatter.field("block", Lite(&_val.block)); - formatter.finish() - } - syn::Item::ForeignMod(_val) => { - let mut formatter = formatter.debug_struct("Item::ForeignMod"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("abi", Lite(&_val.abi)); - if !_val.items.is_empty() { - formatter.field("items", Lite(&_val.items)); - } - formatter.finish() - } - syn::Item::Impl(_val) => { - let mut formatter = formatter.debug_struct("Item::Impl"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.defaultness { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Default); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("defaultness", Print::ref_cast(val)); - } - if let Some(val) = &_val.unsafety { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Unsafe); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("unsafety", Print::ref_cast(val)); - } - formatter.field("generics", Lite(&_val.generics)); - if let Some(val) = &_val.trait_ { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((Option<syn::token::Bang>, syn::Path, syn::token::For)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt( - &( - { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Option<syn::token::Bang>); - impl Debug for Print { - fn fmt( - &self, - formatter: &mut fmt::Formatter, - ) -> fmt::Result - { - match &self.0 { - Some(_val) => { - formatter.write_str("Some")?; - Ok(()) - } - None => formatter.write_str("None"), - } - } - } - Print::ref_cast(&_val.0) - }, - Lite(&_val.1), - ), - formatter, - )?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("trait_", Print::ref_cast(val)); - } - formatter.field("self_ty", Lite(&_val.self_ty)); - if !_val.items.is_empty() { - formatter.field("items", Lite(&_val.items)); - } - formatter.finish() - } - syn::Item::Macro(_val) => { - let mut formatter = formatter.debug_struct("Item::Macro"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.ident { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(proc_macro2::Ident); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("ident", Print::ref_cast(val)); - } - formatter.field("mac", Lite(&_val.mac)); - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } - syn::Item::Macro2(_val) => { - let mut formatter = formatter.debug_struct("Item::Macro2"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("rules", Lite(&_val.rules)); - formatter.finish() - } - syn::Item::Mod(_val) => { - let mut formatter = formatter.debug_struct("Item::Mod"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - if let Some(val) = &_val.content { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::Brace, Vec<syn::Item>)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("content", Print::ref_cast(val)); - } - if let Some(val) = &_val.semi { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi", Print::ref_cast(val)); - } - formatter.finish() - } - syn::Item::Static(_val) => { - let mut formatter = formatter.debug_struct("Item::Static"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("ty", Lite(&_val.ty)); - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } - syn::Item::Struct(_val) => { - let mut formatter = formatter.debug_struct("Item::Struct"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - formatter.field("fields", Lite(&_val.fields)); - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } - syn::Item::Trait(_val) => { - let mut formatter = formatter.debug_struct("Item::Trait"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.unsafety { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Unsafe); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("unsafety", Print::ref_cast(val)); - } - if let Some(val) = &_val.auto_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Auto); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("auto_token", Print::ref_cast(val)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - if let Some(val) = &_val.colon_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("colon_token", Print::ref_cast(val)); - } - if !_val.supertraits.is_empty() { - formatter.field("supertraits", Lite(&_val.supertraits)); - } - if !_val.items.is_empty() { - formatter.field("items", Lite(&_val.items)); - } - formatter.finish() - } - syn::Item::TraitAlias(_val) => { - let mut formatter = formatter.debug_struct("Item::TraitAlias"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - if !_val.bounds.is_empty() { - formatter.field("bounds", Lite(&_val.bounds)); - } - formatter.finish() - } - syn::Item::Type(_val) => { - let mut formatter = formatter.debug_struct("Item::Type"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } - syn::Item::Union(_val) => { - let mut formatter = formatter.debug_struct("Item::Union"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - formatter.field("fields", Lite(&_val.fields)); - formatter.finish() - } - syn::Item::Use(_val) => { - let mut formatter = formatter.debug_struct("Item::Use"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.leading_colon { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon2); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("leading_colon", Print::ref_cast(val)); - } - formatter.field("tree", Lite(&_val.tree)); - formatter.finish() - } - syn::Item::Verbatim(_val) => { - formatter.write_str("Verbatim")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - _ => unreachable!(), - } - } -} -impl Debug for Lite<syn::ItemConst> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemConst"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("ty", Lite(&_val.ty)); - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } -} -impl Debug for Lite<syn::ItemEnum> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemEnum"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - if !_val.variants.is_empty() { - formatter.field("variants", Lite(&_val.variants)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ItemExternCrate> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemExternCrate"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - if let Some(val) = &_val.rename { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::As, proc_macro2::Ident)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("rename", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ItemFn> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemFn"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("sig", Lite(&_val.sig)); - formatter.field("block", Lite(&_val.block)); - formatter.finish() - } -} -impl Debug for Lite<syn::ItemForeignMod> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemForeignMod"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("abi", Lite(&_val.abi)); - if !