File: gsl-lite.hpp

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//
// gsl-lite is based on GSL: Guidelines Support Library.
// For more information see https://github.com/gsl-lite/gsl-lite
//
// Copyright (c) 2015-2019 Martin Moene
// Copyright (c) 2019-2021 Moritz Beutel
// Copyright (c) 2015-2018 Microsoft Corporation. All rights reserved.
//
// This code is licensed under the MIT License (MIT).
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.

#ifndef GSL_GSL_LITE_HPP_INCLUDED
#define GSL_GSL_LITE_HPP_INCLUDED

#include <exception> // for exception, terminate(), uncaught_exceptions()
#include <limits>
#include <memory>    // for addressof(), unique_ptr<>, shared_ptr<>
#include <iosfwd>    // for basic_ostream<>
#include <ios>       // for ios_base, streamsize
#include <stdexcept> // for logic_error
#include <string>
#include <utility>   // for move(), forward<>(), swap()
#include <cstddef>   // for size_t, ptrdiff_t, nullptr_t

#define  gsl_lite_MAJOR  0
#define  gsl_lite_MINOR  38
#define  gsl_lite_PATCH  1

#define  gsl_lite_VERSION  gsl_STRINGIFY(gsl_lite_MAJOR) "." gsl_STRINGIFY(gsl_lite_MINOR) "." gsl_STRINGIFY(gsl_lite_PATCH)

#define gsl_STRINGIFY(  x )  gsl_STRINGIFY_( x )
#define gsl_STRINGIFY_( x )  #x
#define gsl_CONCAT_(  a, b )  gsl_CONCAT2_( a, b )
#define gsl_CONCAT2_( a, b )  a##b
#define gsl_EVALF_( f )  f()

// configuration argument checking:

#define gsl_DETAIL_CFG_TOGGLE_VALUE_1  1
#define gsl_DETAIL_CFG_TOGGLE_VALUE_0  1
#define gsl_DETAIL_CFG_DEFAULTS_VERSION_VALUE_1  1
#define gsl_DETAIL_CFG_DEFAULTS_VERSION_VALUE_0  1
#define gsl_DETAIL_CFG_STD_VALUE_98  1
#define gsl_DETAIL_CFG_STD_VALUE_3   1
#define gsl_DETAIL_CFG_STD_VALUE_03  1
#define gsl_DETAIL_CFG_STD_VALUE_11  1
#define gsl_DETAIL_CFG_STD_VALUE_14  1
#define gsl_DETAIL_CFG_STD_VALUE_17  1
#define gsl_DETAIL_CFG_STD_VALUE_20  1
#define gsl_DETAIL_CFG_NO_VALUE_   1
#define gsl_DETAIL_CFG_NO_VALUE_1  1 // many compilers treat the command-line parameter "-Dfoo" as equivalent to "-Dfoo=1", so we tolerate that
#define gsl_CHECK_CFG_TOGGLE_VALUE_( x )  gsl_CONCAT_( gsl_DETAIL_CFG_TOGGLE_VALUE_, x )
#define gsl_CHECK_CFG_DEFAULTS_VERSION_VALUE_( x )  gsl_CONCAT_( gsl_DETAIL_CFG_DEFAULTS_VERSION_VALUE_, x )
#define gsl_CHECK_CFG_STD_VALUE_( x )  gsl_CONCAT_( gsl_DETAIL_CFG_STD_VALUE_, x )
#define gsl_CHECK_CFG_NO_VALUE_( x )  gsl_CONCAT_( gsl_DETAIL_CFG_NO_VALUE, gsl_CONCAT_( _, x ) )

// gsl-lite backward compatibility:

#if defined( gsl_CONFIG_DEFAULTS_VERSION )
# if ! gsl_CHECK_CFG_DEFAULTS_VERSION_VALUE_( gsl_CONFIG_DEFAULTS_VERSION )
#  pragma message ("invalid configuration value gsl_CONFIG_DEFAULTS_VERSION=" gsl_STRINGIFY(gsl_CONFIG_DEFAULTS_VERSION) ", must be 0 or 1")
# endif
#else
# define gsl_CONFIG_DEFAULTS_VERSION  gsl_lite_MAJOR  // default
#endif
# define gsl_CONFIG_DEFAULTS_VERSION_()  gsl_CONFIG_DEFAULTS_VERSION

#if defined( gsl_CONFIG_ALLOWS_SPAN_CONTAINER_CTOR )
# if ! gsl_CHECK_CFG_TOGGLE_VALUE_( gsl_CONFIG_ALLOWS_SPAN_CONTAINER_CTOR )
#  pragma message ("invalid configuration value gsl_CONFIG_ALLOWS_SPAN_CONTAINER_CTOR=" gsl_STRINGIFY(gsl_CONFIG_ALLOWS_SPAN_CONTAINER_CTOR) ", must be 0 or 1")
# endif
# define gsl_CONFIG_ALLOWS_UNCONSTRAINED_SPAN_CONTAINER_CTOR  gsl_CONFIG_ALLOWS_SPAN_CONTAINER_CTOR
# pragma message ("gsl_CONFIG_ALLOWS_SPAN_CONTAINER_CTOR is deprecated since gsl-lite 0.7; replace with gsl_CONFIG_ALLOWS_UNCONSTRAINED_SPAN_CONTAINER_CTOR, or consider span(with_container, cont).")
#endif

#if defined( gsl_CONFIG_CONTRACT_LEVEL_ON )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_LEVEL_ON )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_LEVEL_ON=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_LEVEL_ON) "; macro must be defined without value")
# endif
# pragma message ("gsl_CONFIG_CONTRACT_LEVEL_ON is deprecated since gsl-lite 0.36; replace with gsl_CONFIG_CONTRACT_CHECKING_ON.")
# define gsl_CONFIG_CONTRACT_CHECKING_ON
#endif
#if defined( gsl_CONFIG_CONTRACT_LEVEL_OFF )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_LEVEL_OFF )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_LEVEL_OFF=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_LEVEL_OFF) "; macro must be defined without value")
# endif
# pragma message ("gsl_CONFIG_CONTRACT_LEVEL_OFF is deprecated since gsl-lite 0.36; replace with gsl_CONFIG_CONTRACT_CHECKING_OFF.")
# define gsl_CONFIG_CONTRACT_CHECKING_OFF
#endif
#if   defined( gsl_CONFIG_CONTRACT_LEVEL_EXPECTS_ONLY )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_LEVEL_EXPECTS_ONLY )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_LEVEL_EXPECTS_ONLY=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_LEVEL_EXPECTS_ONLY) "; macro must be defined without value")
# endif
# pragma message ("gsl_CONFIG_CONTRACT_LEVEL_EXPECTS_ONLY is deprecated since gsl-lite 0.36; replace with gsl_CONFIG_CONTRACT_CHECKING_ENSURES_OFF and gsl_CONFIG_CONTRACT_CHECKING_ASSERT_OFF.")
# define gsl_CONFIG_CONTRACT_CHECKING_ON
# define gsl_CONFIG_CONTRACT_CHECKING_ENSURES_OFF
# define gsl_CONFIG_CONTRACT_CHECKING_ASSERT_OFF
#elif defined( gsl_CONFIG_CONTRACT_LEVEL_ENSURES_ONLY )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_LEVEL_ENSURES_ONLY )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_LEVEL_ENSURES_ONLY=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_LEVEL_ENSURES_ONLY) "; macro must be defined without value")
# endif
# pragma message ("gsl_CONFIG_CONTRACT_LEVEL_ENSURES_ONLY is deprecated since gsl-lite 0.36; replace with gsl_CONFIG_CONTRACT_CHECKING_EXPECTS_OFF and gsl_CONFIG_CONTRACT_CHECKING_ASSERT_OFF.")
# define gsl_CONFIG_CONTRACT_CHECKING_ON
# define gsl_CONFIG_CONTRACT_CHECKING_EXPECTS_OFF
# define gsl_CONFIG_CONTRACT_CHECKING_ASSERT_OFF
#endif

// M-GSL compatibility:

#if defined( GSL_THROW_ON_CONTRACT_VIOLATION )
# if ! gsl_CHECK_CFG_NO_VALUE_( GSL_THROW_ON_CONTRACT_VIOLATION )
#  pragma message ("invalid configuration value GSL_THROW_ON_CONTRACT_VIOLATION=" gsl_STRINGIFY(GSL_THROW_ON_CONTRACT_VIOLATION) "; macro must be defined without value")
# endif
# define gsl_CONFIG_CONTRACT_VIOLATION_THROWS
#endif

#if defined( GSL_TERMINATE_ON_CONTRACT_VIOLATION )
# if ! gsl_CHECK_CFG_NO_VALUE_( GSL_TERMINATE_ON_CONTRACT_VIOLATION )
#  pragma message ("invalid configuration value GSL_TERMINATE_ON_CONTRACT_VIOLATION=" gsl_STRINGIFY(GSL_TERMINATE_ON_CONTRACT_VIOLATION) "; macro must be defined without value")
# endif
# define gsl_CONFIG_CONTRACT_VIOLATION_TERMINATES
#endif

#if defined( GSL_UNENFORCED_ON_CONTRACT_VIOLATION )
# if ! gsl_CHECK_CFG_NO_VALUE_( GSL_UNENFORCED_ON_CONTRACT_VIOLATION )
#  pragma message ("invalid configuration value GSL_UNENFORCED_ON_CONTRACT_VIOLATION=" gsl_STRINGIFY(GSL_UNENFORCED_ON_CONTRACT_VIOLATION) "; macro must be defined without value")
# endif
# define gsl_CONFIG_CONTRACT_CHECKING_OFF
#endif

// Configuration: Features

#if defined( gsl_FEATURE_WITH_CONTAINER_TO_STD )
# if ! gsl_CHECK_CFG_STD_VALUE_( gsl_FEATURE_WITH_CONTAINER_TO_STD )
#  pragma message ("invalid configuration value gsl_FEATURE_WITH_CONTAINER_TO_STD=" gsl_STRINGIFY(gsl_FEATURE_WITH_CONTAINER_TO_STD) ", must be 98, 3, 11, 14, 17, or 20")
# endif
#else
# define gsl_FEATURE_WITH_CONTAINER_TO_STD  99  // default
#endif
#define gsl_FEATURE_WITH_CONTAINER_TO_STD_()  gsl_FEATURE_WITH_CONTAINER_TO_STD

#if defined( gsl_FEATURE_MAKE_SPAN_TO_STD )
# if ! gsl_CHECK_CFG_STD_VALUE_( gsl_FEATURE_MAKE_SPAN_TO_STD )
#  pragma message ("invalid configuration value gsl_FEATURE_MAKE_SPAN_TO_STD=" gsl_STRINGIFY(gsl_FEATURE_MAKE_SPAN_TO_STD) ", must be 98, 3, 11, 14, 17, or 20")
# endif
#else
# define gsl_FEATURE_MAKE_SPAN_TO_STD  99  // default
#endif
#define gsl_FEATURE_MAKE_SPAN_TO_STD_()  gsl_FEATURE_MAKE_SPAN_TO_STD

#if defined( gsl_FEATURE_BYTE_SPAN_TO_STD )
# if ! gsl_CHECK_CFG_STD_VALUE_( gsl_FEATURE_BYTE_SPAN_TO_STD )
#  pragma message ("invalid configuration value gsl_FEATURE_BYTE_SPAN_TO_STD=" gsl_STRINGIFY(gsl_FEATURE_BYTE_SPAN_TO_STD) ", must be 98, 3, 11, 14, 17, or 20")
# endif
#else
# define gsl_FEATURE_BYTE_SPAN_TO_STD  99  // default
#endif
#define gsl_FEATURE_BYTE_SPAN_TO_STD_()  gsl_FEATURE_BYTE_SPAN_TO_STD

#if defined( gsl_FEATURE_IMPLICIT_MACRO )
# if ! gsl_CHECK_CFG_TOGGLE_VALUE_( gsl_FEATURE_IMPLICIT_MACRO )
#  pragma message ("invalid configuration value gsl_FEATURE_IMPLICIT_MACRO=" gsl_STRINGIFY(gsl_FEATURE_IMPLICIT_MACRO) ", must be 0 or 1")
# endif
#else
# define gsl_FEATURE_IMPLICIT_MACRO  0  // default
#endif
#define gsl_FEATURE_IMPLICIT_MACRO_()  gsl_FEATURE_IMPLICIT_MACRO

#if defined( gsl_FEATURE_OWNER_MACRO )
# if ! gsl_CHECK_CFG_TOGGLE_VALUE_( gsl_FEATURE_OWNER_MACRO )
#  pragma message ("invalid configuration value gsl_FEATURE_OWNER_MACRO=" gsl_STRINGIFY(gsl_FEATURE_OWNER_MACRO) ", must be 0 or 1")
# endif
#else
# define gsl_FEATURE_OWNER_MACRO  (gsl_CONFIG_DEFAULTS_VERSION == 0)  // default
#endif
#define gsl_FEATURE_OWNER_MACRO_()  gsl_FEATURE_OWNER_MACRO

#if defined( gsl_FEATURE_EXPERIMENTAL_RETURN_GUARD )
# if ! gsl_CHECK_CFG_TOGGLE_VALUE_( gsl_FEATURE_EXPERIMENTAL_RETURN_GUARD )
#  pragma message ("invalid configuration value gsl_FEATURE_EXPERIMENTAL_RETURN_GUARD=" gsl_STRINGIFY(gsl_FEATURE_EXPERIMENTAL_RETURN_GUARD) ", must be 0 or 1")
# endif
#else
# define gsl_FEATURE_EXPERIMENTAL_RETURN_GUARD  0 // default
#endif
# define gsl_FEATURE_EXPERIMENTAL_RETURN_GUARD_()  gsl_FEATURE_EXPERIMENTAL_RETURN_GUARD

#if defined( gsl_FEATURE_GSL_LITE_NAMESPACE )
# if ! gsl_CHECK_CFG_TOGGLE_VALUE_( gsl_FEATURE_GSL_LITE_NAMESPACE )
#  pragma message ("invalid configuration value gsl_FEATURE_GSL_LITE_NAMESPACE=" gsl_STRINGIFY(gsl_FEATURE_GSL_LITE_NAMESPACE) ", must be 0 or 1")
# endif
#else
# define gsl_FEATURE_GSL_LITE_NAMESPACE  (gsl_CONFIG_DEFAULTS_VERSION >= 1)  // default
#endif
#define gsl_FEATURE_GSL_LITE_NAMESPACE_()  gsl_FEATURE_GSL_LITE_NAMESPACE

// Configuration: Other

#if defined( gsl_CONFIG_TRANSPARENT_NOT_NULL )
# if ! gsl_CHECK_CFG_TOGGLE_VALUE_( gsl_CONFIG_TRANSPARENT_NOT_NULL )
#  pragma message ("invalid configuration value gsl_CONFIG_TRANSPARENT_NOT_NULL=" gsl_STRINGIFY(gsl_CONFIG_TRANSPARENT_NOT_NULL) ", must be 0 or 1")
# endif
# if gsl_CONFIG_TRANSPARENT_NOT_NULL && defined( gsl_CONFIG_NOT_NULL_GET_BY_CONST_REF )
#  error configuration option gsl_CONFIG_NOT_NULL_GET_BY_CONST_REF is meaningless if gsl_CONFIG_TRANSPARENT_NOT_NULL=1
# endif
#else
# define gsl_CONFIG_TRANSPARENT_NOT_NULL  (gsl_CONFIG_DEFAULTS_VERSION >= 1)  // default
#endif
# define gsl_CONFIG_TRANSPARENT_NOT_NULL_()  gsl_CONFIG_TRANSPARENT_NOT_NULL

#if ! defined( gsl_CONFIG_DEPRECATE_TO_LEVEL )
# if gsl_CONFIG_DEFAULTS_VERSION >= 1
#  define gsl_CONFIG_DEPRECATE_TO_LEVEL  6
# else
#  define gsl_CONFIG_DEPRECATE_TO_LEVEL  0
# endif
#endif

#if ! defined( gsl_CONFIG_SPAN_INDEX_TYPE )
# define gsl_CONFIG_SPAN_INDEX_TYPE  std::size_t
#endif
# define gsl_CONFIG_SPAN_INDEX_TYPE_()  gsl_CONFIG_SPAN_INDEX_TYPE

#if ! defined( gsl_CONFIG_INDEX_TYPE )
# if gsl_CONFIG_DEFAULTS_VERSION >= 1
// p0122r3 uses std::ptrdiff_t
#  define gsl_CONFIG_INDEX_TYPE  std::ptrdiff_t
# else
#  define gsl_CONFIG_INDEX_TYPE  gsl_CONFIG_SPAN_INDEX_TYPE
# endif
#endif
# define gsl_CONFIG_INDEX_TYPE_()  gsl_CONFIG_INDEX_TYPE

