include/llvm/ADT/ilist_iterator.h - llvm - Git at Google

 //===- llvm/ADT/ilist_iterator.h - Intrusive List Iterator ------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_ADT_ILIST_ITERATOR_H
 #define LLVM_ADT_ILIST_ITERATOR_H

 #include "llvm/ADT/ilist_node.h"
 #include <cassert>
 #include <cstddef>
 #include <iterator>
 #include <type_traits>

 namespace llvm {

 namespace ilist_detail {

 /// Find const-correct node types.
 template <class OptionsT, bool IsConst> struct IteratorTraits;
 template <class OptionsT> struct IteratorTraits<OptionsT, false> {
   using value_type = typename OptionsT::value_type;
   using pointer = typename OptionsT::pointer;
   using reference = typename OptionsT::reference;
   using node_pointer = ilist_node_impl<OptionsT> *;
   using node_reference = ilist_node_impl<OptionsT> &;
 };
 template <class OptionsT> struct IteratorTraits<OptionsT, true> {
   using value_type = const typename OptionsT::value_type;
   using pointer = typename OptionsT::const_pointer;
   using reference = typename OptionsT::const_reference;
   using node_pointer = const ilist_node_impl<OptionsT> *;
   using node_reference = const ilist_node_impl<OptionsT> &;
 };

 template <bool IsReverse> struct IteratorHelper;
 template <> struct IteratorHelper<false> : ilist_detail::NodeAccess {
   using Access = ilist_detail::NodeAccess;

   template <class T> static void increment(T *&I) { I = Access::getNext(*I); }
   template <class T> static void decrement(T *&I) { I = Access::getPrev(*I); }
 };
 template <> struct IteratorHelper<true> : ilist_detail::NodeAccess {
   using Access = ilist_detail::NodeAccess;

   template <class T> static void increment(T *&I) { I = Access::getPrev(*I); }
   template <class T> static void decrement(T *&I) { I = Access::getNext(*I); }
 };

 } // end namespace ilist_detail

 /// Iterator for intrusive lists  based on ilist_node.
 template <class OptionsT, bool IsReverse, bool IsConst>
 class ilist_iterator : ilist_detail::SpecificNodeAccess<OptionsT> {
   friend ilist_iterator<OptionsT, IsReverse, !IsConst>;
   friend ilist_iterator<OptionsT, !IsReverse, IsConst>;
   friend ilist_iterator<OptionsT, !IsReverse, !IsConst>;

   using Traits = ilist_detail::IteratorTraits<OptionsT, IsConst>;
   using Access = ilist_detail::SpecificNodeAccess<OptionsT>;

 public:
   using value_type = typename Traits::value_type;
   using pointer = typename Traits::pointer;
   using reference = typename Traits::reference;
   using difference_type = ptrdiff_t;
   using iterator_category = std::bidirectional_iterator_tag;
   using const_pointer = typename OptionsT::const_pointer;
   using const_reference = typename OptionsT::const_reference;

 private:
   using node_pointer = typename Traits::node_pointer;
   using node_reference = typename Traits::node_reference;

   node_pointer NodePtr = nullptr;

 public:
   /// Create from an ilist_node.
   explicit ilist_iterator(node_reference N) : NodePtr(&N) {}

   explicit ilist_iterator(pointer NP) : NodePtr(Access::getNodePtr(NP)) {}
   explicit ilist_iterator(reference NR) : NodePtr(Access::getNodePtr(&NR)) {}
   ilist_iterator() = default;

   // This is templated so that we can allow constructing a const iterator from
   // a nonconst iterator...
   template <bool RHSIsConst>
   ilist_iterator(
       const ilist_iterator<OptionsT, IsReverse, RHSIsConst> &RHS,
       typename std::enable_if<IsConst || !RHSIsConst, void *>::type = nullptr)
       : NodePtr(RHS.NodePtr) {}

