sources/third_party/shaderc/third_party/spirv-tools/source/opt/iterator.h - toolchain/prebuilts/ndk-darwin/r23 - Git at Google

 // Copyright (c) 2016 Google Inc.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #ifndef SOURCE_OPT_ITERATOR_H_
 #define SOURCE_OPT_ITERATOR_H_

 #include <cstddef>  // for ptrdiff_t
 #include <iterator>
 #include <memory>
 #include <type_traits>
 #include <utility>
 #include <vector>

 namespace spvtools {
 namespace opt {

 // An ad hoc iterator class for std::vector<std::unique_ptr<|ValueType|>>. The
 // purpose of this iterator class is to provide transparent access to those
 // std::unique_ptr managed elements in the vector, behaving like we are using
 // std::vector<|ValueType|>.
 template <typename ValueType, bool IsConst = false>
 class UptrVectorIterator {
  public:
   using iterator_category = std::random_access_iterator_tag;
   using value_type = ValueType;

   using pointer = value_type*;
   using reference = value_type&;
   using difference_type = std::ptrdiff_t;

   // Type aliases. We need to apply constness properly if |IsConst| is true.
   using Uptr = std::unique_ptr<ValueType>;
   using UptrVector = typename std::conditional<IsConst, const std::vector<Uptr>,
                                                std::vector<Uptr>>::type;
   using UnderlyingIterator =
       typename std::conditional<IsConst, typename UptrVector::const_iterator,
                                 typename UptrVector::iterator>::type;

   // Creates a new iterator from the given |container| and its raw iterator
   // |it|.
   UptrVectorIterator(UptrVector* container, const UnderlyingIterator& it)
       : container_(container), iterator_(it) {}
   UptrVectorIterator(const UptrVectorIterator&) = default;
   UptrVectorIterator& operator=(const UptrVectorIterator&) = default;

   inline UptrVectorIterator& operator++();
   inline UptrVectorIterator operator++(int);
   inline UptrVectorIterator& operator--();
   inline UptrVectorIterator operator--(int);

   reference operator*() const { return **iterator_; }
   pointer operator->() { return (*iterator_).get(); }
   reference operator[](ptrdiff_t index) { return **(iterator_ + index); }

   inline bool operator==(const UptrVectorIterator& that) const;
   inline bool operator!=(const UptrVectorIterator& that) const;

   inline ptrdiff_t operator-(const UptrVectorIterator& that) const;
   inline bool operator<(const UptrVectorIterator& that) const;

   // Inserts the given |value| to the position pointed to by this iterator
   // and returns an iterator to the newly iserted |value|.
   // If the underlying vector changes capacity, all previous iterators will be
   // invalidated. Otherwise, those previous iterators pointing to after the
   // insertion point will be invalidated.
   template <bool IsConstForMethod = IsConst>
   inline typename std::enable_if<!IsConstForMethod, UptrVectorIterator>::type
   InsertBefore(Uptr value);

   // Inserts the given |valueVector| to the position pointed to by this iterator
   // and returns an iterator to the first newly inserted value.
   // If the underlying vector changes capacity, all previous iterators will be
   // invalidated. Otherwise, those previous iterators pointing to after the
   // insertion point will be invalidated.
   template <bool IsConstForMethod = IsConst>
   inline typename std::enable_if<!IsConstForMethod, UptrVectorIterator>::type
   InsertBefore(UptrVector* valueVector);

   // Erases the value at the position pointed to by this iterator
   // and returns an iterator to the following value.
   // If the underlying vector changes capacity, all previous iterators will be
   // invalidated. Otherwise, those previous iterators pointing to after the
   // erasure point will be invalidated.
   template <bool IsConstForMethod = IsConst>
   inline typename std::enable_if<!IsConstForMethod, UptrVectorIterator>::type
   Erase();

   // Returns the underlying iterator.
   UnderlyingIterator Get() const { return iterator_; }

   // Returns a valid end iterator for the underlying container.
   UptrVectorIterator End() const {
     return UptrVectorIterator(container_, container_->end());
   }

  private:
   UptrVector* container_;        // The container we are manipulating.
   UnderlyingIterator iterator_;  // The raw iterator from the container.
 };