#if defined( gsl_CONFIG_NOT_NULL_EXPLICIT_CTOR )
# if ! gsl_CHECK_CFG_TOGGLE_VALUE_( gsl_CONFIG_NOT_NULL_EXPLICIT_CTOR )
#  pragma message ("invalid configuration value gsl_CONFIG_NOT_NULL_EXPLICIT_CTOR=" gsl_STRINGIFY(gsl_CONFIG_NOT_NULL_EXPLICIT_CTOR) ", must be 0 or 1")
# endif
#else
# define gsl_CONFIG_NOT_NULL_EXPLICIT_CTOR  (gsl_CONFIG_DEFAULTS_VERSION >= 1)  // default
#endif
#define gsl_CONFIG_NOT_NULL_EXPLICIT_CTOR_()  gsl_CONFIG_NOT_NULL_EXPLICIT_CTOR

#if defined( gsl_CONFIG_NOT_NULL_GET_BY_CONST_REF )
# if ! gsl_CHECK_CFG_TOGGLE_VALUE_( gsl_CONFIG_NOT_NULL_GET_BY_CONST_REF )
#  pragma message ("invalid configuration value gsl_CONFIG_NOT_NULL_GET_BY_CONST_REF=" gsl_STRINGIFY(gsl_CONFIG_NOT_NULL_GET_BY_CONST_REF) ", must be 0 or 1")
# endif
#else
# define gsl_CONFIG_NOT_NULL_GET_BY_CONST_REF  0  // default
#endif
#define gsl_CONFIG_NOT_NULL_GET_BY_CONST_REF_()  gsl_CONFIG_NOT_NULL_GET_BY_CONST_REF

#if defined( gsl_CONFIG_CONFIRMS_COMPILATION_ERRORS )
# if ! gsl_CHECK_CFG_TOGGLE_VALUE_( gsl_CONFIG_CONFIRMS_COMPILATION_ERRORS )
#  pragma message ("invalid configuration value gsl_CONFIG_CONFIRMS_COMPILATION_ERRORS=" gsl_STRINGIFY(gsl_CONFIG_CONFIRMS_COMPILATION_ERRORS) ", must be 0 or 1")
# endif
#else
# define gsl_CONFIG_CONFIRMS_COMPILATION_ERRORS  0  // default
#endif
#define gsl_CONFIG_CONFIRMS_COMPILATION_ERRORS_()  gsl_CONFIG_CONFIRMS_COMPILATION_ERRORS

#if defined( gsl_CONFIG_ALLOWS_SPAN_COMPARISON )
# if ! gsl_CHECK_CFG_TOGGLE_VALUE_( gsl_CONFIG_ALLOWS_SPAN_COMPARISON )
#  pragma message ("invalid configuration value gsl_CONFIG_ALLOWS_SPAN_COMPARISON=" gsl_STRINGIFY(gsl_CONFIG_ALLOWS_SPAN_COMPARISON) ", must be 0 or 1")
# endif
#else
# define gsl_CONFIG_ALLOWS_SPAN_COMPARISON  (gsl_CONFIG_DEFAULTS_VERSION == 0)  // default
#endif
#define gsl_CONFIG_ALLOWS_SPAN_COMPARISON_()  gsl_CONFIG_ALLOWS_SPAN_COMPARISON

#if defined( gsl_CONFIG_ALLOWS_NONSTRICT_SPAN_COMPARISON )
# if ! gsl_CHECK_CFG_TOGGLE_VALUE_( gsl_CONFIG_ALLOWS_NONSTRICT_SPAN_COMPARISON )
#  pragma message ("invalid configuration value gsl_CONFIG_ALLOWS_NONSTRICT_SPAN_COMPARISON=" gsl_STRINGIFY(gsl_CONFIG_ALLOWS_NONSTRICT_SPAN_COMPARISON) ", must be 0 or 1")
# endif
#else
# define gsl_CONFIG_ALLOWS_NONSTRICT_SPAN_COMPARISON  1  // default
#endif
#define gsl_CONFIG_ALLOWS_NONSTRICT_SPAN_COMPARISON_()  gsl_CONFIG_ALLOWS_NONSTRICT_SPAN_COMPARISON

#if defined( gsl_CONFIG_ALLOWS_UNCONSTRAINED_SPAN_CONTAINER_CTOR )
# if ! gsl_CHECK_CFG_TOGGLE_VALUE_( gsl_CONFIG_ALLOWS_UNCONSTRAINED_SPAN_CONTAINER_CTOR )
#  pragma message ("invalid configuration value gsl_CONFIG_ALLOWS_UNCONSTRAINED_SPAN_CONTAINER_CTOR=" gsl_STRINGIFY(gsl_CONFIG_ALLOWS_UNCONSTRAINED_SPAN_CONTAINER_CTOR) ", must be 0 or 1")
# endif
#else
# define gsl_CONFIG_ALLOWS_UNCONSTRAINED_SPAN_CONTAINER_CTOR  0  // default
#endif
#define gsl_CONFIG_ALLOWS_UNCONSTRAINED_SPAN_CONTAINER_CTOR_()  gsl_CONFIG_ALLOWS_UNCONSTRAINED_SPAN_CONTAINER_CTOR

#if defined( gsl_CONFIG_NARROW_THROWS_ON_TRUNCATION )
# if ! gsl_CHECK_CFG_TOGGLE_VALUE_( gsl_CONFIG_NARROW_THROWS_ON_TRUNCATION )
#  pragma message ("invalid configuration value gsl_CONFIG_NARROW_THROWS_ON_TRUNCATION=" gsl_STRINGIFY(gsl_CONFIG_NARROW_THROWS_ON_TRUNCATION) ", must be 0 or 1")
# endif
#else
# define gsl_CONFIG_NARROW_THROWS_ON_TRUNCATION  (gsl_CONFIG_DEFAULTS_VERSION >= 1)  // default
#endif
#define gsl_CONFIG_NARROW_THROWS_ON_TRUNCATION_()  gsl_CONFIG_NARROW_THROWS_ON_TRUNCATION

#if defined( gsl_CONFIG_CONTRACT_CHECKING_EXPECTS_OFF )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_CHECKING_EXPECTS_OFF )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_CHECKING_EXPECTS_OFF=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_CHECKING_EXPECTS_OFF) "; macro must be defined without value")
# endif
#endif
#if defined( gsl_CONFIG_CONTRACT_CHECKING_ENSURES_OFF )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_CHECKING_ENSURES_OFF )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_CHECKING_ENSURES_OFF=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_CHECKING_ENSURES_OFF) "; macro must be defined without value")
# endif
#endif
#if defined( gsl_CONFIG_CONTRACT_CHECKING_ASSERT_OFF )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_CHECKING_ASSERT_OFF )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_CHECKING_ASSERT_OFF=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_CHECKING_ASSERT_OFF) "; macro must be defined without value")
# endif
#endif
#if defined( gsl_CONFIG_CONTRACT_CHECKING_AUDIT )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_CHECKING_AUDIT )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_CHECKING_AUDIT=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_CHECKING_AUDIT) "; macro must be defined without value")
# endif
#endif
#if defined( gsl_CONFIG_CONTRACT_CHECKING_ON )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_CHECKING_ON )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_CHECKING_ON=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_CHECKING_ON) "; macro must be defined without value")
# endif
#endif
#if defined( gsl_CONFIG_CONTRACT_CHECKING_OFF )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_CHECKING_OFF )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_CHECKING_OFF=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_CHECKING_OFF) "; macro must be defined without value")
# endif
#endif
#if defined( gsl_CONFIG_CONTRACT_VIOLATION_THROWS )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_VIOLATION_THROWS )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_VIOLATION_THROWS=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_VIOLATION_THROWS) "; macro must be defined without value")
# endif
#endif
#if defined( gsl_CONFIG_CONTRACT_VIOLATION_TERMINATES )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_VIOLATION_TERMINATES )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_VIOLATION_TERMINATES=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_VIOLATION_TERMINATES) "; macro must be defined without value")
# endif
#endif
#if defined( gsl_CONFIG_CONTRACT_VIOLATION_ASSERTS )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_VIOLATION_ASSERTS )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_VIOLATION_ASSERTS=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_VIOLATION_ASSERTS) "; macro must be defined without value")
# endif
#endif
#if defined( gsl_CONFIG_CONTRACT_VIOLATION_TRAPS )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_VIOLATION_TRAPS )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_VIOLATION_TRAPS=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_VIOLATION_TRAPS) "; macro must be defined without value")
# endif
#endif
#if defined( gsl_CONFIG_CONTRACT_VIOLATION_CALLS_HANDLER )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_CONTRACT_VIOLATION_CALLS_HANDLER )
#  pragma message ("invalid configuration value gsl_CONFIG_CONTRACT_VIOLATION_CALLS_HANDLER=" gsl_STRINGIFY(gsl_CONFIG_CONTRACT_VIOLATION_CALLS_HANDLER) "; macro must be defined without value")
# endif
#endif
#if defined( gsl_CONFIG_UNENFORCED_CONTRACTS_ASSUME )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_UNENFORCED_CONTRACTS_ASSUME )
#  pragma message ("invalid configuration value gsl_CONFIG_UNENFORCED_CONTRACTS_ASSUME=" gsl_STRINGIFY(gsl_CONFIG_UNENFORCED_CONTRACTS_ASSUME) "; macro must be defined without value")
# endif
#endif
#if defined( gsl_CONFIG_UNENFORCED_CONTRACTS_ELIDE )
# if ! gsl_CHECK_CFG_NO_VALUE_( gsl_CONFIG_UNENFORCED_CONTRACTS_ELIDE )
#  pragma message ("invalid configuration value gsl_CONFIG_UNENFORCED_CONTRACTS_ELIDE=" gsl_STRINGIFY(gsl_CONFIG_UNENFORCED_CONTRACTS_ELIDE) "; macro must be defined without value")
# endif
#endif

#if 1 < defined( gsl_CONFIG_CONTRACT_CHECKING_AUDIT ) + defined( gsl_CONFIG_CONTRACT_CHECKING_ON ) + defined( gsl_CONFIG_CONTRACT_CHECKING_OFF )
# error only one of gsl_CONFIG_CONTRACT_CHECKING_AUDIT, gsl_CONFIG_CONTRACT_CHECKING_ON, and gsl_CONFIG_CONTRACT_CHECKING_OFF may be defined
#endif
#if 1 < defined( gsl_CONFIG_CONTRACT_VIOLATION_THROWS ) + defined( gsl_CONFIG_CONTRACT_VIOLATION_TERMINATES ) + defined( gsl_CONFIG_CONTRACT_VIOLATION_ASSERTS ) + defined( gsl_CONFIG_CONTRACT_VIOLATION_TRAPS ) + defined( gsl_CONFIG_CONTRACT_VIOLATION_CALLS_HANDLER )
# error only one of gsl_CONFIG_CONTRACT_VIOLATION_THROWS, gsl_CONFIG_CONTRACT_VIOLATION_TERMINATES, gsl_CONFIG_CONTRACT_VIOLATION_ASSERTS, gsl_CONFIG_CONTRACT_VIOLATION_TRAPS, and gsl_CONFIG_CONTRACT_VIOLATION_CALLS_HANDLER may be defined
#endif
#if 1 < defined( gsl_CONFIG_UNENFORCED_CONTRACTS_ASSUME ) + defined( gsl_CONFIG_UNENFORCED_CONTRACTS_ELIDE )
# error only one of gsl_CONFIG_UNENFORCED_CONTRACTS_ASSUME and gsl_CONFIG_UNENFORCED_CONTRACTS_ELIDE may be defined
#endif

#if 0 == defined( gsl_CONFIG_CONTRACT_CHECKING_AUDIT ) + defined( gsl_CONFIG_CONTRACT_CHECKING_ON ) + defined( gsl_CONFIG_CONTRACT_CHECKING_OFF )
// select default
# define gsl_CONFIG_CONTRACT_CHECKING_ON
#endif
#if 0 == defined( gsl_CONFIG_CONTRACT_VIOLATION_THROWS ) + defined( gsl_CONFIG_CONTRACT_VIOLATION_TERMINATES ) + defined( gsl_CONFIG_CONTRACT_VIOLATION_ASSERTS ) + defined( gsl_CONFIG_CONTRACT_VIOLATION_TRAPS ) + defined( gsl_CONFIG_CONTRACT_VIOLATION_CALLS_HANDLER )
// select default
# define gsl_CONFIG_CONTRACT_VIOLATION_TERMINATES
#endif
#if 0 == defined( gsl_CONFIG_UNENFORCED_CONTRACTS_ASSUME ) + defined( gsl_CONFIG_UNENFORCED_CONTRACTS_ELIDE )
// select default
# define gsl_CONFIG_UNENFORCED_CONTRACTS_ELIDE
#endif

// C++ language version detection (C++20 is speculative):
// Note: VC14.0/1900 (VS2015) lacks too much from C++14.

#ifndef   gsl_CPLUSPLUS
# if defined(_MSVC_LANG ) && !defined(__clang__)
#  define gsl_CPLUSPLUS  (_MSC_VER == 1900 ? 201103L : _MSVC_LANG )
# else
#  define gsl_CPLUSPLUS  __cplusplus
# endif
#endif

// C++ standard library version:

#ifndef  gsl_CPLUSPLUS_STDLIB
# define gsl_CPLUSPLUS_STDLIB  gsl_CPLUSPLUS
#endif

#define gsl_CPP98_OR_GREATER  ( gsl_CPLUSPLUS >= 199711L )
#define gsl_CPP11_OR_GREATER  ( gsl_CPLUSPLUS >= 201103L )
#define gsl_CPP14_OR_GREATER  ( gsl_CPLUSPLUS >= 201402L )
#define gsl_CPP17_OR_GREATER  ( gsl_CPLUSPLUS >= 201703L )
#define gsl_CPP20_OR_GREATER  ( gsl_CPLUSPLUS >= 202000L )

// C++ language version (represent 98 as 3):

#define gsl_CPLUSPLUS_V  ( gsl_CPLUSPLUS / 100 - (gsl_CPLUSPLUS > 200000 ? 2000 : 1994) )

// half-open range [lo..hi):
#define gsl_BETWEEN( v, lo, hi ) ( (lo) <= (v) && (v) < (hi) )

// Compiler versions:

// MSVC++  6.0  _MSC_VER == 1200  gsl_COMPILER_MSVC_VERSION ==  60  (Visual Studio 6.0)
// MSVC++  7.0  _MSC_VER == 1300  gsl_COMPILER_MSVC_VERSION ==  70  (Visual Studio .NET 2002)
// MSVC++  7.1  _MSC_VER == 1310  gsl_COMPILER_MSVC_VERSION ==  71  (Visual Studio .NET 2003)
// MSVC++  8.0  _MSC_VER == 1400  gsl_COMPILER_MSVC_VERSION ==  80  (Visual Studio 2005)
// MSVC++  9.0  _MSC_VER == 1500  gsl_COMPILER_MSVC_VERSION ==  90  (Visual Studio 2008)
// MSVC++ 10.0  _MSC_VER == 1600  gsl_COMPILER_MSVC_VERSION == 100  (Visual Studio 2010)
// MSVC++ 11.0  _MSC_VER == 1700  gsl_COMPILER_MSVC_VERSION == 110  (Visual Studio 2012)
// MSVC++ 12.0  _MSC_VER == 1800  gsl_COMPILER_MSVC_VERSION == 120  (Visual Studio 2013)
// MSVC++ 14.0  _MSC_VER == 1900  gsl_COMPILER_MSVC_VERSION == 140  (Visual Studio 2015)
// MSVC++ 14.1  _MSC_VER >= 1910  gsl_COMPILER_MSVC_VERSION == 141  (Visual Studio 2017)
// MSVC++ 14.2  _MSC_VER >= 1920  gsl_COMPILER_MSVC_VERSION == 142  (Visual Studio 2019)

#if defined( _MSC_VER ) && ! defined( __clang__ )
# define gsl_COMPILER_MSVC_VER           (_MSC_VER )
# define gsl_COMPILER_MSVC_VERSION       (_MSC_VER / 10 - 10 * ( 5 + (_MSC_VER < 1900 ) ) )
# define gsl_COMPILER_MSVC_VERSION_FULL  (_MSC_VER - 100 * ( 5 + (_MSC_VER < 1900 ) ) )
#else
# define gsl_COMPILER_MSVC_VER           0
# define gsl_COMPILER_MSVC_VERSION       0
# define gsl_COMPILER_MSVC_VERSION_FULL  0
#endif

#define gsl_COMPILER_VERSION( major, minor, patch ) ( 10 * ( 10 * (major) + (minor) ) + (patch) )

