src/librustc/hir/pat_util.rs - third_party/rust - Git at Google

 use crate::hir::def::{CtorOf, Res, DefKind};
 use crate::hir::def_id::DefId;
 use crate::hir::{self, HirId, PatKind};
 use syntax::ast;
 use syntax_pos::Span;

 use std::iter::{Enumerate, ExactSizeIterator};

 pub struct EnumerateAndAdjust<I> {
     enumerate: Enumerate<I>,
     gap_pos: usize,
     gap_len: usize,
 }

 impl<I> Iterator for EnumerateAndAdjust<I> where I: Iterator {
     type Item = (usize, <I as Iterator>::Item);

     fn next(&mut self) -> Option<(usize, <I as Iterator>::Item)> {
         self.enumerate.next().map(|(i, elem)| {
             (if i < self.gap_pos { i } else { i + self.gap_len }, elem)
         })
     }

     fn size_hint(&self) -> (usize, Option<usize>) {
         self.enumerate.size_hint()
     }
 }

 pub trait EnumerateAndAdjustIterator {
     fn enumerate_and_adjust(self, expected_len: usize, gap_pos: Option<usize>)
         -> EnumerateAndAdjust<Self> where Self: Sized;
 }

 impl<T: ExactSizeIterator> EnumerateAndAdjustIterator for T {
     fn enumerate_and_adjust(self, expected_len: usize, gap_pos: Option<usize>)
             -> EnumerateAndAdjust<Self> where Self: Sized {
         let actual_len = self.len();
         EnumerateAndAdjust {
             enumerate: self.enumerate(),
             gap_pos: gap_pos.unwrap_or(expected_len),
             gap_len: expected_len - actual_len,
         }
     }
 }

 impl hir::Pat {
     pub fn is_refutable(&self) -> bool {
         match self.node {
             PatKind::Lit(_) |
             PatKind::Range(..) |
             PatKind::Path(hir::QPath::Resolved(Some(..), _)) |
             PatKind::Path(hir::QPath::TypeRelative(..)) => true,

             PatKind::Path(hir::QPath::Resolved(_, ref path)) |
             PatKind::TupleStruct(hir::QPath::Resolved(_, ref path), ..) |
             PatKind::Struct(hir::QPath::Resolved(_, ref path), ..) => {
                 match path.res {
                     Res::Def(DefKind::Variant, _) => true,
                     _ => false
                 }
             }
             PatKind::Slice(..) => true,
             _ => false
         }
     }

     /// Call `f` on every "binding" in a pattern, e.g., on `a` in
     /// `match foo() { Some(a) => (), None => () }`
     pub fn each_binding<F>(&self, mut f: F)
         where F: FnMut(hir::BindingAnnotation, HirId, Span, ast::Ident),
     {
         self.walk(|p| {
             if let PatKind::Binding(binding_mode, _, ident, _) = p.node {
                 f(binding_mode, p.hir_id, p.span, ident);
             }
             true
         });
     }

     /// Checks if the pattern contains any patterns that bind something to
     /// an ident, e.g., `foo`, or `Foo(foo)` or `foo @ Bar(..)`.
     pub fn contains_bindings(&self) -> bool {
         let mut contains_bindings = false;
         self.walk(|p| {
             if let PatKind::Binding(..) = p.node {
                 contains_bindings = true;
                 false // there's at least one binding, can short circuit now.
             } else {
                 true
             }
         });
         contains_bindings
     }

     /// Checks if the pattern contains any patterns that bind something to
     /// an ident or wildcard, e.g., `foo`, or `Foo(_)`, `foo @ Bar(..)`,
     pub fn contains_bindings_or_wild(&self) -> bool {
         let mut contains_bindings = false;
         self.walk(|p| {
             match p.node {
                 PatKind::Binding(..) | PatKind::Wild => {
                     contains_bindings = true;
                     false // there's at least one binding/wildcard, can short circuit now.
                 }
                 _ => true
             }
         });
         contains_bindings
     }

     pub fn simple_ident(&self) -> Option<ast::Ident> {
         match self.node {
             PatKind::Binding(hir::BindingAnnotation::Unannotated, _, ident, None) |
             PatKind::Binding(hir::BindingAnnotation::Mutable, _, ident, None) => Some(ident),
             _ => None,
         }
     }