   // This is templated so that we can allow assigning to a const iterator from
   // a nonconst iterator...
   template <bool RHSIsConst>
   typename std::enable_if<IsConst || !RHSIsConst, ilist_iterator &>::type
   operator=(const ilist_iterator<OptionsT, IsReverse, RHSIsConst> &RHS) {
     NodePtr = RHS.NodePtr;
     return *this;
   }

   /// Explicit conversion between forward/reverse iterators.
   ///
   /// Translate between forward and reverse iterators without changing range
   /// boundaries.  The resulting iterator will dereference (and have a handle)
   /// to the previous node, which is somewhat unexpected; but converting the
   /// two endpoints in a range will give the same range in reverse.
   ///
   /// This matches std::reverse_iterator conversions.
   explicit ilist_iterator(
       const ilist_iterator<OptionsT, !IsReverse, IsConst> &RHS)
       : ilist_iterator(++RHS.getReverse()) {}

   /// Get a reverse iterator to the same node.
   ///
   /// Gives a reverse iterator that will dereference (and have a handle) to the
   /// same node.  Converting the endpoint iterators in a range will give a
   /// different range; for range operations, use the explicit conversions.
   ilist_iterator<OptionsT, !IsReverse, IsConst> getReverse() const {
     if (NodePtr)
       return ilist_iterator<OptionsT, !IsReverse, IsConst>(*NodePtr);
     return ilist_iterator<OptionsT, !IsReverse, IsConst>();
   }

   /// Const-cast.
   ilist_iterator<OptionsT, IsReverse, false> getNonConst() const {
     if (NodePtr)
       return ilist_iterator<OptionsT, IsReverse, false>(
           const_cast<typename ilist_iterator<OptionsT, IsReverse,
                                              false>::node_reference>(*NodePtr));
     return ilist_iterator<OptionsT, IsReverse, false>();
   }

   // Accessors...
   reference operator*() const {
     assert(!NodePtr->isKnownSentinel());
     return *Access::getValuePtr(NodePtr);
   }
   pointer operator->() const { return &operator*(); }

   // Comparison operators
   friend bool operator==(const ilist_iterator &LHS, const ilist_iterator &RHS) {
     return LHS.NodePtr == RHS.NodePtr;
   }
   friend bool operator!=(const ilist_iterator &LHS, const ilist_iterator &RHS) {
     return LHS.NodePtr != RHS.NodePtr;
   }

   // Increment and decrement operators...
   ilist_iterator &operator--() {
     NodePtr = IsReverse ? NodePtr->getNext() : NodePtr->getPrev();
     return *this;
   }
   ilist_iterator &operator++() {
     NodePtr = IsReverse ? NodePtr->getPrev() : NodePtr->getNext();
     return *this;
   }
   ilist_iterator operator--(int) {
     ilist_iterator tmp = *this;
     --*this;
     return tmp;
   }
   ilist_iterator operator++(int) {
     ilist_iterator tmp = *this;
     ++*this;
     return tmp;
   }

   /// Get the underlying ilist_node.
   node_pointer getNodePtr() const { return static_cast<node_pointer>(NodePtr); }

   /// Check for end.  Only valid if ilist_sentinel_tracking<true>.
   bool isEnd() const { return NodePtr ? NodePtr->isSentinel() : false; }
 };

 template <typename From> struct simplify_type;

 /// Allow ilist_iterators to convert into pointers to a node automatically when
 /// used by the dyn_cast, cast, isa mechanisms...
 ///
 /// FIXME: remove this, since there is no implicit conversion to NodeTy.
 template <class OptionsT, bool IsConst>
 struct simplify_type<ilist_iterator<OptionsT, false, IsConst>> {
   using iterator = ilist_iterator<OptionsT, false, IsConst>;
   using SimpleType = typename iterator::pointer;

   static SimpleType getSimplifiedValue(const iterator &Node) { return &*Node; }
 };
 template <class OptionsT, bool IsConst>
 struct simplify_type<const ilist_iterator<OptionsT, false, IsConst>>
     : simplify_type<ilist_iterator<OptionsT, false, IsConst>> {};

