1 files changed, 2433 insertions, 0 deletions

diff --git a/src/debug/mse/msemsevector.h b/src/debug/mse/msemsevector.h
new file mode 100644
index 000000000..5ac2c4536
--- /dev/null
+++ b/src/debug/mse/msemsevector.h
@@ -0,0 +1,2433 @@
+
+// Copyright (c) 2015 Noah Lopez
+// Use, modification, and distribution is subject to the Boost Software
+// License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
+// http://www.boost.org/LICENSE_1_0.txt)
+
+#pragma once
+#ifndef MSEMSEVECTOR_H
+#define MSEMSEVECTOR_H
+
+/*compiler specific defines*/
+#ifdef _MSC_VER
+#if (1700 > _MSC_VER)
+#define MSVC2010_COMPATIBLE 1
+#endif /*(1700 > _MSC_VER)*/
+#if (1900 > _MSC_VER)
+#define MSVC2013_COMPATIBLE 1
+#endif /*(1900 > _MSC_VER)*/
+#else /*_MSC_VER*/
+#if (defined(__GNUC__) || defined(__GNUG__))
+#define GPP_COMPATIBLE 1
+#if ((5 > __GNUC__) && (!defined(__clang__)))
+#define GPP4P8_COMPATIBLE 1
+#endif /*((5 > __GNUC__) && (!defined(__clang__)))*/
+#endif
+#endif /*_MSC_VER*/
+
+//define MSE_MSEVECTOR_USE_MSE_PRIMITIVES 1
+#ifdef MSE_MSEVECTOR_USE_MSE_PRIMITIVES
+#include "debug/mse/mseprimitives.h"
+#endif // MSE_MSEVECTOR_USE_MSE_PRIMITIVES
+
+#include <vector>
+#include <assert.h>
+#include <memory>
+#include <unordered_map>
+#include <functional>
+#include <climits>       // ULONG_MAX
+#include <stdexcept>
+
+#ifdef MSE_CUSTOM_THROW_DEFINITION
+#include <iostream>
+#define MSE_THROW(x) MSE_CUSTOM_THROW_DEFINITION(x)
+#else // MSE_CUSTOM_THROW_DEFINITION
+#define MSE_THROW(x) throw(x)
+#endif // MSE_CUSTOM_THROW_DEFINITION
+
+namespace mse {
+
+#ifdef MSE_MSEVECTOR_USE_MSE_PRIMITIVES
+	typedef mse::CSize_t msev_size_t;
+	typedef mse::CInt msev_int;
+	typedef bool msev_bool; // no added safety benefit to using mse::CBool in this case
+	#define msev_as_a_size_t as_a_size_t
+#else // MSE_MSEVECTOR_USE_MSE_PRIMITIVES
+#if SIZE_MAX <= ULONG_MAX
+#define MSE_MSEVECTOR_BASE_INTEGER_TYPE long int
+#else // SIZE_MAX <= ULONG_MAX
+#define MSE_MSEVECTOR_BASE_INTEGER_TYPE long long int
+#endif // SIZE_MAX <= ULONG_MAX
+
+	typedef size_t msev_size_t;
+	typedef MSE_MSEVECTOR_BASE_INTEGER_TYPE msev_int;
+	typedef bool msev_bool;
+	typedef size_t msev_as_a_size_t;
+#endif // MSE_MSEVECTOR_USE_MSE_PRIMITIVES
+
+
+	class msevector_range_error : public std::range_error { public:
+		using std::range_error::range_error;
+	};
+	class msevector_null_dereference_error : public std::logic_error { public:
+		using std::logic_error::logic_error;
+	};
+
+	/* msev_pointer behaves similar to native pointers. It's a bit safer in that it initializes to
+	nullptr by default and checks for attempted dereference of null pointers. */
+	template<typename _Ty>
+	class msev_pointer {
+	public:
+		msev_pointer() : m_ptr(nullptr) {}
+		msev_pointer(_Ty* ptr) : m_ptr(ptr) {}
+		msev_pointer(const msev_pointer<_Ty>& src) : m_ptr(src.m_ptr) {}
+
+		_Ty& operator*() const {
+#ifndef MSE_DISABLE_MSEAR_POINTER_CHECKS
+			if (nullptr == m_ptr) { MSE_THROW(msevector_null_dereference_error("attempt to dereference null pointer - mse::msev_pointer")); }
+#endif /*MSE_DISABLE_MSEAR_POINTER_CHECKS*/
+			return (*m_ptr);
+		}
+		_Ty* operator->() const {
+#ifndef MSE_DISABLE_MSEAR_POINTER_CHECKS
+			if (nullptr == m_ptr) { MSE_THROW(msevector_null_dereference_error("attempt to dereference null pointer - mse::msev_pointer")); }
+#endif /*MSE_DISABLE_MSEAR_POINTER_CHECKS*/
+			return m_ptr;
+		}
+		msev_pointer<_Ty>& operator=(_Ty* ptr) {
+			m_ptr = ptr;
+			return (*this);
+		}
+		bool operator==(const msev_pointer _Right_cref) const { return (_Right_cref.m_ptr == m_ptr); }
+		bool operator!=(const msev_pointer _Right_cref) const { return (!((*this) == _Right_cref)); }
+		bool operator==(const _Ty* _Right_cref) const { return (_Right_cref == m_ptr); }
+		bool operator!=(const _Ty* _Right_cref) const { return (!((*this) == _Right_cref)); }
+
+		bool operator!() const { return (!m_ptr); }
+		operator bool() const { return (m_ptr != nullptr); }
+
+		operator _Ty*() const { return m_ptr; }
+
+		_Ty* m_ptr;
+	};
+
+#ifndef _XSTD
+#define _XSTD ::std::
+#endif /*_XSTD*/
+
+	template<class _Ty, _Ty _Val>
+	struct integral_constant
+	{	// convenient template for integral constant types
+	static const _Ty value = _Val;
+
+	typedef _Ty value_type;
+	typedef integral_constant<_Ty, _Val> type;
+
+	operator value_type() const
+		{	// return stored value
+		return (value);
+		}
+	};
+
+	template<class _Iter>
+	struct _mse_Is_iterator
+	: public integral_constant<bool, !std::is_integral<_Iter>::value>
+	{	// tests for reasonable iterator candidate
+	};
+	template<typename _InIter>
+	using _mse_RequireInputIter = typename std::enable_if<
+		std::is_convertible<typename std::iterator_traits<_InIter>::iterator_category, std::input_iterator_tag>::value
+		//_mse_Is_iterator<_InIter>::value
+	>::type;
+
+	/* Note that, at the moment, msevector inherits publicly from std::vector. This is not intended to be a permanent
+		characteristic of msevector and any reference to, or interpretation of, an msevector as an std::vector is (and has
+		always been) depricated. msevector endeavors to support the subset of the std::vector interface that is compatible
+		with the security/safety goals of msevector. (The remaining part of the std::vector interface may be supported, as a
+		user option, for compatibility.)
+		In particular, keep in mind that std::vector does not have a virtual destructor, so deallocating an msevector as an
+		std::vector would result in memory leaks. */
+	template<class _Ty, class _A = std::allocator<_Ty> >
+	class msevector : public std::vector<_Ty, _A> {
+	public:
+		typedef std::vector<_Ty, _A> base_class;
+		typedef msevector<_Ty, _A> _Myt;
+
+		typedef typename base_class::value_type value_type;
+		//typedef typename base_class::size_type size_type;
+		typedef msev_size_t size_type;
+		//typedef typename base_class::difference_type difference_type;
+		typedef msev_int difference_type;
+		typedef typename base_class::pointer pointer;
+		typedef typename base_class::const_pointer const_pointer;
+		typedef typename base_class::reference reference;
+		typedef typename base_class::const_reference const_reference;
+
+		explicit msevector(const _A& _Al = _A())
+			: base_class(_Al), m_mmitset(*this) {
+			/*m_debug_size = size();*/
+		}
+		explicit msevector(size_type _N)
+			: base_class(msev_as_a_size_t(_N)), m_mmitset(*this) {
+			/*m_debug_size = size();*/
+		}
+		explicit msevector(size_type _N, const _Ty& _V, const _A& _Al = _A())
+			: base_class(msev_as_a_size_t(_N), _V, _Al), m_mmitset(*this) {
+			/*m_debug_size = size();*/
+		}
+		msevector(base_class&& _X) : base_class(std::move(_X)), m_mmitset(*this) { /*m_debug_size = size();*/ }
+		msevector(const base_class& _X) : base_class(_X), m_mmitset(*this) { /*m_debug_size = size();*/ }
+		msevector(_Myt&& _X) : base_class(std::move(_X)), m_mmitset(*this) { /*m_debug_size = size();*/ }
+		msevector(const _Myt& _X) : base_class(_X), m_mmitset(*this) { /*m_debug_size = size();*/ }
+		typedef typename base_class::const_iterator _It;
+		/* Note that safety cannot be guaranteed when using these constructors that take unsafe typename base_class::iterator and/or pointer parameters. */
+		msevector(_It _F, _It _L, const _A& _Al = _A()) : base_class(_F, _L, _Al), m_mmitset(*this) { /*m_debug_size = size();*/ }
+		msevector(const _Ty*  _F, const _Ty*  _L, const _A& _Al = _A()) : base_class(_F, _L, _Al), m_mmitset(*this) { /*m_debug_size = size();*/ }
+		template<class _Iter
+			//, class = typename std::enable_if<_mse_Is_iterator<_Iter>::value, void>::type
+			, class = _mse_RequireInputIter<_Iter> >
+		msevector(_Iter _First, _Iter _Last) : base_class(_First, _Last), m_mmitset(*this) { /*m_debug_size = size();*/ }
+		template<class _Iter
+			//, class = typename std::enable_if<_mse_Is_iterator<_Iter>::value, void>::type
+			, class = _mse_RequireInputIter<_Iter> >
+		//msevector(_Iter _First, _Iter _Last, const typename base_class::_Alloc& _Al) : base_class(_First, _Last, _Al), m_mmitset(*this) { /*m_debug_size = size();*/ }
+		msevector(_Iter _First, _Iter _Last, const _A& _Al) : base_class(_First, _Last, _Al), m_mmitset(*this) { /*m_debug_size = size();*/ }
+		_Myt& operator=(const base_class& _X) {
+			base_class::operator =(_X);
+			/*m_debug_size = size();*/
+			m_mmitset.reset();
+			return (*this);
+		}
+		_Myt& operator=(_Myt&& _X) {
+			operator=(std::move(static_cast<base_class&>(_X)));
+			m_mmitset.reset();
+			return (*this);
+		}
+		_Myt& operator=(const _Myt& _X) {
+			operator=(static_cast<const base_class&>(_X));
+			m_mmitset.reset();
+			return (*this);
+		}
+		void reserve(size_type _Count)
+		{	// determine new minimum length of allocated storage
+			auto original_capacity = msev_size_t((*this).capacity());
+
+			base_class::reserve(msev_as_a_size_t(_Count));
+
+			auto new_capacity = msev_size_t((*this).capacity());
+			bool realloc_occured = (new_capacity != original_capacity);
+			if (realloc_occured) {
+				m_mmitset.sync_iterators_to_index();
+			}
+		}
+		void shrink_to_fit() {	// reduce capacity
+			auto original_capacity = msev_size_t((*this).capacity());
+
+			base_class::shrink_to_fit();
+
+			auto new_capacity = msev_size_t((*this).capacity());
+			bool realloc_occured = (new_capacity != original_capacity);
+			if (realloc_occured) {
+				m_mmitset.sync_iterators_to_index();
+			}
+		}
+		void resize(size_type _N, const _Ty& _X = _Ty()) {
+			auto original_size = msev_size_t((*this).size());
+			auto original_capacity = msev_size_t((*this).capacity());
+			bool shrinking = (_N < original_size);
+
+			base_class::resize(msev_as_a_size_t(_N), _X);
+			/*m_debug_size = size();*/
+
+			if (shrinking) {
+				m_mmitset.invalidate_inclusive_range(_N, msev_size_t(original_size - 1));
+			}
+			m_mmitset.shift_inclusive_range(original_size, original_size, msev_size_t(_N) - original_size); /*shift the end markers*/
+			auto new_capacity = msev_size_t((*this).capacity());
+			bool realloc_occured = (new_capacity != original_capacity);
+			if (realloc_occured) {
+				m_mmitset.sync_iterators_to_index();
+			}
+		}
+		typename base_class::const_reference operator[](size_type _P) const {
+			return (*this).at(msev_as_a_size_t(_P));
+		}
+		typename base_class::reference operator[](size_type _P) {
+			return (*this).at(msev_as_a_size_t(_P));
+		}
+		typename base_class::reference front() {	// return first element of mutable sequence
+			if (0 == (*this).size()) { MSE_THROW(msevector_range_error("front() on empty - typename base_class::reference front() - msevector")); }
+			return base_class::front();
+		}
+		typename base_class::const_reference front() const {	// return first element of nonmutable sequence
+			if (0 == (*this).size()) { MSE_THROW(msevector_range_error("front() on empty - typename base_class::const_reference front() - msevector")); }
+			return base_class::front();
+		}
+		typename base_class::reference back() {	// return last element of mutable sequence
+			if (0 == (*this).size()) { MSE_THROW(msevector_range_error("back() on empty - typename base_class::reference back() - msevector")); }
+			return base_class::back();
+		}
+		typename base_class::const_reference back() const {	// return last element of nonmutable sequence
+			if (0 == (*this).size()) { MSE_THROW(msevector_range_error("back() on empty - typename base_class::const_reference back() - msevector")); }
+			return base_class::back();
+		}
+		void push_back(_Ty&& _X) {
+			if (m_mmitset.is_empty()) {
+				base_class::push_back(std::move(_X));
+			}
+			else {
+				auto original_size = msev_size_t((*this).size());
+				auto original_capacity = msev_size_t((*this).capacity());
+
+				base_class::push_back(std::move(_X));
+				/*m_debug_size = size();*/
+
+				assert((original_size + 1) == msev_size_t((*this).size()));
+				m_mmitset.shift_inclusive_range(original_size, original_size, 1); /*shift the end markers*/
+				auto new_capacity = msev_size_t((*this).capacity());
+				bool realloc_occured = (new_capacity != original_capacity);
+				if (realloc_occured) {
+					m_mmitset.sync_iterators_to_index();
+				}
+			}
+		}
+		void push_back(const _Ty& _X) {
+			if (m_mmitset.is_empty()) {
+				base_class::push_back(_X);
+			}
+			else {
+				auto original_size = msev_size_t((*this).size());
+				auto original_capacity = msev_size_t((*this).capacity());
+
+				base_class::push_back(_X);
+				/*m_debug_size = size();*/
+
+				assert((original_size + 1) == msev_size_t((*this).size()));
+				m_mmitset.shift_inclusive_range(original_size, original_size, 1); /*shift the end markers*/
+				auto new_capacity = msev_size_t((*this).capacity());
+				bool realloc_occured = (new_capacity != original_capacity);
+				if (realloc_occured) {
+					m_mmitset.sync_iterators_to_index();
+				}
+			}
+		}
+		void pop_back() {
+			if (m_mmitset.is_empty()) {
+				base_class::pop_back();
+			}
+			else {
+				auto original_size = msev_size_t((*this).size());
+				auto original_capacity = msev_size_t((*this).capacity());
+
+				if (0 == original_size) { MSE_THROW(msevector_range_error("pop_back() on empty - void pop_back() - msevector")); }
+				base_class::pop_back();
+				/*m_debug_size = size();*/
+
+				assert((original_size - 1) == msev_size_t((*this).size()));
+				m_mmitset.invalidate_inclusive_range(msev_size_t(original_size - 1), msev_size_t(original_size - 1));
+				m_mmitset.shift_inclusive_range(original_size, original_size, -1); /*shift the end markers*/
+				auto new_capacity = msev_size_t((*this).capacity());
+				bool realloc_occured = (new_capacity != original_capacity);
+				if (realloc_occured) {
+					m_mmitset.sync_iterators_to_index();
+				}
+			}
+		}
+		void assign(_It _F, _It _L) {
+			base_class::assign(_F, _L);
+			/*m_debug_size = size();*/
+			m_mmitset.reset();
+		}
+		template<class _Iter>
+		void assign(_Iter _First, _Iter _Last) {	// assign [_First, _Last)
+			base_class::assign(_First, _Last);
+			/*m_debug_size = size();*/
+			m_mmitset.reset();
+		}
+		void assign(size_type _N, const _Ty& _X = _Ty()) {
+			base_class::assign(msev_as_a_size_t(_N), _X);
+			/*m_debug_size = size();*/
+			m_mmitset.reset();
+		}
+		typename base_class::iterator insert(typename base_class::const_iterator _P, _Ty&& _X) {
+			return (emplace(_P, std::move(_X)));
+		}
+		typename base_class::iterator insert(typename base_class::const_iterator _P, const _Ty& _X = _Ty()) {
+			if (m_mmitset.is_empty()) {
+				typename base_class::iterator retval = base_class::insert(_P, _X);