     /// Returns variants that are necessary to exist for the pattern to match.
     pub fn necessary_variants(&self) -> Vec<DefId> {
         let mut variants = vec![];
         self.walk(|p| {
             match p.node {
                 PatKind::Path(hir::QPath::Resolved(_, ref path)) |
                 PatKind::TupleStruct(hir::QPath::Resolved(_, ref path), ..) |
                 PatKind::Struct(hir::QPath::Resolved(_, ref path), ..) => {
                     match path.res {
                         Res::Def(DefKind::Variant, id) => variants.push(id),
                         Res::Def(DefKind::Ctor(CtorOf::Variant, ..), id) => variants.push(id),
                         _ => ()
                     }
                 }
                 _ => ()
             }
             true
         });
         variants.sort();
         variants.dedup();
         variants
     }

     /// Checks if the pattern contains any `ref` or `ref mut` bindings, and if
     /// yes whether it contains mutable or just immutables ones.
     //
     // FIXME(tschottdorf): this is problematic as the HIR is being scraped, but
     // ref bindings are be implicit after #42640 (default match binding modes). See issue #44848.
     pub fn contains_explicit_ref_binding(&self) -> Option<hir::Mutability> {
         let mut result = None;
         self.each_binding(|annotation, _, _, _| {
             match annotation {
                 hir::BindingAnnotation::Ref => {
                     match result {
                         None | Some(hir::MutImmutable) => result = Some(hir::MutImmutable),
                         _ => (),
                     }
                 }
                 hir::BindingAnnotation::RefMut => result = Some(hir::MutMutable),
                 _ => (),
             }
         });
         result
     }
 }

 impl hir::Arm {
     /// Checks if the patterns for this arm contain any `ref` or `ref mut`
     /// bindings, and if yes whether its containing mutable ones or just immutables ones.
     pub fn contains_explicit_ref_binding(&self) -> Option<hir::Mutability> {
         // FIXME(tschottdorf): contains_explicit_ref_binding() must be removed
         // for #42640 (default match binding modes).
         //
         // See #44848.
         self.top_pats_hack().iter()
                  .filter_map(|pat| pat.contains_explicit_ref_binding())
                  .max_by_key(|m| match *m {
                     hir::MutMutable => 1,
                     hir::MutImmutable => 0,
                  })
     }
 }
	use crate::hir::def::{CtorOf, Res, DefKind};
	use crate::hir::def_id::DefId;
	use crate::hir::{self, HirId, PatKind};
	use syntax::ast;
	use syntax_pos::Span;

	use std::iter::{Enumerate, ExactSizeIterator};

	pub struct EnumerateAndAdjust<I> {
	enumerate: Enumerate<I>,
	gap_pos: usize,
	gap_len: usize,
	}

	impl<I> Iterator for EnumerateAndAdjust<I> where I: Iterator {
	type Item = (usize, <I as Iterator>::Item);

	fn next(&mut self) -> Option<(usize, <I as Iterator>::Item)> {
	self.enumerate.next().map(\|(i, elem)\| {
	(if i < self.gap_pos { i } else { i + self.gap_len }, elem)
	})
	}

	fn size_hint(&self) -> (usize, Option<usize>) {
	self.enumerate.size_hint()
	}
	}

	pub trait EnumerateAndAdjustIterator {
	fn enumerate_and_adjust(self, expected_len: usize, gap_pos: Option<usize>)
	-> EnumerateAndAdjust<Self> where Self: Sized;
	}

	impl<T: ExactSizeIterator> EnumerateAndAdjustIterator for T {
	fn enumerate_and_adjust(self, expected_len: usize, gap_pos: Option<usize>)
	-> EnumerateAndAdjust<Self> where Self: Sized {
	let actual_len = self.len();
	EnumerateAndAdjust {
	enumerate: self.enumerate(),
	gap_pos: gap_pos.unwrap_or(expected_len),
	gap_len: expected_len - actual_len,
	}
	}
	}

	impl hir::Pat {
	pub fn is_refutable(&self) -> bool {
	match self.node {
	PatKind::Lit(_) \|
	PatKind::Range(..) \|
	PatKind::Path(hir::QPath::Resolved(Some(..), _)) \|
	PatKind::Path(hir::QPath::TypeRelative(..)) => true,