// AppleClang  7.0.0  __apple_build_version__ ==  7000172  gsl_COMPILER_APPLECLANG_VERSION ==  700  (Xcode 7.0, 7.0.1)               (LLVM  3.7.0)
// AppleClang  7.0.0  __apple_build_version__ ==  7000176  gsl_COMPILER_APPLECLANG_VERSION ==  700  (Xcode 7.1)                      (LLVM  3.7.0)
// AppleClang  7.0.2  __apple_build_version__ ==  7000181  gsl_COMPILER_APPLECLANG_VERSION ==  702  (Xcode 7.2, 7.2.1)               (LLVM  3.7.0)
// AppleClang  7.3.0  __apple_build_version__ ==  7030029  gsl_COMPILER_APPLECLANG_VERSION ==  730  (Xcode 7.3)                      (LLVM  3.8.0)
// AppleClang  7.3.0  __apple_build_version__ ==  7030031  gsl_COMPILER_APPLECLANG_VERSION ==  730  (Xcode 7.3.1)                    (LLVM  3.8.0)
// AppleClang  8.0.0  __apple_build_version__ ==  8000038  gsl_COMPILER_APPLECLANG_VERSION ==  800  (Xcode 8.0)                      (LLVM  3.9.0)
// AppleClang  8.0.0  __apple_build_version__ ==  8000042  gsl_COMPILER_APPLECLANG_VERSION ==  800  (Xcode 8.1, 8.2, 8.2.1)          (LLVM  3.9.0)
// AppleClang  8.1.0  __apple_build_version__ ==  8020038  gsl_COMPILER_APPLECLANG_VERSION ==  810  (Xcode 8.3)                      (LLVM  3.9.0)
// AppleClang  8.1.0  __apple_build_version__ ==  8020041  gsl_COMPILER_APPLECLANG_VERSION ==  810  (Xcode 8.3.1)                    (LLVM  3.9.0)
// AppleClang  8.1.0  __apple_build_version__ ==  8020042  gsl_COMPILER_APPLECLANG_VERSION ==  810  (Xcode 8.3.2, 8.3.3)             (LLVM  3.9.0)
// AppleClang  9.0.0  __apple_build_version__ ==  9000037  gsl_COMPILER_APPLECLANG_VERSION ==  900  (Xcode 9.0)                      (LLVM  4.0.0)
// AppleClang  9.0.0  __apple_build_version__ ==  9000038  gsl_COMPILER_APPLECLANG_VERSION ==  900  (Xcode 9.1)                      (LLVM  4.0.0)
// AppleClang  9.0.0  __apple_build_version__ ==  9000039  gsl_COMPILER_APPLECLANG_VERSION ==  900  (Xcode 9.2)                      (LLVM  4.0.0)
// AppleClang  9.1.0  __apple_build_version__ ==  9020039  gsl_COMPILER_APPLECLANG_VERSION ==  910  (Xcode 9.3, 9.3.1)               (LLVM  5.0.2)
// AppleClang  9.1.0  __apple_build_version__ ==  9020039  gsl_COMPILER_APPLECLANG_VERSION ==  910  (Xcode 9.4, 9.4.1)               (LLVM  5.0.2)
// AppleClang 10.0.0  __apple_build_version__ == 10001145  gsl_COMPILER_APPLECLANG_VERSION == 1000  (Xcode 10.0, 10.1)               (LLVM  6.0.1)
// AppleClang 10.0.1  __apple_build_version__ == 10010046  gsl_COMPILER_APPLECLANG_VERSION == 1001  (Xcode 10.2, 10.2.1, 10.3)       (LLVM  7.0.0)
// AppleClang 11.0.0  __apple_build_version__ == 11000033  gsl_COMPILER_APPLECLANG_VERSION == 1100  (Xcode 11.1, 11.2, 11.3, 11.3.1) (LLVM  8.0.0)
// AppleClang 11.0.3  __apple_build_version__ == 11030032  gsl_COMPILER_APPLECLANG_VERSION == 1103  (Xcode 11.4, 11.4.1, 11.5, 11.6) (LLVM  9.0.0)
// AppleClang 12.0.0  __apple_build_version__ == 12000032  gsl_COMPILER_APPLECLANG_VERSION == 1200  (Xcode 12.0–12.4)                (LLVM 10.0.0)
// AppleClang 12.0.5  __apple_build_version__ == 12050022  gsl_COMPILER_APPLECLANG_VERSION == 1205  (Xcode 12.5)                     (LLVM 10.0.0)

#if defined( __apple_build_version__ )
# define gsl_COMPILER_APPLECLANG_VERSION  gsl_COMPILER_VERSION( __clang_major__, __clang_minor__, __clang_patchlevel__ )
# define gsl_COMPILER_CLANG_VERSION       0
#elif defined( __clang__ )
# define gsl_COMPILER_APPLECLANG_VERSION  0
# define gsl_COMPILER_CLANG_VERSION       gsl_COMPILER_VERSION( __clang_major__, __clang_minor__, __clang_patchlevel__ )
#else
# define gsl_COMPILER_APPLECLANG_VERSION  0
# define gsl_COMPILER_CLANG_VERSION       0
#endif

#if defined( __GNUC__ ) && ! defined( __clang__ )
# define gsl_COMPILER_GNUC_VERSION  gsl_COMPILER_VERSION( __GNUC__, __GNUC_MINOR__, __GNUC_PATCHLEVEL__ )
#else
# define gsl_COMPILER_GNUC_VERSION  0
#endif

#if defined( __NVCC__ )
# define gsl_COMPILER_NVCC_VERSION  ( __CUDACC_VER_MAJOR__ * 10 + __CUDACC_VER_MINOR__ )
#else
# define gsl_COMPILER_NVCC_VERSION  0
#endif

#if defined( __ARMCC_VERSION )
# define gsl_COMPILER_ARMCC_VERSION       ( __ARMCC_VERSION / 10000 )
# define gsl_COMPILER_ARMCC_VERSION_FULL  __ARMCC_VERSION
#else
# define gsl_COMPILER_ARMCC_VERSION       0
# define gsl_COMPILER_ARMCC_VERSION_FULL  0
#endif

// Compiler non-strict aliasing:

#if defined(__clang__) || defined(__GNUC__)
# define gsl_may_alias  __attribute__((__may_alias__))
#else
# define gsl_may_alias
#endif

// Presence of gsl, language and library features:

#define gsl_IN_STD( v )  ( ((v) == 98 ? 3 : (v)) >= gsl_CPLUSPLUS_V )

#define gsl_DEPRECATE_TO_LEVEL( level )  ( level <= gsl_CONFIG_DEPRECATE_TO_LEVEL )
#define gsl_FEATURE_TO_STD(   feature )  gsl_IN_STD( gsl_FEATURE( feature##_TO_STD ) )
#define gsl_FEATURE(          feature )  gsl_EVALF_( gsl_FEATURE_##feature##_ )
#define gsl_CONFIG(           feature )  gsl_EVALF_( gsl_CONFIG_##feature##_ )
#define gsl_HAVE(             feature )  gsl_EVALF_( gsl_HAVE_##feature##_ )

// Presence of wide character support:

#ifdef __DJGPP__
# define gsl_HAVE_WCHAR 0
#else
# define gsl_HAVE_WCHAR 1
#endif
#define gsl_HAVE_WCHAR_()  gsl_HAVE_WCHAR

// Presence of language & library features:

#if gsl_COMPILER_CLANG_VERSION || gsl_COMPILER_APPLECLANG_VERSION
# ifdef __OBJC__
   // There are a bunch of inconsistencies about __EXCEPTIONS and __has_feature(cxx_exceptions) in Clang 3.4/3.5/3.6.
   // We're interested in C++ exceptions, which can be checked by __has_feature(cxx_exceptions) in 3.5+.
   // In pre-3.5, __has_feature(cxx_exceptions) can be true if ObjC exceptions are enabled, but C++ exceptions are disabled.
   // The recommended way to check is `__EXCEPTIONS && __has_feature(cxx_exceptions)`.
   // See https://releases.llvm.org/3.6.0/tools/clang/docs/ReleaseNotes.html#the-exceptions-macro
   // Note: this is only relevant in Objective-C++, thus the ifdef.
#  if __EXCEPTIONS && __has_feature(cxx_exceptions)
#   define gsl_HAVE_EXCEPTIONS  1
#  else
#   define gsl_HAVE_EXCEPTIONS  0
#  endif // __EXCEPTIONS && __has_feature(cxx_exceptions)
# else
   // clang-cl doesn't define __EXCEPTIONS for MSVC compatibility (see https://reviews.llvm.org/D4065).
   // Neither does Clang in MS-compatiblity mode.
   // Let's hope no one tries to build Objective-C++ code using MS-compatibility mode or clang-cl.
#  if __has_feature(cxx_exceptions)
#   define gsl_HAVE_EXCEPTIONS  1
#  else
#   define gsl_HAVE_EXCEPTIONS  0
#  endif
# endif
#elif gsl_COMPILER_GNUC_VERSION
# if gsl_BETWEEN(gsl_COMPILER_GNUC_VERSION, 1, 500)
#  ifdef __EXCEPTIONS
#   define gsl_HAVE_EXCEPTIONS  1
#  else
#   define gsl_HAVE_EXCEPTIONS  0
#  endif // __EXCEPTIONS
# else
#  ifdef __cpp_exceptions
#   define gsl_HAVE_EXCEPTIONS  1
#  else
#   define gsl_HAVE_EXCEPTIONS  0
#  endif // __cpp_exceptions
# endif // gsl_BETWEEN(gsl_COMPILER_GNUC_VERSION, 1, 500)
#elif gsl_COMPILER_MSVC_VERSION
# ifdef _CPPUNWIND
#  define gsl_HAVE_EXCEPTIONS  1
# else
#  define gsl_HAVE_EXCEPTIONS  0
# endif // _CPPUNWIND
#else
// For all other compilers, assume exceptions are always enabled.
# define  gsl_HAVE_EXCEPTIONS  1
#endif
#define gsl_HAVE_EXCEPTIONS_()  gsl_HAVE_EXCEPTIONS

#if defined( gsl_CONFIG_CONTRACT_VIOLATION_THROWS ) && ! gsl_HAVE_EXCEPTIONS
# error Cannot use gsl_CONFIG_CONTRACT_VIOLATION_THROWS if exceptions are disabled.
#endif // defined( gsl_CONFIG_CONTRACT_VIOLATION_THROWS ) && !gsl_HAVE( EXCEPTIONS )

#ifdef _HAS_CPP0X
# define gsl_HAS_CPP0X  _HAS_CPP0X
#else
# define gsl_HAS_CPP0X  0
#endif

#define gsl_CPP11_100  (gsl_CPP11_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1600)
#define gsl_CPP11_110  (gsl_CPP11_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1700)
#define gsl_CPP11_120  (gsl_CPP11_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1800)
#define gsl_CPP11_140  (gsl_CPP11_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1900)

#define gsl_CPP14_000  (gsl_CPP14_OR_GREATER)
#define gsl_CPP14_120  (gsl_CPP14_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1800)
#define gsl_CPP14_140  (gsl_CPP14_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1900)

#define gsl_CPP17_000  (gsl_CPP17_OR_GREATER)
#define gsl_CPP17_140  (gsl_CPP17_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1900)

#define gsl_CPP11_140_CPP0X_90   (gsl_CPP11_140 || (gsl_COMPILER_MSVC_VER >= 1500 && gsl_HAS_CPP0X))
#define gsl_CPP11_140_CPP0X_100  (gsl_CPP11_140 || (gsl_COMPILER_MSVC_VER >= 1600 && gsl_HAS_CPP0X))

// Presence of C++11 language features:

#define gsl_HAVE_C99_PREPROCESSOR          gsl_CPP11_140
#define gsl_HAVE_AUTO                      gsl_CPP11_100
#define gsl_HAVE_RVALUE_REFERENCE          gsl_CPP11_100
#define gsl_HAVE_FUNCTION_REF_QUALIFIER    ( gsl_CPP11_140 && ! gsl_BETWEEN( gsl_COMPILER_GNUC_VERSION, 1, 481 ) )
#define gsl_HAVE_ENUM_CLASS                gsl_CPP11_110
#define gsl_HAVE_ALIAS_TEMPLATE            gsl_CPP11_120
#define gsl_HAVE_DEFAULT_FUNCTION_TEMPLATE_ARG  gsl_CPP11_120
#define gsl_HAVE_EXPLICIT                  gsl_CPP11_120
#define gsl_HAVE_VARIADIC_TEMPLATE         gsl_CPP11_120
#define gsl_HAVE_IS_DELETE                 gsl_CPP11_120
#define gsl_HAVE_CONSTEXPR_11              gsl_CPP11_140
#define gsl_HAVE_IS_DEFAULT                gsl_CPP11_140
#define gsl_HAVE_NOEXCEPT                  gsl_CPP11_140
#define gsl_HAVE_NORETURN                  ( gsl_CPP11_140 && ! gsl_BETWEEN( gsl_COMPILER_GNUC_VERSION, 1, 480 ) )
#define gsl_HAVE_EXPRESSION_SFINAE         gsl_CPP11_140
#define gsl_HAVE_OVERRIDE_FINAL            gsl_CPP11_110

#define gsl_HAVE_C99_PREPROCESSOR_()       gsl_HAVE_C99_PREPROCESSOR
#define gsl_HAVE_AUTO_()                   gsl_HAVE_AUTO
#define gsl_HAVE_RVALUE_REFERENCE_()       gsl_HAVE_RVALUE_REFERENCE
#define gsl_HAVE_FUNCTION_REF_QUALIFIER_()  gsl_HAVE_FUNCTION_REF_QUALIFIER
#define gsl_HAVE_ENUM_CLASS_()             gsl_HAVE_ENUM_CLASS
#define gsl_HAVE_ALIAS_TEMPLATE_()         gsl_HAVE_ALIAS_TEMPLATE
#define gsl_HAVE_DEFAULT_FUNCTION_TEMPLATE_ARG_()  gsl_HAVE_DEFAULT_FUNCTION_TEMPLATE_ARG
#define gsl_HAVE_EXPLICIT_()               gsl_HAVE_EXPLICIT
#define gsl_HAVE_VARIADIC_TEMPLATE_()      gsl_HAVE_VARIADIC_TEMPLATE
#define gsl_HAVE_IS_DELETE_()              gsl_HAVE_IS_DELETE
#define gsl_HAVE_CONSTEXPR_11_()           gsl_HAVE_CONSTEXPR_11
#define gsl_HAVE_IS_DEFAULT_()             gsl_HAVE_IS_DEFAULT
#define gsl_HAVE_NOEXCEPT_()               gsl_HAVE_NOEXCEPT
#define gsl_HAVE_NORETURN_()               gsl_HAVE_NORETURN
#define gsl_HAVE_EXPRESSION_SFINAE_()      gsl_HAVE_EXPRESSION_SFINAE
#define gsl_HAVE_OVERRIDE_FINAL_()         gsl_HAVE_OVERRIDE_FINAL

// Presence of C++14 language features:

#define gsl_HAVE_CONSTEXPR_14              ( gsl_CPP14_000 && ! gsl_BETWEEN( gsl_COMPILER_GNUC_VERSION, 1, 600 ) )
#define gsl_HAVE_DECLTYPE_AUTO             gsl_CPP14_140
#define gsl_HAVE_DEPRECATED                ( gsl_CPP14_140 && ! gsl_BETWEEN( gsl_COMPILER_MSVC_VERSION, 1, 142 ) )

#define gsl_HAVE_CONSTEXPR_14_()           gsl_HAVE_CONSTEXPR_14
#define gsl_HAVE_DECLTYPE_AUTO_()          gsl_HAVE_DECLTYPE_AUTO
#define gsl_HAVE_DEPRECATED_()             gsl_HAVE_DEPRECATED

// Presence of C++17 language features:
// MSVC: template parameter deduction guides since Visual Studio 2017 v15.7

#define gsl_HAVE_ENUM_CLASS_CONSTRUCTION_FROM_UNDERLYING_TYPE  gsl_CPP17_000
#define gsl_HAVE_DEDUCTION_GUIDES          ( gsl_CPP17_000 && ! gsl_BETWEEN( gsl_COMPILER_MSVC_VERSION_FULL, 1, 1414 ) )
#define gsl_HAVE_NODISCARD                 gsl_CPP17_000
#define gsl_HAVE_CONSTEXPR_17              gsl_CPP17_OR_GREATER

#define gsl_HAVE_ENUM_CLASS_CONSTRUCTION_FROM_UNDERLYING_TYPE_()  gsl_HAVE_ENUM_CLASS_CONSTRUCTION_FROM_UNDERLYING_TYPE
#define gsl_HAVE_DEDUCTION_GUIDES_()       gsl_HAVE_DEDUCTION_GUIDES
#define gsl_HAVE_NODISCARD_()              gsl_HAVE_NODISCARD
#define gsl_HAVE_CONSTEXPR_17_()           gsl_HAVE_CONSTEXPR_17

// Presence of C++20 language features:

#define gsl_HAVE_CONSTEXPR_20              gsl_CPP20_OR_GREATER

#define gsl_HAVE_CONSTEXPR_20_()           gsl_HAVE_CONSTEXPR_20

// Presence of C++ library features:

