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853f402d9c
and to expose a handle to represent the actual case rather than having the iterator return a reference to itself. All of this allows the iterator to be used with common STL facilities, standard algorithms, etc. Doing this exposed some missing facilities in the iterator facade that I've fixed and required some work to the actual iterator to fully support the necessary API. Differential Revision: https://reviews.llvm.org/D31548 llvm-svn: 300032
338 lines
12 KiB
C++
338 lines
12 KiB
C++
//===- iterator.h - Utilities for using and defining iterators --*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ADT_ITERATOR_H
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#define LLVM_ADT_ITERATOR_H
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#include "llvm/ADT/iterator_range.h"
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#include <cstddef>
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#include <iterator>
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#include <type_traits>
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namespace llvm {
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/// \brief CRTP base class which implements the entire standard iterator facade
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/// in terms of a minimal subset of the interface.
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///
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/// Use this when it is reasonable to implement most of the iterator
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/// functionality in terms of a core subset. If you need special behavior or
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/// there are performance implications for this, you may want to override the
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/// relevant members instead.
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///
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/// Note, one abstraction that this does *not* provide is implementing
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/// subtraction in terms of addition by negating the difference. Negation isn't
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/// always information preserving, and I can see very reasonable iterator
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/// designs where this doesn't work well. It doesn't really force much added
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/// boilerplate anyways.
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///
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/// Another abstraction that this doesn't provide is implementing increment in
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/// terms of addition of one. These aren't equivalent for all iterator
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/// categories, and respecting that adds a lot of complexity for little gain.
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///
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/// Classes wishing to use `iterator_facade_base` should implement the following
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/// methods:
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///
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/// Forward Iterators:
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/// (All of the following methods)
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/// - DerivedT &operator=(const DerivedT &R);
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/// - bool operator==(const DerivedT &R) const;
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/// - const T &operator*() const;
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/// - T &operator*();
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/// - DerivedT &operator++();
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///
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/// Bidirectional Iterators:
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/// (All methods of forward iterators, plus the following)
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/// - DerivedT &operator--();
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///
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/// Random-access Iterators:
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/// (All methods of bidirectional iterators excluding the following)
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/// - DerivedT &operator++();
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/// - DerivedT &operator--();
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/// (and plus the following)
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/// - bool operator<(const DerivedT &RHS) const;
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/// - DifferenceTypeT operator-(const DerivedT &R) const;
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/// - DerivedT &operator+=(DifferenceTypeT N);
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/// - DerivedT &operator-=(DifferenceTypeT N);
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///
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template <typename DerivedT, typename IteratorCategoryT, typename T,
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typename DifferenceTypeT = std::ptrdiff_t, typename PointerT = T *,
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typename ReferenceT = T &>
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class iterator_facade_base
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: public std::iterator<IteratorCategoryT, T, DifferenceTypeT, PointerT,
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ReferenceT> {
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protected:
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enum {
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IsRandomAccess =
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std::is_base_of<std::random_access_iterator_tag, IteratorCategoryT>::value,
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IsBidirectional =
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std::is_base_of<std::bidirectional_iterator_tag, IteratorCategoryT>::value,
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};
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/// A proxy object for computing a reference via indirecting a copy of an
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/// iterator. This is used in APIs which need to produce a reference via
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/// indirection but for which the iterator object might be a temporary. The
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/// proxy preserves the iterator internally and exposes the indirected
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/// reference via a conversion operator.