+				/*m_debug_size = size();*/
+				return retval;
+			}
+			else {
+				msev_int di = std::distance(base_class::cbegin(), _P);
+				msev_size_t d = msev_size_t(di);
+				if ((0 > di) || (msev_size_t((*this).size()) < di)) { MSE_THROW(msevector_range_error("index out of range - typename base_class::iterator insert() - msevector")); }
+
+				auto original_size = msev_size_t((*this).size());
+				auto original_capacity = msev_size_t((*this).capacity());
+
+				typename base_class::iterator retval = base_class::insert(_P, _X);
+				/*m_debug_size = size();*/
+
+				assert((original_size + 1) == msev_size_t((*this).size()));
+				assert(di == std::distance(base_class::begin(), retval));
+				m_mmitset.shift_inclusive_range(d, original_size, 1);
+				auto new_capacity = msev_size_t((*this).capacity());
+				bool realloc_occured = (new_capacity != original_capacity);
+				if (realloc_occured) {
+					m_mmitset.sync_iterators_to_index();
+				}
+				return retval;
+			}
+		}
+
+#if !(defined(GPP4P8_COMPATIBLE))
+		typename base_class::iterator insert(typename base_class::const_iterator _P, size_type _M, const _Ty& _X) {
+			if (m_mmitset.is_empty()) {
+				typename base_class::iterator retval = base_class::insert(_P, msev_as_a_size_t(_M), _X);
+				/*m_debug_size = size();*/
+				return retval;
+			}
+			else {
+				msev_int di = std::distance(base_class::cbegin(), _P);
+				msev_size_t d = msev_size_t(di);
+				if ((0 > di) || ((*this).size() < msev_size_t(di))) { MSE_THROW(msevector_range_error("index out of range - typename base_class::iterator insert() - msevector")); }
+
+				auto original_size = msev_size_t((*this).size());
+				auto original_capacity = msev_size_t((*this).capacity());
+
+				typename base_class::iterator retval = base_class::insert(_P, msev_as_a_size_t(_M), _X);
+				/*m_debug_size = size();*/
+
+				assert((original_size + _M) == msev_size_t((*this).size()));
+				assert(di == std::distance(base_class::begin(), retval));
+				m_mmitset.shift_inclusive_range(d, original_size, msev_int(_M));
+				auto new_capacity = msev_size_t((*this).capacity());
+				bool realloc_occured = (new_capacity != original_capacity);
+				if (realloc_occured) {
+					m_mmitset.sync_iterators_to_index();
+				}
+				return retval;
+			}
+		}
+		template<class _Iter
+			//>typename std::enable_if<_mse_Is_iterator<_Iter>::value, typename base_class::iterator>::type
+			, class = _mse_RequireInputIter<_Iter> >
+		typename base_class::iterator insert(typename base_class::const_iterator _Where, _Iter _First, _Iter _Last) {	// insert [_First, _Last) at _Where
+			if (m_mmitset.is_empty()) {
+				auto retval = base_class::insert(_Where, _First, _Last);
+				/*m_debug_size = size();*/
+				return retval;
+			}
+			else {
+				msev_int di = std::distance(base_class::cbegin(), _Where);
+				msev_size_t d = msev_size_t(di);
+				if ((0 > di) || ((*this).size() < msev_size_t(di))) { MSE_THROW(msevector_range_error("index out of range - typename base_class::iterator insert() - msevector")); }
+
+				auto _M = msev_int(std::distance(_First, _Last));
+				auto original_size = msev_size_t((*this).size());
+				auto original_capacity = msev_size_t((*this).capacity());
+
+				//if (0 > _M) { MSE_THROW(msevector_range_error("invalid argument - typename base_class::iterator insert() - msevector")); }
+				auto retval = base_class::insert(_Where, _First, _Last);
+				/*m_debug_size = size();*/
+
+				assert((original_size + _M) == msev_size_t((*this).size()));
+				assert(di == std::distance(base_class::begin(), retval));
+				m_mmitset.shift_inclusive_range(d, original_size, _M);
+				auto new_capacity = msev_size_t((*this).capacity());
+				bool realloc_occured = (new_capacity != original_capacity);
+				if (realloc_occured) {
+					m_mmitset.sync_iterators_to_index();
+				}
+				return retval;
+			}
+		}
+
+#else /*!(defined(GPP4P8_COMPATIBLE))*/
+
+		/*typename base_class::iterator*/
+		void
+			/* g++4.8 seems to be using the c++98 version of this insert function instead of the c++11 version. */
+			insert(typename base_class::/*const_*/iterator _P, size_t _M, const _Ty& _X) {
+				msev_int di = std::distance(base_class::/*c*/begin(), _P);
+				msev_size_t d = msev_size_t(di);
+				if ((0 > di) || (msev_size_t((*this).size()) < di)) { MSE_THROW(msevector_range_error("index out of range - typename base_class::iterator insert() - msevector")); }
+
+				auto original_size = msev_size_t((*this).size());
+				auto original_capacity = msev_size_t((*this).capacity());
+
+				/*typename base_class::iterator retval =*/
+					base_class::insert(_P, _M, _X);
+				/*m_debug_size = size();*/
+
+				assert((original_size + _M) == msev_size_t((*this).size()));
+				/*assert(di == std::distance(base_class::begin(), retval));*/
+				m_mmitset.shift_inclusive_range(d, original_size, _M);
+				auto new_capacity = msev_size_t((*this).capacity());
+				bool realloc_occured = (new_capacity != original_capacity);
+				if (realloc_occured) {
+					m_mmitset.sync_iterators_to_index();
+				}
+				/*return retval;*/
+			}
+		template<class _Iter
+			//>typename std::enable_if<_mse_Is_iterator<_Iter>::value, void>::type
+			, class = _mse_RequireInputIter<_Iter> > void
+		insert(typename base_class::/*const_*/iterator _Where, _Iter _First, _Iter _Last) {	// insert [_First, _Last) at _Where
+				msev_int di = std::distance(base_class::/*c*/begin(), _Where);
+				msev_size_t d = msev_size_t(di);
+				if ((0 > di) || (msev_size_t((*this).size()) < di)) { MSE_THROW(msevector_range_error("index out of range - typename base_class::iterator insert() - msevector")); }
+
+				auto _M = msev_int(std::distance(_First, _Last));
+				auto original_size = msev_size_t((*this).size());
+				auto original_capacity = msev_size_t((*this).capacity());
+
+				//if (0 > _M) { MSE_THROW(msevector_range_error("invalid argument - typename base_class::iterator insert() - msevector")); }
+				/*auto retval =*/
+					base_class::insert(_Where, _First, _Last);
+				/*m_debug_size = size();*/
+
+				assert((original_size + _M) == msev_size_t((*this).size()));
+				/*assert(di == std::distance(base_class::begin(), retval));*/
+				m_mmitset.shift_inclusive_range(d, original_size, _M);
+				auto new_capacity = msev_size_t((*this).capacity());
+				bool realloc_occured = (new_capacity != original_capacity);
+				if (realloc_occured) {
+					m_mmitset.sync_iterators_to_index();
+				}
+				/*return retval;*/
+			}
+#endif /*!(defined(GPP4P8_COMPATIBLE))*/
+
+		template<class ..._Valty>
+		void emplace_back(_Valty&& ..._Val)
+		{	// insert by moving into element at end
+			if (m_mmitset.is_empty()) {
+				base_class::emplace_back(std::forward<_Valty>(_Val)...);
+				/*m_debug_size = size();*/
+			}
+			else {
+				auto original_size = msev_size_t((*this).size());
+				auto original_capacity = msev_size_t((*this).capacity());
+
+				base_class::emplace_back(std::forward<_Valty>(_Val)...);
+				/*m_debug_size = size();*/
+
+				assert((original_size + 1) == msev_size_t((*this).size()));
+				m_mmitset.shift_inclusive_range(original_size, original_size, 1); /*shift the end markers*/
+				auto new_capacity = msev_size_t((*this).capacity());
+				bool realloc_occured = (new_capacity != original_capacity);
+				if (realloc_occured) {
+					m_mmitset.sync_iterators_to_index();
+				}
+			}
+		}
+		template<class ..._Valty>
+#if !(defined(GPP4P8_COMPATIBLE))
+		typename base_class::iterator emplace(typename base_class::const_iterator _Where, _Valty&& ..._Val)
+		{	// insert by moving _Val at _Where
+#else /*!(defined(GPP4P8_COMPATIBLE))*/
+		typename base_class::iterator emplace(typename base_class::/*const_*/iterator _Where, _Valty&& ..._Val)
+		{	// insert by moving _Val at _Where
+#endif /*!(defined(GPP4P8_COMPATIBLE))*/
+
+			if (m_mmitset.is_empty()) {
+				auto retval = base_class::emplace(_Where, std::forward<_Valty>(_Val)...);
+				/*m_debug_size = size();*/
+				return retval;
+			}
+			else {
+
+#if !(defined(GPP4P8_COMPATIBLE))
+				msev_int di = std::distance(base_class::cbegin(), _Where);
+#else /*!(defined(GPP4P8_COMPATIBLE))*/
+				msev_int di = std::distance(base_class::/*c*/begin(), _Where);
+#endif /*!(defined(GPP4P8_COMPATIBLE))*/
+
+				msev_size_t d = msev_size_t(di);
+				if ((0 > di) || ((*this).size() < msev_size_t(di))) { MSE_THROW(msevector_range_error("index out of range - typename base_class::iterator emplace() - msevector")); }
+
+				auto original_size = msev_size_t((*this).size());
+				auto original_capacity = msev_size_t((*this).capacity());
+
+				auto retval = base_class::emplace(_Where, std::forward<_Valty>(_Val)...);
+				/*m_debug_size = size();*/
+
+				assert((original_size + 1) == msev_size_t((*this).size()));
+				assert(di == std::distance(base_class::begin(), retval));
+				m_mmitset.shift_inclusive_range(d, original_size, 1);
+				auto new_capacity = msev_size_t((*this).capacity());
+				bool realloc_occured = (new_capacity != original_capacity);
+				if (realloc_occured) {
+					m_mmitset.sync_iterators_to_index();
+				}
+				return retval;
+			}
+		}
+		typename base_class::iterator erase(typename base_class::const_iterator _P) {
+			if (m_mmitset.is_empty()) {
+				typename base_class::iterator retval = base_class::erase(_P);
+				/*m_debug_size = size();*/
+				return retval;
+			}
+			else {
+				msev_int di = std::distance(base_class::cbegin(), _P);
+				msev_size_t d = msev_size_t(di);
+				if ((0 > di) || ((*this).size() < msev_size_t(di))) { MSE_THROW(msevector_range_error("index out of range - typename base_class::iterator erase() - msevector")); }
+
+				auto original_size = msev_size_t((*this).size());
+				auto original_capacity = msev_size_t((*this).capacity());
+
+				if (base_class::end() == _P) { MSE_THROW(msevector_range_error("invalid argument - typename base_class::iterator erase(typename base_class::const_iterator _P) - msevector")); }
+				typename base_class::iterator retval = base_class::erase(_P);
+				/*m_debug_size = size();*/
+
+				assert((original_size - 1) == msev_size_t((*this).size()));
+				assert(di == std::distance(base_class::begin(), retval));
+				{
+					m_mmitset.invalidate_inclusive_range(d, d);
+					m_mmitset.shift_inclusive_range(msev_size_t(d + 1), original_size, -1);
+				}
+				auto new_capacity = msev_size_t((*this).capacity());
+				bool realloc_occured = (new_capacity != original_capacity);
+				if (realloc_occured) {
+					m_mmitset.sync_iterators_to_index();
+				}
+				return retval;
+			}
+		}
+		typename base_class::iterator erase(typename base_class::const_iterator _F, typename base_class::const_iterator _L) {
+			if (m_mmitset.is_empty()) {
+				typename base_class::iterator retval = base_class::erase(_F, _L);
+				/*m_debug_size = size();*/
+				return retval;
+			}
+			else {
+				msev_int di = std::distance(base_class::cbegin(), _F);
+				msev_size_t d = msev_size_t(di);
+				if ((0 > di) || ((*this).size() < msev_size_t(di))) { MSE_THROW(msevector_range_error("index out of range - typename base_class::iterator erase() - msevector")); }
+				msev_int di2 = std::distance(base_class::cbegin(), _L);
+				msev_size_t d2 = msev_size_t(di2);
+				if ((0 > di2) || ((*this).size() < msev_size_t(di2))) { MSE_THROW(msevector_range_error("index out of range - typename base_class::iterator erase() - msevector")); }
+
+				auto _M = msev_int(std::distance(_F, _L));
+				auto original_size = msev_size_t((*this).size());
+				auto original_capacity = msev_size_t((*this).capacity());
+
+				if ((base_class::end() == _F)/* || (0 > _M)*/) { MSE_THROW(msevector_range_error("invalid argument - typename base_class::iterator erase(typename base_class::iterator _F, typename base_class::iterator _L) - msevector")); }
+				typename base_class::iterator retval = base_class::erase(_F, _L);
+				/*m_debug_size = size();*/
+
+				assert((original_size - _M) == msev_size_t((*this).size()));
+				assert(di == std::distance(base_class::begin(), retval));
+				{
+					if (1 <= _M) {
+						m_mmitset.invalidate_inclusive_range(d, msev_size_t(d + _M - 1));
+					}
+					m_mmitset.shift_inclusive_range(msev_size_t(d + _M), original_size, -_M);
+				}
+				auto new_capacity = msev_size_t((*this).capacity());
+				bool realloc_occured = (new_capacity != original_capacity);
+				if (realloc_occured) {
+					m_mmitset.sync_iterators_to_index();
+				}
+				return retval;
+			}
+		}
+		void clear() {
+			base_class::clear();
+			/*m_debug_size = size();*/
+			m_mmitset.reset();
+		}
+		void swap(base_class& _X) {
+			base_class::swap(_X);
+			/*m_debug_size = size();*/
+			m_mmitset.reset();
+		}
+		void swap(_Myt& _X) {
+			swap(static_cast<base_class&>(_X));
+			m_mmitset.reset();
+		}
+
+		msevector(_XSTD initializer_list<typename base_class::value_type> _Ilist,
+			const _A& _Al = _A())
+			: base_class(_Ilist, _Al), m_mmitset(*this) {	// construct from initializer_list
+			/*m_debug_size = size();*/
+		}
+		_Myt& operator=(_XSTD initializer_list<typename base_class::value_type> _Ilist) {	// assign initializer_list
+			operator=(static_cast<base_class>(_Ilist));
+			m_mmitset.reset();
+			return (*this);
+		}
+		void assign(_XSTD initializer_list<typename base_class::value_type> _Ilist) {	// assign initializer_list
+			base_class::assign(_Ilist);
+			/*m_debug_size = size();*/
+			m_mmitset.reset();
+		}
+#if defined(GPP4P8_COMPATIBLE)
+		/* g++4.8 seems to be (incorrectly) using the c++98 version of this insert function instead of the c++11 version. */
+		/*typename base_class::iterator*/void insert(typename base_class::/*const_*/iterator _Where, _XSTD initializer_list<typename base_class::value_type> _Ilist) {	// insert initializer_list
+			msev_int di = std::distance(base_class::/*c*/begin(), _Where);
+			msev_size_t d = msev_size_t(di);
+			if ((0 > di) || (msev_size_t((*this).size()) < di)) { MSE_THROW(msevector_range_error("index out of range - typename base_class::iterator insert() - msevector")); }
+
+			auto _M = _Ilist.size();
+			auto original_size = msev_size_t((*this).size());
+			auto original_capacity = msev_size_t((*this).capacity());
+
+			/*auto retval = */base_class::insert(_Where, _Ilist);
+			/*m_debug_size = size();*/
+
+			assert((original_size + _M) == msev_size_t((*this).size()));
+			/*assert(di == std::distance(base_class::begin(), retval));*/
+			m_mmitset.shift_inclusive_range(d, original_size, _M);
+			auto new_capacity = msev_size_t((*this).capacity());
+			bool realloc_occured = (new_capacity != original_capacity);