#if gsl_BETWEEN( gsl_COMPILER_ARMCC_VERSION, 1, 600 )
// Some versions of the ARM compiler apparently ship without a C++11 standard library despite having some C++11 support.
# define gsl_STDLIB_CPP98_OR_GREATER  gsl_CPP98_OR_GREATER
# define gsl_STDLIB_CPP11_OR_GREATER  0
# define gsl_STDLIB_CPP14_OR_GREATER  0
# define gsl_STDLIB_CPP17_OR_GREATER  0
# define gsl_STDLIB_CPP20_OR_GREATER  0
#else
# define gsl_STDLIB_CPP98_OR_GREATER  gsl_CPP98_OR_GREATER
# define gsl_STDLIB_CPP11_OR_GREATER  gsl_CPP11_OR_GREATER
# define gsl_STDLIB_CPP14_OR_GREATER  gsl_CPP14_OR_GREATER
# define gsl_STDLIB_CPP17_OR_GREATER  gsl_CPP17_OR_GREATER
# define gsl_STDLIB_CPP20_OR_GREATER  gsl_CPP20_OR_GREATER
#endif

#define gsl_STDLIB_CPP11_100  (gsl_STDLIB_CPP11_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1600)
#define gsl_STDLIB_CPP11_110  (gsl_STDLIB_CPP11_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1700)
#define gsl_STDLIB_CPP11_120  (gsl_STDLIB_CPP11_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1800)
#define gsl_STDLIB_CPP11_140  (gsl_STDLIB_CPP11_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1900)

#define gsl_STDLIB_CPP14_000  (gsl_STDLIB_CPP14_OR_GREATER)
#define gsl_STDLIB_CPP14_120  (gsl_STDLIB_CPP14_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1800)
#define gsl_STDLIB_CPP14_140  (gsl_STDLIB_CPP14_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1900)

#define gsl_STDLIB_CPP17_000  (gsl_STDLIB_CPP17_OR_GREATER)
#define gsl_STDLIB_CPP17_140  (gsl_STDLIB_CPP17_OR_GREATER || gsl_COMPILER_MSVC_VER >= 1900)

#define gsl_STDLIB_CPP11_140_CPP0X_90   (gsl_STDLIB_CPP11_140 || (gsl_COMPILER_MSVC_VER >= 1500 && gsl_HAS_CPP0X))
#define gsl_STDLIB_CPP11_140_CPP0X_100  (gsl_STDLIB_CPP11_140 || (gsl_COMPILER_MSVC_VER >= 1600 && gsl_HAS_CPP0X))

#define gsl_HAVE_ADDRESSOF                 gsl_STDLIB_CPP17_000
#define gsl_HAVE_ARRAY                     gsl_STDLIB_CPP11_110
#define gsl_HAVE_TYPE_TRAITS               gsl_STDLIB_CPP11_110
#define gsl_HAVE_TR1_TYPE_TRAITS           gsl_STDLIB_CPP11_110
#define gsl_HAVE_CONTAINER_DATA_METHOD     gsl_STDLIB_CPP11_140_CPP0X_90
#define gsl_HAVE_STD_DATA                  gsl_STDLIB_CPP17_000
#ifdef __cpp_lib_ssize
# define gsl_HAVE_STD_SSIZE                1
#else
# define gsl_HAVE_STD_SSIZE                ( gsl_COMPILER_GNUC_VERSION >= 1000 && __cplusplus > 201703L )
#endif
#define gsl_HAVE_HASH                      gsl_STDLIB_CPP11_120
#define gsl_HAVE_SIZED_TYPES               gsl_STDLIB_CPP11_140
#define gsl_HAVE_MAKE_SHARED               gsl_STDLIB_CPP11_140_CPP0X_100
#define gsl_HAVE_SHARED_PTR                gsl_STDLIB_CPP11_140_CPP0X_100
#define gsl_HAVE_UNIQUE_PTR                gsl_STDLIB_CPP11_140_CPP0X_100
#define gsl_HAVE_MAKE_UNIQUE               gsl_STDLIB_CPP14_120
#define gsl_HAVE_MOVE_FORWARD              gsl_STDLIB_CPP11_100
#define gsl_HAVE_NULLPTR                   gsl_STDLIB_CPP11_100
#define gsl_HAVE_UNCAUGHT_EXCEPTIONS       gsl_STDLIB_CPP17_140
#define gsl_HAVE_ADD_CONST                 gsl_HAVE_TYPE_TRAITS
#define gsl_HAVE_INITIALIZER_LIST          gsl_STDLIB_CPP11_120
#define gsl_HAVE_INTEGRAL_CONSTANT         gsl_HAVE_TYPE_TRAITS
#define gsl_HAVE_REMOVE_CONST              gsl_HAVE_TYPE_TRAITS
#define gsl_HAVE_REMOVE_REFERENCE          gsl_HAVE_TYPE_TRAITS
#define gsl_HAVE_REMOVE_CVREF              gsl_STDLIB_CPP20_OR_GREATER
#define gsl_HAVE_TR1_ADD_CONST             gsl_HAVE_TR1_TYPE_TRAITS
#define gsl_HAVE_TR1_INTEGRAL_CONSTANT     gsl_HAVE_TR1_TYPE_TRAITS
#define gsl_HAVE_TR1_REMOVE_CONST          gsl_HAVE_TR1_TYPE_TRAITS
#define gsl_HAVE_TR1_REMOVE_REFERENCE      gsl_HAVE_TR1_TYPE_TRAITS

#define gsl_HAVE_ADDRESSOF_()              gsl_HAVE_ADDRESSOF
#define gsl_HAVE_ARRAY_()                  gsl_HAVE_ARRAY
#define gsl_HAVE_TYPE_TRAITS_()            gsl_HAVE_TYPE_TRAITS
#define gsl_HAVE_TR1_TYPE_TRAITS_()        gsl_HAVE_TR1_TYPE_TRAITS
#define gsl_HAVE_CONTAINER_DATA_METHOD_()  gsl_HAVE_CONTAINER_DATA_METHOD
#define gsl_HAVE_HASH_()                   gsl_HAVE_HASH
#define gsl_HAVE_STD_DATA_()               gsl_HAVE_STD_DATA
#define gsl_HAVE_STD_SSIZE_()              gsl_HAVE_STD_SSIZE
#define gsl_HAVE_SIZED_TYPES_()            gsl_HAVE_SIZED_TYPES
#define gsl_HAVE_MAKE_SHARED_()            gsl_HAVE_MAKE_SHARED
#define gsl_HAVE_MOVE_FORWARD_()           gsl_HAVE_MOVE_FORWARD
#define gsl_HAVE_NULLPTR_()                gsl_HAVE_NULLPTR  // It's a language feature but needs library support, so we list it as a library feature.
#define gsl_HAVE_SHARED_PTR_()             gsl_HAVE_SHARED_PTR
#define gsl_HAVE_UNIQUE_PTR_()             gsl_HAVE_UNIQUE_PTR
#define gsl_HAVE_MAKE_UNIQUE_()            gsl_HAVE_MAKE_UNIQUE
#define gsl_HAVE_UNCAUGHT_EXCEPTIONS_()    gsl_HAVE_UNCAUGHT_EXCEPTIONS
#define gsl_HAVE_ADD_CONST_()              gsl_HAVE_ADD_CONST
#define gsl_HAVE_INITIALIZER_LIST_()       gsl_HAVE_INITIALIZER_LIST  // It's a language feature but needs library support, so we list it as a library feature.
#define gsl_HAVE_INTEGRAL_CONSTANT_()      gsl_HAVE_INTEGRAL_CONSTANT
#define gsl_HAVE_REMOVE_CONST_()           gsl_HAVE_REMOVE_CONST
#define gsl_HAVE_REMOVE_REFERENCE_()       gsl_HAVE_REMOVE_REFERENCE
#define gsl_HAVE_REMOVE_CVREF_()           gsl_HAVE_REMOVE_CVREF
#define gsl_HAVE_TR1_ADD_CONST_()          gsl_HAVE_TR1_ADD_CONST
#define gsl_HAVE_TR1_INTEGRAL_CONSTANT_()  gsl_HAVE_TR1_INTEGRAL_CONSTANT
#define gsl_HAVE_TR1_REMOVE_CONST_()       gsl_HAVE_TR1_REMOVE_CONST
#define gsl_HAVE_TR1_REMOVE_REFERENCE_()   gsl_HAVE_TR1_REMOVE_REFERENCE

// C++ feature usage:

#if gsl_HAVE( ADDRESSOF )
# define gsl_ADDRESSOF(x)  std::addressof(x)
#else
# define gsl_ADDRESSOF(x)  (&x)
#endif

#if gsl_HAVE( CONSTEXPR_11 )
# define gsl_constexpr  constexpr
#else
# define gsl_constexpr  /*constexpr*/
#endif

#if gsl_HAVE( CONSTEXPR_14 )
# define gsl_constexpr14  constexpr
#else
# define gsl_constexpr14  /*constexpr*/
#endif

#if gsl_HAVE( CONSTEXPR_17 )
# define gsl_constexpr17  constexpr
#else
# define gsl_constexpr17  /*constexpr*/
#endif

#if gsl_HAVE( CONSTEXPR_20 )
# define gsl_constexpr20  constexpr
#else
# define gsl_constexpr20  /*constexpr*/
#endif

#if gsl_HAVE( EXPLICIT )
# define gsl_explicit  explicit
#else
# define gsl_explicit  /*explicit*/
#endif

#if gsl_FEATURE( IMPLICIT_MACRO )
# define implicit /*implicit*/
#endif

#if gsl_HAVE( IS_DELETE )
# define gsl_is_delete  = delete
#else
# define gsl_is_delete
#endif

#if gsl_HAVE( IS_DELETE )
# define gsl_is_delete_access  public
#else
# define gsl_is_delete_access  private
#endif

#if gsl_HAVE( NOEXCEPT )
# define gsl_noexcept             noexcept
# define gsl_noexcept_if( expr )  noexcept( expr )
#else
# define gsl_noexcept             throw()
# define gsl_noexcept_if( expr )  /*noexcept( expr )*/
#endif
#if defined( gsl_TESTING_ )
# define gsl_noexcept_not_testing
#else
# define gsl_noexcept_not_testing  gsl_noexcept
#endif

#if gsl_HAVE( NULLPTR )
# define gsl_nullptr  nullptr
#else
# define gsl_nullptr  NULL
#endif

#if gsl_HAVE( NODISCARD )
# define gsl_NODISCARD  [[nodiscard]]
#else
# define gsl_NODISCARD
#endif

#if gsl_HAVE( NORETURN )
# define gsl_NORETURN  [[noreturn]]
#elif defined(_MSC_VER)
# define gsl_NORETURN  __declspec(noreturn)
#elif gsl_COMPILER_GNUC_VERSION || gsl_COMPILER_CLANG_VERSION || gsl_COMPILER_APPLECLANG_VERSION || gsl_COMPILER_ARMCC_VERSION
# define gsl_NORETURN  __attribute__((noreturn))
#else
# define gsl_NORETURN
#endif

#if gsl_HAVE( DEPRECATED ) && ! defined( gsl_TESTING_ )
# define gsl_DEPRECATED             [[deprecated]]
# define gsl_DEPRECATED_MSG( msg )  [[deprecated( msg )]]
#else
# define gsl_DEPRECATED
# define gsl_DEPRECATED_MSG( msg )
#endif

#if gsl_HAVE( C99_PREPROCESSOR )
# if gsl_CPP20_OR_GREATER
#  define gsl_CONSTRAINT(...)  __VA_ARGS__
# else
#  define gsl_CONSTRAINT(...)  typename
# endif
#endif

#if gsl_HAVE( TYPE_TRAITS )
# define gsl_STATIC_ASSERT_( cond, msg )  static_assert( cond, msg )
#else
# define gsl_STATIC_ASSERT_( cond, msg )  ( ( void )sizeof( char[1 - 2*!!( cond ) ] ) )
#endif

#if gsl_HAVE( TYPE_TRAITS )

#define gsl_DEFINE_ENUM_BITMASK_OPERATORS_( ENUM )                    \
    gsl_NODISCARD gsl_api inline gsl_constexpr ENUM                   \
    operator~( ENUM val ) gsl_noexcept                                \
    {                                                                 \
        typedef typename ::gsl::std11::underlying_type<ENUM>::type U; \
        return ENUM( ~U( val ) );                                     \
    }                                                                 \
    gsl_NODISCARD gsl_api inline gsl_constexpr ENUM                   \
    operator|( ENUM lhs, ENUM rhs ) gsl_noexcept                      \
    {                                                                 \
        typedef typename ::gsl::std11::underlying_type<ENUM>::type U; \
        return ENUM( U( lhs ) | U( rhs ) );                           \
    }                                                                 \
    gsl_NODISCARD gsl_api inline gsl_constexpr ENUM                   \
    operator&( ENUM lhs, ENUM rhs ) gsl_noexcept                      \
    {                                                                 \
        typedef typename ::gsl::std11::underlying_type<ENUM>::type U; \
        return ENUM( U( lhs ) & U( rhs ) );                           \
    }                                                                 \
    gsl_NODISCARD gsl_api inline gsl_constexpr ENUM                   \
    operator^( ENUM lhs, ENUM rhs ) gsl_noexcept                      \
    {                                                                 \
        typedef typename ::gsl::std11::underlying_type<ENUM>::type U; \
        return ENUM( U( lhs ) ^ U( rhs ) );                           \
    }                                                                 \
    gsl_api inline gsl_constexpr14 ENUM &                             \
    operator|=( ENUM & lhs, ENUM rhs ) gsl_noexcept                   \
    {                                                                 \
        return lhs = lhs | rhs;                                       \
    }                                                                 \
    gsl_api inline gsl_constexpr14 ENUM &                             \
    operator&=( ENUM & lhs, ENUM rhs ) gsl_noexcept                   \
    {                                                                 \
        return lhs = lhs & rhs;                                       \
    }                                                                 \
    gsl_api inline gsl_constexpr14 ENUM &                             \
    operator^=( ENUM & lhs, ENUM rhs ) gsl_noexcept                   \
    {                                                                 \
        return lhs = lhs ^ rhs;                                       \
    }

#define gsl_DEFINE_ENUM_RELATIONAL_OPERATORS_( ENUM )                 \
    gsl_NODISCARD gsl_api inline gsl_constexpr bool                   \
    operator<( ENUM lhs, ENUM rhs ) gsl_noexcept                      \
    {                                                                 \
        typedef typename ::gsl::std11::underlying_type<ENUM>::type U; \
        return U( lhs ) < U( rhs );                                   \
    }                                                                 \
    gsl_NODISCARD gsl_api inline gsl_constexpr bool                   \
    operator>( ENUM lhs, ENUM rhs ) gsl_noexcept                      \
    {                                                                 \
        typedef typename ::gsl::std11::underlying_type<ENUM>::type U; \
        return U( lhs ) > U( rhs );                                   \
    }                                                                 \
    gsl_NODISCARD gsl_api inline gsl_constexpr bool                   \
    operator<=( ENUM lhs, ENUM rhs ) gsl_noexcept                     \
    {                                                                 \
        typedef typename ::gsl::std11::underlying_type<ENUM>::type U; \
        return U( lhs ) <= U( rhs );                                  \
    }                                                                 \
    gsl_NODISCARD gsl_api inline gsl_constexpr bool                   \
    operator>=( ENUM lhs, ENUM rhs ) gsl_noexcept                     \
    {                                                                 \
        typedef typename ::gsl::std11::underlying_type<ENUM>::type U; \
        return U( lhs ) >= U( rhs );                                  \
    }

    //
    // Defines bitmask operators `|`, `&`, `^`, `~`, `|=`, `&=`, and `^=` for the given enum type.
    //
    //     enum class Vegetables { tomato = 0b001, onion = 0b010, eggplant = 0b100 };
    //     gsl_DEFINE_ENUM_BITMASK_OPERATORS( Vegetables )
    //
#define gsl_DEFINE_ENUM_BITMASK_OPERATORS( ENUM ) gsl_DEFINE_ENUM_BITMASK_OPERATORS_( ENUM )

    //
    // Defines relational operators `<`, `>`, `<=`, `>=` for the given enum type.
    //
    //     enum class OperatorPrecedence { additive = 0, multiplicative = 1, power = 2 };
    //     gsl_DEFINE_ENUM_RELATIONAL_OPERATORS( OperatorPrecedence )
    //
#define gsl_DEFINE_ENUM_RELATIONAL_OPERATORS( ENUM ) gsl_DEFINE_ENUM_RELATIONAL_OPERATORS_( ENUM )

#endif // gsl_HAVE( TYPE_TRAITS )

#define gsl_DIMENSION_OF( a ) ( sizeof(a) / sizeof(0[a]) )


// Method enabling (C++98, VC120 (VS2013) cannot use __VA_ARGS__)

#if gsl_HAVE( EXPRESSION_SFINAE )
# define gsl_TRAILING_RETURN_TYPE_(T)  auto
# define gsl_RETURN_DECLTYPE_(EXPR)    -> decltype( EXPR )
#else
# define gsl_TRAILING_RETURN_TYPE_(T)  T
# define gsl_RETURN_DECLTYPE_(EXPR)
#endif

// NOTE: When using SFINAE in gsl-lite, please note that overloads of function templates must always use SFINAE with non-type default arguments
//       as explained in https://en.cppreference.com/w/cpp/types/enable_if#Notes. `gsl_ENABLE_IF_()` implements graceful fallback to default
//       type arguments (for compilers that don't support non-type default arguments); please verify that this is appropriate in the given
//       situation, and add additional checks if necessary.
//
//       Also, please note that `gsl_ENABLE_IF_()` doesn't enforce the constraint at all if no compiler/library support is available (i.e. pre-C++11).

