vendor/clap_derive-3.1.4/src/utils/ty.rs - toolchain/rustc - Git at Google

 //! Special types handling

 use super::spanned::Sp;

 use syn::{
     spanned::Spanned, GenericArgument, Path, PathArguments, PathArguments::AngleBracketed,
     PathSegment, Type, TypePath,
 };

 #[derive(Copy, Clone, PartialEq, Debug)]
 pub enum Ty {
     Bool,
     Vec,
     Option,
     OptionOption,
     OptionVec,
     Other,
 }

 impl Ty {
     pub fn from_syn_ty(ty: &syn::Type) -> Sp<Self> {
         use self::Ty::*;
         let t = |kind| Sp::new(kind, ty.span());

         if is_simple_ty(ty, "bool") {
             t(Bool)
         } else if is_generic_ty(ty, "Vec") {
             t(Vec)
         } else if let Some(subty) = subty_if_name(ty, "Option") {
             if is_generic_ty(subty, "Option") {
                 t(OptionOption)
             } else if is_generic_ty(subty, "Vec") {
                 t(OptionVec)
             } else {
                 t(Option)
             }
         } else {
             t(Other)
         }
     }
 }

 pub fn inner_type(ty: Ty, field_ty: &syn::Type) -> &syn::Type {
     match ty {
         Ty::Vec | Ty::Option => sub_type(field_ty).unwrap_or(field_ty),
         Ty::OptionOption | Ty::OptionVec => {
             sub_type(field_ty).and_then(sub_type).unwrap_or(field_ty)
         }
         _ => field_ty,
     }
 }

 pub fn sub_type(ty: &syn::Type) -> Option<&syn::Type> {
     subty_if(ty, |_| true)
 }

 fn only_last_segment(mut ty: &syn::Type) -> Option<&PathSegment> {
     while let syn::Type::Group(syn::TypeGroup { elem, .. }) = ty {
         ty = elem;
     }
     match ty {
         Type::Path(TypePath {
             qself: None,
             path:
                 Path {
                     leading_colon: None,
                     segments,
                 },
         }) => only_one(segments.iter()),

         _ => None,
     }
 }

 fn subty_if<F>(ty: &syn::Type, f: F) -> Option<&syn::Type>
 where
     F: FnOnce(&PathSegment) -> bool,
 {
     only_last_segment(ty)
         .filter(|segment| f(segment))
         .and_then(|segment| {
             if let AngleBracketed(args) = &segment.arguments {
                 only_one(args.args.iter()).and_then(|genneric| {
                     if let GenericArgument::Type(ty) = genneric {
                         Some(ty)
                     } else {
                         None
                     }
                 })
             } else {
                 None
             }
         })
 }

 pub fn subty_if_name<'a>(ty: &'a syn::Type, name: &str) -> Option<&'a syn::Type> {
     subty_if(ty, |seg| seg.ident == name)
 }

 pub fn is_simple_ty(ty: &syn::Type, name: &str) -> bool {
     only_last_segment(ty)
         .map(|segment| {
             if let PathArguments::None = segment.arguments {
                 segment.ident == name
             } else {
                 false
             }
         })
         .unwrap_or(false)
 }

 fn is_generic_ty(ty: &syn::Type, name: &str) -> bool {
     subty_if_name(ty, name).is_some()
 }

 fn only_one<I, T>(mut iter: I) -> Option<T>
 where
     I: Iterator<Item = T>,
 {
     iter.next().filter(|_| iter.next().is_none())
 }
	//! Special types handling

	use super::spanned::Sp;

	use syn::{
	spanned::Spanned, GenericArgument, Path, PathArguments, PathArguments::AngleBracketed,
	PathSegment, Type, TypePath,
	};

	#[derive(Copy, Clone, PartialEq, Debug)]
	pub enum Ty {
	Bool,
	Vec,
	Option,
	OptionOption,
	OptionVec,
	Other,
	}

	impl Ty {
	pub fn from_syn_ty(ty: &syn::Type) -> Sp<Self> {
	use self::Ty::*;
	let t = \|kind\| Sp::new(kind, ty.span());

	if is_simple_ty(ty, "bool") {
	t(Bool)
	} else if is_generic_ty(ty, "Vec") {
	t(Vec)
	} else if let Some(subty) = subty_if_name(ty, "Option") {
	if is_generic_ty(subty, "Option") {
	t(OptionOption)
	} else if is_generic_ty(subty, "Vec") {
	t(OptionVec)
	} else {
	t(Option)
	}
	} else {
	t(Other)
	}
	}
	}

	pub fn inner_type(ty: Ty, field_ty: &syn::Type) -> &syn::Type {
	match ty {
	Ty::Vec \| Ty::Option => sub_type(field_ty).unwrap_or(field_ty),
	Ty::OptionOption \| Ty::OptionVec => {
	sub_type(field_ty).and_then(sub_type).unwrap_or(field_ty)
	}
	_ => field_ty,
	}
	}

	pub fn sub_type(ty: &syn::Type) -> Option<&syn::Type> {
	subty_if(ty, \|_\| true)
	}

	fn only_last_segment(mut ty: &syn::Type) -> Option<&PathSegment> {
	while let syn::Type::Group(syn::TypeGroup { elem, .. }) = ty {
	ty = elem;
	}
	match ty {
	Type::Path(TypePath {
	qself: None,
	path:
	Path {
	leading_colon: None,
	segments,
	},
	}) => only_one(segments.iter()),

	_ => None,
	}
	}

	fn subty_if<F>(ty: &syn::Type, f: F) -> Option<&syn::Type>
	where
	F: FnOnce(&PathSegment) -> bool,
	{
	only_last_segment(ty)
	.filter(\|segment\| f(segment))
	.and_then(\|segment\| {
	if let AngleBracketed(args) = &segment.arguments {
	only_one(args.args.iter()).and_then(\|genneric\| {
	if let GenericArgument::Type(ty) = genneric {
	Some(ty)
	} else {
	None
	}
	})
	} else {
	None
	}
	})
	}

	pub fn subty_if_name<'a>(ty: &'a syn::Type, name: &str) -> Option<&'a syn::Type> {
	subty_if(ty, \|seg\| seg.ident == name)
	}

	pub fn is_simple_ty(ty: &syn::Type, name: &str) -> bool {
	only_last_segment(ty)
	.map(\|segment\| {
	if let PathArguments::None = segment.arguments {
	segment.ident == name
	} else {
	false
	}
	})
	.unwrap_or(false)
	}

	fn is_generic_ty(ty: &syn::Type, name: &str) -> bool {
	subty_if_name(ty, name).is_some()
	}

	fn only_one<I, T>(mut iter: I) -> Option<T>
	where
	I: Iterator<Item = T>,
	{
	iter.next().filter(\|_\| iter.next().is_none())
	}