+			if (realloc_occured) {
+				m_mmitset.sync_iterators_to_index();
+			}
+			/*return retval;*/
+		}
+#else /*defined(GPP4P8_COMPATIBLE)*/
+		typename base_class::iterator insert(typename base_class::const_iterator _Where, _XSTD initializer_list<typename base_class::value_type> _Ilist) {	// insert initializer_list
+			if (m_mmitset.is_empty()) {
+				auto retval = base_class::insert(_Where, _Ilist);
+				/*m_debug_size = size();*/
+				return retval;
+			}
+			else {
+				msev_int di = std::distance(base_class::cbegin(), _Where);
+				msev_size_t d = msev_size_t(di);
+				if ((0 > di) || ((*this).size() < msev_size_t(di))) { MSE_THROW(msevector_range_error("index out of range - typename base_class::iterator insert() - msevector")); }
+
+				auto _M = _Ilist.size();
+				auto original_size = msev_size_t((*this).size());
+				auto original_capacity = msev_size_t((*this).capacity());
+
+				auto retval = base_class::insert(_Where, _Ilist);
+				/*m_debug_size = size();*/
+
+				assert((original_size + _M) == msev_size_t((*this).size()));
+				assert(di == std::distance(base_class::begin(), retval));
+				m_mmitset.shift_inclusive_range(d, original_size, msev_int(_M));
+				auto new_capacity = msev_size_t((*this).capacity());
+				bool realloc_occured = (new_capacity != original_capacity);
+				if (realloc_occured) {
+					m_mmitset.sync_iterators_to_index();
+				}
+				return retval;
+			}
+		}
+#endif /*defined(GPP4P8_COMPATIBLE)*/
+
+		//size_t m_debug_size;
+
+		class random_access_const_iterator_base : public std::iterator<std::random_access_iterator_tag, value_type, difference_type, const_pointer, const_reference> {};
+		class random_access_iterator_base : public std::iterator<std::random_access_iterator_tag, value_type, difference_type, pointer, reference> {};
+
+		/* mm_const_iterator_type acts much like a list iterator. */
+		class mm_const_iterator_type : public random_access_const_iterator_base {
+		public:
+			typedef typename base_class::const_iterator::iterator_category iterator_category;
+			typedef typename base_class::const_iterator::value_type value_type;
+			//typedef typename base_class::const_iterator::difference_type difference_type;
+			typedef msev_int difference_type;
+			typedef difference_type distance_type;	// retained
+			typedef typename base_class::const_iterator::pointer pointer;
+			typedef typename base_class::const_iterator::pointer const_pointer;
+			typedef typename base_class::const_iterator::reference reference;
+			typedef typename base_class::const_reference const_reference;
+
+			void reset() { set_to_end_marker(); }
+			bool points_to_an_item() const {
+				if (m_points_to_an_item) { assert((1 <= m_owner_cptr->size()) && (m_index < m_owner_cptr->size())); return true; }
+				else { assert(!((1 <= m_owner_cptr->size()) && (m_index < m_owner_cptr->size()))); return false; }
+			}
+			bool points_to_end_marker() const {
+				if (false == points_to_an_item()) { assert(m_index == m_owner_cptr->size()); return true; }
+				else { return false; }
+			}
+			bool points_to_beginning() const {
+				if (0 == m_index) { return true; }
+				else { return false; }
+			}
+			/* has_next_item_or_end_marker() is just an alias for points_to_an_item(). */
+			bool has_next_item_or_end_marker() const { return points_to_an_item(); } //his is
+			/* has_next() is just an alias for points_to_an_item() that's familiar to java programmers. */
+			bool has_next() const { return has_next_item_or_end_marker(); }
+			bool has_previous() const { return (!points_to_beginning()); }
+			void set_to_beginning() {
+				m_index = 0;
+				if (1 <= m_owner_cptr->size()) {
+					m_points_to_an_item = true;
+				}
+				else { assert(false == m_points_to_an_item); }
+			}
+			void set_to_end_marker() {
+				m_index = m_owner_cptr->size();
+				m_points_to_an_item = false;
+			}
+			void set_to_next() {
+				if (points_to_an_item()) {
+					m_index += 1;
+					if (m_owner_cptr->size() <= m_index) {
+						(*this).m_points_to_an_item = false;
+						if (m_owner_cptr->size() < m_index) { assert(false); reset(); }
+					}
+				}
+				else {
+					MSE_THROW(msevector_range_error("attempt to use invalid const_item_pointer - void set_to_next() - mm_const_iterator_type - msevector"));
+				}
+			}
+			void set_to_previous() {
+				if (has_previous()) {
+					m_index -= 1;
+					(*this).m_points_to_an_item = true;
+				}
+				else {
+					MSE_THROW(msevector_range_error("attempt to use invalid const_item_pointer - void set_to_previous() - mm_const_iterator_type - msevector"));
+				}
+			}
+			mm_const_iterator_type& operator ++() { (*this).set_to_next(); return (*this); }
+			mm_const_iterator_type operator++(int) { mm_const_iterator_type _Tmp = *this; ++*this; return (_Tmp); }
+			mm_const_iterator_type& operator --() { (*this).set_to_previous(); return (*this); }
+			mm_const_iterator_type operator--(int) { mm_const_iterator_type _Tmp = *this; --*this; return (_Tmp); }
+			void advance(difference_type n) {
+				auto new_index = msev_int(m_index) + n;
+				if ((0 > new_index) || (m_owner_cptr->size() < msev_size_t(new_index))) {
+					MSE_THROW(msevector_range_error("index out of range - void advance(difference_type n) - mm_const_iterator_type - msevector"));
+				}
+				else {
+					m_index = msev_size_t(new_index);
+					if (m_owner_cptr->size() <= m_index) {
+						(*this).m_points_to_an_item = false;
+					}
+					else {
+						(*this).m_points_to_an_item = true;
+					}
+				}
+			}
+			void regress(difference_type n) { advance(-n); }
+			mm_const_iterator_type& operator +=(difference_type n) { (*this).advance(n); return (*this); }
+			mm_const_iterator_type& operator -=(difference_type n) { (*this).regress(n); return (*this); }
+			mm_const_iterator_type operator+(difference_type n) const {
+				mm_const_iterator_type retval(*this);
+				retval = (*this);
+				retval.advance(n);
+				return retval;
+			}
+			mm_const_iterator_type operator-(difference_type n) const { return ((*this) + (-n)); }
+			difference_type operator-(const mm_const_iterator_type &rhs) const {
+				if ((rhs.m_owner_cptr) != ((*this).m_owner_cptr)) { MSE_THROW(msevector_range_error("invalid argument - difference_type operator-(const mm_const_iterator_type &rhs) const - msevector::mm_const_iterator_type")); }
+				auto retval = difference_type((*this).m_index) - difference_type(rhs.m_index);
+				assert(difference_type(m_owner_cptr->size()) >= retval);
+				return retval;
+			}
+			const_reference operator*() const {
+				return m_owner_cptr->at(msev_as_a_size_t(m_index));
+			}
+			const_reference item() const { return operator*(); }
+			const_reference previous_item() const {
+				return m_owner_cptr->at(msev_as_a_size_t(m_index - 1));
+			}
+			const_pointer operator->() const {
+				return &(m_owner_cptr->at(msev_as_a_size_t(m_index)));
+			}
+			const_reference operator[](difference_type _Off) const { return (*m_owner_cptr).at(msev_as_a_size_t(difference_type(m_index) + _Off)); }
+			/*
+			mm_const_iterator_type& operator=(const typename base_class::const_iterator& _Right_cref)
+			{
+			msev_int d = std::distance<typename base_class::iterator>(m_owner_cptr->cbegin(), _Right_cref);
+			if ((0 <= d) && (m_owner_cptr->size() >= d)) {
+			if (m_owner_cptr->size() == d) {
+			assert(m_owner_cptr->cend() == _Right_cref);
+			m_points_to_an_item = false;
+			} else {
+			m_points_to_an_item = true;
+			}
+			m_index = msev_size_t(d);
+			base_class::const_iterator::operator=(_Right_cref);
+			}
+			else {
+			MSE_THROW(msevector_range_error("doesn't seem to be a valid assignment value - mm_const_iterator_type& operator=(const typename base_class::const_iterator& _Right_cref) - mm_const_iterator_type - msevector"));
+			}
+			return (*this);
+			}
+			*/
+			mm_const_iterator_type& operator=(const mm_const_iterator_type& _Right_cref)
+			{
+				if (((*this).m_owner_cptr) == (_Right_cref.m_owner_cptr)) {
+					assert((*this).m_owner_cptr->size() >= _Right_cref.m_index);
+					(*this).m_points_to_an_item = _Right_cref.m_points_to_an_item;
+					(*this).m_index = _Right_cref.m_index;
+				}
+				else {
+					MSE_THROW(msevector_range_error("doesn't seem to be a valid assignment value - mm_const_iterator_type& operator=(const typename base_class::iterator& _Right_cref) - mm_const_iterator_type - msevector"));
+				}
+				return (*this);
+			}
+			bool operator==(const mm_const_iterator_type& _Right_cref) const {
+				if (((*this).m_owner_cptr) != (_Right_cref.m_owner_cptr)) { MSE_THROW(msevector_range_error("invalid argument - mm_const_iterator_type& operator==(const mm_const_iterator_type& _Right) - mm_const_iterator_type - msevector")); }
+				return (_Right_cref.m_index == m_index);
+			}
+			bool operator!=(const mm_const_iterator_type& _Right_cref) const { return (!(_Right_cref == (*this))); }
+			bool operator<(const mm_const_iterator_type& _Right) const {
+				if (((*this).m_owner_cptr) != (_Right.m_owner_cptr)) { MSE_THROW(msevector_range_error("invalid argument - mm_const_iterator_type& operator<(const mm_const_iterator_type& _Right) - mm_const_iterator_type - msevector")); }
+				return (m_index < _Right.m_index);
+			}
+			bool operator<=(const mm_const_iterator_type& _Right) const { return (((*this) < _Right) || (_Right == (*this))); }
+			bool operator>(const mm_const_iterator_type& _Right) const { return (!((*this) <= _Right)); }
+			bool operator>=(const mm_const_iterator_type& _Right) const { return (!((*this) < _Right)); }
+			void set_to_const_item_pointer(const mm_const_iterator_type& _Right_cref) {
+				(*this) = _Right_cref;
+			}
+			void invalidate_inclusive_range(msev_size_t index_of_first, msev_size_t index_of_last) {
+				if ((index_of_first <= (*this).m_index) && (index_of_last >= (*this).m_index)) {
+					(*this).reset();
+				}
+			}
+			void shift_inclusive_range(msev_size_t index_of_first, msev_size_t index_of_last, msev_int shift) {
+				if ((index_of_first <= (*this).m_index) && (index_of_last >= (*this).m_index)) {
+					auto new_index = (*this).m_index + shift;
+					if ((0 > new_index) || (m_owner_cptr->size() < new_index)) {
+						MSE_THROW(msevector_range_error("void shift_inclusive_range() - mm_const_iterator_type - msevector"));
+					}
+					else {
+						(*this).m_index = msev_size_t(new_index);
+						(*this).sync_const_iterator_to_index();
+					}
+				}
+			}
+			msev_size_t position() const {
+				return m_index;
+			}
+			operator typename base_class::const_iterator() const {
+				typename base_class::const_iterator retval = (*m_owner_cptr).cbegin();
+				retval += msev_as_a_size_t(m_index);
+				return retval;
+			}
+
+			/* We actually want to make this constructor private, but doing so seems to break std::make_shared<mm_const_iterator_type>.  */
+			mm_const_iterator_type(const _Myt& owner_cref) : m_owner_cptr(&owner_cref) { set_to_beginning(); }
+		private:
+			mm_const_iterator_type(const mm_const_iterator_type& src_cref) : m_owner_cptr(src_cref.m_owner_cptr) { (*this) = src_cref; }
+			void sync_const_iterator_to_index() {
+				assert(m_owner_cptr->size() >= (*this).m_index);
+			}
+			msev_bool m_points_to_an_item = false;
+			msev_size_t m_index = 0;
+			const _Myt* m_owner_cptr = nullptr;
+			friend class mm_iterator_set_type;
+			friend class /*_Myt*/msevector<_Ty, _A>;
+			friend class mm_iterator_type;
+		};
+		/* mm_iterator_type acts much like a list iterator. */
+		class mm_iterator_type : random_access_iterator_base {
+		public:
+			typedef typename base_class::iterator::iterator_category iterator_category;
+			typedef typename base_class::iterator::value_type value_type;
+			//typedef typename base_class::iterator::difference_type difference_type;
+			typedef msev_int difference_type;
+			typedef difference_type distance_type;	// retained
+			typedef typename base_class::iterator::pointer pointer;
+			typedef typename base_class::iterator::reference reference;
+
+			void reset() { set_to_end_marker(); }
+			bool points_to_an_item() const {
+				if (m_points_to_an_item) { assert((1 <= m_owner_ptr->size()) && (m_index < m_owner_ptr->size())); return true; }
+				else { assert(!((1 <= m_owner_ptr->size()) && (m_index < m_owner_ptr->size())));  return false; }
+			}
+			bool points_to_end_marker() const {
+				if (false == points_to_an_item()) { assert(m_index == m_owner_ptr->size()); return true; }
+				else { return false; }
+			}
+			bool points_to_beginning() const {
+				if (0 == m_index) { return true; }
+				else { return false; }
+			}
+			/* has_next_item_or_end_marker() is just an alias for points_to_an_item(). */
+			bool has_next_item_or_end_marker() const { return points_to_an_item(); }
+			/* has_next() is just an alias for points_to_an_item() that's familiar to java programmers. */
+			bool has_next() const { return has_next_item_or_end_marker(); }
+			bool has_previous() const { return (!points_to_beginning()); }
+			void set_to_beginning() {
+				m_index = 0;
+				if (1 <= m_owner_ptr->size()) {
+					m_points_to_an_item = true;
+				}
+				else { assert(false == m_points_to_an_item); }
+			}
+			void set_to_end_marker() {
+				m_index = m_owner_ptr->size();
+				m_points_to_an_item = false;
+			}
+			void set_to_next() {
+				if (points_to_an_item()) {
+					m_index += 1;
+					if (m_owner_ptr->size() <= m_index) {
+						(*this).m_points_to_an_item = false;
+						if (m_owner_ptr->size() < m_index) { assert(false); reset(); }
+					}
+				}
+				else {
+					MSE_THROW(msevector_range_error("attempt to use invalid item_pointer - void set_to_next() - mm_const_iterator_type - msevector"));
+				}
+			}
+			void set_to_previous() {
+				if (has_previous()) {
+					m_index -= 1;
+					(*this).m_points_to_an_item = true;
+				}
+				else {
+					MSE_THROW(msevector_range_error("attempt to use invalid item_pointer - void set_to_previous() - mm_iterator_type - msevector"));
+				}
+			}
+			mm_iterator_type& operator ++() { (*this).set_to_next(); return (*this); }
+			mm_iterator_type operator++(int) { mm_iterator_type _Tmp = *this; ++*this; return (_Tmp); }
+			mm_iterator_type& operator --() { (*this).set_to_previous(); return (*this); }
+			mm_iterator_type operator--(int) { mm_iterator_type _Tmp = *this; --*this; return (_Tmp); }
+			void advance(difference_type n) {
+				auto new_index = msev_int(m_index) + n;
+				if ((0 > new_index) || (m_owner_ptr->size() < msev_size_t(new_index))) {
+					MSE_THROW(msevector_range_error("index out of range - void advance(difference_type n) - mm_iterator_type - msevector"));