#if gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG )
# if !gsl_BETWEEN( gsl_COMPILER_MSVC_VERSION, 1, 140 ) // VS 2013 seems to have trouble with SFINAE for default non-type arguments
#  define gsl_ENABLE_IF_(VA) , typename std::enable_if< ( VA ), int >::type = 0
# else
#  define gsl_ENABLE_IF_(VA) , typename = typename std::enable_if< ( VA ), ::gsl::detail::enabler >::type
# endif
#else
# define  gsl_ENABLE_IF_(VA)
#endif


// Other features:

#define gsl_HAVE_CONSTRAINED_SPAN_CONTAINER_CTOR       ( gsl_HAVE_DEFAULT_FUNCTION_TEMPLATE_ARG && gsl_HAVE_CONTAINER_DATA_METHOD )
#define gsl_HAVE_CONSTRAINED_SPAN_CONTAINER_CTOR_()    gsl_HAVE_CONSTRAINED_SPAN_CONTAINER_CTOR

#define gsl_HAVE_UNCONSTRAINED_SPAN_CONTAINER_CTOR     ( gsl_CONFIG_ALLOWS_UNCONSTRAINED_SPAN_CONTAINER_CTOR && gsl_COMPILER_NVCC_VERSION == 0 )
#define gsl_HAVE_UNCONSTRAINED_SPAN_CONTAINER_CTOR_()  gsl_HAVE_UNCONSTRAINED_SPAN_CONTAINER_CTOR

// GSL API (e.g. for CUDA platform):

// Guidelines for using `gsl_api`:
//
// NVCC imposes the restriction that a function annotated `__host__ __device__` cannot call host-only or device-only functions.
// This makes `gsl_api` inappropriate for generic functions that call unknown code, e.g. the template constructors of `span<>`
// or functions like `finally()` which accept an arbitrary  function object.
// It is often preferable to annotate functions only with `gsl_constexpr` or `gsl_constexpr14`. The "extended constexpr" mode
// of NVCC (currently an experimental feature) will implicitly consider constexpr functions `__host__ __device__` functions
// but tolerates calls to host-only or device-only functions.

#ifndef   gsl_api
# ifdef   __CUDACC__
#  define gsl_api __host__ __device__
# else
#  define gsl_api /*gsl_api*/
# endif
#endif

// Additional includes:

#if ! gsl_CPP11_OR_GREATER
# include <algorithm> // for swap() before C++11
#endif // ! gsl_CPP11_OR_GREATER

#if gsl_HAVE( ARRAY )
# include <array> // indirectly includes reverse_iterator<>
#endif

#if ! gsl_HAVE( ARRAY )
# include <iterator> // for reverse_iterator<>
#endif

#if ! gsl_HAVE( CONSTRAINED_SPAN_CONTAINER_CTOR ) || ! gsl_HAVE( AUTO )
# include <vector>
#endif

#if gsl_HAVE( INITIALIZER_LIST )
# include <initializer_list>
#endif

#if defined( gsl_CONFIG_CONTRACT_VIOLATION_ASSERTS )
# include <cassert>
#endif

#if defined( gsl_CONFIG_CONTRACT_VIOLATION_TRAPS ) && gsl_COMPILER_MSVC_VERSION >= 110 // __fastfail() supported by VS 2012 and later
# include <intrin.h>
#endif

#if gsl_HAVE( ENUM_CLASS ) && gsl_COMPILER_ARMCC_VERSION
# include <endian.h>
#endif

#if gsl_HAVE( TYPE_TRAITS )
# include <type_traits> // for enable_if<>,
                        // add_const<>, add_pointer<>, common_type<>, make_signed<>, remove_cv<>, remove_const<>, remove_volatile<>, remove_reference<>, remove_cvref<>, remove_pointer<>, underlying_type<>,
                        // is_assignable<>, is_constructible<>, is_const<>, is_convertible<>, is_integral<>, is_pointer<>, is_signed<>,
                        // integral_constant<>, declval()
#elif gsl_HAVE( TR1_TYPE_TRAITS )
# include <tr1/type_traits> // for add_const<>, remove_cv<>, remove_const<>, remove_volatile<>, remove_reference<>, integral_constant<>
#endif

#if gsl_FEATURE( EXPERIMENTAL_RETURN_GUARD )

// Declare __cxa_get_globals() or equivalent in namespace gsl::detail for uncaught_exceptions():

# if ! gsl_HAVE( UNCAUGHT_EXCEPTIONS )
#  if defined( _MSC_VER )                                           // MS-STL with either MSVC or clang-cl
namespace gsl { namespace detail { extern "C" char * __cdecl _getptd(); } }
#  elif gsl_COMPILER_CLANG_VERSION || gsl_COMPILER_GNUC_VERSION || gsl_COMPILER_APPLECLANG_VERSION
#   if defined( __GLIBCXX__ ) || defined( __GLIBCPP__ )             // libstdc++: prototype from cxxabi.h
#    include  <cxxabi.h>
#   elif ! defined( BOOST_CORE_UNCAUGHT_EXCEPTIONS_HPP_INCLUDED_ )  // libc++: prototype from Boost?
#    if defined( __FreeBSD__ ) || defined( __OpenBSD__ )
namespace __cxxabiv1 { struct __cxa_eh_globals; extern "C" __cxa_eh_globals * __cxa_get_globals(); }
#    else
namespace __cxxabiv1 { struct __cxa_eh_globals; extern "C" __cxa_eh_globals * __cxa_get_globals() gsl_noexcept; }
#    endif
#   endif
    namespace gsl { namespace detail { using ::__cxxabiv1::__cxa_get_globals; } }
#  endif
# endif // ! gsl_HAVE( UNCAUGHT_EXCEPTIONS )
#endif // gsl_FEATURE( EXPERIMENTAL_RETURN_GUARD )


// MSVC warning suppression macros:

#if gsl_COMPILER_MSVC_VERSION >= 140 && ! gsl_COMPILER_NVCC_VERSION
# define gsl_SUPPRESS_MSGSL_WARNING(expr)        /* Pimm: note disabled for intel [[gsl::suppress(expr)]]*/
# define gsl_SUPPRESS_MSVC_WARNING(code, descr)  __pragma(warning(suppress: code) )
# define gsl_DISABLE_MSVC_WARNINGS(codes)        __pragma(warning(push))  __pragma(warning(disable: codes))
# define gsl_RESTORE_MSVC_WARNINGS()             __pragma(warning(pop ))
#else
// TODO: define for Clang
# define gsl_SUPPRESS_MSGSL_WARNING(expr)
# define gsl_SUPPRESS_MSVC_WARNING(code, descr)
# define gsl_DISABLE_MSVC_WARNINGS(codes)
# define gsl_RESTORE_MSVC_WARNINGS()
#endif

// Suppress the following MSVC GSL warnings:
// - C26432: gsl::c.21 : if you define or delete any default operation in the type '...', define or delete them all
// - C26410: gsl::r.32 : the parameter 'ptr' is a reference to const unique pointer, use const T* or const T& instead
// - C26415: gsl::r.30 : smart pointer parameter 'ptr' is used only to access contained pointer. Use T* or T& instead
// - C26418: gsl::r.36 : shared pointer parameter 'ptr' is not copied or moved. Use T* or T& instead
// - C26472: gsl::t.1  : don't use a static_cast for arithmetic conversions;
//                       use brace initialization, gsl::narrow_cast or gsl::narrow
// - C26439: gsl::f.6  : special function 'function' can be declared 'noexcept'
// - C26440: gsl::f.6  : function 'function' can be declared 'noexcept'
// - C26455: gsl::f.6  : default constructor may not throw. Declare it 'noexcept'
// - C26473: gsl::t.1  : don't cast between pointer types where the source type and the target type are the same
// - C26481: gsl::b.1  : don't use pointer arithmetic. Use span instead
// - C26482: gsl::b.2  : only index into arrays using constant expressions
// - C26446: gdl::b.4  : prefer to use gsl::at() instead of unchecked subscript operator
// - C26490: gsl::t.1  : don't use reinterpret_cast
// - C26487: gsl::l.4  : don't return a pointer '(<some number>'s result)' that may be invalid
// - C26457: es.48     : (void) should not be used to ignore return values, use 'std::ignore =' instead

gsl_DISABLE_MSVC_WARNINGS( 26432 26410 26415 26418 26472 26439 26440 26455 26473 26481 26482 26446 26490 26487 26457 )

namespace gsl {

// forward declare span<>:

template< class T >
class span;

// C++98 emulation:

namespace std98 {

// We implement `equal()` and `lexicographical_compare()` here to avoid having to pull in the <algorithm> header.
template< class InputIt1, class InputIt2 >
bool equal( InputIt1 first1, InputIt1 last1, InputIt2 first2 )
{
    // Implementation borrowed from https://en.cppreference.com/w/cpp/algorithm/equal.
    for ( ; first1 != last1; ++first1, ++first2 )
    {
        if ( ! (*first1 == *first2 ) ) return false;
    }
    return true;
}
template< class InputIt1, class InputIt2 >
bool lexicographical_compare( InputIt1 first1, InputIt1 last1, InputIt2 first2, InputIt2 last2 )
{
    // Implementation borrowed from https://en.cppreference.com/w/cpp/algorithm/lexicographical_compare.
    for ( ; first1 != last1 && first2 != last2; ++first1, (void) ++first2 )
    {
        if ( *first1 < *first2 ) return true;
        if ( *first2 < *first1 ) return false;
    }
    return first1 == last1 && first2 != last2;
}

} // namespace std98

// C++11 emulation:

namespace std11 {

#if gsl_HAVE( ADD_CONST )

using std::add_const;

#elif gsl_HAVE( TR1_ADD_CONST )

using std::tr1::add_const;

#else

template< class T > struct add_const { typedef const T type; };

#endif // gsl_HAVE( ADD_CONST )

#if gsl_HAVE( REMOVE_CONST )

using std::remove_cv;
using std::remove_const;
using std::remove_volatile;

#elif gsl_HAVE( TR1_REMOVE_CONST )

using std::tr1::remove_cv;
using std::tr1::remove_const;
using std::tr1::remove_volatile;

#else

template< class T > struct remove_const          { typedef T type; };
template< class T > struct remove_const<T const> { typedef T type; };

template< class T > struct remove_volatile             { typedef T type; };
template< class T > struct remove_volatile<T volatile> { typedef T type; };

template< class T >
struct remove_cv
{
    typedef typename remove_volatile<typename remove_const<T>::type>::type type;
};

#endif // gsl_HAVE( REMOVE_CONST )

#if gsl_HAVE( REMOVE_REFERENCE )

using std::remove_reference;

#elif gsl_HAVE( TR1_REMOVE_REFERENCE )

using std::tr1::remove_reference;

#else

template< class T > struct remove_reference { typedef T type; };
template< class T > struct remove_reference<T&> { typedef T type; };
# if gsl_HAVE( RVALUE_REFERENCE )
template< class T > struct remove_reference<T&&> { typedef T type; };
# endif

#endif // gsl_HAVE( REMOVE_REFERENCE )


#if gsl_HAVE( INTEGRAL_CONSTANT )

using std::integral_constant;
using std::true_type;
using std::false_type;

#elif gsl_HAVE( TR1_INTEGRAL_CONSTANT )

using std::tr1::integral_constant;
using std::tr1::true_type;
using std::tr1::false_type;

#else

template< class T, T v > struct integral_constant { enum { value = v }; };
typedef integral_constant< bool, true  > true_type;
typedef integral_constant< bool, false > false_type;

#endif

#if gsl_HAVE( TYPE_TRAITS )

using std::underlying_type;

#elif gsl_HAVE( TR1_TYPE_TRAITS )

using std::tr1::underlying_type;

#else

// We could try to define `underlying_type<>` for pre-C++11 here, but let's not until someone actually needs it.

#endif

} // namespace std11

// C++14 emulation:

namespace std14 {

#if gsl_HAVE( UNIQUE_PTR )
# if gsl_HAVE( MAKE_UNIQUE )

using std::make_unique;

# elif gsl_HAVE( VARIADIC_TEMPLATE )

template< class T, class... Args >
gsl_NODISCARD std::unique_ptr<T>
make_unique( Args &&... args )
{
    return std::unique_ptr<T>( new T( std::forward<Args>( args )... ) );
}

# endif // gsl_HAVE( MAKE_UNIQUE ), gsl_HAVE( VARIADIC_TEMPLATE )
#endif // gsl_HAVE( UNIQUE_PTR )

} // namespace std14

namespace detail {

#if gsl_HAVE( VARIADIC_TEMPLATE )

template < bool V0, class T0, class... Ts > struct conjunction_ { using type = T0; };
template < class T0, class T1, class... Ts > struct conjunction_<true, T0, T1, Ts...> : conjunction_<T1::value, T1, Ts...> { };
template < bool V0, class T0, class... Ts > struct disjunction_ { using type = T0; };
template < class T0, class T1, class... Ts > struct disjunction_<false, T0, T1, Ts...> : disjunction_<T1::value, T1, Ts...> { };

#endif

template <typename> struct dependent_false : std11::integral_constant<bool, false> { };

} // namespace detail

// C++17 emulation:

namespace std17 {

template< bool v > struct bool_constant : std11::integral_constant<bool, v>{};

#if gsl_CPP11_120

template < class... Ts > struct conjunction;
template < > struct conjunction< > : std11::true_type { };
template < class T0, class... Ts > struct conjunction<T0, Ts...> : detail::conjunction_<T0::value, T0, Ts...>::type { };
template < class... Ts > struct disjunction;
template < > struct disjunction< > : std11::false_type { };
template < class T0, class... Ts > struct disjunction<T0, Ts...> : detail::disjunction_<T0::value, T0, Ts...>::type { };
template < class T > struct negation : std11::integral_constant<bool, !T::value> { };

# if gsl_CPP14_OR_GREATER

template < class... Ts > constexpr bool conjunction_v = conjunction<Ts...>::value;
template < class... Ts > constexpr bool disjunction_v = disjunction<Ts...>::value;
template < class T > constexpr bool negation_v = negation<T>::value;

# endif // gsl_CPP14_OR_GREATER

template< class... Ts >
struct make_void { typedef void type; };

template< class... Ts >
using void_t = typename make_void< Ts... >::type;

#endif // gsl_CPP11_120

#if gsl_HAVE( CONSTRAINED_SPAN_CONTAINER_CTOR )

template< class T, size_t N >
gsl_NODISCARD gsl_api inline gsl_constexpr auto
size( T const(&)[N] ) gsl_noexcept -> size_t
{
    return N;
}

template< class C >
gsl_NODISCARD inline gsl_constexpr auto
size( C const & cont ) -> decltype( cont.size() )
{
    return cont.size();
}

template< class T, size_t N >
gsl_NODISCARD gsl_api inline gsl_constexpr auto
data( T(&arr)[N] ) gsl_noexcept -> T*
{
    return &arr[0];
}

template< class C >
gsl_NODISCARD inline gsl_constexpr auto
data( C & cont ) -> decltype( cont.data() )
{
    return cont.data();
}

template< class C >
gsl_NODISCARD inline gsl_constexpr auto
data( C const & cont ) -> decltype( cont.data() )
{
    return cont.data();
}

template< class E >
gsl_NODISCARD inline gsl_constexpr auto
data( std::initializer_list<E> il ) gsl_noexcept -> E const *
{
    return il.begin();
}

#endif // gsl_HAVE( CONSTRAINED_SPAN_CONTAINER_CTOR )

} // namespace std17

// C++20 emulation:

namespace std20 {

#if gsl_CPP11_100

struct identity
{
    template < class T >
    gsl_constexpr T && operator ()( T && arg ) const gsl_noexcept
    {
        return std::forward<T>( arg );
    }
};

# if gsl_HAVE( ENUM_CLASS )
enum class endian
{
#  if defined( _WIN32 )
    little = 0,
    big    = 1,
    native = little
#  elif gsl_COMPILER_GNUC_VERSION || gsl_COMPILER_CLANG_VERSION || gsl_COMPILER_APPLECLANG_VERSION
    little = __ORDER_LITTLE_ENDIAN__,
    big    = __ORDER_BIG_ENDIAN__,
    native = __BYTE_ORDER__
#  elif gsl_COMPILER_ARMCC_VERSION
    // from <endian.h> header file
    little = __LITTLE_ENDIAN,
    big    = __BIG_ENDIAN,
    native = __BYTE_ORDER
#  else
// Do not define any endianness constants for unknown compilers.
#  endif
};
# endif // gsl_HAVE( ENUM_CLASS )

#endif // gsl_CPP11_100

template< class T >
struct type_identity
{
    typedef T type;
};
#if gsl_HAVE( ALIAS_TEMPLATE )
template< class T >
using type_identity_t = typename type_identity<T>::type;
#endif // gsl_HAVE( ALIAS_TEMPLATE )