_val.items.is_empty() { - formatter.field("items", Lite(&_val.items)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ItemImpl> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemImpl"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.defaultness { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Default); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("defaultness", Print::ref_cast(val)); - } - if let Some(val) = &_val.unsafety { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Unsafe); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("unsafety", Print::ref_cast(val)); - } - formatter.field("generics", Lite(&_val.generics)); - if let Some(val) = &_val.trait_ { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((Option<syn::token::Bang>, syn::Path, syn::token::For)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt( - &( - { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Option<syn::token::Bang>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - match &self.0 { - Some(_val) => { - formatter.write_str("Some")?; - Ok(()) - } - None => formatter.write_str("None"), - } - } - } - Print::ref_cast(&_val.0) - }, - Lite(&_val.1), - ), - formatter, - )?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("trait_", Print::ref_cast(val)); - } - formatter.field("self_ty", Lite(&_val.self_ty)); - if !_val.items.is_empty() { - formatter.field("items", Lite(&_val.items)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ItemMacro> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemMacro"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.ident { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(proc_macro2::Ident); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("ident", Print::ref_cast(val)); - } - formatter.field("mac", Lite(&_val.mac)); - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ItemMacro2> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemMacro2"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("rules", Lite(&_val.rules)); - formatter.finish() - } -} -impl Debug for Lite<syn::ItemMod> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemMod"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - if let Some(val) = &_val.content { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::Brace, Vec<syn::Item>)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("content", Print::ref_cast(val)); - } - if let Some(val) = &_val.semi { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ItemStatic> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemStatic"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("ty", Lite(&_val.ty)); - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } -} -impl Debug for Lite<syn::ItemStruct> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemStruct"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - formatter.field("fields", Lite(&_val.fields)); - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ItemTrait> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemTrait"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.unsafety { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Unsafe); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("unsafety", Print::ref_cast(val)); - } - if let Some(val) = &_val.auto_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Auto); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("auto_token", Print::ref_cast(val)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - if let Some(val) = &_val.colon_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("colon_token", Print::ref_cast(val)); - } - if !_val.supertraits.is_empty() { - formatter.field("supertraits", Lite(&_val.supertraits)); - } - if !_val.items.is_empty() { - formatter.field("items", Lite(&_val.items)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ItemTraitAlias> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemTraitAlias"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - if !_val.bounds.is_empty() { - formatter.field("bounds", Lite(&_val.bounds)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ItemType> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemType"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } -} -impl Debug for Lite<syn::ItemUnion> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemUnion"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - formatter.field("fields", Lite(&_val.fields)); - formatter.finish() - } -} -impl Debug for Lite<syn::ItemUse> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ItemUse"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("vis", Lite(&_val.vis)); - if let Some(val) = &_val.leading_colon { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon2); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("leading_colon", Print::ref_cast(val)); - } - formatter.field("tree", Lite(&_val.tree)); - formatter.finish() - } -} -impl Debug for Lite<syn::Label> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Label"); - formatter.field("name", Lite(&_val.name)); - formatter.finish() - } -} -impl Debug for Lite<syn::Lifetime> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Lifetime"); - formatter.field("ident", Lite(&_val.ident)); - formatter.finish() - } -} -impl Debug for Lite<syn::LifetimeDef> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("LifetimeDef"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("lifetime", Lite(&_val.lifetime)); - if let Some(val) = &_val.colon_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("colon_token", Print::ref_cast(val)); - } - if !_val.bounds.is_empty() { - formatter.field("bounds", Lite(&_val.bounds)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::Lit> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::Lit::Str(_val) => write!(formatter, "{:?}", _val.value()), - syn::Lit::ByteStr(_val) => write!(formatter, "{:?}", _val.value()), - syn::Lit::Byte(_val) => write!(formatter, "{:?}", _val.value()), - syn::Lit::Char(_val) => write!(formatter, "{:?}", _val.value()), - syn::Lit::Int(_val) => write!(formatter, "{}", _val), - syn::Lit::Float(_val) => write!