 // Handy class for a (begin, end) iterator pair.
 template <typename IteratorType>
 class IteratorRange {
  public:
   IteratorRange(const IteratorType& b, const IteratorType& e)
       : begin_(b), end_(e) {}
   IteratorRange(IteratorType&& b, IteratorType&& e)
       : begin_(std::move(b)), end_(std::move(e)) {}

   IteratorType begin() const { return begin_; }
   IteratorType end() const { return end_; }

   bool empty() const { return begin_ == end_; }
   size_t size() const { return end_ - begin_; }

  private:
   IteratorType begin_;
   IteratorType end_;
 };

 // Returns a (begin, end) iterator pair for the given iterators.
 // The iterators must belong to the same container.
 template <typename IteratorType>
 inline IteratorRange<IteratorType> make_range(const IteratorType& begin,
                                               const IteratorType& end) {
   return {begin, end};
 }

 // Returns a (begin, end) iterator pair for the given iterators.
 // The iterators must belong to the same container.
 template <typename IteratorType>
 inline IteratorRange<IteratorType> make_range(IteratorType&& begin,
                                               IteratorType&& end) {
   return {std::move(begin), std::move(end)};
 }

 // Returns a (begin, end) iterator pair for the given container.
 template <typename ValueType,
           class IteratorType = UptrVectorIterator<ValueType>>
 inline IteratorRange<IteratorType> make_range(
     std::vector<std::unique_ptr<ValueType>>& container) {
   return {IteratorType(&container, container.begin()),
           IteratorType(&container, container.end())};
 }

 // Returns a const (begin, end) iterator pair for the given container.
 template <typename ValueType,
           class IteratorType = UptrVectorIterator<ValueType, true>>
 inline IteratorRange<IteratorType> make_const_range(
     const std::vector<std::unique_ptr<ValueType>>& container) {
   return {IteratorType(&container, container.cbegin()),
           IteratorType(&container, container.cend())};
 }

 // Wrapping iterator class that only consider elements that satisfy the given
 // predicate |Predicate|. When moving to the next element of the iterator, the
 // FilterIterator will iterate over the range until it finds an element that
 // satisfies |Predicate| or reaches the end of the iterator.
 //
 // Currently this iterator is always an input iterator.
 template <typename SubIterator, typename Predicate>
 class FilterIterator {
  public:
   // Iterator interface.
   using iterator_category = typename SubIterator::iterator_category;
   using value_type = typename SubIterator::value_type;
   using pointer = typename SubIterator::pointer;
   using reference = typename SubIterator::reference;
   using difference_type = typename SubIterator::difference_type;

   using Range = IteratorRange<FilterIterator>;

   FilterIterator(const IteratorRange<SubIterator>& iteration_range,
                  Predicate predicate)
       : cur_(iteration_range.begin()),
         end_(iteration_range.end()),
         predicate_(predicate) {
     if (!IsPredicateSatisfied()) {
       MoveToNextPosition();
     }
   }

   FilterIterator(const SubIterator& end, Predicate predicate)
       : FilterIterator({end, end}, predicate) {}

   inline FilterIterator& operator++() {
     MoveToNextPosition();
     return *this;
   }
   inline FilterIterator operator++(int) {
     FilterIterator old = *this;
     MoveToNextPosition();
     return old;
   }

   reference operator*() const { return *cur_; }
   pointer operator->() { return &*cur_; }

   inline bool operator==(const FilterIterator& rhs) const {
     return cur_ == rhs.cur_ && end_ == rhs.end_;
   }
   inline bool operator!=(const FilterIterator& rhs) const {
     return !(*this == rhs);
   }