 } // end namespace llvm

 #endif // LLVM_ADT_ILIST_ITERATOR_H
	//===- llvm/ADT/ilist_iterator.h - Intrusive List Iterator ------- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_ADT_ILIST_ITERATOR_H
	#define LLVM_ADT_ILIST_ITERATOR_H

	#include "llvm/ADT/ilist_node.h"
	#include <cassert>
	#include <cstddef>
	#include <iterator>
	#include <type_traits>

	namespace llvm {

	namespace ilist_detail {

	/// Find const-correct node types.
	template <class OptionsT, bool IsConst> struct IteratorTraits;
	template <class OptionsT> struct IteratorTraits<OptionsT, false> {
	using value_type = typename OptionsT::value_type;
	using pointer = typename OptionsT::pointer;
	using reference = typename OptionsT::reference;
	using node_pointer = ilist_node_impl<OptionsT> *;
	using node_reference = ilist_node_impl<OptionsT> &;
	};
	template <class OptionsT> struct IteratorTraits<OptionsT, true> {
	using value_type = const typename OptionsT::value_type;
	using pointer = typename OptionsT::const_pointer;
	using reference = typename OptionsT::const_reference;
	using node_pointer = const ilist_node_impl<OptionsT> *;
	using node_reference = const ilist_node_impl<OptionsT> &;
	};

	template <bool IsReverse> struct IteratorHelper;
	template <> struct IteratorHelper<false> : ilist_detail::NodeAccess {
	using Access = ilist_detail::NodeAccess;

	template <class T> static void increment(T &I) { I = Access::getNext(I); }
	template <class T> static void decrement(T &I) { I = Access::getPrev(I); }
	};
	template <> struct IteratorHelper<true> : ilist_detail::NodeAccess {
	using Access = ilist_detail::NodeAccess;

	template <class T> static void increment(T &I) { I = Access::getPrev(I); }
	template <class T> static void decrement(T &I) { I = Access::getNext(I); }
	};

	} // end namespace ilist_detail

	/// Iterator for intrusive lists based on ilist_node.
	template <class OptionsT, bool IsReverse, bool IsConst>
	class ilist_iterator : ilist_detail::SpecificNodeAccess<OptionsT> {
	friend ilist_iterator<OptionsT, IsReverse, !IsConst>;
	friend ilist_iterator<OptionsT, !IsReverse, IsConst>;
	friend ilist_iterator<OptionsT, !IsReverse, !IsConst>;

	using Traits = ilist_detail::IteratorTraits<OptionsT, IsConst>;
	using Access = ilist_detail::SpecificNodeAccess<OptionsT>;

	public:
	using value_type = typename Traits::value_type;
	using pointer = typename Traits::pointer;
	using reference = typename Traits::reference;
	using difference_type = ptrdiff_t;
	using iterator_category = std::bidirectional_iterator_tag;
	using const_pointer = typename OptionsT::const_pointer;
	using const_reference = typename OptionsT::const_reference;

	private:
	using node_pointer = typename Traits::node_pointer;
	using node_reference = typename Traits::node_reference;

	node_pointer NodePtr = nullptr;

	public:
	/// Create from an ilist_node.
	explicit ilist_iterator(node_reference N) : NodePtr(&N) {}

	explicit ilist_iterator(pointer NP) : NodePtr(Access::getNodePtr(NP)) {}
	explicit ilist_iterator(reference NR) : NodePtr(Access::getNodePtr(&NR)) {}
	ilist_iterator() = default;

	// This is templated so that we can allow constructing a const iterator from
	// a nonconst iterator...
	template <bool RHSIsConst>
	ilist_iterator(
	const ilist_iterator<OptionsT, IsReverse, RHSIsConst> &RHS,
	typename std::enable_if<IsConst \|\| !RHSIsConst, void *>::type = nullptr)
	: NodePtr(RHS.NodePtr) {}