(formatter, "{}", _val), - syn::Lit::Bool(_val) => { - let mut formatter = formatter.debug_struct("Lit::Bool"); - formatter.field("value", Lite(&_val.value)); - formatter.finish() - } - syn::Lit::Verbatim(_val) => { - formatter.write_str("Verbatim")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::LitBool> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("LitBool"); - formatter.field("value", Lite(&_val.value)); - formatter.finish() - } -} -impl Debug for Lite<syn::LitByte> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - write!(formatter, "{:?}", _val.value()) - } -} -impl Debug for Lite<syn::LitByteStr> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - write!(formatter, "{:?}", _val.value()) - } -} -impl Debug for Lite<syn::LitChar> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - write!(formatter, "{:?}", _val.value()) - } -} -impl Debug for Lite<syn::LitFloat> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - write!(formatter, "{}", _val) - } -} -impl Debug for Lite<syn::LitInt> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - write!(formatter, "{}", _val) - } -} -impl Debug for Lite<syn::LitStr> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - write!(formatter, "{:?}", _val.value()) - } -} -impl Debug for Lite<syn::Local> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Local"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("pat", Lite(&_val.pat)); - if let Some(val) = &_val.init { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::Eq, Box<syn::Expr>)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("init", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::Macro> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Macro"); - formatter.field("path", Lite(&_val.path)); - formatter.field("delimiter", Lite(&_val.delimiter)); - formatter.field("tokens", Lite(&_val.tokens)); - formatter.finish() - } -} -impl Debug for Lite<syn::MacroDelimiter> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::MacroDelimiter::Paren(_val) => { - formatter.write_str("Paren")?; - Ok(()) - } - syn::MacroDelimiter::Brace(_val) => { - formatter.write_str("Brace")?; - Ok(()) - } - syn::MacroDelimiter::Bracket(_val) => { - formatter.write_str("Bracket")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::Member> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::Member::Named(_val) => { - formatter.write_str("Named")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::Member::Unnamed(_val) => { - formatter.write_str("Unnamed")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::Meta> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::Meta::Path(_val) => { - formatter.write_str("Path")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::Meta::List(_val) => { - let mut formatter = formatter.debug_struct("Meta::List"); - formatter.field("path", Lite(&_val.path)); - if !_val.nested.is_empty() { - formatter.field("nested", Lite(&_val.nested)); - } - formatter.finish() - } - syn::Meta::NameValue(_val) => { - let mut formatter = formatter.debug_struct("Meta::NameValue"); - formatter.field("path", Lite(&_val.path)); - formatter.field("lit", Lite(&_val.lit)); - formatter.finish() - } - } - } -} -impl Debug for Lite<syn::MetaList> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("MetaList"); - formatter.field("path", Lite(&_val.path)); - if !_val.nested.is_empty() { - formatter.field("nested", Lite(&_val.nested)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::MetaNameValue> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("MetaNameValue"); - formatter.field("path", Lite(&_val.path)); - formatter.field("lit", Lite(&_val.lit)); - formatter.finish() - } -} -impl Debug for Lite<syn::MethodTurbofish> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("MethodTurbofish"); - if !_val.args.is_empty() { - formatter.field("args", Lite(&_val.args)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::NestedMeta> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::NestedMeta::Meta(_val) => { - formatter.write_str("Meta")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::NestedMeta::Lit(_val) => { - formatter.write_str("Lit")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::ParenthesizedGenericArguments> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("ParenthesizedGenericArguments"); - if !_val.inputs.is_empty() { - formatter.field("inputs", Lite(&_val.inputs)); - } - formatter.field("output", Lite(&_val.output)); - formatter.finish() - } -} -impl Debug for Lite<syn::Pat> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::Pat::Box(_val) => { - let mut formatter = formatter.debug_struct("Pat::Box"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("pat", Lite(&_val.pat)); - formatter.finish() - } - syn::Pat::Ident(_val) => { - let mut formatter = formatter.debug_struct("Pat::Ident"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.by_ref { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Ref); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("by_ref", Print::ref_cast(val)); - } - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("ident", Lite(&_val.ident)); - if let Some(val) = &_val.subpat { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::At, Box<syn::Pat>)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("subpat", Print::ref_cast(val)); - } - formatter.finish() - } - syn::Pat::Lit(_val) => { - let mut formatter = formatter.debug_struct("Pat::Lit"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } - syn::Pat::Macro(_val) => { - let mut formatter = formatter.debug_struct("Pat::Macro"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("mac", Lite(&_val.mac)); - formatter.finish() - } - syn::Pat::Or(_val) => { - let mut formatter = formatter.debug_struct("Pat::Or"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.leading_vert { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Or); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("leading_vert", Print::ref_cast(val)); - } - if !