+				}
+				else {
+					m_index = msev_size_t(new_index);
+					if (m_owner_ptr->size() <= m_index) {
+						(*this).m_points_to_an_item = false;
+					}
+					else {
+						(*this).m_points_to_an_item = true;
+					}
+				}
+			}
+			void regress(int n) { advance(-n); }
+			mm_iterator_type& operator +=(difference_type n) { (*this).advance(n); return (*this); }
+			mm_iterator_type& operator -=(difference_type n) { (*this).regress(n); return (*this); }
+			mm_iterator_type operator+(difference_type n) const {
+				mm_iterator_type retval(*this);
+				retval = (*this);
+				retval.advance(n);
+				return retval;
+			}
+			mm_iterator_type operator-(difference_type n) const { return ((*this) + (-n)); }
+			difference_type operator-(const mm_iterator_type& rhs) const {
+				if ((rhs.m_owner_ptr) != ((*this).m_owner_ptr)) { MSE_THROW(msevector_range_error("invalid argument - difference_type operator-(const mm_iterator_type& rhs) const - msevector::mm_iterator_type")); }
+				auto retval = difference_type((*this).m_index) - difference_type(rhs.m_index);
+				assert(difference_type(m_owner_ptr->size()) >= retval);
+				return retval;
+			}
+			reference operator*() const {
+				return m_owner_ptr->at(msev_as_a_size_t(m_index));
+			}
+			reference item() const { return operator*(); }
+			reference previous_item() const {
+				return m_owner_ptr->at(msev_as_a_size_t(m_index - 1));
+			}
+			pointer operator->() const {
+				return &(m_owner_ptr->at(msev_as_a_size_t(m_index)));
+			}
+			reference operator[](difference_type _Off) const { return (*m_owner_ptr).at(msev_as_a_size_t(difference_type(m_index) + _Off)); }
+			/*
+			mm_iterator_type& operator=(const typename base_class::iterator& _Right_cref)
+			{
+			msev_int d = std::distance<typename base_class::iterator>(m_owner_ptr->begin(), _Right_cref);
+			if ((0 <= d) && (m_owner_ptr->size() >= d)) {
+			if (m_owner_ptr->size() == d) {
+			assert(m_owner_ptr->end() == _Right_cref);
+			m_points_to_an_item = false;
+			} else {
+			m_points_to_an_item = true;
+			}
+			m_index = msev_size_t(d);
+			base_class::iterator::operator=(_Right_cref);
+			}
+			else {
+			MSE_THROW(msevector_range_error("doesn't seem to be a valid assignment value - mm_iterator_type& operator=(const typename base_class::iterator& _Right_cref) - mm_const_iterator_type - msevector"));
+			}
+			return (*this);
+			}
+			*/
+			mm_iterator_type& operator=(const mm_iterator_type& _Right_cref)
+			{
+				if (((*this).m_owner_ptr) == (_Right_cref.m_owner_ptr)) {
+					assert((*this).m_owner_ptr->size() >= _Right_cref.m_index);
+					(*this).m_points_to_an_item = _Right_cref.m_points_to_an_item;
+					(*this).m_index = _Right_cref.m_index;
+				}
+				else {
+					MSE_THROW(msevector_range_error("doesn't seem to be a valid assignment value - mm_iterator_type& operator=(const typename base_class::iterator& _Right_cref) - mm_const_iterator_type - msevector"));
+				}
+				return (*this);
+			}
+			bool operator==(const mm_iterator_type& _Right_cref) const {
+				if (((*this).m_owner_ptr) != (_Right_cref.m_owner_ptr)) { MSE_THROW(msevector_range_error("invalid argument - mm_iterator_type& operator==(const typename base_class::iterator& _Right) - mm_iterator_type - msevector")); }
+				return (_Right_cref.m_index == m_index);
+			}
+			bool operator!=(const mm_iterator_type& _Right_cref) const { return (!(_Right_cref == (*this))); }
+			bool operator<(const mm_iterator_type& _Right) const {
+				if (((*this).m_owner_ptr) != (_Right.m_owner_ptr)) { MSE_THROW(msevector_range_error("invalid argument - mm_iterator_type& operator<(const typename base_class::iterator& _Right) - mm_iterator_type - msevector")); }
+				return (m_index < _Right.m_index);
+			}
+			bool operator<=(const mm_iterator_type& _Right) const { return (((*this) < _Right) || (_Right == (*this))); }
+			bool operator>(const mm_iterator_type& _Right) const { return (!((*this) <= _Right)); }
+			bool operator>=(const mm_iterator_type& _Right) const { return (!((*this) < _Right)); }
+			void set_to_item_pointer(const mm_iterator_type& _Right_cref) {
+				(*this) = _Right_cref;
+			}
+			void invalidate_inclusive_range(msev_size_t index_of_first, msev_size_t index_of_last) {
+				if ((index_of_first <= (*this).m_index) && (index_of_last >= (*this).m_index)) {
+					(*this).reset();
+				}
+			}
+			void shift_inclusive_range(msev_size_t index_of_first, msev_size_t index_of_last, msev_int shift) {
+				if ((index_of_first <= (*this).m_index) && (index_of_last >= (*this).m_index)) {
+					auto new_index = (*this).m_index + shift;
+					if ((0 > new_index) || (m_owner_ptr->size() < new_index)) {
+						MSE_THROW(msevector_range_error("void shift_inclusive_range() - mm_iterator_type - msevector"));
+					}
+					else {
+						(*this).m_index = msev_size_t(new_index);
+						(*this).sync_iterator_to_index();
+					}
+				}
+			}
+			msev_size_t position() const {
+				return m_index;
+			}
+			operator mm_const_iterator_type() const {
+				mm_const_iterator_type retval(*m_owner_ptr);
+				retval.set_to_beginning();
+				retval.advance(msev_int(m_index));
+				return retval;
+			}
+			/* We actually want to make this constructor private, but doing so seems to break std::make_shared<mm_iterator_type>.  */
+			mm_iterator_type(_Myt& owner_ref) : m_owner_ptr(&owner_ref) { set_to_beginning(); }
+		private:
+			mm_iterator_type(const mm_iterator_type& src_cref) : m_owner_ptr(src_cref.m_owner_ptr) { (*this) = src_cref; }
+			void sync_iterator_to_index() {
+				assert(m_owner_ptr->size() >= (*this).m_index);
+			}
+			msev_bool m_points_to_an_item = false;
+			msev_size_t m_index = 0;
+			_Myt* m_owner_ptr = nullptr;
+			friend class mm_iterator_set_type;
+			friend class /*_Myt*/msevector<_Ty, _A>;
+		};
+
+	private:
+		typedef std::size_t CHashKey1;
+		class mm_const_iterator_handle_type {
+		public:
+			mm_const_iterator_handle_type(const CHashKey1& key_cref, const std::shared_ptr<mm_const_iterator_type>& shptr_cref) : m_shptr(shptr_cref), m_key(key_cref) {}
+		private:
+			std::shared_ptr<mm_const_iterator_type> m_shptr;
+			CHashKey1 m_key;
+			friend class /*_Myt*/msevector<_Ty, _A>;
+			friend class mm_iterator_set_type;
+		};
+		class mm_iterator_handle_type {
+		public:
+			mm_iterator_handle_type(const CHashKey1& key_cref, const std::shared_ptr<mm_iterator_type>& shptr_ref) : m_shptr(shptr_ref), m_key(key_cref) {}
+		private:
+			std::shared_ptr<mm_iterator_type> m_shptr;
+			CHashKey1 m_key;
+			friend class /*_Myt*/msevector<_Ty, _A>;
+			friend class mm_iterator_set_type;
+		};
+
+		class mm_iterator_set_type {
+		public:
+			class CMMConstIterators : public std::unordered_map<CHashKey1, std::shared_ptr<mm_const_iterator_type>> {};
+			class CMMIterators : public std::unordered_map<CHashKey1, std::shared_ptr<mm_iterator_type>> {};
+
+			class assignable_CMMConstIterators_value_type : public std::pair<CHashKey1, std::shared_ptr<mm_const_iterator_type>> {
+			public:
+				assignable_CMMConstIterators_value_type() {}
+				assignable_CMMConstIterators_value_type(const typename CMMConstIterators::value_type& src) : std::pair<CHashKey1, std::shared_ptr<mm_iterator_type>>(src.first, src.second) {}
+				assignable_CMMConstIterators_value_type& operator=(const typename CMMConstIterators::value_type& rhs) { (*this).first = rhs.first; (*this).second = rhs.second; return (*this); }
+				operator typename CMMConstIterators::value_type() const { return CMMConstIterators::value_type((*this).first, (*this).second); }
+			};
+			class assignable_CMMIterators_value_type : public std::pair<CHashKey1, std::shared_ptr<mm_iterator_type>> {
+			public:
+				assignable_CMMIterators_value_type() {}
+				assignable_CMMIterators_value_type(const typename CMMIterators::value_type& src) : std::pair<CHashKey1, std::shared_ptr<mm_iterator_type>>(src.first, src.second) {}
+				assignable_CMMIterators_value_type& operator=(const typename CMMIterators::value_type& rhs) { (*this).first = rhs.first; (*this).second = rhs.second; return (*this); }
+				operator typename CMMIterators::value_type() const { return CMMIterators::value_type((*this).first, (*this).second); }
+			};
+
+			~mm_iterator_set_type() {
+				if (!mm_const_fast_mode1()) {
+					delete m_aux_mm_const_iterator_shptrs_ptr;
+				}
+				if (!mm_fast_mode1()) {
+					delete m_aux_mm_iterator_shptrs_ptr;
+				}
+			}
+
+			void apply_to_all_mm_const_iterator_shptrs(const std::function<void(std::shared_ptr<mm_const_iterator_type>&)>& func_obj_ref) {
+				if (!mm_const_fast_mode1()) {
+					for (auto it = (*m_aux_mm_const_iterator_shptrs_ptr).begin(); (*m_aux_mm_const_iterator_shptrs_ptr).end() != it; it++) {
+						func_obj_ref((*it).second);
+					}
+				}
+				else {
+					for (int i = 0; i < m_fm1_num_mm_const_iterators; i += 1) {
+						func_obj_ref(m_fm1_key_mm_const_it_array[i].second);
+					}
+				}
+			}
+			void apply_to_all_mm_iterator_shptrs(const std::function<void(std::shared_ptr<mm_iterator_type>&)>& func_obj_ref) {
+				if (!mm_fast_mode1()) {
+					for (auto it = (*m_aux_mm_iterator_shptrs_ptr).begin(); (*m_aux_mm_iterator_shptrs_ptr).end() != it; it++) {
+						func_obj_ref((*it).second);
+					}
+				}
+				else {
+					for (int i = 0; i < m_fm1_num_mm_iterators; i += 1) {
+						func_obj_ref(m_fm1_key_mm_it_array[i].second);
+					}
+				}
+			}
+			mm_iterator_set_type(_Myt& owner_ref) : m_next_available_key(0), m_owner_ptr(&owner_ref) {}
+			void reset() {
+				/* We can use "static" here because the lambda function does not capture any parameters. */
+				static const std::function<void(std::shared_ptr<mm_const_iterator_type>&)> cit_func_obj = [](std::shared_ptr<mm_const_iterator_type>& a) { a->reset(); };
+				apply_to_all_mm_const_iterator_shptrs(cit_func_obj);
+				static const std::function<void(std::shared_ptr<mm_iterator_type>&)> it_func_obj = [](std::shared_ptr<mm_iterator_type>& a) { a->reset(); };
+				apply_to_all_mm_iterator_shptrs(it_func_obj);
+			}
+			void sync_iterators_to_index() {
+				/* No longer used. Relic from when mm_iterator_type contained a "native" iterator. */
+				/* We can use "static" here because the lambda function does not capture any parameters. */
+				/*
+				static const std::function<void(std::shared_ptr<mm_const_iterator_type>&)> cit_func_obj = [](std::shared_ptr<mm_const_iterator_type>& a) { a->sync_const_iterator_to_index(); };
+				apply_to_all_mm_const_iterator_shptrs(cit_func_obj);
+				static const std::function<void(std::shared_ptr<mm_iterator_type>&)> it_func_obj = [](std::shared_ptr<mm_iterator_type>& a) { a->sync_iterator_to_index(); };
+				apply_to_all_mm_iterator_shptrs(it_func_obj);
+				*/
+			}
+			void invalidate_inclusive_range(msev_size_t start_index, msev_size_t end_index) {
+				const std::function<void(std::shared_ptr<mm_const_iterator_type>&)> cit_func_obj = [start_index, end_index](std::shared_ptr<mm_const_iterator_type>& a) { a->invalidate_inclusive_range(start_index, end_index); };
+				apply_to_all_mm_const_iterator_shptrs(cit_func_obj);
+				const std::function<void(std::shared_ptr<mm_iterator_type>&)> it_func_obj = [start_index, end_index](std::shared_ptr<mm_iterator_type>& a) { a->invalidate_inclusive_range(start_index, end_index); };
+				apply_to_all_mm_iterator_shptrs(it_func_obj);
+			}
+			void shift_inclusive_range(msev_size_t start_index, msev_size_t end_index, msev_int shift) {
+				const std::function<void(std::shared_ptr<mm_const_iterator_type>&)> cit_func_obj = [start_index, end_index, shift](std::shared_ptr<mm_const_iterator_type>& a) { a->shift_inclusive_range(start_index, end_index, shift); };
+				apply_to_all_mm_const_iterator_shptrs(cit_func_obj);
+				const std::function<void(std::shared_ptr<mm_iterator_type>&)> it_func_obj = [start_index, end_index, shift](std::shared_ptr<mm_iterator_type>& a) { a->shift_inclusive_range(start_index, end_index, shift); };
+				apply_to_all_mm_iterator_shptrs(it_func_obj);
+			}
+			bool is_empty() const {
+				if (mm_const_fast_mode1()) {
+					if (1 <= m_fm1_num_mm_const_iterators) {
+						return false;
+					}
+				}
+				else {
+					if (1 <= m_aux_mm_const_iterator_shptrs_ptr->size()) {
+						return false;
+					}
+				}
+				if (mm_fast_mode1()) {
+					if (1 <= m_fm1_num_mm_iterators) {
+						return false;
+					}
+				}
+				else {
+					if (1 <= m_aux_mm_iterator_shptrs_ptr->size()) {
+						return false;
+					}
+				}
+				return true;
+			}
+
+			mm_const_iterator_handle_type allocate_new_const_item_pointer() {
+				//auto shptr = std::shared_ptr<mm_const_iterator_type>(new mm_const_iterator_type(*m_owner_ptr));
+				auto shptr = std::make_shared<mm_const_iterator_type>(*m_owner_ptr);
+				auto key = m_next_available_key; m_next_available_key++;
+				mm_const_iterator_handle_type retval(key, shptr);
+				typename CMMConstIterators::value_type new_item(key, shptr);
+				if (!mm_const_fast_mode1()) {
+					(*m_aux_mm_const_iterator_shptrs_ptr).insert(new_item);
+				} else {
+					if (sc_fm1_max_mm_iterators == m_fm1_num_mm_const_iterators) {
+						/* Too many items. Initiate and switch to slow mode. */
+						/* Initialize slow storage. */
+						m_aux_mm_const_iterator_shptrs_ptr = new CMMConstIterators();
+						/* First copy the items from fast storage to slow storage. */
+						for (int i = 0; i < sc_fm1_max_mm_iterators; i += 1) {
+							(*m_aux_mm_const_iterator_shptrs_ptr).insert(m_fm1_key_mm_const_it_array[i]);
+						}
+						/* Add the new items to slow storage. */
+						(*m_aux_mm_const_iterator_shptrs_ptr).insert(new_item);
+					}
+					else {
+						m_fm1_key_mm_const_it_array[m_fm1_num_mm_const_iterators] = new_item;
+						m_fm1_num_mm_const_iterators += 1;
+					}
+				}
+				return retval;
+			}
+			void release_const_item_pointer(mm_const_iterator_handle_type handle) {
+				if (!mm_const_fast_mode1()) {
+					auto it = (*m_aux_mm_const_iterator_shptrs_ptr).find(handle.m_key);
+					if ((*m_aux_mm_const_iterator_shptrs_ptr).end() != it) {
+						(*m_aux_mm_const_iterator_shptrs_ptr).erase(it);
+					}
+					else {
+						/* Do we need to throw here? */
+						MSE_THROW(msevector_range_error("invalid handle - void release_aux_mm_const_iterator(mm_const_iterator_handle_type handle) - msevector::mm_iterator_set_type"));
+					}
+				}
+				else {
+					int found_index = -1;
+					for (int i = 0; i < m_fm1_num_mm_const_iterators; i += 1) {
+						if (handle.m_key == m_fm1_key_mm_const_it_array[i].first) {