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class ReferenceProxy {
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friend iterator_facade_base;
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DerivedT I;
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ReferenceProxy(DerivedT I) : I(std::move(I)) {}
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public:
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operator ReferenceT() const { return *I; }
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};
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public:
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DerivedT operator+(DifferenceTypeT n) const {
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static_assert(std::is_base_of<iterator_facade_base, DerivedT>::value,
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"Must pass the derived type to this template!");
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static_assert(
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IsRandomAccess,
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"The '+' operator is only defined for random access iterators.");
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DerivedT tmp = *static_cast<const DerivedT *>(this);
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tmp += n;
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return tmp;
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}
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friend DerivedT operator+(DifferenceTypeT n, const DerivedT &i) {
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static_assert(
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IsRandomAccess,
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"The '+' operator is only defined for random access iterators.");
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return i + n;
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}
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DerivedT operator-(DifferenceTypeT n) const {
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static_assert(
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IsRandomAccess,
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"The '-' operator is only defined for random access iterators.");
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DerivedT tmp = *static_cast<const DerivedT *>(this);
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tmp -= n;
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return tmp;
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}
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DerivedT &operator++() {
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static_assert(std::is_base_of<iterator_facade_base, DerivedT>::value,
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"Must pass the derived type to this template!");
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return static_cast<DerivedT *>(this)->operator+=(1);
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}
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DerivedT operator++(int) {
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DerivedT tmp = *static_cast<DerivedT *>(this);
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++*static_cast<DerivedT *>(this);
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return tmp;
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}
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DerivedT &operator--() {
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static_assert(
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IsBidirectional,
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"The decrement operator is only defined for bidirectional iterators.");
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return static_cast<DerivedT *>(this)->operator-=(1);
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}
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DerivedT operator--(int) {
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static_assert(
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IsBidirectional,
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"The decrement operator is only defined for bidirectional iterators.");
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DerivedT tmp = *static_cast<DerivedT *>(this);
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--*static_cast<DerivedT *>(this);
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return tmp;
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}
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bool operator!=(const DerivedT &RHS) const {
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return !static_cast<const DerivedT *>(this)->operator==(RHS);
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}
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bool operator>(const DerivedT &RHS) const {
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static_assert(
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IsRandomAccess,
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"Relational operators are only defined for random access iterators.");
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return !static_cast<const DerivedT *>(this)->operator<(RHS) &&
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!static_cast<const DerivedT *>(this)->operator==(RHS);
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}
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bool operator<=(const DerivedT &RHS) const {
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static_assert(
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IsRandomAccess,
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"Relational operators are only defined for random access iterators.");
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return !static_cast<const DerivedT *>(this)->operator>(RHS);
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}
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bool operator>=(const DerivedT &RHS) const {
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static_assert(
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IsRandomAccess,
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"Relational operators are only defined for random access iterators.");
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return !static_cast<const DerivedT *>(this)->operator<(RHS);
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}
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PointerT operator->() { return &static_cast<DerivedT *>(this)->operator*(); }
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PointerT operator->() const {
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return &static_cast<const DerivedT *>(this)->operator*();
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}
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ReferenceProxy operator[](DifferenceTypeT n) {
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static_assert(IsRandomAccess,
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"Subscripting is only defined for random access iterators.");
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return ReferenceProxy(static_cast<DerivedT *>(this)->operator+(n));
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}
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ReferenceProxy operator[](DifferenceTypeT n) const {
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static_assert(IsRandomAccess,
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"Subscripting is only defined for random access iterators.");
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return ReferenceProxy(static_cast<const DerivedT *>(this)->operator+(n));
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}
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};
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/// \brief CRTP base class for adapting an iterator to a different type.
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///
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/// This class can be used through CRTP to adapt one iterator into another.
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/// Typically this is done through providing in the derived class a custom \c
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/// operator* implementation. Other methods can be overridden as well.
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template <
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typename DerivedT, typename WrappedIteratorT,
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typename IteratorCategoryT =
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typename std::iterator_traits<WrappedIteratorT>::iterator_category,
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typename T = typename std::iterator_traits<WrappedIteratorT>::value_type,
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typename DifferenceTypeT =
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typename std::iterator_traits<WrappedIteratorT>::difference_type,
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typename PointerT = typename std::conditional<
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std::is_same<T, typename std::iterator_traits<
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WrappedIteratorT>::value_type>::value,
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typename std::iterator_traits<WrappedIteratorT>::pointer, T *>::type,
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typename ReferenceT = typename std::conditional<
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std::is_same<T, typename std::iterator_traits<
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WrappedIteratorT>::value_type>::value,
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typename std::iterator_traits<WrappedIteratorT>::reference, T &>::type,
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// Don't provide these, they are mostly to act as aliases below.