_val.cases.is_empty() { - formatter.field("cases", Lite(&_val.cases)); - } - formatter.finish() - } - syn::Pat::Path(_val) => { - let mut formatter = formatter.debug_struct("Pat::Path"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.qself { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::QSelf); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("qself", Print::ref_cast(val)); - } - formatter.field("path", Lite(&_val.path)); - formatter.finish() - } - syn::Pat::Range(_val) => { - let mut formatter = formatter.debug_struct("Pat::Range"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("lo", Lite(&_val.lo)); - formatter.field("limits", Lite(&_val.limits)); - formatter.field("hi", Lite(&_val.hi)); - formatter.finish() - } - syn::Pat::Reference(_val) => { - let mut formatter = formatter.debug_struct("Pat::Reference"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("pat", Lite(&_val.pat)); - formatter.finish() - } - syn::Pat::Rest(_val) => { - let mut formatter = formatter.debug_struct("Pat::Rest"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.finish() - } - syn::Pat::Slice(_val) => { - let mut formatter = formatter.debug_struct("Pat::Slice"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if !_val.elems.is_empty() { - formatter.field("elems", Lite(&_val.elems)); - } - formatter.finish() - } - syn::Pat::Struct(_val) => { - let mut formatter = formatter.debug_struct("Pat::Struct"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("path", Lite(&_val.path)); - if !_val.fields.is_empty() { - formatter.field("fields", Lite(&_val.fields)); - } - if let Some(val) = &_val.dot2_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Dot2); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("dot2_token", Print::ref_cast(val)); - } - formatter.finish() - } - syn::Pat::Tuple(_val) => { - let mut formatter = formatter.debug_struct("Pat::Tuple"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if !_val.elems.is_empty() { - formatter.field("elems", Lite(&_val.elems)); - } - formatter.finish() - } - syn::Pat::TupleStruct(_val) => { - let mut formatter = formatter.debug_struct("Pat::TupleStruct"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("path", Lite(&_val.path)); - formatter.field("pat", Lite(&_val.pat)); - formatter.finish() - } - syn::Pat::Type(_val) => { - let mut formatter = formatter.debug_struct("Pat::Type"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("pat", Lite(&_val.pat)); - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } - syn::Pat::Verbatim(_val) => { - formatter.write_str("Verbatim")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::Pat::Wild(_val) => { - let mut formatter = formatter.debug_struct("Pat::Wild"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.finish() - } - _ => unreachable!(), - } - } -} -impl Debug for Lite<syn::PatBox> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatBox"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("pat", Lite(&_val.pat)); - formatter.finish() - } -} -impl Debug for Lite<syn::PatIdent> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatIdent"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.by_ref { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Ref); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("by_ref", Print::ref_cast(val)); - } - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("ident", Lite(&_val.ident)); - if let Some(val) = &_val.subpat { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::At, Box<syn::Pat>)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("subpat", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::PatLit> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatLit"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("expr", Lite(&_val.expr)); - formatter.finish() - } -} -impl Debug for Lite<syn::PatMacro> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatMacro"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("mac", Lite(&_val.mac)); - formatter.finish() - } -} -impl Debug for Lite<syn::PatOr> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatOr"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.leading_vert { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Or); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("leading_vert", Print::ref_cast(val)); - } - if !_val.cases.is_empty() { - formatter.field("cases", Lite(&_val.cases)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::PatPath> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatPath"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.qself { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::QSelf); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("qself", Print::ref_cast(val)); - } - formatter.field("path", Lite(&_val.path)); - formatter.finish() - } -} -impl Debug for Lite<syn::PatRange> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatRange"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("lo", Lite(&_val.lo)); - formatter.field("limits", Lite(&_val.limits)); - formatter.field("hi", Lite(&_val.hi)); - formatter.finish() - } -} -impl Debug for Lite<syn::PatReference> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatReference"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("pat", Lite(&_val.pat)); - formatter.finish() - } -} -impl Debug for Lite<syn::PatRest> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatRest"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::PatSlice> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatSlice"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if !_val.elems.is_empty() { - formatter.field("elems", Lite(&_val.elems)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::PatStruct> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatStruct"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("path", Lite(&_val.path)); - if !_val.fields.is_empty() { - formatter.field("fields", Lite(&_val.fields)); - } - if let Some(val) = &_val.dot2_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Dot2); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("dot2_token", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::PatTuple> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatTuple"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if !_val.elems.is_empty() { - formatter.field("elems", Lite(&_val.elems)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::PatTupleStruct> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatTupleStruct"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("path", Lite(&_val.path)); - formatter.field("pat", Lite(&_val.pat)); - formatter.finish() - } -} -impl Debug for Lite<syn::PatType> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatType"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("pat", Lite(&_val.pat)); - formatter.field("ty", Lite(&_val.ty)); - formatter.finish() - } -} -impl Debug for Lite<syn::PatWild> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PatWild"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::Path> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Path"); - if let Some(val) = &_val.leading_colon { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon2); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("leading_colon", Print::ref_cast(val)); - } - if !