	// This is templated so that we can allow assigning to a const iterator from
	// a nonconst iterator...
	template <bool RHSIsConst>
	typename std::enable_if<IsConst \|\| !RHSIsConst, ilist_iterator &>::type
	operator=(const ilist_iterator<OptionsT, IsReverse, RHSIsConst> &RHS) {
	NodePtr = RHS.NodePtr;
	return *this;
	}

	/// Explicit conversion between forward/reverse iterators.
	///
	/// Translate between forward and reverse iterators without changing range
	/// boundaries. The resulting iterator will dereference (and have a handle)
	/// to the previous node, which is somewhat unexpected; but converting the
	/// two endpoints in a range will give the same range in reverse.
	///
	/// This matches std::reverse_iterator conversions.
	explicit ilist_iterator(
	const ilist_iterator<OptionsT, !IsReverse, IsConst> &RHS)
	: ilist_iterator(++RHS.getReverse()) {}

	/// Get a reverse iterator to the same node.
	///
	/// Gives a reverse iterator that will dereference (and have a handle) to the
	/// same node. Converting the endpoint iterators in a range will give a
	/// different range; for range operations, use the explicit conversions.
	ilist_iterator<OptionsT, !IsReverse, IsConst> getReverse() const {
	if (NodePtr)
	return ilist_iterator<OptionsT, !IsReverse, IsConst>(*NodePtr);
	return ilist_iterator<OptionsT, !IsReverse, IsConst>();
	}

	/// Const-cast.
	ilist_iterator<OptionsT, IsReverse, false> getNonConst() const {
	if (NodePtr)
	return ilist_iterator<OptionsT, IsReverse, false>(
	const_cast<typename ilist_iterator<OptionsT, IsReverse,
	false>::node_reference>(*NodePtr));
	return ilist_iterator<OptionsT, IsReverse, false>();
	}

	// Accessors...
	reference operator*() const {
	assert(!NodePtr->isKnownSentinel());
	return *Access::getValuePtr(NodePtr);
	}
	pointer operator->() const { return &operator*(); }

	// Comparison operators
	friend bool operator==(const ilist_iterator &LHS, const ilist_iterator &RHS) {
	return LHS.NodePtr == RHS.NodePtr;
	}
	friend bool operator!=(const ilist_iterator &LHS, const ilist_iterator &RHS) {
	return LHS.NodePtr != RHS.NodePtr;
	}

	// Increment and decrement operators...
	ilist_iterator &operator--() {
	NodePtr = IsReverse ? NodePtr->getNext() : NodePtr->getPrev();
	return *this;
	}
	ilist_iterator &operator++() {
	NodePtr = IsReverse ? NodePtr->getPrev() : NodePtr->getNext();
	return *this;
	}
	ilist_iterator operator--(int) {
	ilist_iterator tmp = *this;
	--*this;
	return tmp;
	}
	ilist_iterator operator++(int) {
	ilist_iterator tmp = *this;
	++*this;
	return tmp;
	}

	/// Get the underlying ilist_node.
	node_pointer getNodePtr() const { return static_cast<node_pointer>(NodePtr); }

	/// Check for end. Only valid if ilist_sentinel_tracking<true>.
	bool isEnd() const { return NodePtr ? NodePtr->isSentinel() : false; }
	};

	template <typename From> struct simplify_type;

	/// Allow ilist_iterators to convert into pointers to a node automatically when
	/// used by the dyn_cast, cast, isa mechanisms...
	///
	/// FIXME: remove this, since there is no implicit conversion to NodeTy.
	template <class OptionsT, bool IsConst>
	struct simplify_type<ilist_iterator<OptionsT, false, IsConst>> {
	using iterator = ilist_iterator<OptionsT, false, IsConst>;
	using SimpleType = typename iterator::pointer;

	static SimpleType getSimplifiedValue(const iterator &Node) { return &*Node; }
	};
	template <class OptionsT, bool IsConst>
	struct simplify_type<const ilist_iterator<OptionsT, false, IsConst>>
	: simplify_type<ilist_iterator<OptionsT, false, IsConst>> {};

	} // end namespace llvm

	#endif // LLVM_ADT_ILIST_ITERATOR_H