   // Returns the underlying iterator.
   SubIterator Get() const { return cur_; }

   // Returns the sentinel iterator.
   FilterIterator GetEnd() const { return FilterIterator(end_, predicate_); }

  private:
   // Returns true if the predicate is satisfied or the current iterator reached
   // the end.
   bool IsPredicateSatisfied() { return cur_ == end_ || predicate_(*cur_); }

   void MoveToNextPosition() {
     if (cur_ == end_) return;

     do {
       ++cur_;
     } while (!IsPredicateSatisfied());
   }

   SubIterator cur_;
   SubIterator end_;
   Predicate predicate_;
 };

 template <typename SubIterator, typename Predicate>
 FilterIterator<SubIterator, Predicate> MakeFilterIterator(
     const IteratorRange<SubIterator>& sub_iterator_range, Predicate predicate) {
   return FilterIterator<SubIterator, Predicate>(sub_iterator_range, predicate);
 }

 template <typename SubIterator, typename Predicate>
 FilterIterator<SubIterator, Predicate> MakeFilterIterator(
     const SubIterator& begin, const SubIterator& end, Predicate predicate) {
   return MakeFilterIterator(make_range(begin, end), predicate);
 }

 template <typename SubIterator, typename Predicate>
 typename FilterIterator<SubIterator, Predicate>::Range MakeFilterIteratorRange(
     const SubIterator& begin, const SubIterator& end, Predicate predicate) {
   return typename FilterIterator<SubIterator, Predicate>::Range(
       MakeFilterIterator(begin, end, predicate),
       MakeFilterIterator(end, end, predicate));
 }

 template <typename VT, bool IC>
 inline UptrVectorIterator<VT, IC>& UptrVectorIterator<VT, IC>::operator++() {
   ++iterator_;
   return *this;
 }

 template <typename VT, bool IC>
 inline UptrVectorIterator<VT, IC> UptrVectorIterator<VT, IC>::operator++(int) {
   auto it = *this;
   ++(*this);
   return it;
 }

 template <typename VT, bool IC>
 inline UptrVectorIterator<VT, IC>& UptrVectorIterator<VT, IC>::operator--() {
   --iterator_;
   return *this;
 }

 template <typename VT, bool IC>
 inline UptrVectorIterator<VT, IC> UptrVectorIterator<VT, IC>::operator--(int) {
   auto it = *this;
   --(*this);
   return it;
 }

 template <typename VT, bool IC>
 inline bool UptrVectorIterator<VT, IC>::operator==(
     const UptrVectorIterator& that) const {
   return container_ == that.container_ && iterator_ == that.iterator_;
 }

 template <typename VT, bool IC>
 inline bool UptrVectorIterator<VT, IC>::operator!=(
     const UptrVectorIterator& that) const {
   return !(*this == that);
 }

 template <typename VT, bool IC>
 inline ptrdiff_t UptrVectorIterator<VT, IC>::operator-(
     const UptrVectorIterator& that) const {
   assert(container_ == that.container_);
   return iterator_ - that.iterator_;
 }

 template <typename VT, bool IC>
 inline bool UptrVectorIterator<VT, IC>::operator<(
     const UptrVectorIterator& that) const {
   assert(container_ == that.container_);
   return iterator_ < that.iterator_;
 }

 template <typename VT, bool IC>
 template <bool IsConstForMethod>
 inline
     typename std::enable_if<!IsConstForMethod, UptrVectorIterator<VT, IC>>::type
     UptrVectorIterator<VT, IC>::InsertBefore(Uptr value) {
   auto index = iterator_ - container_->begin();
   container_->insert(iterator_, std::move(value));
   return UptrVectorIterator(container_, container_->begin() + index);
 }

 template <typename VT, bool IC>
 template <bool IsConstForMethod>
 inline
     typename std::enable_if<!IsConstForMethod, UptrVectorIterator<VT, IC>>::type
     UptrVectorIterator<VT, IC>::InsertBefore(UptrVector* values) {
   const auto pos = iterator_ - container_->begin();
   const auto origsz = container_->size();
   container_->resize(origsz + values->size());
   std::move_backward(container_->begin() + pos, container_->begin() + origsz,
                      container_->end());
   std::move(values->begin(), values->end(), container_->begin() + pos);
   return UptrVectorIterator(container_, container_->begin() + pos);
 }

 template <typename VT, bool IC>
 template <bool IsConstForMethod>
 inline
     typename std::enable_if<!IsConstForMethod, UptrVectorIterator<VT, IC>>::type
     UptrVectorIterator<VT, IC>::Erase() {
   auto index = iterator_ - container_->begin();
   (void)container_->erase(iterator_);
   return UptrVectorIterator(container_, container_->begin() + index);
 }