+							found_index = i;
+							break;
+						}
+					}
+					if (0 <= found_index) {
+						m_fm1_num_mm_const_iterators -= 1;
+						assert(0 <= m_fm1_num_mm_const_iterators);
+						for (int j = found_index; j < m_fm1_num_mm_const_iterators; j += 1) {
+							m_fm1_key_mm_const_it_array[j] = m_fm1_key_mm_const_it_array[j + 1];
+						}
+					}
+					else {
+						/* Do we need to throw here? */
+						MSE_THROW(msevector_range_error("invalid handle - void release_aux_mm_const_iterator(mm_const_iterator_handle_type handle) - msevector::mm_iterator_set_type"));
+					}
+				}
+			}
+
+			mm_iterator_handle_type allocate_new_item_pointer() {
+				//auto shptr = std::shared_ptr<mm_iterator_type>(new mm_iterator_type(*m_owner_ptr));
+				auto shptr = std::make_shared<mm_iterator_type>(*m_owner_ptr);
+				auto key = m_next_available_key; m_next_available_key++;
+				mm_iterator_handle_type retval(key, shptr);
+				typename CMMIterators::value_type new_item(key, shptr);
+				if (!mm_fast_mode1()) {
+					(*m_aux_mm_iterator_shptrs_ptr).insert(new_item);
+				}
+				else {
+					if (sc_fm1_max_mm_iterators == m_fm1_num_mm_iterators) {
+						/* Too many items. Initiate and switch to slow mode. */
+						/* Initialize slow storage. */
+						m_aux_mm_iterator_shptrs_ptr = new CMMIterators();
+						/* First copy the items from fast storage to slow storage. */
+						for (int i = 0; i < sc_fm1_max_mm_iterators; i += 1) {
+							(*m_aux_mm_iterator_shptrs_ptr).insert(m_fm1_key_mm_it_array[i]);
+						}
+						/* Add the new items to slow storage. */
+						(*m_aux_mm_iterator_shptrs_ptr).insert(new_item);
+					}
+					else {
+						m_fm1_key_mm_it_array[m_fm1_num_mm_iterators] = new_item;
+						m_fm1_num_mm_iterators += 1;
+					}
+				}
+				return retval;
+			}
+			void release_item_pointer(mm_iterator_handle_type handle) {
+				if (!mm_fast_mode1()) {
+					auto it = (*m_aux_mm_iterator_shptrs_ptr).find(handle.m_key);
+					if ((*m_aux_mm_iterator_shptrs_ptr).end() != it) {
+						(*m_aux_mm_iterator_shptrs_ptr).erase(it);
+					}
+					else {
+						/* Do we need to throw here? */
+						MSE_THROW(msevector_range_error("invalid handle - void release_aux_mm_iterator(mm_iterator_handle_type handle) - msevector::mm_iterator_set_type"));
+					}
+				}
+				else {
+					int found_index = -1;
+					for (int i = 0; i < m_fm1_num_mm_iterators; i += 1) {
+						if (handle.m_key == m_fm1_key_mm_it_array[i].first) {
+							found_index = i;
+							break;
+						}
+					}
+					if (0 <= found_index) {
+						m_fm1_num_mm_iterators -= 1;
+						assert(0 <= m_fm1_num_mm_iterators);
+						for (int j = found_index; j < m_fm1_num_mm_iterators; j += 1) {
+							m_fm1_key_mm_it_array[j] = m_fm1_key_mm_it_array[j + 1];
+						}
+					}
+					else {
+						/* Do we need to throw here? */
+						MSE_THROW(msevector_range_error("invalid handle - void release_aux_mm_iterator(mm_iterator_handle_type handle) - msevector::mm_iterator_set_type"));
+					}
+				}
+			}
+			void release_all_item_pointers() {
+				if (!mm_fast_mode1()) {
+					(*m_aux_mm_iterator_shptrs_ptr).clear();
+				}
+				else {
+					for (int i = 0; i < m_fm1_num_mm_iterators; i += 1) {
+						m_fm1_key_mm_it_array[i] = assignable_CMMIterators_value_type();
+					}
+					m_fm1_num_mm_iterators = 0;
+				}
+			}
+			mm_const_iterator_type &const_item_pointer(mm_const_iterator_handle_type handle) const {
+				return (*(handle.m_shptr));
+			}
+			mm_iterator_type &item_pointer(mm_iterator_handle_type handle) {
+				return (*(handle.m_shptr));
+			}
+
+		private:
+			void release_all_const_item_pointers() {
+				if (!mm_const_fast_mode1()) {
+					(*m_aux_mm_const_iterator_shptrs_ptr).clear();
+				}
+				else {
+					for (int i = 0; i < m_fm1_num_mm_const_iterators; i += 1) {
+						m_fm1_key_mm_const_it_array[i] = assignable_CMMConstIterators_value_type();
+					}
+					m_fm1_num_mm_const_iterators = 0;
+				}
+			}
+
+			mm_iterator_set_type& operator=(const mm_iterator_set_type& src_cref) {
+				/* This is a special type of class. The state (i.e. member values) of an object of this class is specific to (and only
+				valid for) the particular instance of the object (or the object of which it is a member). So the correct state of a new
+				copy of this type of object is not a copy of the state, but rather the state of a new object (which is just the default
+				initialization state). */
+				(*this).reset();
+				return (*this);
+			}
+			mm_iterator_set_type& operator=(mm_iterator_set_type&& src) { /* see above */ (*this).reset(); return (*this); }
+			mm_iterator_set_type(const mm_iterator_set_type& src) { /* see above */ }
+			mm_iterator_set_type(const mm_iterator_set_type&& src) { /* see above */ }
+
+			CHashKey1 m_next_available_key = 0;
+
+			static const int sc_fm1_max_mm_iterators = 6/*arbitrary*/;
+
+			bool mm_const_fast_mode1() const { return (nullptr == m_aux_mm_const_iterator_shptrs_ptr); }
+			int m_fm1_num_mm_const_iterators = 0;
+			assignable_CMMConstIterators_value_type m_fm1_key_mm_const_it_array[sc_fm1_max_mm_iterators];
+			CMMConstIterators* m_aux_mm_const_iterator_shptrs_ptr = nullptr;
+
+			bool mm_fast_mode1() const { return (nullptr == m_aux_mm_iterator_shptrs_ptr); }
+			int m_fm1_num_mm_iterators = 0;
+			assignable_CMMIterators_value_type m_fm1_key_mm_it_array[sc_fm1_max_mm_iterators];
+			CMMIterators* m_aux_mm_iterator_shptrs_ptr = nullptr;
+
+			_Myt* m_owner_ptr = nullptr;
+
+			friend class /*_Myt*/msevector<_Ty, _A>;
+		};
+		mutable mm_iterator_set_type m_mmitset;
+
+	public:
+		mm_const_iterator_type &const_item_pointer(mm_const_iterator_handle_type handle) const {
+			return m_mmitset.const_item_pointer(handle);
+		}
+		mm_iterator_type &item_pointer(mm_iterator_handle_type handle) {
+			return m_mmitset.item_pointer(handle);
+		}
+
+	private:
+		mm_const_iterator_handle_type allocate_new_const_item_pointer() const { return m_mmitset.allocate_new_const_item_pointer(); }
+		void release_const_item_pointer(mm_const_iterator_handle_type handle) const { m_mmitset.release_const_item_pointer(handle); }
+		void release_all_const_item_pointers() const { m_mmitset.release_all_const_item_pointers(); }
+		mm_iterator_handle_type allocate_new_item_pointer() const { return m_mmitset.allocate_new_item_pointer(); }
+		void release_item_pointer(mm_iterator_handle_type handle) const { m_mmitset.release_item_pointer(handle); }
+		void release_all_item_pointers() const { m_mmitset.release_all_item_pointers(); }
+
+	public:
+		class cipointer : public random_access_const_iterator_base {
+		public:
+			typedef typename mm_const_iterator_type::iterator_category iterator_category;
+			typedef typename mm_const_iterator_type::value_type value_type;
+			typedef typename mm_const_iterator_type::difference_type difference_type;
+			typedef difference_type distance_type;	// retained
+			typedef typename mm_const_iterator_type::pointer pointer;
+			typedef typename mm_const_iterator_type::const_pointer const_pointer;
+			typedef typename mm_const_iterator_type::reference reference;
+			typedef typename mm_const_iterator_type::const_reference const_reference;
+
+			cipointer(const _Myt& owner_cref) : m_owner_cptr(&owner_cref) {
+				mm_const_iterator_handle_type handle = m_owner_cptr->allocate_new_const_item_pointer();
+				m_handle_shptr = std::make_shared<mm_const_iterator_handle_type>(handle);
+			}
+			cipointer(const cipointer& src_cref) : m_owner_cptr(src_cref.m_owner_cptr) {
+				mm_const_iterator_handle_type handle = m_owner_cptr->allocate_new_const_item_pointer();
+				m_handle_shptr = std::make_shared<mm_const_iterator_handle_type>(handle);
+				const_item_pointer() = src_cref.const_item_pointer();
+			}
+			~cipointer() {
+				m_owner_cptr->release_const_item_pointer(*m_handle_shptr);
+			}
+			mm_const_iterator_type& const_item_pointer() const { return m_owner_cptr->const_item_pointer(*m_handle_shptr); }
+			mm_const_iterator_type& cip() const { return const_item_pointer(); }
+			//const mm_const_iterator_handle_type& handle() const { return (*m_handle_shptr); }
+
+			void reset() { const_item_pointer().reset(); }
+			bool points_to_an_item() const { return const_item_pointer().points_to_an_item(); }
+			bool points_to_end_marker() const { return const_item_pointer().points_to_end_marker(); }
+			bool points_to_beginning() const { return const_item_pointer().points_to_beginning(); }
+			/* has_next_item_or_end_marker() is just an alias for points_to_an_item(). */
+			bool has_next_item_or_end_marker() const { return const_item_pointer().has_next_item_or_end_marker(); }
+			/* has_next() is just an alias for points_to_an_item() that's familiar to java programmers. */
+			bool has_next() const { return const_item_pointer().has_next(); }
+			bool has_previous() const { return const_item_pointer().has_previous(); }
+			void set_to_beginning() { const_item_pointer().set_to_beginning(); }
+			void set_to_end_marker() { const_item_pointer().set_to_end_marker(); }
+			void set_to_next() { const_item_pointer().set_to_next(); }
+			void set_to_previous() { const_item_pointer().set_to_previous(); }
+			cipointer& operator ++() { const_item_pointer().operator ++(); return (*this); }
+			cipointer operator++(int) { cipointer _Tmp = *this; ++*this; return (_Tmp); }
+			cipointer& operator --() { const_item_pointer().operator --(); return (*this); }
+			cipointer operator--(int) { cipointer _Tmp = *this; --*this; return (_Tmp); }
+			void advance(difference_type n) { const_item_pointer().advance(n); }
+			void regress(difference_type n) { const_item_pointer().regress(n); }
+			cipointer& operator +=(difference_type n) { const_item_pointer().operator +=(n); return (*this); }
+			cipointer& operator -=(difference_type n) { const_item_pointer().operator -=(n); return (*this); }
+			cipointer operator+(difference_type n) const { auto retval = (*this); retval += n; return retval; }
+			cipointer operator-(difference_type n) const { return ((*this) + (-n)); }
+			difference_type operator-(const cipointer& _Right_cref) const { return const_item_pointer() - (_Right_cref.const_item_pointer()); }
+			const_reference operator*() const { return const_item_pointer().operator*(); }
+			const_reference item() const { return operator*(); }
+			const_reference previous_item() const { return const_item_pointer().previous_item(); }
+			const_pointer operator->() const { return const_item_pointer().operator->(); }
+			const_reference operator[](difference_type _Off) const { return const_item_pointer()[_Off]; }
+			cipointer& operator=(const cipointer& _Right_cref) { const_item_pointer().operator=(_Right_cref.const_item_pointer()); return (*this); }
+			bool operator==(const cipointer& _Right_cref) const { return const_item_pointer().operator==(_Right_cref.const_item_pointer()); }
+			bool operator!=(const cipointer& _Right_cref) const { return (!(_Right_cref == (*this))); }
+			bool operator<(const cipointer& _Right) const { return (const_item_pointer() < _Right.const_item_pointer()); }
+			bool operator<=(const cipointer& _Right) const { return (const_item_pointer() <= _Right.const_item_pointer()); }
+			bool operator>(const cipointer& _Right) const { return (const_item_pointer() > _Right.const_item_pointer()); }
+			bool operator>=(const cipointer& _Right) const { return (const_item_pointer() >= _Right.const_item_pointer()); }
+			void set_to_const_item_pointer(const cipointer& _Right_cref) { const_item_pointer().set_to_const_item_pointer(_Right_cref.const_item_pointer()); }
+			msev_size_t position() const { return const_item_pointer().position(); }
+		private:
+			const _Myt* m_owner_cptr = nullptr;
+			std::shared_ptr<mm_const_iterator_handle_type> m_handle_shptr;
+			friend class /*_Myt*/msevector<_Ty, _A>;
+		};
+		class ipointer : public random_access_iterator_base {
+		public:
+			typedef typename mm_iterator_type::iterator_category iterator_category;
+			typedef typename mm_iterator_type::value_type value_type;
+			typedef typename mm_iterator_type::difference_type difference_type;
+			typedef difference_type distance_type;	// retained
+			typedef typename mm_iterator_type::pointer pointer;
+			typedef typename mm_iterator_type::reference reference;
+
+			ipointer(_Myt& owner_ref) : m_owner_ptr(&owner_ref) {
+				mm_iterator_handle_type handle = m_owner_ptr->allocate_new_item_pointer();
+				m_handle_shptr = std::make_shared<mm_iterator_handle_type>(handle);
+			}
+			ipointer(const ipointer& src_cref) : m_owner_ptr(src_cref.m_owner_ptr) {
+				mm_iterator_handle_type handle = m_owner_ptr->allocate_new_item_pointer();
+				m_handle_shptr = std::make_shared<mm_iterator_handle_type>(handle);
+				item_pointer() = src_cref.item_pointer();
+			}
+			~ipointer() {
+				m_owner_ptr->release_item_pointer(*m_handle_shptr);
+			}
+			mm_iterator_type& item_pointer() const { return m_owner_ptr->item_pointer(*m_handle_shptr); }
+			mm_iterator_type& ip() const { return item_pointer(); }
+			//const mm_iterator_handle_type& handle() const { return (*m_handle_shptr); }
+			operator cipointer() const {
+				cipointer retval(*m_owner_ptr);
+				retval.const_item_pointer().set_to_beginning();
+				retval.const_item_pointer().advance(msev_int(item_pointer().position()));
+				return retval;
+			}
+
+			void reset() { item_pointer().reset(); }
+			bool points_to_an_item() const { return item_pointer().points_to_an_item(); }
+			bool points_to_end_marker() const { return item_pointer().points_to_end_marker(); }
+			bool points_to_beginning() const { return item_pointer().points_to_beginning(); }
+			/* has_next_item_or_end_marker() is just an alias for points_to_an_item(). */
+			bool has_next_item_or_end_marker() const { return item_pointer().has_next_item_or_end_marker(); }
+			/* has_next() is just an alias for points_to_an_item() that's familiar to java programmers. */
+			bool has_next() const { return item_pointer().has_next(); }
+			bool has_previous() const { return item_pointer().has_previous(); }
+			void set_to_beginning() { item_pointer().set_to_beginning(); }
+			void set_to_end_marker() { item_pointer().set_to_end_marker(); }
+			void set_to_next() { item_pointer().set_to_next(); }
+			void set_to_previous() { item_pointer().set_to_previous(); }
+			ipointer& operator ++() { item_pointer().operator ++(); return (*this); }
+			ipointer operator++(int) { ipointer _Tmp = *this; ++*this; return (_Tmp); }
+			ipointer& operator --() { item_pointer().operator --(); return (*this); }