_val.segments.is_empty() { - formatter.field("segments", Lite(&_val.segments)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::PathArguments> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::PathArguments::None => formatter.write_str("None"), - syn::PathArguments::AngleBracketed(_val) => { - let mut formatter = formatter.debug_struct("PathArguments::AngleBracketed"); - if let Some(val) = &_val.colon2_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon2); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("colon2_token", Print::ref_cast(val)); - } - if !_val.args.is_empty() { - formatter.field("args", Lite(&_val.args)); - } - formatter.finish() - } - syn::PathArguments::Parenthesized(_val) => { - let mut formatter = formatter.debug_struct("PathArguments::Parenthesized"); - if !_val.inputs.is_empty() { - formatter.field("inputs", Lite(&_val.inputs)); - } - formatter.field("output", Lite(&_val.output)); - formatter.finish() - } - } - } -} -impl Debug for Lite<syn::PathSegment> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PathSegment"); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("arguments", Lite(&_val.arguments)); - formatter.finish() - } -} -impl Debug for Lite<syn::PredicateEq> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PredicateEq"); - formatter.field("lhs_ty", Lite(&_val.lhs_ty)); - formatter.field("rhs_ty", Lite(&_val.rhs_ty)); - formatter.finish() - } -} -impl Debug for Lite<syn::PredicateLifetime> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PredicateLifetime"); - formatter.field("lifetime", Lite(&_val.lifetime)); - if !_val.bounds.is_empty() { - formatter.field("bounds", Lite(&_val.bounds)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::PredicateType> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("PredicateType"); - if let Some(val) = &_val.lifetimes { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::BoundLifetimes); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("lifetimes", Print::ref_cast(val)); - } - formatter.field("bounded_ty", Lite(&_val.bounded_ty)); - if !_val.bounds.is_empty() { - formatter.field("bounds", Lite(&_val.bounds)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::QSelf> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("QSelf"); - formatter.field("ty", Lite(&_val.ty)); - formatter.field("position", Lite(&_val.position)); - if let Some(val) = &_val.as_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::As); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("as_token", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::RangeLimits> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::RangeLimits::HalfOpen(_val) => { - formatter.write_str("HalfOpen")?; - Ok(()) - } - syn::RangeLimits::Closed(_val) => { - formatter.write_str("Closed")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::Receiver> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Receiver"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - if let Some(val) = &_val.reference { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::And, Option<syn::Lifetime>)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt( - { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(Option<syn::Lifetime>); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - match &self.0 { - Some(_val) => { - formatter.write_str("Some")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - None => formatter.write_str("None"), - } - } - } - Print::ref_cast(&_val.1) - }, - formatter, - )?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("reference", Print::ref_cast(val)); - } - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::ReturnType> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::ReturnType::Default => formatter.write_str("Default"), - syn::ReturnType::Type(_v0, _v1) => { - let mut formatter = formatter.debug_tuple("Type"); - formatter.field(Lite(_v1)); - formatter.finish() - } - } - } -} -impl Debug for Lite<syn::Signature> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Signature"); - if let Some(val) = &_val.constness { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Const); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("constness", Print::ref_cast(val)); - } - if let Some(val) = &_val.asyncness { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Async); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("asyncness", Print::ref_cast(val)); - } - if let Some(val) = &_val.unsafety { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Unsafe); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("unsafety", Print::ref_cast(val)); - } - if let Some(val) = &_val.abi { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Abi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("abi", Print::ref_cast(val)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - if !_val.inputs.is_empty() { - formatter.field("inputs", Lite(&_val.inputs)); - } - if let Some(val) = &_val.variadic { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Variadic); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("variadic", Print::ref_cast(val)); - } - formatter.field("output", Lite(&_val.output)); - formatter.finish() - } -} -impl Debug for Lite<syn::Stmt> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::Stmt::Local(_val) => { - formatter.write_str("Local")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::Stmt::Item(_val) => { - formatter.write_str("Item")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::Stmt::Expr(_val) => { - formatter.write_str("Expr")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::Stmt::Semi(_v0, _v1) => { - let mut formatter = formatter.debug_tuple("Semi"); - formatter.field(Lite(_v0)); - formatter.finish() - } - } - } -} -impl Debug for Lite<syn::TraitBound> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TraitBound"); - if let