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typename WrappedTraitsT = std::iterator_traits<WrappedIteratorT>>
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class iterator_adaptor_base
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: public iterator_facade_base<DerivedT, IteratorCategoryT, T,
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DifferenceTypeT, PointerT, ReferenceT> {
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typedef typename iterator_adaptor_base::iterator_facade_base BaseT;
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protected:
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WrappedIteratorT I;
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iterator_adaptor_base() = default;
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explicit iterator_adaptor_base(WrappedIteratorT u) : I(std::move(u)) {
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static_assert(std::is_base_of<iterator_adaptor_base, DerivedT>::value,
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"Must pass the derived type to this template!");
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}
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const WrappedIteratorT &wrapped() const { return I; }
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public:
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typedef DifferenceTypeT difference_type;
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DerivedT &operator+=(difference_type n) {
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static_assert(
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BaseT::IsRandomAccess,
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"The '+=' operator is only defined for random access iterators.");
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I += n;
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return *static_cast<DerivedT *>(this);
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}
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DerivedT &operator-=(difference_type n) {
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static_assert(
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BaseT::IsRandomAccess,
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"The '-=' operator is only defined for random access iterators.");
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I -= n;
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return *static_cast<DerivedT *>(this);
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}
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using BaseT::operator-;
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difference_type operator-(const DerivedT &RHS) const {
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static_assert(
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BaseT::IsRandomAccess,
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"The '-' operator is only defined for random access iterators.");
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return I - RHS.I;
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}
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// We have to explicitly provide ++ and -- rather than letting the facade
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// forward to += because WrappedIteratorT might not support +=.
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using BaseT::operator++;
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DerivedT &operator++() {
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++I;
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return *static_cast<DerivedT *>(this);
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}
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using BaseT::operator--;
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DerivedT &operator--() {
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static_assert(
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BaseT::IsBidirectional,
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"The decrement operator is only defined for bidirectional iterators.");
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--I;
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return *static_cast<DerivedT *>(this);
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}
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bool operator==(const DerivedT &RHS) const { return I == RHS.I; }
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bool operator<(const DerivedT &RHS) const {
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static_assert(
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BaseT::IsRandomAccess,
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"Relational operators are only defined for random access iterators.");
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return I < RHS.I;
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}
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ReferenceT operator*() const { return *I; }
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};
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/// \brief An iterator type that allows iterating over the pointees via some
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/// other iterator.
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///
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/// The typical usage of this is to expose a type that iterates over Ts, but
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/// which is implemented with some iterator over T*s:
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///
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/// \code
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/// typedef pointee_iterator<SmallVectorImpl<T *>::iterator> iterator;
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/// \endcode
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template <typename WrappedIteratorT,
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typename T = typename std::remove_reference<
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decltype(**std::declval<WrappedIteratorT>())>::type>
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struct pointee_iterator
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: iterator_adaptor_base<
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pointee_iterator<WrappedIteratorT>, WrappedIteratorT,
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typename std::iterator_traits<WrappedIteratorT>::iterator_category,
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T> {
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pointee_iterator() = default;
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template <typename U>
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pointee_iterator(U &&u)
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: pointee_iterator::iterator_adaptor_base(std::forward<U &&>(u)) {}
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T &operator*() const { return **this->I; }
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};
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template <typename RangeT, typename WrappedIteratorT =
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decltype(std::begin(std::declval<RangeT>()))>
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iterator_range<pointee_iterator<WrappedIteratorT>>
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make_pointee_range(RangeT &&Range) {
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using PointeeIteratorT = pointee_iterator<WrappedIteratorT>;
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return make_range(PointeeIteratorT(std::begin(std::forward<RangeT>(Range))),
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PointeeIteratorT(std::end(std::forward<RangeT>(Range))));
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}
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template <typename WrappedIteratorT,
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typename T = decltype(&*std::declval<WrappedIteratorT>())>
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class pointer_iterator
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: public iterator_adaptor_base<pointer_iterator<WrappedIteratorT>,
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WrappedIteratorT, T> {
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mutable T Ptr;
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public:
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pointer_iterator() = default;
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explicit pointer_iterator(WrappedIteratorT u)
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: pointer_iterator::iterator_adaptor_base(std::move(u)) {}
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T &operator*() { return Ptr = &*this->I; }
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const T &operator*() const { return Ptr = &*this->I; }
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};
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template <typename RangeT, typename WrappedIteratorT =
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decltype(std::begin(std::declval<RangeT>()))>
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iterator_range<pointer_iterator<WrappedIteratorT>>
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make_pointer_range(RangeT &&Range) {
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using PointerIteratorT = pointer_iterator<WrappedIteratorT>;
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return make_range(PointerIteratorT(std::begin(std::forward<RangeT>(Range))),
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PointerIteratorT(std::end(std::forward<RangeT>(Range))));
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}
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} // end namespace llvm
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#endif // LLVM_ADT_ITERATOR_H
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