	PatKind::Path(hir::QPath::Resolved(_, ref path)) \|
	PatKind::TupleStruct(hir::QPath::Resolved(_, ref path), ..) \|
	PatKind::Struct(hir::QPath::Resolved(_, ref path), ..) => {
	match path.res {
	Res::Def(DefKind::Variant, _) => true,
	_ => false
	}
	}
	PatKind::Slice(..) => true,
	_ => false
	}
	}

	/// Call `f` on every "binding" in a pattern, e.g., on `a` in
	/// `match foo() { Some(a) => (), None => () }`
	pub fn each_binding<F>(&self, mut f: F)
	where F: FnMut(hir::BindingAnnotation, HirId, Span, ast::Ident),
	{
	self.walk(\|p\| {
	if let PatKind::Binding(binding_mode, _, ident, _) = p.node {
	f(binding_mode, p.hir_id, p.span, ident);
	}
	true
	});
	}

	/// Checks if the pattern contains any patterns that bind something to
	/// an ident, e.g., `foo`, or `Foo(foo)` or `foo @ Bar(..)`.
	pub fn contains_bindings(&self) -> bool {
	let mut contains_bindings = false;
	self.walk(\|p\| {
	if let PatKind::Binding(..) = p.node {
	contains_bindings = true;
	false // there's at least one binding, can short circuit now.
	} else {
	true
	}
	});
	contains_bindings
	}

	/// Checks if the pattern contains any patterns that bind something to
	/// an ident or wildcard, e.g., `foo`, or `Foo(_)`, `foo @ Bar(..)`,
	pub fn contains_bindings_or_wild(&self) -> bool {
	let mut contains_bindings = false;
	self.walk(\|p\| {
	match p.node {
	PatKind::Binding(..) \| PatKind::Wild => {
	contains_bindings = true;
	false // there's at least one binding/wildcard, can short circuit now.
	}
	_ => true
	}
	});
	contains_bindings
	}

	pub fn simple_ident(&self) -> Option<ast::Ident> {
	match self.node {
	PatKind::Binding(hir::BindingAnnotation::Unannotated, _, ident, None) \|
	PatKind::Binding(hir::BindingAnnotation::Mutable, _, ident, None) => Some(ident),
	_ => None,
	}
	}

	/// Returns variants that are necessary to exist for the pattern to match.
	pub fn necessary_variants(&self) -> Vec<DefId> {
	let mut variants = vec![];
	self.walk(\|p\| {
	match p.node {
	PatKind::Path(hir::QPath::Resolved(_, ref path)) \|
	PatKind::TupleStruct(hir::QPath::Resolved(_, ref path), ..) \|
	PatKind::Struct(hir::QPath::Resolved(_, ref path), ..) => {
	match path.res {
	Res::Def(DefKind::Variant, id) => variants.push(id),
	Res::Def(DefKind::Ctor(CtorOf::Variant, ..), id) => variants.push(id),
	_ => ()
	}
	}
	_ => ()
	}
	true
	});
	variants.sort();
	variants.dedup();
	variants
	}

	/// Checks if the pattern contains any `ref` or `ref mut` bindings, and if
	/// yes whether it contains mutable or just immutables ones.
	//
	// FIXME(tschottdorf): this is problematic as the HIR is being scraped, but
	// ref bindings are be implicit after #42640 (default match binding modes). See issue #44848.
	pub fn contains_explicit_ref_binding(&self) -> Option<hir::Mutability> {
	let mut result = None;
	self.each_binding(\|annotation, _, _, _\| {
	match annotation {
	hir::BindingAnnotation::Ref => {
	match result {
	None \| Some(hir::MutImmutable) => result = Some(hir::MutImmutable),
	_ => (),
	}
	}
	hir::BindingAnnotation::RefMut => result = Some(hir::MutMutable),
	_ => (),
	}
	});
	result
	}
	}

	impl hir::Arm {
	/// Checks if the patterns for this arm contain any `ref` or `ref mut`
	/// bindings, and if yes whether its containing mutable ones or just immutables ones.
	pub fn contains_explicit_ref_binding(&self) -> Option<hir::Mutability> {
	// FIXME(tschottdorf): contains_explicit_ref_binding() must be removed
	// for #42640 (default match binding modes).
	//
	// See #44848.
	self.top_pats_hack().iter()
	.filter_map(\|pat\| pat.contains_explicit_ref_binding())
	.max_by_key(\|m\| match *m {
	hir::MutMutable => 1,
	hir::MutImmutable => 0,
	})
	}
	}