Some(val) = &_val.paren_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Paren); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("paren_token", Print::ref_cast(val)); - } - formatter.field("modifier", Lite(&_val.modifier)); - if let Some(val) = &_val.lifetimes { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::BoundLifetimes); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("lifetimes", Print::ref_cast(val)); - } - formatter.field("path", Lite(&_val.path)); - formatter.finish() - } -} -impl Debug for Lite<syn::TraitBoundModifier> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::TraitBoundModifier::None => formatter.write_str("None"), - syn::TraitBoundModifier::Maybe(_val) => { - formatter.write_str("Maybe")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::TraitItem> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::TraitItem::Const(_val) => { - let mut formatter = formatter.debug_struct("TraitItem::Const"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("ty", Lite(&_val.ty)); - if let Some(val) = &_val.default { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::Eq, syn::Expr)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("default", Print::ref_cast(val)); - } - formatter.finish() - } - syn::TraitItem::Method(_val) => { - let mut formatter = formatter.debug_struct("TraitItem::Method"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("sig", Lite(&_val.sig)); - if let Some(val) = &_val.default { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Block); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("default", Print::ref_cast(val)); - } - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } - syn::TraitItem::Type(_val) => { - let mut formatter = formatter.debug_struct("TraitItem::Type"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - if let Some(val) = &_val.colon_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("colon_token", Print::ref_cast(val)); - } - if !_val.bounds.is_empty() { - formatter.field("bounds", Lite(&_val.bounds)); - } - if let Some(val) = &_val.default { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::Eq, syn::Type)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("default", Print::ref_cast(val)); - } - formatter.finish() - } - syn::TraitItem::Macro(_val) => { - let mut formatter = formatter.debug_struct("TraitItem::Macro"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("mac", Lite(&_val.mac)); - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } - syn::TraitItem::Verbatim(_val) => { - formatter.write_str("Verbatim")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - _ => unreachable!(), - } - } -} -impl Debug for Lite<syn::TraitItemConst> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TraitItemConst"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("ty", Lite(&_val.ty)); - if let Some(val) = &_val.default { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::Eq, syn::Expr)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("default", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::TraitItemMacro> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TraitItemMacro"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("mac", Lite(&_val.mac)); - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::TraitItemMethod> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TraitItemMethod"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("sig", Lite(&_val.sig)); - if let Some(val) = &_val.default { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Block); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("default", Print::ref_cast(val)); - } - if let Some(val) = &_val.semi_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Semi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("semi_token", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::TraitItemType> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TraitItemType"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("generics", Lite(&_val.generics)); - if let Some(val) = &_val.colon_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("colon_token", Print::ref_cast(val)); - } - if !_val.bounds.is_empty() { - formatter.field("bounds", Lite(&_val.bounds)); - } - if let Some(val) = &_val.default { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::Eq, syn::Type)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("default", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::Type> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::Type::Array(_val) => { - let mut formatter = formatter.debug_struct("Type::Array"); - formatter.field("elem", Lite(&_val.elem)); - formatter.field("len", Lite(&_val.len)); - formatter.finish() - } - syn::Type::BareFn(_val) => { - let mut formatter = formatter.debug_struct("Type::BareFn"); - if let Some(val) = &_val.lifetimes { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::BoundLifetimes); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("lifetimes", Print::ref_cast(val)); - } - if let Some(val) = &_val.unsafety { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Unsafe); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("unsafety", Print::ref_cast(val)); - } - if let Some(val) = &_val.abi { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Abi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("abi", Print::ref_cast(val)); - } - if !_val.inputs.is_empty() { - formatter.field("inputs", Lite(&_val.inputs)); - } - if let Some(val) = &_val.variadic { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Variadic); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("variadic", Print::ref_cast(val)); - } - formatter.field("output", Lite(&_val.output)); - formatter.finish() - } - syn::Type::Group(_val) => { - let mut formatter = formatter.debug_struct("Type::Group"); - formatter.field("elem", Lite(&_val.elem)); - formatter.finish() - } - syn::Type::ImplTrait(_val) => { - let mut formatter = formatter.debug_struct("Type::ImplTrait"); - if !