#if gsl_HAVE( STD_SSIZE )

using std::ssize;

#elif gsl_HAVE( CONSTRAINED_SPAN_CONTAINER_CTOR )

template < class C >
gsl_NODISCARD gsl_constexpr auto
ssize( C const & c )
    -> typename std::common_type<std::ptrdiff_t, typename std::make_signed<decltype(c.size())>::type>::type
{
    using R = typename std::common_type<std::ptrdiff_t, typename std::make_signed<decltype(c.size())>::type>::type;
    return static_cast<R>( c.size() );
}

template <class T, std::size_t N>
gsl_NODISCARD gsl_constexpr auto
ssize( T const(&)[N] ) gsl_noexcept -> std::ptrdiff_t
{
    return std::ptrdiff_t( N );
}

#endif // gsl_HAVE( STD_SSIZE )

#if gsl_HAVE( REMOVE_CVREF )

using std::remove_cvref;

#else

template< class T > struct remove_cvref { typedef typename std11::remove_cv< typename std11::remove_reference< T >::type >::type type; };

#endif // gsl_HAVE( REMOVE_CVREF )

} // namespace std20

namespace detail {

/// for gsl_ENABLE_IF_()

/*enum*/ class enabler{};

#if gsl_HAVE( TYPE_TRAITS )

template< class Q >
struct is_span_oracle : std::false_type{};

template< class T>
struct is_span_oracle< span<T> > : std::true_type{};

template< class Q >
struct is_span : is_span_oracle< typename std::remove_cv<Q>::type >{};

template< class Q >
struct is_std_array_oracle : std::false_type{};

# if gsl_HAVE( ARRAY )

template< class T, std::size_t Extent >
struct is_std_array_oracle< std::array<T, Extent> > : std::true_type{};

# endif

template< class Q >
struct is_std_array : is_std_array_oracle< typename std::remove_cv<Q>::type >{};

template< class Q >
struct is_array : std::false_type{};

template< class T >
struct is_array<T[]> : std::true_type{};

template< class T, std::size_t N >
struct is_array<T[N]> : std::true_type{};

# if gsl_CPP11_140 && ! gsl_BETWEEN( gsl_COMPILER_GNUC_VERSION, 1, 500 )

template< class, class = void >
struct has_size_and_data : std::false_type{};

template< class C >
struct has_size_and_data
<
    C, std17::void_t<
        decltype( std17::size(std::declval<C>()) ),
        decltype( std17::data(std::declval<C>()) ) >
> : std::true_type{};

template< class, class, class = void >
struct is_compatible_element : std::false_type {};

template< class C, class E >
struct is_compatible_element
<
    C, E, std17::void_t<
        decltype( std17::data(std::declval<C>()) ),
        typename std::remove_pointer<decltype( std17::data( std::declval<C&>() ) )>::type(*)[] >
> : std::is_convertible< typename std::remove_pointer<decltype( std17::data( std::declval<C&>() ) )>::type(*)[], E(*)[] >{};

template< class C >
struct is_container : std17::bool_constant
<
    ! is_span< C >::value
    && ! is_array< C >::value
    && ! is_std_array< C >::value
    &&   has_size_and_data< C >::value
>{};

template< class C, class E >
struct is_compatible_container : std17::bool_constant
<
    is_container<C>::value
    && is_compatible_element<C,E>::value
>{};

# else // ^^^ gsl_CPP11_140 && ! gsl_BETWEEN( gsl_COMPILER_GNUC_VERSION, 1, 500 ) ^^^ / vvv ! gsl_CPP11_140 || gsl_BETWEEN( gsl_COMPILER_GNUC_VERSION, 1, 500 ) vvv

template<
    class C, class E
        , typename = typename std::enable_if<
            ! is_span< C >::value
            && ! is_array< C >::value
            && ! is_std_array< C >::value
            && ( std::is_convertible< typename std::remove_pointer<decltype( std17::data( std::declval<C&>() ) )>::type(*)[], E(*)[] >::value)
        //  &&   has_size_and_data< C >::value
        , enabler>::type
        , class = decltype( std17::size(std::declval<C>()) )
        , class = decltype( std17::data(std::declval<C>()) )
>
#  if gsl_BETWEEN( gsl_COMPILER_MSVC_VERSION, 1, 140 )
// VS2013 has insufficient support for expression SFINAE; we cannot make `is_compatible_container<>` a proper type trait here
struct is_compatible_container : std::true_type { };
#  else
struct is_compatible_container_r { is_compatible_container_r(int); };
template< class C, class E >
std::true_type  is_compatible_container_f( is_compatible_container_r<C, E> );
template< class C, class E >
std::false_type is_compatible_container_f( ... );

template< class C, class E >
struct is_compatible_container : decltype( is_compatible_container_f< C, E >( 0 ) ) { };
#  endif // gsl_BETWEEN( gsl_COMPILER_MSVC_VERSION, 1, 140 )

# endif // gsl_CPP11_140 && ! gsl_BETWEEN( gsl_COMPILER_GNUC_VERSION, 1, 500 )

#endif // gsl_HAVE( TYPE_TRAITS )

} // namespace detail

//
// GSL.util: utilities
//

// Integer type for indices (e.g. in a loop).
typedef gsl_CONFIG_INDEX_TYPE index;

// Integer type for dimensions.
typedef gsl_CONFIG_INDEX_TYPE dim;

// Integer type for array strides.
typedef gsl_CONFIG_INDEX_TYPE stride;

// Integer type for pointer, iterator, or index differences.
typedef gsl_CONFIG_INDEX_TYPE diff;

//
// GSL.owner: ownership pointers
//
#if gsl_HAVE( SHARED_PTR )
  using std::unique_ptr;
  using std::shared_ptr;
  using std::make_shared;
# if gsl_HAVE( MAKE_UNIQUE ) || gsl_HAVE( VARIADIC_TEMPLATE )
  using std14::make_unique;
# endif
#endif

#if  gsl_HAVE( ALIAS_TEMPLATE )
  template< class T
#if gsl_HAVE( TYPE_TRAITS )
          , typename = typename std::enable_if< std::is_pointer<T>::value >::type
#endif
  >
  using owner = T;
#elif gsl_CONFIG( DEFAULTS_VERSION ) == 0
  // TODO vNext: remove
  template< class T > struct owner { typedef T type; };
#endif

#define gsl_HAVE_OWNER_TEMPLATE     gsl_HAVE_ALIAS_TEMPLATE
#define gsl_HAVE_OWNER_TEMPLATE_()  gsl_HAVE_OWNER_TEMPLATE

// TODO vNext: remove
#if gsl_FEATURE( OWNER_MACRO )
# if gsl_HAVE( OWNER_TEMPLATE )
#  define Owner(t)  ::gsl::owner<t>
# else
#  define Owner(t)  ::gsl::owner<t>::type
# endif
#endif

//
// GSL.assert: assertions
//

#if gsl_HAVE( TYPE_TRAITS )
# define gsl_ELIDE_( x )  static_assert( ::std::is_constructible<bool, decltype( x )>::value, "argument of contract check must be convertible to bool" )
#else
# define gsl_ELIDE_( x )
#endif
#define gsl_NO_OP_()      ( static_cast<void>( 0 ) )

#if defined( gsl_CONFIG_UNENFORCED_CONTRACTS_ASSUME )
# if defined( __CUDACC__ ) && defined( __CUDA_ARCH__ )
#  if gsl_COMPILER_NVCC_VERSION >= 113
#   define gsl_ASSUME_( x )           ( ( x ) ? static_cast<void>(0) : __builtin_unreachable() )
#   define gsl_ASSUME_UNREACHABLE_()  __builtin_unreachable()
#  else
#   define gsl_ASSUME_( x )           gsl_ELIDE_( x ) /* there is no assume intrinsic in CUDA device code */
#   define gsl_ASSUME_UNREACHABLE_()  gsl_NO_OP_() /* there is no assume intrinsic in CUDA device code */
#  endif
# elif gsl_COMPILER_MSVC_VERSION >= 140
#  define  gsl_ASSUME_( x )           __assume( x )
#  define  gsl_ASSUME_UNREACHABLE_()  __assume( 0 )
# elif gsl_COMPILER_GNUC_VERSION
#   define gsl_ASSUME_( x )           ( ( x ) ? static_cast<void>(0) : __builtin_unreachable() )
#  define  gsl_ASSUME_UNREACHABLE_()  __builtin_unreachable()
# elif defined(__has_builtin)
#  if __has_builtin(__builtin_unreachable)
#   define gsl_ASSUME_( x )           ( ( x ) ? static_cast<void>(0) : __builtin_unreachable() )
#   define gsl_ASSUME_UNREACHABLE_()  __builtin_unreachable()
#  else
#   error  gsl_CONFIG_UNENFORCED_CONTRACTS_ASSUME: gsl-lite does not know how to generate UB optimization hints for this compiler; use gsl_CONFIG_UNENFORCED_CONTRACTS_ELIDE instead
#  endif
# else
#  error   gsl_CONFIG_UNENFORCED_CONTRACTS_ASSUME: gsl-lite does not know how to generate UB optimization hints for this compiler; use gsl_CONFIG_UNENFORCED_CONTRACTS_ELIDE instead
# endif
#endif // defined( gsl_CONFIG_UNENFORCED_CONTRACTS_ASSUME )

#if defined( gsl_CONFIG_UNENFORCED_CONTRACTS_ASSUME )
# define gsl_CONTRACT_UNENFORCED_( x )  gsl_ASSUME_( x )
#else // defined( gsl_CONFIG_UNENFORCED_CONTRACTS_ELIDE ) [default]
# define gsl_CONTRACT_UNENFORCED_( x )  gsl_ELIDE_( x )
#endif

#if defined( gsl_CONFIG_CONTRACT_VIOLATION_TRAPS )
# if defined( __CUDACC__ ) && defined( __CUDA_ARCH__ )
#  define  gsl_TRAP_()  __trap()
# elif gsl_COMPILER_MSVC_VERSION >= 110 // __fastfail() supported by VS 2012 and later
#  define  gsl_TRAP_()  __fastfail( 0 ) /* legacy failure code for buffer-overrun errors, cf. winnt.h, "Fast fail failure codes" */
# elif gsl_COMPILER_GNUC_VERSION
#  define  gsl_TRAP_()  __builtin_trap()
# elif defined(__has_builtin)
#  if __has_builtin(__builtin_trap)
#   define gsl_TRAP_()  __builtin_trap()
#  else
#   error  gsl_CONFIG_CONTRACT_VIOLATION_TRAPS: gsl-lite does not know how to generate a trap instruction for this compiler; use gsl_CONFIG_CONTRACT_VIOLATION_TERMINATES instead
#  endif
# else
#  error   gsl_CONFIG_CONTRACT_VIOLATION_TRAPS: gsl-lite does not know how to generate a trap instruction for this compiler; use gsl_CONFIG_CONTRACT_VIOLATION_TERMINATES instead
# endif
#endif // defined( gsl_CONFIG_CONTRACT_VIOLATION_TRAPS )

#if defined( gsl_CONFIG_CONTRACT_VIOLATION_CALLS_HANDLER )
# define   gsl_CONTRACT_CHECK_( str, x )  ( ( x ) ? static_cast<void>(0) : ::gsl::fail_fast_assert_handler( #x, str, __FILE__, __LINE__ ) )
# if defined( __CUDACC__ ) && defined( __CUDA_ARCH__ )
#  define  gsl_FAILFAST_()                ( ::gsl::fail_fast_assert_handler( "", "GSL: failure", __FILE__, __LINE__ ), gsl_TRAP_() ) /* do not let the custom assertion handler continue execution */
# else
#  define  gsl_FAILFAST_()                ( ::gsl::fail_fast_assert_handler( "", "GSL: failure", __FILE__, __LINE__ ), ::gsl::detail::fail_fast_terminate() ) /* do not let the custom assertion handler continue execution */
# endif
#elif defined( __CUDACC__ ) && defined( __CUDA_ARCH__ )
# if defined( gsl_CONFIG_CONTRACT_VIOLATION_ASSERTS ) || ! defined( NDEBUG )
#  define  gsl_CONTRACT_CHECK_( str, x )  assert( str && ( x ) )
# else
#  define  gsl_CONTRACT_CHECK_( str, x )  ( ( x ) ? static_cast<void>(0) : __trap() )
#endif
# define  gsl_FAILFAST_()                 ( __trap() )
#elif defined( gsl_CONFIG_CONTRACT_VIOLATION_ASSERTS )
# define   gsl_CONTRACT_CHECK_( str, x )  assert( str && ( x ) )
# if ! defined( NDEBUG )
#  define  gsl_FAILFAST_()                ( assert( ! "GSL: failure" ), ::gsl::detail::fail_fast_terminate() )
# else
#  define  gsl_FAILFAST_()                ( ::gsl::detail::fail_fast_terminate() )
# endif
#elif defined( gsl_CONFIG_CONTRACT_VIOLATION_TRAPS )
# define   gsl_CONTRACT_CHECK_( str, x )  ( ( x ) ? static_cast<void>(0) : gsl_TRAP_() )
# if gsl_COMPILER_MSVC_VERSION
#  define  gsl_FAILFAST_()                ( gsl_TRAP_(), ::gsl::detail::fail_fast_terminate() )
# else
#  define  gsl_FAILFAST_()                ( gsl_TRAP_() )
# endif
#elif defined( gsl_CONFIG_CONTRACT_VIOLATION_THROWS )
# define   gsl_CONTRACT_CHECK_( str, x )  ( ( x ) ? static_cast<void>(0) : ::gsl::detail::fail_fast_throw( str ": '" #x "' at " __FILE__ ":" gsl_STRINGIFY(__LINE__) ) )
# define   gsl_FAILFAST_()                ( ::gsl::detail::fail_fast_throw( "GSL: failure at " __FILE__ ":" gsl_STRINGIFY(__LINE__) ) )
#else // defined( gsl_CONFIG_CONTRACT_VIOLATION_TERMINATES ) [default]
# define   gsl_CONTRACT_CHECK_( str, x )  ( ( x ) ? static_cast<void>(0) : ::gsl::detail::fail_fast_terminate() )
# define   gsl_FAILFAST_()                ( ::gsl::detail::fail_fast_terminate() )
#endif

#if defined( gsl_CONFIG_CONTRACT_CHECKING_OFF ) || defined( gsl_CONFIG_CONTRACT_CHECKING_EXPECTS_OFF )
# define  gsl_Expects( x )       gsl_CONTRACT_UNENFORCED_( x )
#else
# define  gsl_Expects( x )       gsl_CONTRACT_CHECK_( "GSL: Precondition failure", x )
#endif
#define   Expects( x )           gsl_Expects( x )
#if !defined( gsl_CONFIG_CONTRACT_CHECKING_AUDIT ) || defined( gsl_CONFIG_CONTRACT_CHECKING_EXPECTS_OFF )
# define  gsl_ExpectsAudit( x )  gsl_ELIDE_( x )
#else
# define  gsl_ExpectsAudit( x )  gsl_CONTRACT_CHECK_( "GSL: Precondition failure (audit)", x )
#endif

#if defined( gsl_CONFIG_CONTRACT_CHECKING_OFF ) || defined( gsl_CONFIG_CONTRACT_CHECKING_ENSURES_OFF )
# define  gsl_Ensures( x )       gsl_CONTRACT_UNENFORCED_( x )
#else
# define  gsl_Ensures( x )       gsl_CONTRACT_CHECK_( "GSL: Postcondition failure", x )
#endif
#define   Ensures( x )           gsl_Ensures( x )
#if !defined( gsl_CONFIG_CONTRACT_CHECKING_AUDIT ) || defined( gsl_CONFIG_CONTRACT_CHECKING_ENSURES_OFF )
# define  gsl_EnsuresAudit( x )  gsl_ELIDE_( x )
#else
# define  gsl_EnsuresAudit( x )  gsl_CONTRACT_CHECK_( "GSL: Postcondition failure (audit)", x )
#endif

#if defined( gsl_CONFIG_CONTRACT_CHECKING_OFF ) || defined( gsl_CONFIG_CONTRACT_CHECKING_ASSERT_OFF )
#  define gsl_Assert( x )       gsl_CONTRACT_UNENFORCED_( x )
#else
# define  gsl_Assert( x )       gsl_CONTRACT_CHECK_( "GSL: Assertion failure", x )
#endif
#if !defined( gsl_CONFIG_CONTRACT_CHECKING_AUDIT ) || defined( gsl_CONFIG_CONTRACT_CHECKING_ASSERT_OFF )
# define  gsl_AssertAudit( x )  gsl_ELIDE_( x )
#else
# define  gsl_AssertAudit( x )  gsl_CONTRACT_CHECK_( "GSL: Assertion failure (audit)", x )
#endif