+			ipointer operator--(int) { ipointer _Tmp = *this; --*this; return (_Tmp); }
+			void advance(difference_type n) { item_pointer().advance(n); }
+			void regress(difference_type n) { item_pointer().regress(n); }
+			ipointer& operator +=(difference_type n) { item_pointer().operator +=(n); return (*this); }
+			ipointer& operator -=(difference_type n) { item_pointer().operator -=(n); return (*this); }
+			ipointer operator+(difference_type n) const { auto retval = (*this); retval += n; return retval; }
+			ipointer operator-(difference_type n) const { return ((*this) + (-n)); }
+			difference_type operator-(const ipointer& _Right_cref) const { return item_pointer() - (_Right_cref.item_pointer()); }
+			reference operator*() const { return item_pointer().operator*(); }
+			reference item() const { return operator*(); }
+			reference previous_item() const { return item_pointer().previous_item(); }
+			pointer operator->() const { return item_pointer().operator->(); }
+			reference operator[](difference_type _Off) const { return item_pointer()[_Off]; }
+			ipointer& operator=(const ipointer& _Right_cref) { item_pointer().operator=(_Right_cref.item_pointer()); return (*this); }
+			bool operator==(const ipointer& _Right_cref) const { return item_pointer().operator==(_Right_cref.item_pointer()); }
+			bool operator!=(const ipointer& _Right_cref) const { return (!(_Right_cref == (*this))); }
+			bool operator<(const ipointer& _Right) const { return (item_pointer() < _Right.item_pointer()); }
+			bool operator<=(const ipointer& _Right) const { return (item_pointer() <= _Right.item_pointer()); }
+			bool operator>(const ipointer& _Right) const { return (item_pointer() > _Right.item_pointer()); }
+			bool operator>=(const ipointer& _Right) const { return (item_pointer() >= _Right.item_pointer()); }
+			void set_to_item_pointer(const ipointer& _Right_cref) { item_pointer().set_to_item_pointer(_Right_cref.item_pointer()); }
+			msev_size_t position() const { return item_pointer().position(); }
+		private:
+			_Myt* m_owner_ptr = nullptr;
+			std::shared_ptr<mm_iterator_handle_type> m_handle_shptr;
+			friend class /*_Myt*/msevector<_Ty, _A>;
+		};
+
+		ipointer ibegin() {	// return ipointer for beginning of mutable sequence
+			ipointer retval(*this);
+			retval.set_to_beginning();
+			return retval;
+		}
+		cipointer ibegin() const {	// return ipointer for beginning of nonmutable sequence
+			cipointer retval(*this);
+			retval.set_to_beginning();
+			return retval;
+		}
+		ipointer iend() {	// return ipointer for end of mutable sequence
+			ipointer retval(*this);
+			retval.set_to_end_marker();
+			return retval;
+		}
+		cipointer iend() const {	// return ipointer for end of nonmutable sequence
+			cipointer retval(*this);
+			retval.set_to_end_marker();
+			return retval;
+		}
+		cipointer cibegin() const {	// return ipointer for beginning of nonmutable sequence
+			cipointer retval(*this);
+			retval.set_to_beginning();
+			return retval;
+		}
+		cipointer ciend() const {	// return ipointer for end of nonmutable sequence
+			cipointer retval(*this);
+			retval.set_to_end_marker();
+			return retval;
+		}
+
+		msevector(const cipointer &start, const cipointer &end, const _A& _Al = _A())
+			: base_class(_Al), m_mmitset(*this) {
+			/*m_debug_size = size();*/
+			assign(start, end);
+		}
+		void assign(const mm_const_iterator_type &start, const mm_const_iterator_type &end) {
+			if (start.m_owner_cptr != end.m_owner_cptr) { MSE_THROW(msevector_range_error("invalid arguments - void assign(const mm_const_iterator_type &start, const mm_const_iterator_type &end) - msevector")); }
+			if (start > end) { MSE_THROW(msevector_range_error("invalid arguments - void assign(const mm_const_iterator_type &start, const mm_const_iterator_type &end) - msevector")); }
+			typename base_class::const_iterator _F = start;
+			typename base_class::const_iterator _L = end;
+			(*this).assign(_F, _L);
+		}
+		void assign_inclusive(const mm_const_iterator_type &first, const mm_const_iterator_type &last) {
+			auto end = last;
+			end++; // this should include some checks
+			(*this).assign(first, end);
+		}
+		void assign(const cipointer &start, const cipointer &end) {
+			assign(start.const_item_pointer(), end.const_item_pointer());
+		}
+		void assign_inclusive(const cipointer &first, const cipointer &last) {
+			assign_inclusive(first.const_item_pointer(), last.const_item_pointer());
+		}
+		void insert_before(const mm_const_iterator_type &pos, size_type _M, const _Ty& _X) {
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void insert_before() - msevector")); }
+			typename base_class::const_iterator _P = pos;
+			(*this).insert(_P, _M, _X);
+		}
+		void insert_before(const mm_const_iterator_type &pos, _Ty&& _X) {
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void insert_before() - msevector")); }
+			typename base_class::const_iterator _P = pos;
+			(*this).insert(_P, 1, std::move(_X));
+		}
+		void insert_before(const mm_const_iterator_type &pos, const _Ty& _X = _Ty()) { (*this).insert(pos, 1, _X); }
+		template<class _Iter
+			//>typename std::enable_if<_mse_Is_iterator<_Iter>::value, typename base_class::iterator>::type
+			, class = _mse_RequireInputIter<_Iter> >
+		void insert_before(const mm_const_iterator_type &pos, const _Iter &start, const _Iter &end) {
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void insert_before() - msevector")); }
+			//if (start.m_owner_cptr != end.m_owner_cptr) { MSE_THROW(msevector_range_error("invalid arguments - void insert_before(const mm_const_iterator_type &pos, const mm_const_iterator_type &start, const mm_const_iterator_type &end) - msevector")); }
+			typename base_class::const_iterator _P = pos;
+			(*this).insert(_P, start, end);
+		}
+		template<class _Iter
+			//>typename std::enable_if<_mse_Is_iterator<_Iter>::value, typename base_class::iterator>::type
+			, class = _mse_RequireInputIter<_Iter> >
+		void insert_before_inclusive(const mm_const_iterator_type &pos, const _Iter &first, const _Iter &last) {
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void insert_before() - msevector")); }
+			if (first.m_owner_cptr != last.m_owner_cptr) { MSE_THROW(msevector_range_error("invalid arguments - void insert_before_inclusive(const mm_const_iterator_type &pos, const mm_const_iterator_type &first, const mm_const_iterator_type &last) - msevector")); }
+			if (!(last.points_to_item())) { MSE_THROW(msevector_range_error("invalid argument - void insert_before_inclusive(const mm_const_iterator_type &pos, const mm_const_iterator_type &first, const mm_const_iterator_type &last) - msevector")); }
+			typename base_class::const_iterator _P = pos;
+			auto _L = last;
+			_L++;
+			(*this).insert(_P, first, _L);
+		}
+		void insert_before(const mm_const_iterator_type &pos, _XSTD initializer_list<typename base_class::value_type> _Ilist) {	// insert initializer_list
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void insert_before() - msevector")); }
+			typename base_class::const_iterator _P = pos;
+			(*this).insert(_P, _Ilist);
+		}
+		ipointer insert_before(const cipointer &pos, size_type _M, const _Ty& _X) {
+			msev_size_t original_pos = pos.position();
+			insert_before(pos.const_item_pointer(), _M, _X);
+			ipointer retval(*this); retval.advance(msev_int(original_pos));
+			return retval;
+		}
+		ipointer insert_before(const cipointer &pos, _Ty&& _X) {
+			msev_size_t original_pos = pos.position();
+			insert_before(pos.const_item_pointer(), std::move(_X));
+			ipointer retval(*this); retval.advance(msev_int(original_pos));
+			return retval;
+		}
+		ipointer insert_before(const cipointer &pos, const _Ty& _X = _Ty()) { return insert_before(pos, 1, _X); }
+		template<class _Iter
+			//>typename std::enable_if<_mse_Is_iterator<_Iter>::value, typename base_class::iterator>::type
+			, class = _mse_RequireInputIter<_Iter> >
+		ipointer insert_before(const cipointer &pos, const _Iter &start, const _Iter &end) {
+			msev_size_t original_pos = pos.position();
+			insert_before(pos.const_item_pointer(), start, end);
+			ipointer retval(*this); retval.advance(msev_int(original_pos));
+			return retval;
+		}
+		template<class _Iter
+			//>typename std::enable_if<_mse_Is_iterator<_Iter>::value, typename base_class::iterator>::type
+			, class = _mse_RequireInputIter<_Iter> >
+		ipointer insert_before_inclusive(const cipointer &pos, const _Iter &first, const _Iter &last) {
+			auto end = last; end++;
+			return insert_before(pos, first, end);
+		}
+		ipointer insert_before(const cipointer &pos, _XSTD initializer_list<typename base_class::value_type> _Ilist) {	// insert initializer_list
+			msev_size_t original_pos = pos.position();
+			(*this).insert_before(pos.const_item_pointer(), _Ilist);
+			ipointer retval(*this); retval.advance(msev_int(original_pos));
+			return retval;
+		}
+		void insert_before(msev_size_t pos, _Ty&& _X) {
+			typename base_class::const_iterator _P = (*this).begin() + msev_as_a_size_t(pos);
+			(*this).insert(_P, std::move(_X));
+		}
+		void insert_before(msev_size_t pos, const _Ty& _X = _Ty()) {
+			typename base_class::const_iterator _P = (*this).begin() + msev_as_a_size_t(pos);
+			(*this).insert(_P, _X);
+		}
+		void insert_before(msev_size_t pos, size_t _M, const _Ty& _X) {
+			typename base_class::const_iterator _P = (*this).begin() + msev_as_a_size_t(pos);
+			(*this).insert(_P, _M, _X);
+		}
+		void insert_before(msev_size_t pos, _XSTD initializer_list<typename base_class::value_type> _Ilist) {	// insert initializer_list
+			typename base_class::const_iterator _P = (*this).begin() + msev_as_a_size_t(pos);
+			(*this).insert(_P, _Ilist);
+		}
+		/* These insert() functions are just aliases for their corresponding insert_before() functions. */
+		ipointer insert(const cipointer &pos, size_type _M, const _Ty& _X) { return insert_before(pos, _M, _X); }
+		ipointer insert(const cipointer &pos, _Ty&& _X) { return insert_before(pos, std::move(_X)); }
+		ipointer insert(const cipointer &pos, const _Ty& _X = _Ty()) { return insert_before(pos, _X); }
+		template<class _Iter
+			//>typename std::enable_if<_mse_Is_iterator<_Iter>::value, typename base_class::iterator>::type
+			, class = _mse_RequireInputIter<_Iter> >
+		ipointer insert(const cipointer &pos, const _Iter &start, const _Iter &end) { return insert_before(pos, start, end); }
+		ipointer insert(const cipointer &pos, _XSTD initializer_list<typename base_class::value_type> _Ilist) { return insert_before(pos, _Ilist); }
+		template<class ..._Valty>
+#if !(defined(GPP4P8_COMPATIBLE))
+		void emplace(const mm_const_iterator_type &pos, _Valty&& ..._Val)
+		{	// insert by moving _Val at pos
+#else /*!(defined(GPP4P8_COMPATIBLE))*/
+		void emplace(const mm_iterator_type &pos, _Valty&& ..._Val)
+		{	// insert by moving _Val at pos
+#endif /*!(defined(GPP4P8_COMPATIBLE))*/
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void emplace() - msevector")); }
+			typename base_class::const_iterator _P = pos;
+			auto retval = base_class::emplace(_P, std::forward<_Valty>(_Val)...);
+		}
+		template<class ..._Valty>
+#if !(defined(GPP4P8_COMPATIBLE))
+		ipointer emplace(const cipointer &pos, _Valty&& ..._Val)
+		{	// insert by moving _Val at pos
+#else /*!(defined(GPP4P8_COMPATIBLE))*/
+		ipointer emplace(const ipointer &pos, _Valty&& ..._Val)
+		{	// insert by moving _Val at pos
+#endif /*!(defined(GPP4P8_COMPATIBLE))*/
+			msev_size_t original_pos = pos.position();
+			(*this).emplace(pos.const_item_pointer(), std::forward<_Valty>(_Val)...);
+			ipointer retval(*this); retval.advance(msev_int(original_pos));
+			return retval;
+		}
+		void erase(const mm_const_iterator_type &pos) {
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void erase() - msevector")); }
+			typename base_class::const_iterator _P = pos;
+			(*this).erase(_P);
+		}
+		void erase(const mm_const_iterator_type &start, const mm_const_iterator_type &end) {
+			if (start.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void erase() - msevector")); }
+			if (end.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void erase() - msevector")); }
+			typename base_class::const_iterator _F = start;
+			typename base_class::const_iterator _L = end;
+			(*this).erase(_F, _L);
+		}
+		void erase_inclusive(const mm_const_iterator_type &first, const mm_const_iterator_type &last) {
+			if (first.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void erase_inclusive() - msevector")); }
+			if (last.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void erase_inclusive() - msevector")); }
+			if (!(last.points_to_item())) { MSE_THROW(msevector_range_error("invalid argument - void erase_inclusive() - msevector")); }
+			typename base_class::const_iterator _F = first;
+			typename base_class::const_iterator _L = last;
+			_L++;
+			(*this).erase(_F, _L);
+		}
+		ipointer erase(const cipointer &pos) {
+			auto retval_pos = pos;
+			retval_pos.set_to_next();
+			erase(pos.const_item_pointer());
+			ipointer retval = (*this).ibegin();
+			retval.advance(msev_int(retval_pos.position()));
+			return retval;
+		}
+		ipointer erase(const cipointer &start, const cipointer &end) {
+			auto retval_pos = end;
+			retval_pos.set_to_next();
+			erase(start.const_item_pointer(), end.const_item_pointer());
+			ipointer retval = (*this).ibegin();
+			retval.advance(msev_int(retval_pos.position()));
+			return retval;
+		}
+		ipointer erase_inclusive(const cipointer &first, const cipointer &last) {
+			auto end = last; end.set_to_next();
+			return erase(first, end);
+		}
+		void erase_previous_item(const mm_const_iterator_type &pos) {
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void erase_previous_item() - msevector")); }
+			if (!(pos.has_previous())) { MSE_THROW(msevector_range_error("invalid arguments - void erase_previous_item() - msevector")); }
+			typename base_class::const_iterator _P = pos;
+			_P--;
+			(*this).erase(_P);
+		}
+		ipointer erase_previous_item(const cipointer &pos) {
+			erase_previous_item(pos.const_item_pointer());
+			ipointer retval = (*this).ibegin();
+			retval.advance(pos.position());
+			return retval;
+		}
+
+
+		/* ss_const_iterator_type is a bounds checked iterator. */
+		class ss_const_iterator_type : public random_access_const_iterator_base {
+		public:
+			typedef typename base_class::const_iterator::iterator_category iterator_category;
+			typedef typename base_class::const_iterator::value_type value_type;