_val.bounds.is_empty() { - formatter.field("bounds", Lite(&_val.bounds)); - } - formatter.finish() - } - syn::Type::Infer(_val) => { - let mut formatter = formatter.debug_struct("Type::Infer"); - formatter.finish() - } - syn::Type::Macro(_val) => { - let mut formatter = formatter.debug_struct("Type::Macro"); - formatter.field("mac", Lite(&_val.mac)); - formatter.finish() - } - syn::Type::Never(_val) => { - let mut formatter = formatter.debug_struct("Type::Never"); - formatter.finish() - } - syn::Type::Paren(_val) => { - let mut formatter = formatter.debug_struct("Type::Paren"); - formatter.field("elem", Lite(&_val.elem)); - formatter.finish() - } - syn::Type::Path(_val) => { - let mut formatter = formatter.debug_struct("Type::Path"); - if let Some(val) = &_val.qself { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::QSelf); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("qself", Print::ref_cast(val)); - } - formatter.field("path", Lite(&_val.path)); - formatter.finish() - } - syn::Type::Ptr(_val) => { - let mut formatter = formatter.debug_struct("Type::Ptr"); - if let Some(val) = &_val.const_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Const); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("const_token", Print::ref_cast(val)); - } - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("elem", Lite(&_val.elem)); - formatter.finish() - } - syn::Type::Reference(_val) => { - let mut formatter = formatter.debug_struct("Type::Reference"); - if let Some(val) = &_val.lifetime { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Lifetime); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("lifetime", Print::ref_cast(val)); - } - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("elem", Lite(&_val.elem)); - formatter.finish() - } - syn::Type::Slice(_val) => { - let mut formatter = formatter.debug_struct("Type::Slice"); - formatter.field("elem", Lite(&_val.elem)); - formatter.finish() - } - syn::Type::TraitObject(_val) => { - let mut formatter = formatter.debug_struct("Type::TraitObject"); - if let Some(val) = &_val.dyn_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Dyn); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("dyn_token", Print::ref_cast(val)); - } - if !_val.bounds.is_empty() { - formatter.field("bounds", Lite(&_val.bounds)); - } - formatter.finish() - } - syn::Type::Tuple(_val) => { - let mut formatter = formatter.debug_struct("Type::Tuple"); - if !_val.elems.is_empty() { - formatter.field("elems", Lite(&_val.elems)); - } - formatter.finish() - } - syn::Type::Verbatim(_val) => { - formatter.write_str("Verbatim")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - _ => unreachable!(), - } - } -} -impl Debug for Lite<syn::TypeArray> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypeArray"); - formatter.field("elem", Lite(&_val.elem)); - formatter.field("len", Lite(&_val.len)); - formatter.finish() - } -} -impl Debug for Lite<syn::TypeBareFn> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypeBareFn"); - if let Some(val) = &_val.lifetimes { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::BoundLifetimes); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("lifetimes", Print::ref_cast(val)); - } - if let Some(val) = &_val.unsafety { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Unsafe); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("unsafety", Print::ref_cast(val)); - } - if let Some(val) = &_val.abi { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Abi); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("abi", Print::ref_cast(val)); - } - if !_val.inputs.is_empty() { - formatter.field("inputs", Lite(&_val.inputs)); - } - if let Some(val) = &_val.variadic { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Variadic); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("variadic", Print::ref_cast(val)); - } - formatter.field("output", Lite(&_val.output)); - formatter.finish() - } -} -impl Debug for Lite<syn::TypeGroup> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypeGroup"); - formatter.field("elem", Lite(&_val.elem)); - formatter.finish() - } -} -impl Debug for Lite<syn::TypeImplTrait> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypeImplTrait"); - if !_val.bounds.is_empty() { - formatter.field("bounds", Lite(&_val.bounds)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::TypeInfer> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypeInfer"); - formatter.finish() - } -} -impl Debug for Lite<syn::TypeMacro> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypeMacro"); - formatter.field("mac", Lite(&_val.mac)); - formatter.finish() - } -} -impl Debug for Lite<syn::TypeNever> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypeNever"); - formatter.finish() - } -} -impl Debug for Lite<syn::TypeParam> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypeParam"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("ident", Lite(&_val.ident)); - if let Some(val) = &_val.colon_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Colon); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("colon_token", Print::ref_cast(val)); - } - if !_val.bounds.is_empty() { - formatter.field("bounds", Lite(&_val.bounds)); - } - if let Some(val) = &_val.eq_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Eq); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("eq_token", Print::ref_cast(val)); - } - if let Some(val) = &_val.default { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Type); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("default", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::TypeParamBound> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::TypeParamBound::Trait(_val) => { - formatter.write_str("Trait")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::TypeParamBound::Lifetime(_val) => { - formatter.write_str("Lifetime")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::TypeParen> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypeParen"); - formatter.field("elem", Lite(&_val.elem)); - formatter.finish() - } -} -impl Debug for Lite<syn::TypePath> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypePath"); - if let Some(val) = &_val.qself { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::QSelf); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("qself", Print::ref_cast(val)); - } - formatter.field("path", Lite(&_val.path)); - formatter.finish() - } -} -impl Debug for Lite<syn::TypePtr> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypePtr"); - if let Some(val) = &_val.const_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Const); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("const_token", Print::ref_cast(val)); - } - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("elem", Lite(&_val.elem)); - formatter.finish() - } -} -impl Debug for