 }  // namespace opt
 }  // namespace spvtools

 #endif  // SOURCE_OPT_ITERATOR_H_
	// Copyright (c) 2016 Google Inc.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#ifndef SOURCE_OPT_ITERATOR_H_
	#define SOURCE_OPT_ITERATOR_H_

	#include <cstddef> // for ptrdiff_t
	#include <iterator>
	#include <memory>
	#include <type_traits>
	#include <utility>
	#include <vector>

	namespace spvtools {
	namespace opt {

	// An ad hoc iterator class for std::vector<std::unique_ptr<\|ValueType\|>>. The
	// purpose of this iterator class is to provide transparent access to those
	// std::unique_ptr managed elements in the vector, behaving like we are using
	// std::vector<\|ValueType\|>.
	template <typename ValueType, bool IsConst = false>
	class UptrVectorIterator {
	public:
	using iterator_category = std::random_access_iterator_tag;
	using value_type = ValueType;

	using pointer = value_type*;
	using reference = value_type&;
	using difference_type = std::ptrdiff_t;

	// Type aliases. We need to apply constness properly if \|IsConst\| is true.
	using Uptr = std::unique_ptr<ValueType>;
	using UptrVector = typename std::conditional<IsConst, const std::vector<Uptr>,
	std::vector<Uptr>>::type;
	using UnderlyingIterator =
	typename std::conditional<IsConst, typename UptrVector::const_iterator,
	typename UptrVector::iterator>::type;

	// Creates a new iterator from the given \|container\| and its raw iterator
	// \|it\|.
	UptrVectorIterator(UptrVector* container, const UnderlyingIterator& it)
	: container_(container), iterator_(it) {}
	UptrVectorIterator(const UptrVectorIterator&) = default;
	UptrVectorIterator& operator=(const UptrVectorIterator&) = default;

	inline UptrVectorIterator& operator++();
	inline UptrVectorIterator operator++(int);
	inline UptrVectorIterator& operator--();
	inline UptrVectorIterator operator--(int);

	reference operator() const { return *iterator_; }
	pointer operator->() { return (*iterator_).get(); }
	reference operator[](ptrdiff_t index) { return **(iterator_ + index); }

	inline bool operator==(const UptrVectorIterator& that) const;
	inline bool operator!=(const UptrVectorIterator& that) const;

	inline ptrdiff_t operator-(const UptrVectorIterator& that) const;
	inline bool operator<(const UptrVectorIterator& that) const;

	// Inserts the given \|value\| to the position pointed to by this iterator
	// and returns an iterator to the newly iserted \|value\|.
	// If the underlying vector changes capacity, all previous iterators will be
	// invalidated. Otherwise, those previous iterators pointing to after the
	// insertion point will be invalidated.
	template <bool IsConstForMethod = IsConst>
	inline typename std::enable_if<!IsConstForMethod, UptrVectorIterator>::type
	InsertBefore(Uptr value);

	// Inserts the given \|valueVector\| to the position pointed to by this iterator
	// and returns an iterator to the first newly inserted value.
	// If the underlying vector changes capacity, all previous iterators will be
	// invalidated. Otherwise, those previous iterators pointing to after the
	// insertion point will be invalidated.
	template <bool IsConstForMethod = IsConst>
	inline typename std::enable_if<!IsConstForMethod, UptrVectorIterator>::type
	InsertBefore(UptrVector* valueVector);

	// Erases the value at the position pointed to by this iterator
	// and returns an iterator to the following value.
	// If the underlying vector changes capacity, all previous iterators will be
	// invalidated. Otherwise, those previous iterators pointing to after the
	// erasure point will be invalidated.
	template <bool IsConstForMethod = IsConst>
	inline typename std::enable_if<!IsConstForMethod, UptrVectorIterator>::type
	Erase();

	// Returns the underlying iterator.
	UnderlyingIterator Get() const { return iterator_; }

	// Returns a valid end iterator for the underlying container.
	UptrVectorIterator End() const {
	return UptrVectorIterator(container_, container_->end());
	}

	private:
	UptrVector* container_; // The container we are manipulating.
	UnderlyingIterator iterator_; // The raw iterator from the container.
	};