#define   gsl_FailFast()        gsl_FAILFAST_()


struct fail_fast : public std::logic_error
{
    explicit fail_fast( char const * message )
    : std::logic_error( message ) {}
};

namespace detail {


#if gsl_HAVE( EXCEPTIONS )
gsl_NORETURN inline void fail_fast_throw( char const * message )
{
    throw fail_fast( message );
}
#endif // gsl_HAVE( EXCEPTIONS )
gsl_NORETURN inline void fail_fast_terminate() gsl_noexcept
{
    std::terminate();
}

} // namespace detail

// Should be defined by user
gsl_api void fail_fast_assert_handler( char const * const expression, char const * const message, char const * const file, int line );

#if   defined( gsl_CONFIG_CONTRACT_VIOLATION_THROWS )

# if gsl_HAVE( EXCEPTIONS )
gsl_DEPRECATED_MSG("don't call gsl::fail_fast_assert() directly; use contract checking macros instead")
gsl_constexpr14 inline
void fail_fast_assert( bool cond, char const * const message )
{
    if ( !cond )
        throw fail_fast( message );
}
# endif // gsl_HAVE( EXCEPTIONS )

#elif defined( gsl_CONFIG_CONTRACT_VIOLATION_CALLS_HANDLER )

gsl_DEPRECATED_MSG("don't call gsl::fail_fast_assert() directly; use contract checking macros instead")
gsl_api gsl_constexpr14 inline
void fail_fast_assert( bool cond, char const * const expression, char const * const message, char const * const file, int line )
{
    if ( !cond )
        ::gsl::fail_fast_assert_handler( expression, message, file, line );
}

#else // defined( gsl_CONFIG_CONTRACT_VIOLATION_TERMINATES ) [default]

gsl_DEPRECATED_MSG("don't call gsl::fail_fast_assert() directly; use contract checking macros instead")
gsl_constexpr14 inline
void fail_fast_assert( bool cond ) gsl_noexcept
{
    if ( !cond )
        std::terminate();
}

#endif


//
// GSL.util: utilities
//

#if gsl_FEATURE( EXPERIMENTAL_RETURN_GUARD )

// Add uncaught_exceptions for pre-2017 MSVC, GCC and Clang
// Return unsigned char to save stack space, uncaught_exceptions can only increase by 1 in a scope

namespace std11 {

# if gsl_HAVE( UNCAUGHT_EXCEPTIONS )

inline unsigned char uncaught_exceptions() gsl_noexcept
{
    return static_cast<unsigned char>( std::uncaught_exceptions() );
}

# else // ! gsl_HAVE( UNCAUGHT_EXCEPTIONS )
#  if defined( _MSC_VER ) // MS-STL with either MSVC or clang-cl

inline unsigned char uncaught_exceptions() gsl_noexcept
{
    return static_cast<unsigned char>( *reinterpret_cast<unsigned const*>( detail::_getptd() + (sizeof(void *) == 8 ? 0x100 : 0x90 ) ) );
}

#  elif gsl_COMPILER_CLANG_VERSION || gsl_COMPILER_GNUC_VERSION || gsl_COMPILER_APPLECLANG_VERSION

inline unsigned char uncaught_exceptions() gsl_noexcept
{
    return static_cast<unsigned char>( ( *reinterpret_cast<unsigned const *>( reinterpret_cast<unsigned char const *>(detail::__cxa_get_globals()) + sizeof(void *) ) ) );
}

#  endif
# endif

} // namespace std11

#endif // gsl_FEATURE( EXPERIMENTAL_RETURN_GUARD )

#if gsl_STDLIB_CPP11_110

gsl_DISABLE_MSVC_WARNINGS( 4702 ) // unreachable code

template< class F >
class final_action
{
public:
    explicit final_action( F action ) gsl_noexcept
        : action_( std::move( action ) )
        , invoke_( true )
    {}

    final_action( final_action && other ) gsl_noexcept
        : action_( std::move( other.action_ ) )
        , invoke_( other.invoke_ )
    {
        other.invoke_ = false;
    }

    gsl_SUPPRESS_MSGSL_WARNING(f.6)
    virtual ~final_action() gsl_noexcept
    {
        if ( invoke_ )
            action_();
    }

gsl_is_delete_access:
    final_action( final_action const & ) gsl_is_delete;
    final_action & operator=( final_action const & ) gsl_is_delete;
    final_action & operator=( final_action && ) gsl_is_delete;

protected:
    void dismiss() gsl_noexcept
    {
        invoke_ = false;
    }

private:
    F action_;
    bool invoke_;
};

template< class F >
gsl_NODISCARD inline final_action<F>
finally( F const & action ) gsl_noexcept
{
    return final_action<F>( action );
}

template< class F >
gsl_NODISCARD inline final_action<F>
finally( F && action ) gsl_noexcept
{
    return final_action<F>( std::forward<F>( action ) );
}

# if gsl_FEATURE( EXPERIMENTAL_RETURN_GUARD )

template< class F >
class final_action_return : public final_action<F>
{
public:
    explicit final_action_return( F && action ) gsl_noexcept
        : final_action<F>( std::move( action ) )
        , exception_count( std11::uncaught_exceptions() )
    {}

    final_action_return( final_action_return && other ) gsl_noexcept
        : final_action<F>( std::move( other ) )
        , exception_count( std11::uncaught_exceptions() )
    {}

    ~final_action_return() override
    {
        if ( std11::uncaught_exceptions() != exception_count )
            this->dismiss();
    }

gsl_is_delete_access:
    final_action_return( final_action_return const & ) gsl_is_delete;
    final_action_return & operator=( final_action_return const & ) gsl_is_delete;

private:
    unsigned char exception_count;
};

template< class F >
gsl_NODISCARD inline final_action_return<F>
on_return( F const & action ) gsl_noexcept
{
    return final_action_return<F>( action );
}

template< class F >
gsl_NODISCARD inline final_action_return<F>
on_return( F && action ) gsl_noexcept
{
    return final_action_return<F>( std::forward<F>( action ) );
}

template< class F >
class final_action_error : public final_action<F>
{
public:
    explicit final_action_error( F && action ) gsl_noexcept
        : final_action<F>( std::move( action ) )
        , exception_count( std11::uncaught_exceptions() )
    {}

    final_action_error( final_action_error && other ) gsl_noexcept
        : final_action<F>( std::move( other ) )
        , exception_count( std11::uncaught_exceptions() )
    {}

    ~final_action_error() override
    {
        if ( std11::uncaught_exceptions() == exception_count )
            this->dismiss();
    }

gsl_is_delete_access:
    final_action_error( final_action_error const & ) gsl_is_delete;
    final_action_error & operator=( final_action_error const & ) gsl_is_delete;

private:
    unsigned char exception_count;
};

template< class F >
gsl_NODISCARD inline final_action_error<F>
on_error( F const & action ) gsl_noexcept
{
    return final_action_error<F>( action );
}

template< class F >
gsl_NODISCARD inline final_action_error<F>
on_error( F && action ) gsl_noexcept
{
    return final_action_error<F>( std::forward<F>( action ) );
}

# endif // gsl_FEATURE( EXPERIMENTAL_RETURN_GUARD )

gsl_RESTORE_MSVC_WARNINGS()

#else // ! gsl_STDLIB_CPP11_110

class final_action
{
public:
    typedef void (*Action)();

    final_action( Action action )
    : action_( action )
    , invoke_( true )
    {}

    final_action( final_action const & other )
        : action_( other.action_ )
        , invoke_( other.invoke_ )
    {
        other.invoke_ = false;
    }

    virtual ~final_action()
    {
        if ( invoke_ )
            action_();
    }

protected:
    void dismiss()
    {
        invoke_ = false;
    }

private:
    final_action & operator=( final_action const & );

private:
    Action action_;
    mutable bool invoke_;
};

template< class F >
inline final_action finally( F const & f )
{
    return final_action(( f ));
}

#if gsl_FEATURE( EXPERIMENTAL_RETURN_GUARD )

class final_action_return : public final_action
{
public:
    explicit final_action_return( Action action )
        : final_action( action )
        , exception_count( std11::uncaught_exceptions() )
    {}

    ~final_action_return()
    {
        if ( std11::uncaught_exceptions() != exception_count )
            this->dismiss();
    }

private:
    final_action_return & operator=( final_action_return const & );

private:
    unsigned char exception_count;
};

template< class F >
inline final_action_return on_return( F const & action )
{
    return final_action_return( action );
}

class final_action_error : public final_action
{
public:
    explicit final_action_error( Action action )
        : final_action( action )
        , exception_count( std11::uncaught_exceptions() )
    {}

    ~final_action_error()
    {
        if ( std11::uncaught_exceptions() == exception_count )
            this->dismiss();
    }

private:
    final_action_error & operator=( final_action_error const & );

private:
    unsigned char exception_count;
};

template< class F >
inline final_action_error on_error( F const & action )
{
    return final_action_error( action );
}

# endif // gsl_FEATURE( EXPERIMENTAL_RETURN_GUARD )

#endif // gsl_STDLIB_CPP11_110

#if gsl_STDLIB_CPP11_120

template< class T, class U >
gsl_NODISCARD gsl_api inline gsl_constexpr T
narrow_cast( U && u ) gsl_noexcept
{
    return static_cast<T>( std::forward<U>( u ) );
}

#else // ! gsl_STDLIB_CPP11_120

template< class T, class U >
gsl_api inline T
narrow_cast( U u ) gsl_noexcept
{
    return static_cast<T>( u );
}

#endif // gsl_STDLIB_CPP11_120

struct narrowing_error : public std::exception
{
    char const * what() const gsl_noexcept
#if gsl_HAVE( OVERRIDE_FINAL )
    override
#endif
    {
        return "narrowing_error";
    }
};

#if gsl_HAVE( TYPE_TRAITS )

namespace detail {

    template< class T, class U >
    struct is_same_signedness : public std::integral_constant<bool, std::is_signed<T>::value == std::is_signed<U>::value> {};

# if gsl_COMPILER_NVCC_VERSION
    // We do this to circumvent NVCC warnings about pointless unsigned comparisons with 0.
    template< class T >
    gsl_constexpr gsl_api bool is_negative( T value, std::true_type /*isSigned*/ ) gsl_noexcept
    {
        return value < T();
    }
    template< class T >
    gsl_constexpr gsl_api bool is_negative( T /*value*/, std::false_type /*isUnsigned*/ ) gsl_noexcept
    {
        return false;
    }
    template< class T, class U >
    gsl_constexpr gsl_api bool have_same_sign( T, U, std::true_type /*isSameSignedness*/ ) gsl_noexcept
    {
        return true;
    }
    template< class T, class U >
    gsl_constexpr gsl_api bool have_same_sign( T t, U u, std::false_type /*isSameSignedness*/ ) gsl_noexcept
    {
        return detail::is_negative( t, std::is_signed<T>() ) == detail::is_negative( u, std::is_signed<U>() );
    }
# endif // gsl_COMPILER_NVCC_VERSION

} // namespace detail

#endif

template< class T, class U >
gsl_NODISCARD
#if !gsl_CONFIG( NARROW_THROWS_ON_TRUNCATION ) && !defined( gsl_CONFIG_CONTRACT_VIOLATION_THROWS )
gsl_api
#endif
inline T
narrow( U u )
{
#if gsl_CONFIG( NARROW_THROWS_ON_TRUNCATION ) && ! gsl_HAVE( EXCEPTIONS )
    gsl_STATIC_ASSERT_( detail::dependent_false< T >::value,
        "According to the GSL specification, narrow<>() throws an exception of type narrowing_error on truncation. Therefore "
        "it cannot be used if exceptions are disabled. Consider using narrow_failfast<>() instead which raises a precondition "
        "violation if the given value cannot be represented in the target type." );
#endif

    T t = static_cast<T>( u );

    if ( static_cast<U>( t ) != u )
    {
#if gsl_HAVE( EXCEPTIONS ) && ( gsl_CONFIG( NARROW_THROWS_ON_TRUNCATION ) || defined( gsl_CONFIG_CONTRACT_VIOLATION_THROWS ) )
        throw narrowing_error();
#else
        std::terminate();
#endif
    }

#if gsl_HAVE( TYPE_TRAITS )
# if gsl_COMPILER_NVCC_VERSION
    if ( ! detail::have_same_sign( t, u, detail::is_same_signedness<T, U>() ) )
# else
    gsl_SUPPRESS_MSVC_WARNING( 4127, "conditional expression is constant" )
    if ( ! detail::is_same_signedness<T, U>::value && ( t < T() ) != ( u < U() ) )
# endif
#else
    // Don't assume T() works:
    gsl_SUPPRESS_MSVC_WARNING( 4127, "conditional expression is constant" )
    if ( ( t < 0 ) != ( u < 0 ) )
#endif
    {
#if gsl_HAVE( EXCEPTIONS ) && ( gsl_CONFIG( NARROW_THROWS_ON_TRUNCATION ) || defined( gsl_CONFIG_CONTRACT_VIOLATION_THROWS ) )
        throw narrowing_error();
#else
        std::terminate();
#endif
    }

    return t;
}

template< class T, class U >
gsl_NODISCARD gsl_api inline T
narrow_failfast( U u )
{
    T t = static_cast<T>( u );

    gsl_Expects( static_cast<U>( t ) == u );

#if gsl_HAVE( TYPE_TRAITS )
# if gsl_COMPILER_NVCC_VERSION
    gsl_Expects( ::gsl::detail::have_same_sign( t, u, ::gsl::detail::is_same_signedness<T, U>() ) );
# else
    gsl_SUPPRESS_MSVC_WARNING( 4127, "conditional expression is constant" )
    gsl_Expects( ( ::gsl::detail::is_same_signedness<T, U>::value || ( t < T() ) == ( u < U() ) ) );
# endif
#else
    // Don't assume T() works:
    gsl_SUPPRESS_MSVC_WARNING( 4127, "conditional expression is constant" )
    gsl_Expects( ( t < 0 ) == ( u < 0 ) );
#endif

    return t;
}


//
// at() - Bounds-checked way of accessing static arrays, std::array, std::vector.
//

template< class T, size_t N >
gsl_NODISCARD gsl_api inline gsl_constexpr14 T &
at( T(&arr)[N], size_t pos )
{
    gsl_Expects( pos < N );
    return arr[pos];
}

template< class Container >
gsl_NODISCARD gsl_api inline gsl_constexpr14 typename Container::value_type &
at( Container & cont, size_t pos )
{
    gsl_Expects( pos < cont.size() );
    return cont[pos];
}

template< class Container >
gsl_NODISCARD gsl_api inline gsl_constexpr14 typename Container::value_type const &
at( Container const & cont, size_t pos )
{
    gsl_Expects( pos < cont.size() );
    return cont[pos];
}

#if gsl_HAVE( INITIALIZER_LIST )

template< class T >
gsl_NODISCARD gsl_api inline const gsl_constexpr14 T
at( std::initializer_list<T> cont, size_t pos )
{
    gsl_Expects( pos < cont.size() );
    return *( cont.begin() + pos );
}
#endif

template< class T >
gsl_NODISCARD gsl_api inline gsl_constexpr14 T &
at( span<T> s, size_t pos )
{
    return s[ pos ];
}

//
// GSL.views: views
//

//
// not_null<> - Wrap any indirection and enforce non-null.
//

template< class T >
class not_null;

namespace detail {

// helper class to figure out the pointed-to type of a pointer
#if gsl_STDLIB_CPP11_OR_GREATER
template< class T, class E = void >
struct element_type_helper
{
    // For types without a member element_type (this will handle raw pointers)
    typedef typename std::remove_reference< decltype( *std::declval<T>() ) >::type type;
};

template< class T >
struct element_type_helper< T, std17::void_t< typename T::element_type > >
{
    // For types with a member element_type
    typedef typename T::element_type type;
};
#else // ! gsl_STDLIB_CPP11_OR_GREATER
// Pre-C++11, we cannot have decltype, so we cannot handle types without a member element_type
template< class T, class E = void >
struct element_type_helper
{
    typedef typename T::element_type type;
};

template< class T >
struct element_type_helper< T* >
{
    typedef T type;
};
#endif // gsl_STDLIB_CPP11_OR_GREATER

template< class T >
struct is_not_null_or_bool_oracle : std11::false_type { };
template< class T >
struct is_not_null_or_bool_oracle< not_null<T> > : std11::true_type { };
template<>
struct is_not_null_or_bool_oracle< bool > : std11::true_type { };


template< class T, bool IsCopyable = true >
struct not_null_data;
#if gsl_HAVE( MOVE_FORWARD )
template< class T >
struct not_null_data< T, false >
{
    T ptr_;

    gsl_api gsl_constexpr14 not_null_data( T && _ptr ) gsl_noexcept
    : ptr_( std::move( _ptr ) )
    {
    }

    gsl_api gsl_constexpr14 not_null_data( not_null_data && other ) gsl_noexcept
    : ptr_( std::move( other.ptr_ ) )
    {
    }
    gsl_api gsl_constexpr14 not_null_data & operator=( not_null_data && other ) gsl_noexcept
    {
        ptr_ = std::move( other.ptr_ );
        return *this;
    }

gsl_is_delete_access:
    not_null_data( not_null_data const & ) gsl_is_delete;
    not_null_data & operator=( not_null_data const & ) gsl_is_delete;
};
# if gsl_CONFIG_DEFAULTS_VERSION >= 1
# endif // gsl_CONFIG_DEFAULTS_VERSION >= 1
#endif // gsl_HAVE( MOVE_FORWARD )
template< class T >
struct not_null_data< T, true >
{
    T ptr_;

    gsl_api gsl_constexpr14 not_null_data( T const & _ptr ) gsl_noexcept
    : ptr_( _ptr )
    {
    }