Lite<syn::TypeReference> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypeReference"); - if let Some(val) = &_val.lifetime { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::Lifetime); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("lifetime", Print::ref_cast(val)); - } - if let Some(val) = &_val.mutability { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Mut); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("mutability", Print::ref_cast(val)); - } - formatter.field("elem", Lite(&_val.elem)); - formatter.finish() - } -} -impl Debug for Lite<syn::TypeSlice> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypeSlice"); - formatter.field("elem", Lite(&_val.elem)); - formatter.finish() - } -} -impl Debug for Lite<syn::TypeTraitObject> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypeTraitObject"); - if let Some(val) = &_val.dyn_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::Dyn); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("dyn_token", Print::ref_cast(val)); - } - if !_val.bounds.is_empty() { - formatter.field("bounds", Lite(&_val.bounds)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::TypeTuple> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("TypeTuple"); - if !_val.elems.is_empty() { - formatter.field("elems", Lite(&_val.elems)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::UnOp> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::UnOp::Deref(_val) => { - formatter.write_str("Deref")?; - Ok(()) - } - syn::UnOp::Not(_val) => { - formatter.write_str("Not")?; - Ok(()) - } - syn::UnOp::Neg(_val) => { - formatter.write_str("Neg")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::UseGlob> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("UseGlob"); - formatter.finish() - } -} -impl Debug for Lite<syn::UseGroup> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("UseGroup"); - if !_val.items.is_empty() { - formatter.field("items", Lite(&_val.items)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::UseName> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("UseName"); - formatter.field("ident", Lite(&_val.ident)); - formatter.finish() - } -} -impl Debug for Lite<syn::UsePath> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("UsePath"); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("tree", Lite(&_val.tree)); - formatter.finish() - } -} -impl Debug for Lite<syn::UseRename> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("UseRename"); - formatter.field("ident", Lite(&_val.ident)); - formatter.field("rename", Lite(&_val.rename)); - formatter.finish() - } -} -impl Debug for Lite<syn::UseTree> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::UseTree::Path(_val) => { - formatter.write_str("Path")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::UseTree::Name(_val) => { - formatter.write_str("Name")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::UseTree::Rename(_val) => { - formatter.write_str("Rename")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::UseTree::Glob(_val) => { - formatter.write_str("Glob")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::UseTree::Group(_val) => { - formatter.write_str("Group")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - } -} -impl Debug for Lite<syn::Variadic> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Variadic"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::Variant> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("Variant"); - if !_val.attrs.is_empty() { - formatter.field("attrs", Lite(&_val.attrs)); - } - formatter.field("ident", Lite(&_val.ident)); - formatter.field("fields", Lite(&_val.fields)); - if let Some(val) = &_val.discriminant { - #[derive(RefCast)] - #[repr(transparent)] - struct Print((syn::token::Eq, syn::Expr)); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - let _val = &self.0; - formatter.write_str("(")?; - Debug::fmt(Lite(&_val.1), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - formatter.field("discriminant", Print::ref_cast(val)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::VisCrate> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("VisCrate"); - formatter.finish() - } -} -impl Debug for Lite<syn::VisPublic> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("VisPublic"); - formatter.finish() - } -} -impl Debug for Lite<syn::VisRestricted> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("VisRestricted"); - if let Some(val) = &_val.in_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::In); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("in_token", Print::ref_cast(val)); - } - formatter.field("path", Lite(&_val.path)); - formatter.finish() - } -} -impl Debug for Lite<syn::Visibility> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::Visibility::Public(_val) => { - let mut formatter = formatter.debug_struct("Visibility::Public"); - formatter.finish() - } - syn::Visibility::Crate(_val) => { - let mut formatter = formatter.debug_struct("Visibility::Crate"); - formatter.finish() - } - syn::Visibility::Restricted(_val) => { - let mut formatter = formatter.debug_struct("Visibility::Restricted"); - if let Some(val) = &_val.in_token { - #[derive(RefCast)] - #[repr(transparent)] - struct Print(syn::token::In); - impl Debug for Print { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - formatter.write_str("Some")?; - Ok(()) - } - } - formatter.field("in_token", Print::ref_cast(val)); - } - formatter.field("path", Lite(&_val.path)); - formatter.finish() - } - syn::Visibility::Inherited => formatter.write_str("Inherited"), - } - } -} -impl Debug for Lite<syn::WhereClause> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - let mut formatter = formatter.debug_struct("WhereClause"); - if !_val.predicates.is_empty() { - formatter.field("predicates", Lite(&_val.predicates)); - } - formatter.finish() - } -} -impl Debug for Lite<syn::WherePredicate> { - fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { - let _val = &self.value; - match _val { - syn::WherePredicate::Type(_val) => { - formatter.write_str("Type")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::WherePredicate::Lifetime(_val) => { - formatter.write_str("Lifetime")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - syn::WherePredicate::Eq(_val) => { - formatter.write_str("Eq")?; - formatter.write_str("(")?; - Debug::fmt(Lite(_val), formatter)?; - formatter.write_str(")")?; - Ok(()) - } - } - } -} |