+			//typedef typename base_class::const_iterator::difference_type difference_type;
+			typedef typename _Myt::difference_type difference_type;
+			typedef difference_type distance_type;	// retained
+			typedef typename base_class::const_iterator::pointer pointer;
+			typedef typename base_class::const_pointer const_pointer;
+			typedef typename base_class::const_iterator::reference reference;
+			typedef typename base_class::const_reference const_reference;
+
+			ss_const_iterator_type() {}
+			void assert_valid_index() const {
+				if (m_owner_cptr->size() < m_index) { MSE_THROW(msevector_range_error("invalid index - void assert_valid_index() const - ss_const_iterator_type - msevector")); }
+			}
+			void reset() { set_to_end_marker(); }
+			bool points_to_an_item() const {
+				if (m_owner_cptr->size() > m_index) { return true; }
+				else {
+					if (m_index == m_owner_cptr->size()) { return false; }
+					else { MSE_THROW(msevector_range_error("attempt to use invalid ss_const_iterator_type - bool points_to_an_item() const - ss_const_iterator_type - msevector")); }
+				}
+			}
+			bool points_to_end_marker() const {
+				if (false == points_to_an_item()) {
+					assert(m_index == m_owner_cptr->size());
+					return true;
+				}
+				else { return false; }
+			}
+			bool points_to_beginning() const {
+				if (0 == m_index) { return true; }
+				else { return false; }
+			}
+			/* has_next_item_or_end_marker() is just an alias for points_to_an_item(). */
+			bool has_next_item_or_end_marker() const { return points_to_an_item(); }
+			/* has_next() is just an alias for points_to_an_item() that's familiar to java programmers. */
+			bool has_next() const { return has_next_item_or_end_marker(); }
+			bool has_previous() const {
+				if (m_owner_cptr->size() < m_index) {
+					MSE_THROW(msevector_range_error("attempt to use invalid ss_const_iterator_type - bool has_previous() const - ss_const_iterator_type - msevector"));
+				}
+				else if (1 <= m_index) {
+					return true;
+				}
+				else {
+					return false;
+				}
+			}
+			void set_to_beginning() {
+				m_index = 0;
+			}
+			void set_to_end_marker() {
+				m_index = m_owner_cptr->size();
+			}
+			void set_to_next() {
+				if (points_to_an_item()) {
+					m_index += 1;
+				}
+				else {
+					MSE_THROW(msevector_range_error("attempt to use invalid const_item_pointer - void set_to_next() - ss_const_iterator_type - msevector"));
+				}
+			}
+			void set_to_previous() {
+				if (has_previous()) {
+					m_index -= 1;
+				}
+				else {
+					MSE_THROW(msevector_range_error("attempt to use invalid const_item_pointer - void set_to_previous() - ss_const_iterator_type - msevector"));
+				}
+			}
+			ss_const_iterator_type& operator ++() { (*this).set_to_next(); return (*this); }
+			ss_const_iterator_type operator++(int) { ss_const_iterator_type _Tmp = *this; (*this).set_to_next(); return (_Tmp); }
+			ss_const_iterator_type& operator --() { (*this).set_to_previous(); return (*this); }
+			ss_const_iterator_type operator--(int) { ss_const_iterator_type _Tmp = *this; (*this).set_to_previous(); return (_Tmp); }
+			void advance(difference_type n) {
+				auto new_index = msev_int(m_index) + n;
+				if ((0 > new_index) || (m_owner_cptr->size() < msev_size_t(new_index))) {
+					MSE_THROW(msevector_range_error("index out of range - void advance(difference_type n) - ss_const_iterator_type - msevector"));
+				}
+				else {
+					m_index = msev_size_t(new_index);
+				}
+			}
+			void regress(difference_type n) { advance(-n); }
+			ss_const_iterator_type& operator +=(difference_type n) { (*this).advance(n); return (*this); }
+			ss_const_iterator_type& operator -=(difference_type n) { (*this).regress(n); return (*this); }
+			ss_const_iterator_type operator+(difference_type n) const {
+				ss_const_iterator_type retval; retval.m_owner_cptr = m_owner_cptr;
+				retval = (*this);
+				retval.advance(n);
+				return retval;
+			}
+			ss_const_iterator_type operator-(difference_type n) const { return ((*this) + (-n)); }
+			difference_type operator-(const ss_const_iterator_type &rhs) const {
+				if (rhs.m_owner_cptr != (*this).m_owner_cptr) { MSE_THROW(msevector_range_error("invalid argument - difference_type operator-(const ss_const_iterator_type &rhs) const - msevector::ss_const_iterator_type")); }
+				auto retval = difference_type((*this).m_index) - difference_type(rhs.m_index);
+				assert(difference_type((*m_owner_cptr).size()) >= retval);
+				return retval;
+			}
+			const_reference operator*() const {
+				return (*m_owner_cptr).at(msev_as_a_size_t((*this).m_index));
+			}
+			const_reference item() const { return operator*(); }
+			const_reference previous_item() const {
+				return m_owner_cptr->at(msev_as_a_size_t(m_index - 1));
+			}
+			const_pointer operator->() const {
+				return &((*m_owner_cptr).at(msev_as_a_size_t((*this).m_index)));
+			}
+			const_reference operator[](difference_type _Off) const { return (*m_owner_cptr).at(msev_as_a_size_t(difference_type(m_index) + _Off)); }
+			/*
+			ss_const_iterator_type& operator=(const typename base_class::const_iterator& _Right_cref)
+			{
+			msev_int d = std::distance<typename base_class::iterator>(m_owner_cptr->cbegin(), _Right_cref);
+			if ((0 <= d) && (m_owner_cptr->size() >= d)) {
+			if (m_owner_cptr->size() == d) {
+			assert(m_owner_cptr->cend() == _Right_cref);
+			}
+			m_index = msev_size_t(d);
+			base_class::const_iterator::operator=(_Right_cref);
+			}
+			else {
+			MSE_THROW(msevector_range_error("doesn't seem to be a valid assignment value - ss_const_iterator_type& operator=(const typename base_class::const_iterator& _Right_cref) - ss_const_iterator_type - msevector"));
+			}
+			return (*this);
+			}
+			*/
+			ss_const_iterator_type& operator=(const ss_const_iterator_type& _Right_cref) {
+				((*this).m_owner_cptr) = _Right_cref.m_owner_cptr;
+				(*this).m_index = _Right_cref.m_index;
+				return (*this);
+			}
+			bool operator==(const ss_const_iterator_type& _Right_cref) const {
+				if (this->m_owner_cptr != _Right_cref.m_owner_cptr) { MSE_THROW(msevector_range_error("invalid argument - ss_const_iterator_type& operator==(const ss_const_iterator_type& _Right) - ss_const_iterator_type - msevector")); }
+				return (_Right_cref.m_index == m_index);
+			}
+			bool operator!=(const ss_const_iterator_type& _Right_cref) const { return (!(_Right_cref == (*this))); }
+			bool operator<(const ss_const_iterator_type& _Right) const {
+				if (this->m_owner_cptr != _Right.m_owner_cptr) { MSE_THROW(msevector_range_error("invalid argument - ss_const_iterator_type& operator<(const ss_const_iterator_type& _Right) - ss_const_iterator_type - msevector")); }
+				return (m_index < _Right.m_index);
+			}
+			bool operator<=(const ss_const_iterator_type& _Right) const { return (((*this) < _Right) || (_Right == (*this))); }
+			bool operator>(const ss_const_iterator_type& _Right) const { return (!((*this) <= _Right)); }
+			bool operator>=(const ss_const_iterator_type& _Right) const { return (!((*this) < _Right)); }
+			void set_to_const_item_pointer(const ss_const_iterator_type& _Right_cref) {
+				(*this) = _Right_cref;
+			}
+			void invalidate_inclusive_range(msev_size_t index_of_first, msev_size_t index_of_last) {
+				if ((index_of_first <= (*this).m_index) && (index_of_last >= (*this).m_index)) {
+					(*this).reset();
+				}
+			}
+			void shift_inclusive_range(msev_size_t index_of_first, msev_size_t index_of_last, msev_int shift) {
+				if ((index_of_first <= (*this).m_index) && (index_of_last >= (*this).m_index)) {
+					auto new_index = (*this).m_index + shift;
+					if ((0 > new_index) || (m_owner_cptr->size() < new_index)) {
+						MSE_THROW(msevector_range_error("void shift_inclusive_range() - ss_const_iterator_type - msevector"));
+					}
+					else {
+						(*this).m_index = msev_size_t(new_index);
+						(*this).sync_const_iterator_to_index();
+					}
+				}
+			}
+			msev_size_t position() const {
+				return m_index;
+			}
+			operator typename base_class::const_iterator() const {
+				typename base_class::const_iterator retval = (*m_owner_cptr).cbegin();
+				retval += msev_as_a_size_t(m_index);
+				return retval;
+			}
+		private:
+			void sync_const_iterator_to_index() {
+				assert(m_owner_cptr->size() >= (*this).m_index);
+				//base_class::const_iterator::operator=(m_owner_cptr->cbegin());
+				//base_class::const_iterator::operator+=(msev_as_a_size_t(m_index));
+			}
+			msev_size_t m_index = 0;
+			msev_pointer<const _Myt> m_owner_cptr = nullptr;
+			friend class /*_Myt*/msevector<_Ty, _A>;
+		};
+		/* ss_iterator_type is a bounds checked iterator. */
+		class ss_iterator_type : public random_access_iterator_base {
+		public:
+			typedef typename base_class::iterator::iterator_category iterator_category;
+			typedef typename base_class::iterator::value_type value_type;
+			//typedef typename base_class::iterator::difference_type difference_type;
+			typedef typename _Myt::difference_type difference_type;
+			typedef difference_type distance_type;	// retained
+			typedef typename base_class::iterator::pointer pointer;
+			typedef typename base_class::iterator::reference reference;
+
+			ss_iterator_type() {}
+			void reset() { set_to_end_marker(); }
+			bool points_to_an_item() const {
+				if (m_owner_ptr->size() > m_index) { return true; }
+				else {
+					if (m_index == m_owner_ptr->size()) { return false; }
+					else { MSE_THROW(msevector_range_error("attempt to use invalid ss_iterator_type - bool points_to_an_item() const - ss_iterator_type - msevector")); }
+				}
+			}
+			bool points_to_end_marker() const {
+				if (false == points_to_an_item()) {
+					assert(m_index == m_owner_ptr->size());
+					return true;
+				}
+				else { return false; }
+			}
+			bool points_to_beginning() const {
+				if (0 == m_index) { return true; }
+				else { return false; }
+			}
+			/* has_next_item_or_end_marker() is just an alias for points_to_an_item(). */
+			bool has_next_item_or_end_marker() const { return points_to_an_item(); }
+			/* has_next() is just an alias for points_to_an_item() that's familiar to java programmers. */
+			bool has_next() const { return has_next_item_or_end_marker(); }
+			bool has_previous() const {
+				if (m_owner_ptr->size() < m_index) {
+					MSE_THROW(msevector_range_error("attempt to use invalid ss_iterator_type - bool has_previous() const - ss_iterator_type - msevector"));
+				} else if (1 <= m_index) {
+					return true;
+				}
+				else {
+					return false;
+				}
+			}
+			void set_to_beginning() {
+				m_index = 0;
+			}
+			void set_to_end_marker() {
+				m_index = m_owner_ptr->size();
+			}
+			void set_to_next() {
+				if (points_to_an_item()) {
+					m_index += 1;
+				}
+				else {
+					MSE_THROW(msevector_range_error("attempt to use invalid item_pointer - void set_to_next() - ss_const_iterator_type - msevector"));
+				}
+			}
+			void set_to_previous() {
+				if (has_previous()) {
+					m_index -= 1;
+				}
+				else {
+					MSE_THROW(msevector_range_error("attempt to use invalid item_pointer - void set_to_previous() - ss_iterator_type - msevector"));
+				}
+			}
+			ss_iterator_type& operator ++() { (*this).set_to_next(); return (*this); }
+			ss_iterator_type operator++(int) { ss_iterator_type _Tmp = *this; (*this).set_to_next(); return (_Tmp); }
+			ss_iterator_type& operator --() { (*this).set_to_previous(); return (*this); }
+			ss_iterator_type operator--(int) { ss_iterator_type _Tmp = *this; (*this).set_to_previous(); return (_Tmp); }
+			void advance(difference_type n) {
+				auto new_index = msev_int(m_index) + n;
+				if ((0 > new_index) || (m_owner_ptr->size() < msev_size_t(new_index))) {
+					MSE_THROW(msevector_range_error("index out of range - void advance(difference_type n) - ss_iterator_type - msevector"));
+				}
+				else {
+					m_index = msev_size_t(new_index);
+				}
+			}
+			void regress(difference_type n) { advance(-n); }
+			ss_iterator_type& operator +=(difference_type n) { (*this).advance(n); return (*this); }
+			ss_iterator_type& operator -=(difference_type n) { (*this).regress(n); return (*this); }
+			ss_iterator_type operator+(difference_type n) const {
+				ss_iterator_type retval; retval.m_owner_ptr = m_owner_ptr;
+				retval = (*this);
+				retval.advance(n);
+				return retval;
+			}
+			ss_iterator_type operator-(difference_type n) const { return ((*this) + (-n)); }
+			difference_type operator-(const ss_iterator_type& rhs) const {
+				if (rhs.m_owner_ptr != (*this).m_owner_ptr) { MSE_THROW(msevector_range_error("invalid argument - difference_type operator-(const ss_iterator_type& rhs) const - msevector::ss_iterator_type")); }
+				auto retval = difference_type((*this).m_index) - difference_type(rhs.m_index);
+				assert(int((*m_owner_ptr).size()) >= retval);
+				return retval;
+			}
+			reference operator*() const {
+				return (*m_owner_ptr).at(msev_as_a_size_t((*this).m_index));
+			}
+			reference item() const { return operator*(); }
+			reference previous_item() const {
+				return m_owner_ptr->at(msev_as_a_size_t(m_index - 1));
+			}
+			pointer operator->() const {
+				return &((*m_owner_ptr).at(msev_as_a_size_t((*this).m_index)));
+			}
+			reference operator[](difference_type _Off) const { return (*m_owner_ptr).at(msev_as_a_size_t(difference_type(m_index) + _Off)); }
+			/*
+			ss_iterator_type& operator=(const typename base_class::iterator& _Right_cref)
+			{
+			msev_int d = std::distance<typename base_class::iterator>(m_owner_ptr->begin(), _Right_cref);
+			if ((0 <= d) && (m_owner_ptr->size() >= d)) {
+			if (m_owner_ptr->size() == d) {
+			assert(m_owner_ptr->end() == _Right_cref);
+			}
+			m_index = msev_size_t(d);
+			base_class::iterator::operator=(_Right_cref);
+			}
+			else {
+			MSE_THROW(msevector_range_error("doesn't seem to be a valid assignment value - ss_iterator_type& operator=(const typename base_class::iterator& _Right_cref) - ss_const_iterator_type - msevector"));
+			}
+			return (*this);
+			}
+			*/
+			ss_iterator_type& operator=(const ss_iterator_type& _Right_cref) {
+				((*this).m_owner_ptr) = _Right_cref.m_owner_ptr;
+				(*this).m_index = _Right_cref.m_index;
+				return (*this);
+			}
+			bool operator==(const ss_iterator_type& _Right_cref) const {
+				if (this->m_owner_ptr != _Right_cref.m_owner_ptr) { MSE_THROW(msevector_range_error("invalid argument - ss_iterator_type& operator==(const ss_iterator_type& _Right) - ss_iterator_type - msevector")); }