	// Handy class for a (begin, end) iterator pair.
	template <typename IteratorType>
	class IteratorRange {
	public:
	IteratorRange(const IteratorType& b, const IteratorType& e)
	: begin_(b), end_(e) {}
	IteratorRange(IteratorType&& b, IteratorType&& e)
	: begin_(std::move(b)), end_(std::move(e)) {}

	IteratorType begin() const { return begin_; }
	IteratorType end() const { return end_; }

	bool empty() const { return begin_ == end_; }
	size_t size() const { return end_ - begin_; }

	private:
	IteratorType begin_;
	IteratorType end_;
	};

	// Returns a (begin, end) iterator pair for the given iterators.
	// The iterators must belong to the same container.
	template <typename IteratorType>
	inline IteratorRange<IteratorType> make_range(const IteratorType& begin,
	const IteratorType& end) {
	return {begin, end};
	}

	// Returns a (begin, end) iterator pair for the given iterators.
	// The iterators must belong to the same container.
	template <typename IteratorType>
	inline IteratorRange<IteratorType> make_range(IteratorType&& begin,
	IteratorType&& end) {
	return {std::move(begin), std::move(end)};
	}

	// Returns a (begin, end) iterator pair for the given container.
	template <typename ValueType,
	class IteratorType = UptrVectorIterator<ValueType>>
	inline IteratorRange<IteratorType> make_range(
	std::vector<std::unique_ptr<ValueType>>& container) {
	return {IteratorType(&container, container.begin()),
	IteratorType(&container, container.end())};
	}

	// Returns a const (begin, end) iterator pair for the given container.
	template <typename ValueType,
	class IteratorType = UptrVectorIterator<ValueType, true>>
	inline IteratorRange<IteratorType> make_const_range(
	const std::vector<std::unique_ptr<ValueType>>& container) {
	return {IteratorType(&container, container.cbegin()),
	IteratorType(&container, container.cend())};
	}

	// Wrapping iterator class that only consider elements that satisfy the given
	// predicate \|Predicate\|. When moving to the next element of the iterator, the
	// FilterIterator will iterate over the range until it finds an element that
	// satisfies \|Predicate\| or reaches the end of the iterator.
	//
	// Currently this iterator is always an input iterator.
	template <typename SubIterator, typename Predicate>
	class FilterIterator {
	public:
	// Iterator interface.
	using iterator_category = typename SubIterator::iterator_category;
	using value_type = typename SubIterator::value_type;
	using pointer = typename SubIterator::pointer;
	using reference = typename SubIterator::reference;
	using difference_type = typename SubIterator::difference_type;

	using Range = IteratorRange<FilterIterator>;

	FilterIterator(const IteratorRange<SubIterator>& iteration_range,
	Predicate predicate)
	: cur_(iteration_range.begin()),
	end_(iteration_range.end()),
	predicate_(predicate) {
	if (!IsPredicateSatisfied()) {
	MoveToNextPosition();
	}
	}

	FilterIterator(const SubIterator& end, Predicate predicate)
	: FilterIterator({end, end}, predicate) {}

	inline FilterIterator& operator++() {
	MoveToNextPosition();
	return *this;
	}
	inline FilterIterator operator++(int) {
	FilterIterator old = *this;
	MoveToNextPosition();
	return old;
	}

	reference operator() const { return cur_; }
	pointer operator->() { return &*cur_; }

	inline bool operator==(const FilterIterator& rhs) const {
	return cur_ == rhs.cur_ && end_ == rhs.end_;
	}
	inline bool operator!=(const FilterIterator& rhs) const {
	return !(*this == rhs);
	}

	// Returns the underlying iterator.
	SubIterator Get() const { return cur_; }

	// Returns the sentinel iterator.
	FilterIterator GetEnd() const { return FilterIterator(end_, predicate_); }

	private:
	// Returns true if the predicate is satisfied or the current iterator reached
	// the end.
	bool IsPredicateSatisfied() { return cur_ == end_ \|\| predicate_(*cur_); }

	void MoveToNextPosition() {
	if (cur_ == end_) return;

	do {
	++cur_;
	} while (!IsPredicateSatisfied());
	}

	SubIterator cur_;
	SubIterator end_;
	Predicate predicate_;
	};