+				return (_Right_cref.m_index == m_index);
+			}
+			bool operator!=(const ss_iterator_type& _Right_cref) const { return (!(_Right_cref == (*this))); }
+			bool operator<(const ss_iterator_type& _Right) const {
+				if (this->m_owner_ptr != _Right.m_owner_ptr) { MSE_THROW(msevector_range_error("invalid argument - ss_iterator_type& operator<(const ss_iterator_type& _Right) - ss_iterator_type - msevector")); }
+				return (m_index < _Right.m_index);
+			}
+			bool operator<=(const ss_iterator_type& _Right) const { return (((*this) < _Right) || (_Right == (*this))); }
+			bool operator>(const ss_iterator_type& _Right) const { return (!((*this) <= _Right)); }
+			bool operator>=(const ss_iterator_type& _Right) const { return (!((*this) < _Right)); }
+			void set_to_item_pointer(const ss_iterator_type& _Right_cref) {
+				(*this) = _Right_cref;
+			}
+			void invalidate_inclusive_range(msev_size_t index_of_first, msev_size_t index_of_last) {
+				if ((index_of_first <= (*this).m_index) && (index_of_last >= (*this).m_index)) {
+					(*this).reset();
+				}
+			}
+			void shift_inclusive_range(msev_size_t index_of_first, msev_size_t index_of_last, msev_int shift) {
+				if ((index_of_first <= (*this).m_index) && (index_of_last >= (*this).m_index)) {
+					auto new_index = (*this).m_index + shift;
+					if ((0 > new_index) || (m_owner_ptr->size() < new_index)) {
+						MSE_THROW(msevector_range_error("void shift_inclusive_range() - ss_iterator_type - msevector"));
+					}
+					else {
+						(*this).m_index = msev_size_t(new_index);
+						(*this).sync_iterator_to_index();
+					}
+				}
+			}
+			msev_size_t position() const {
+				return m_index;
+			}
+			operator ss_const_iterator_type() const {
+				ss_const_iterator_type retval;
+				if (nullptr != m_owner_ptr) {
+					retval = m_owner_ptr->ss_cbegin();
+					retval.advance(msev_int(m_index));
+				}
+				return retval;
+			}
+			operator typename base_class::iterator() const {
+				typename base_class::iterator retval = (*m_owner_ptr).begin();
+				retval += msev_as_a_size_t(m_index);
+				return retval;
+			}
+
+		private:
+			void sync_iterator_to_index() {
+				assert(m_owner_ptr->size() >= (*this).m_index);
+				//base_class::iterator::operator=(m_owner_ptr->begin());
+				//base_class::iterator::operator+=(msev_as_a_size_t(m_index));
+			}
+			msev_size_t m_index = 0;
+			msev_pointer<_Myt> m_owner_ptr = nullptr;
+			friend class /*_Myt*/msevector<_Ty, _A>;
+		};
+		typedef std::reverse_iterator<ss_iterator_type> ss_reverse_iterator_type;
+		typedef std::reverse_iterator<ss_const_iterator_type> ss_const_reverse_iterator_type;
+
+		ss_iterator_type ss_begin()
+		{	// return base_class::iterator for beginning of mutable sequence
+			ss_iterator_type retval; retval.m_owner_ptr = this;
+			retval.set_to_beginning();
+			return retval;
+		}
+
+		ss_const_iterator_type ss_begin() const
+		{	// return base_class::iterator for beginning of nonmutable sequence
+			ss_const_iterator_type retval; retval.m_owner_cptr = this;
+			retval.set_to_beginning();
+			return retval;
+		}
+
+		ss_iterator_type ss_end()
+		{	// return base_class::iterator for end of mutable sequence
+			ss_iterator_type retval; retval.m_owner_ptr = this;
+			retval.set_to_end_marker();
+			return retval;
+		}
+
+		ss_const_iterator_type ss_end() const
+		{	// return base_class::iterator for end of nonmutable sequence
+			ss_const_iterator_type retval; retval.m_owner_cptr = this;
+			retval.set_to_end_marker();
+			return retval;
+		}
+
+		ss_const_iterator_type ss_cbegin() const
+		{	// return base_class::iterator for beginning of nonmutable sequence
+			ss_const_iterator_type retval; retval.m_owner_cptr = this;
+			retval.set_to_beginning();
+			return retval;
+		}
+
+		ss_const_iterator_type ss_cend() const
+		{	// return base_class::iterator for end of nonmutable sequence
+			ss_const_iterator_type retval; retval.m_owner_cptr = this;
+			retval.set_to_end_marker();
+			return retval;
+		}
+
+		ss_const_reverse_iterator_type ss_crbegin() const
+		{	// return base_class::iterator for beginning of reversed nonmutable sequence
+			return (ss_rbegin());
+		}
+
+		ss_const_reverse_iterator_type ss_crend() const
+		{	// return base_class::iterator for end of reversed nonmutable sequence
+			return (ss_rend());
+		}
+
+		ss_reverse_iterator_type ss_rbegin()
+		{	// return base_class::iterator for beginning of reversed mutable sequence
+			return (reverse_iterator(ss_end()));
+		}
+
+		ss_const_reverse_iterator_type ss_rbegin() const
+		{	// return base_class::iterator for beginning of reversed nonmutable sequence
+			return (const_reverse_iterator(ss_end()));
+		}
+
+		ss_reverse_iterator_type ss_rend()
+		{	// return base_class::iterator for end of reversed mutable sequence
+			return (reverse_iterator(ss_begin()));
+		}
+
+		ss_const_reverse_iterator_type ss_rend() const
+		{	// return base_class::iterator for end of reversed nonmutable sequence
+			return (const_reverse_iterator(ss_begin()));
+		}
+
+		msevector(const ss_const_iterator_type &start, const ss_const_iterator_type &end, const _A& _Al = _A())
+			: base_class(_Al), m_mmitset(*this) {
+			/*m_debug_size = size();*/
+			assign(start, end);
+		}
+		void assign(const ss_const_iterator_type &start, const ss_const_iterator_type &end) {
+			if (start.m_owner_cptr != end.m_owner_cptr) { MSE_THROW(msevector_range_error("invalid arguments - void assign(const ss_const_iterator_type &start, const ss_const_iterator_type &end) - msevector")); }
+			if (start > end) { MSE_THROW(msevector_range_error("invalid arguments - void assign(const ss_const_iterator_type &start, const ss_const_iterator_type &end) - msevector")); }
+			typename base_class::const_iterator _F = start;
+			typename base_class::const_iterator _L = end;
+			(*this).assign(_F, _L);
+		}
+		void assign_inclusive(const ss_const_iterator_type &first, const ss_const_iterator_type &last) {
+			auto end = last;
+			end++; // this should include some checks
+			(*this).assign(first, end);
+		}
+		ss_iterator_type insert_before(const ss_const_iterator_type &pos, size_type _M, const _Ty& _X) {
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid argument - void insert_before() - msevector")); }
+			pos.assert_valid_index();
+			msev_size_t original_pos = pos.position();
+			typename base_class::const_iterator _P = pos;
+			(*this).insert(_P, _M, _X);
+			ss_iterator_type retval = ss_begin();
+			retval.advance(msev_int(original_pos));
+			return retval;
+		}
+		ss_iterator_type insert_before(const ss_const_iterator_type &pos, _Ty&& _X) {
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid argument - void insert_before() - msevector")); }
+			pos.assert_valid_index();
+			msev_size_t original_pos = pos.position();
+			typename base_class::const_iterator _P = pos;
+			(*this).insert(_P, std::move(_X));
+			ss_iterator_type retval = ss_begin();
+			retval.advance(msev_int(original_pos));
+			return retval;
+		}
+		ss_iterator_type insert_before(const ss_const_iterator_type &pos, const _Ty& _X = _Ty()) { return (*this).insert(pos, 1, _X); }
+		template<class _Iter
+			//>typename std::enable_if<_mse_Is_iterator<_Iter>::value, typename base_class::iterator>::type
+			, class = _mse_RequireInputIter<_Iter> >
+		ss_iterator_type insert_before(const ss_const_iterator_type &pos, const _Iter &start, const _Iter &end) {
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid argument - ss_iterator_type insert_before() - msevector")); }
+			//if (start.m_owner_cptr != end.m_owner_cptr) { MSE_THROW(msevector_range_error("invalid arguments - void insert_before(const ss_const_iterator_type &pos, const ss_const_iterator_type &start, const ss_const_iterator_type &end) - msevector")); }
+			pos.assert_valid_index();
+			msev_size_t original_pos = pos.position();
+			typename base_class::const_iterator _P = pos;
+			(*this).insert(_P, start, end);
+			ss_iterator_type retval = ss_begin();
+			retval.advance(msev_int(original_pos));
+			return retval;
+		}
+		ss_iterator_type insert_before(const ss_const_iterator_type &pos, const ss_const_iterator_type& start, const ss_const_iterator_type &end) {
+			if (start.m_owner_cptr != end.m_owner_cptr) { MSE_THROW(msevector_range_error("invalid arguments - void insert_before(const ss_const_iterator_type &pos, const ss_const_iterator_type &start, const ss_const_iterator_type &end) - msevector")); }
+			end.assert_valid_index();
+			if (start > end) { MSE_THROW(msevector_range_error("invalid arguments - void insert_before(const ss_const_iterator_type &pos, const ss_const_iterator_type &start, const ss_const_iterator_type &end) - msevector")); }
+			typename base_class::const_iterator _S = start;
+			typename base_class::const_iterator _E = end;
+			return (*this).insert_before(pos, _S, _E);
+		}
+		ss_iterator_type insert_before(const ss_const_iterator_type &pos, const _Ty* start, const _Ty* end) {
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - ss_iterator_type insert_before() - msevector")); }
+			//if (start.m_owner_cptr != end.m_owner_cptr) { MSE_THROW(msevector_range_error("invalid arguments - void insert_before(const ss_const_iterator_type &pos, const ss_const_iterator_type &start, const ss_const_iterator_type &end) - msevector")); }
+			if (start > end) { MSE_THROW(msevector_range_error("invalid arguments - ss_iterator_type insert_before() - msevector")); }
+			pos.assert_valid_index();
+			msev_size_t original_pos = pos.position();
+			typename base_class::const_iterator _P = pos;
+			(*this).insert(_P, start, end);
+			ss_iterator_type retval = ss_begin();
+			retval.advance(msev_int(original_pos));
+			return retval;
+		}
+		template<class _Iter
+			//>typename std::enable_if<_mse_Is_iterator<_Iter>::value, typename base_class::iterator>::type
+			, class = _mse_RequireInputIter<_Iter> >
+		ss_iterator_type insert_before_inclusive(const ss_iterator_type &pos, const _Iter &first, const _Iter &last) {
+			auto end = last;
+			end++; // this may include some checks
+			return (*this).insert_before(pos, first, end);
+		}
+		ss_iterator_type insert_before(const ss_const_iterator_type &pos, _XSTD initializer_list<typename base_class::value_type> _Ilist) {	// insert initializer_list
+			if (pos.m_owner_ptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void insert_before() - msevector")); }
+			pos.assert_valid_index();
+			msev_size_t original_pos = pos.position();
+			typename base_class::const_iterator _P = pos;
+			(*this).insert(_P, _Ilist);
+			ss_iterator_type retval = ss_begin();
+			retval.advance(msev_int(original_pos));
+			return retval;
+		}
+		/* These insert() functions are just aliases for their corresponding insert_before() functions. */
+		ss_iterator_type insert(const ss_const_iterator_type &pos, size_type _M, const _Ty& _X) { return insert_before(pos, _M, _X); }
+		ss_iterator_type insert(const ss_const_iterator_type &pos, _Ty&& _X) { return insert_before(pos, std::move(_X)); }
+		ss_iterator_type insert(const ss_const_iterator_type &pos, const _Ty& _X = _Ty()) { return insert_before(pos, _X); }
+		template<class _Iter
+			//>typename std::enable_if<_mse_Is_iterator<_Iter>::value, typename base_class::iterator>::type
+			, class = _mse_RequireInputIter<_Iter> >
+		ss_iterator_type insert(const ss_const_iterator_type &pos, const _Iter &start, const _Iter &end) { return insert_before(pos, start, end); }
+		ss_iterator_type insert(const ss_const_iterator_type &pos, const _Ty* start, const _Ty* &end) { return insert_before(pos, start, end); }
+		ss_iterator_type insert(const ss_const_iterator_type &pos, _XSTD initializer_list<typename base_class::value_type> _Ilist) { return insert_before(pos, _Ilist); }
+		template<class ..._Valty>
+#if !(defined(GPP4P8_COMPATIBLE))
+		ss_iterator_type emplace(const ss_const_iterator_type &pos, _Valty&& ..._Val)
+		{	// insert by moving _Val at pos
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void emplace() - msevector")); }
+#else /*!(defined(GPP4P8_COMPATIBLE))*/
+		ipointer emplace(const ipointer &pos, _Valty&& ..._Val)
+		{	// insert by moving _Val at pos
+			if (pos.m_owner_ptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void emplace() - msevector")); }
+#endif /*!(defined(GPP4P8_COMPATIBLE))*/
+			pos.assert_valid_index();
+			msev_size_t original_pos = pos.position();
+			typename base_class::const_iterator _P = pos;
+			(*this).emplace(_P,  std::forward<_Valty>(_Val)...);
+			ss_iterator_type retval = ss_begin();
+			retval.advance(msev_int(original_pos));
+			return retval;
+		}
+		ss_iterator_type erase(const ss_const_iterator_type &pos) {
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void erase() - msevector")); }
+			if (!pos.points_to_an_item()) { MSE_THROW(msevector_range_error("invalid arguments - void erase() - msevector")); }
+			auto pos_index = pos.position();
+
+			typename base_class::const_iterator _P = pos;
+			(*this).erase(_P);
+
+			ss_iterator_type retval = (*this).ss_begin();
+			retval.advance(typename ss_const_iterator_type::difference_type(pos_index));
+			return retval;
+		}
+		ss_iterator_type erase(const ss_const_iterator_type &start, const ss_const_iterator_type &end) {
+			if (start.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void erase() - msevector")); }
+			if (end.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void erase() - msevector")); }
+			if (start.position() > end.position()) { MSE_THROW(msevector_range_error("invalid arguments - void erase() - msevector")); }
+			auto pos_index = start.position();
+
+			typename base_class::const_iterator _F = start;
+			typename base_class::const_iterator _L = end;
+			(*this).erase(_F, _L);
+
+			ss_iterator_type retval = (*this).ss_begin();
+			retval.advance(typename ss_const_iterator_type::difference_type(pos_index));
+			return retval;
+		}
+		ss_iterator_type erase_inclusive(const ss_const_iterator_type &first, const ss_const_iterator_type &last) {
+			auto end = last; end.set_to_next();
+			return erase(first, end);
+		}
+		void erase_previous_item(const ss_const_iterator_type &pos) {
+			if (pos.m_owner_cptr != this) { MSE_THROW(msevector_range_error("invalid arguments - void erase_previous_item() - msevector")); }
+			if (!(pos.has_previous())) { MSE_THROW(msevector_range_error("invalid arguments - void erase_previous_item() - msevector")); }
+			typename base_class::const_iterator _P = pos;
+			_P--;
+			(*this).erase(_P);
+		}
+	};
+
+}
+
+#undef MSE_THROW
+
+#endif /*ndef MSEMSEVECTOR_H*/