	template <typename SubIterator, typename Predicate>
	FilterIterator<SubIterator, Predicate> MakeFilterIterator(
	const IteratorRange<SubIterator>& sub_iterator_range, Predicate predicate) {
	return FilterIterator<SubIterator, Predicate>(sub_iterator_range, predicate);
	}

	template <typename SubIterator, typename Predicate>
	FilterIterator<SubIterator, Predicate> MakeFilterIterator(
	const SubIterator& begin, const SubIterator& end, Predicate predicate) {
	return MakeFilterIterator(make_range(begin, end), predicate);
	}

	template <typename SubIterator, typename Predicate>
	typename FilterIterator<SubIterator, Predicate>::Range MakeFilterIteratorRange(
	const SubIterator& begin, const SubIterator& end, Predicate predicate) {
	return typename FilterIterator<SubIterator, Predicate>::Range(
	MakeFilterIterator(begin, end, predicate),
	MakeFilterIterator(end, end, predicate));
	}

	template <typename VT, bool IC>
	inline UptrVectorIterator<VT, IC>& UptrVectorIterator<VT, IC>::operator++() {
	++iterator_;
	return *this;
	}

	template <typename VT, bool IC>
	inline UptrVectorIterator<VT, IC> UptrVectorIterator<VT, IC>::operator++(int) {
	auto it = *this;
	++(*this);
	return it;
	}

	template <typename VT, bool IC>
	inline UptrVectorIterator<VT, IC>& UptrVectorIterator<VT, IC>::operator--() {
	--iterator_;
	return *this;
	}

	template <typename VT, bool IC>
	inline UptrVectorIterator<VT, IC> UptrVectorIterator<VT, IC>::operator--(int) {
	auto it = *this;
	--(*this);
	return it;
	}

	template <typename VT, bool IC>
	inline bool UptrVectorIterator<VT, IC>::operator==(
	const UptrVectorIterator& that) const {
	return container_ == that.container_ && iterator_ == that.iterator_;
	}

	template <typename VT, bool IC>
	inline bool UptrVectorIterator<VT, IC>::operator!=(
	const UptrVectorIterator& that) const {
	return !(*this == that);
	}

	template <typename VT, bool IC>
	inline ptrdiff_t UptrVectorIterator<VT, IC>::operator-(
	const UptrVectorIterator& that) const {
	assert(container_ == that.container_);
	return iterator_ - that.iterator_;
	}

	template <typename VT, bool IC>
	inline bool UptrVectorIterator<VT, IC>::operator<(
	const UptrVectorIterator& that) const {
	assert(container_ == that.container_);
	return iterator_ < that.iterator_;
	}

	template <typename VT, bool IC>
	template <bool IsConstForMethod>
	inline
	typename std::enable_if<!IsConstForMethod, UptrVectorIterator<VT, IC>>::type
	UptrVectorIterator<VT, IC>::InsertBefore(Uptr value) {
	auto index = iterator_ - container_->begin();
	container_->insert(iterator_, std::move(value));
	return UptrVectorIterator(container_, container_->begin() + index);
	}

	template <typename VT, bool IC>
	template <bool IsConstForMethod>
	inline
	typename std::enable_if<!IsConstForMethod, UptrVectorIterator<VT, IC>>::type
	UptrVectorIterator<VT, IC>::InsertBefore(UptrVector* values) {
	const auto pos = iterator_ - container_->begin();
	const auto origsz = container_->size();
	container_->resize(origsz + values->size());
	std::move_backward(container_->begin() + pos, container_->begin() + origsz,
	container_->end());
	std::move(values->begin(), values->end(), container_->begin() + pos);
	return UptrVectorIterator(container_, container_->begin() + pos);
	}

	template <typename VT, bool IC>
	template <bool IsConstForMethod>
	inline
	typename std::enable_if<!IsConstForMethod, UptrVectorIterator<VT, IC>>::type
	UptrVectorIterator<VT, IC>::Erase() {
	auto index = iterator_ - container_->begin();
	(void)container_->erase(iterator_);
	return UptrVectorIterator(container_, container_->begin() + index);
	}

	} // namespace opt
	} // namespace spvtools

	#endif // SOURCE_OPT_ITERATOR_H_