#if gsl_HAVE( MOVE_FORWARD )
    gsl_api gsl_constexpr14 not_null_data( T && _ptr ) gsl_noexcept
    : ptr_( std::move( _ptr ) )
    {
    }

    gsl_api gsl_constexpr14 not_null_data( not_null_data && other ) gsl_noexcept
    : ptr_( std::move( other.ptr_ ) )
    {
    }
    gsl_api gsl_constexpr14 not_null_data & operator=( not_null_data && other ) gsl_noexcept
    {
        ptr_ = std::move( other.ptr_ );
        return *this;
    }
#endif // gsl_HAVE( MOVE_FORWARD )

    gsl_api gsl_constexpr14 not_null_data( not_null_data const & other )
    : ptr_( other.ptr_ )
    {
        gsl_Expects( ptr_ != gsl_nullptr );
    }
    gsl_api gsl_constexpr14 not_null_data & operator=( not_null_data const & other )
    {
        gsl_Expects( other.ptr_ != gsl_nullptr );
        ptr_ = other.ptr_;
        return *this;
    }
};
#if gsl_CONFIG_DEFAULTS_VERSION >= 1
template< class T >
struct not_null_data< T *, true >
{
    T * ptr_;

    gsl_api gsl_constexpr14 not_null_data( T * _ptr ) gsl_noexcept
    : ptr_( _ptr )
    {
    }
};
#endif // gsl_CONFIG_DEFAULTS_VERSION >= 1
template< class T >
struct is_copyable
#if gsl_HAVE( TYPE_TRAITS )
: std11::integral_constant< bool, std::is_copy_constructible<T>::value && std::is_copy_assignable<T>::value >
#else
: std11::true_type
#endif
{
};
#if gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( UNIQUE_PTR ) && gsl_BETWEEN( gsl_COMPILER_MSVC_VERSION, 1, 140 )
// Type traits are buggy in VC++ 2013, so we explicitly declare `unique_ptr<>` non-copyable.
template< class T, class Deleter >
struct is_copyable< std::unique_ptr< T, Deleter > > : std11::false_type
{
};
#endif

template< class T >
struct not_null_accessor;

} // namespace detail

template< class T >
class not_null
{
private:
    detail::not_null_data< T, detail::is_copyable< T >::value > data_;

    // need to access `not_null<U>::data_`
    template< class U >
    friend class not_null;

    template< class U >
    friend struct detail::not_null_accessor;

public:
    typedef typename detail::element_type_helper<T>::type element_type;

#if gsl_HAVE( TYPE_TRAITS )
    static_assert( std::is_assignable<typename std::remove_const<typename std::remove_reference<T>::type>::type&, std::nullptr_t>::value, "T cannot be assigned nullptr." );
#endif

#if gsl_CONFIG( NOT_NULL_EXPLICIT_CTOR )
# if gsl_HAVE( MOVE_FORWARD )
    template< class U
    // In Clang 3.x, `is_constructible<not_null<unique_ptr<X>>, unique_ptr<X>>` tries to instantiate the copy constructor of `unique_ptr<>`, triggering an error.
    // Note that Apple Clang's `__clang_major__` etc. are different from regular Clang.
#  if gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && ! gsl_BETWEEN( gsl_COMPILER_CLANG_VERSION, 1, 400 ) && ! gsl_BETWEEN( gsl_COMPILER_APPLECLANG_VERSION, 1, 1001 )
        // We *have* to use SFINAE with an NTTP arg here, otherwise the overload is ambiguous.
        , typename std::enable_if< ( std::is_constructible<T, U>::value ), int >::type = 0
#  endif
    >
    gsl_api gsl_constexpr14 explicit not_null( U other )
    : data_( T( std::move( other ) ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }
# else // a.k.a. ! gsl_HAVE( MOVE_FORWARD )
    template< class U >
    gsl_api gsl_constexpr14 explicit not_null( U const& other )
    : data_( T( other ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }
# endif // gsl_HAVE( MOVE_FORWARD )
#else // a.k.a. !gsl_CONFIG( NOT_NULL_EXPLICIT_CTOR )
# if gsl_HAVE( MOVE_FORWARD )
    // In Clang 3.x, `is_constructible<not_null<unique_ptr<X>>, unique_ptr<X>>` tries to instantiate the copy constructor of `unique_ptr<>`, triggering an error.
    // Note that Apple Clang's `__clang_major__` etc. are different from regular Clang.
#  if gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && ! gsl_BETWEEN( gsl_COMPILER_CLANG_VERSION, 1, 400 ) && ! gsl_BETWEEN( gsl_COMPILER_APPLECLANG_VERSION, 1, 1001 )
    template< class U
        // We *have* to use SFINAE with an NTTP arg here, otherwise the overload is ambiguous.
        , typename std::enable_if< ( std::is_constructible<T, U>::value && !std::is_convertible<U, T>::value ), int >::type = 0
    >
    gsl_api gsl_constexpr14 explicit not_null( U other )
    : data_( T( std::move( other ) ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }

    template< class U
        // We *have* to use SFINAE with an NTTP arg here, otherwise the overload is ambiguous.
        , typename std::enable_if< ( std::is_convertible<U, T>::value ), int >::type = 0
    >
    gsl_api gsl_constexpr14 not_null( U other )
    : data_( std::move( other ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }
#  else // a.k.a. !( gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && ! gsl_BETWEEN( gsl_COMPILER_CLANG_VERSION, 1, 400 ) && ! gsl_BETWEEN( gsl_COMPILER_APPLECLANG_VERSION, 1, 1001 )
    // If type_traits are not available, then we can't distinguish `is_convertible<>` and `is_constructible<>`, so we unconditionally permit implicit construction.
    template< class U >
    gsl_api gsl_constexpr14 not_null( U other )
    : data_( T( std::move( other ) ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }
#  endif // gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && ! gsl_BETWEEN( gsl_COMPILER_CLANG_VERSION, 1, 400 ) && ! gsl_BETWEEN( gsl_COMPILER_APPLECLANG_VERSION, 1, 1001 )
# else // a.k.a. ! gsl_HAVE( MOVE_FORWARD )
    template< class U >
    gsl_api gsl_constexpr14 not_null( U const& other )
    : data_( T( other ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }
# endif // gsl_HAVE( MOVE_FORWARD )
#endif // gsl_CONFIG( NOT_NULL_EXPLICIT_CTOR )

public:
#if gsl_HAVE( MOVE_FORWARD )
    // In Clang 3.x, `is_constructible<not_null<unique_ptr<X>>, unique_ptr<X>>` tries to instantiate the copy constructor of `unique_ptr<>`, triggering an error.
    // Note that Apple Clang's `__clang_major__` etc. are different from regular Clang.
# if gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && ! gsl_BETWEEN( gsl_COMPILER_CLANG_VERSION, 1, 400 ) && ! gsl_BETWEEN( gsl_COMPILER_APPLECLANG_VERSION, 1, 1001 )
    template< class U
        // We *have* to use SFINAE with an NTTP arg here, otherwise the overload is ambiguous.
        , typename std::enable_if< ( std::is_constructible<T, U>::value && !std::is_convertible<U, T>::value ), int >::type = 0
    >
    gsl_api gsl_constexpr14 explicit not_null( not_null<U> other )
    : data_( T( std::move( other.data_.ptr_ ) ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }

    template< class U
        // We *have* to use SFINAE with an NTTP arg here, otherwise the overload is ambiguous.
        , typename std::enable_if< ( std::is_convertible<U, T>::value ), int >::type = 0
    >
    gsl_api gsl_constexpr14 not_null( not_null<U> other )
    : data_( T( std::move( other.data_.ptr_ ) ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }
# else // a.k.a. ! ( gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && ! gsl_BETWEEN( gsl_COMPILER_CLANG_VERSION, 1, 400 ) && ! gsl_BETWEEN( gsl_COMPILER_APPLECLANG_VERSION, 1, 1001 )
    // If type_traits are not available, then we can't distinguish `is_convertible<>` and `is_constructible<>`, so we unconditionally permit implicit construction.
    template< class U >
    gsl_api gsl_constexpr14 not_null( not_null<U> other )
    : data_( T( std::move( other.data_.ptr_ ) ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }
    template< class U >
    gsl_api gsl_constexpr14 not_null<T>& operator=( not_null<U> other )
    {
        gsl_Expects( other.data_.ptr_ != gsl_nullptr );
        data_.ptr_ = std::move( other.data_.ptr_ );
        return *this;
    }
# endif // gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && ! gsl_BETWEEN( gsl_COMPILER_CLANG_VERSION, 1, 400 ) && ! gsl_BETWEEN( gsl_COMPILER_APPLECLANG_VERSION, 1, 1001 )
#else // a.k.a. ! gsl_HAVE( MOVE_FORWARD )
    template< class U >
    gsl_api gsl_constexpr14 not_null( not_null<U> const& other )
    : data_( T( other.data_.ptr_ ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }
    template< class U >
    gsl_api gsl_constexpr14 not_null<T>& operator=( not_null<U> const & other )
    {
        gsl_Expects( other.data_.ptr_ != gsl_nullptr );
        data_.ptr_ = other.data_.ptr_;
        return *this;
    }
#endif // gsl_HAVE( MOVE_FORWARD )

#if gsl_CONFIG( TRANSPARENT_NOT_NULL )
    gsl_NODISCARD gsl_api gsl_constexpr14 element_type *
    get() const
    {
        element_type * result = data_.ptr_.get();
        gsl_Ensures( result != gsl_nullptr );
        return result;
    }
#else
# if gsl_CONFIG( NOT_NULL_GET_BY_CONST_REF )
    gsl_NODISCARD gsl_api gsl_constexpr14 T const &
    get() const
    {
        T const & result = data_.ptr_;
        gsl_Ensures( result != gsl_nullptr );
        return result;
    }
# else
    gsl_NODISCARD gsl_api gsl_constexpr14 T
    get() const
    {
        T result = data_.ptr_;
        gsl_Ensures( result != gsl_nullptr );
        return result;
    }
# endif
#endif

    // We want an implicit conversion operator that can be used to convert from both lvalues (by
    // const reference or by copy) and rvalues (by move). So it seems like we could define
    //
    //     template< class U >
    //     operator U const &() const & { ... }
    //     template< class U >
    //     operator U &&() && { ... }
    //
    // However, having two conversion operators with different return types renders the assignment
    // operator of the result type ambiguous:
    //
    //     not_null<std::unique_ptr<T>> p( ... );
    //     std::unique_ptr<U> q;
    //     q = std::move( p ); // ambiguous
    //
    // To avoid this ambiguity, we have both overloads of the conversion operator return `U`
    // rather than `U const &` or `U &&`. This implies that converting an lvalue always induces
    // a copy, which can cause unnecessary copies or even fail to compile in some situations:
    //
    //     not_null<std::shared_ptr<T>> sp( ... );
    //     std::shared_ptr<U> const & rs = sp; // unnecessary copy
    //     std::unique_ptr<U> const & ru = p; // error: cannot copy `unique_ptr<T>`
    //
    // However, these situations are rather unusual, and the following, more frequent situations
    // remain unimpaired:
    //
    //     std::shared_ptr<U> vs = sp; // no extra copy
    //     std::unique_ptr<U> vu = std::move( p );

#if gsl_HAVE( MOVE_FORWARD ) && gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && gsl_HAVE( EXPLICIT )
    // explicit conversion operator

    template< class U
        // We *have* to use SFINAE with an NTTP arg here, otherwise the overload is ambiguous.
        , typename std::enable_if< ( std::is_constructible<U, T const &>::value && !std::is_convertible<T, U>::value && !detail::is_not_null_or_bool_oracle<U>::value ), int >::type = 0
    >
    gsl_NODISCARD gsl_api gsl_constexpr14 explicit
    operator U() const
# if gsl_HAVE( FUNCTION_REF_QUALIFIER )
    &
# endif
    {
        U result( data_.ptr_ );
        gsl_Ensures( result != gsl_nullptr );
        return result;
    }
# if gsl_HAVE( FUNCTION_REF_QUALIFIER )
    template< class U
        // We *have* to use SFINAE with an NTTP arg here, otherwise the overload is ambiguous.
        , typename std::enable_if< ( std::is_constructible<U, T>::value && !std::is_convertible<T, U>::value && !detail::is_not_null_or_bool_oracle<U>::value ), int >::type = 0
    >
    gsl_NODISCARD gsl_api gsl_constexpr14 explicit
    operator U() &&
    {
        U result( std::move( data_.ptr_ ) );
        gsl_Ensures( result != gsl_nullptr );
        return result;
    }
# endif

    // implicit conversion operator
    template< class U
        // We *have* to use SFINAE with an NTTP arg here, otherwise the overload is ambiguous.
        , typename std::enable_if< ( std::is_constructible<U, T const &>::value && std::is_convertible<T, U>::value && !detail::is_not_null_or_bool_oracle<U>::value ), int >::type = 0
    >
    gsl_NODISCARD gsl_api gsl_constexpr14
    operator U() const
# if gsl_HAVE( FUNCTION_REF_QUALIFIER )
    &
# endif
    {
        U result( data_.ptr_ );
        gsl_Ensures( result != gsl_nullptr );
        return result;
    }
# if gsl_HAVE( FUNCTION_REF_QUALIFIER )
    template< class U
        // We *have* to use SFINAE with an NTTP arg here, otherwise the overload is ambiguous.
        , typename std::enable_if< ( std::is_convertible<T, U>::value && !detail::is_not_null_or_bool_oracle<U>::value ), int >::type = 0
    >
    gsl_NODISCARD gsl_api gsl_constexpr14
    operator U() &&
    {
        U result( std::move( data_.ptr_ ) );
        gsl_Ensures( result != gsl_nullptr );
        return result;
    }
# endif
#else // a.k.a. #if !( gsl_HAVE( MOVE_FORWARD ) && gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && gsl_HAVE( EXPLICIT ) )
    template< class U >
    gsl_NODISCARD gsl_api gsl_constexpr14
    operator U() const
    {
        U result( data_.ptr_ );
        gsl_Ensures( result != gsl_nullptr );
        return result;
    }
#endif // gsl_HAVE( MOVE_FORWARD ) && gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && gsl_HAVE( EXPLICIT )

    gsl_NODISCARD gsl_api gsl_constexpr14 T const &
    operator->() const
    {
        T const & result( data_.ptr_ );
        gsl_Ensures( result != gsl_nullptr );
        return result;
    }

    gsl_NODISCARD gsl_api gsl_constexpr14 element_type &
    operator*() const
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
        return *data_.ptr_;
    }

#if gsl_HAVE( MOVE_FORWARD )
    // Visual C++ 2013 doesn't generate default move constructors, so we declare them explicitly.
    gsl_api gsl_constexpr14 not_null( not_null && other )
    gsl_noexcept_not_testing  // we want to be nothrow-movable despite the precondition check
    : data_( std::move( other.data_ ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }
    gsl_api gsl_constexpr14 not_null & operator=( not_null && other )
    gsl_noexcept_not_testing // we want to be nothrow-movable despite the precondition check
    {
        gsl_Expects( other.data_.ptr_ != gsl_nullptr || &other == this );
        data_ = std::move( other.data_ );
        return *this;
    }
#endif // gsl_HAVE( MOVE_FORWARD )

#if gsl_HAVE( IS_DEFAULT )
    gsl_constexpr14 not_null( not_null const & ) = default;
    gsl_constexpr14 not_null & operator=( not_null const & ) = default;
#endif

    gsl_api gsl_constexpr20 friend void swap( not_null & lhs, not_null & rhs )
    gsl_noexcept_not_testing // we want to be nothrow-swappable despite the precondition check
    {
        gsl_Expects( lhs.data_.ptr_ != gsl_nullptr && rhs.data_.ptr_ != gsl_nullptr );
        using std::swap;
        swap( lhs.data_.ptr_, rhs.data_.ptr_ );
    }

gsl_is_delete_access:
    not_null() gsl_is_delete;
    // prevent compilation when initialized with a nullptr or literal 0:
#if gsl_HAVE( NULLPTR )
    not_null(             std::nullptr_t ) gsl_is_delete;
    not_null & operator=( std::nullptr_t ) gsl_is_delete;
#else
    not_null(             int ) gsl_is_delete;
    not_null & operator=( int ) gsl_is_delete;
#endif

    // unwanted operators...pointers only point to single objects!
    not_null & operator++() gsl_is_delete;
    not_null & operator--() gsl_is_delete;
    not_null   operator++( int ) gsl_is_delete;
    not_null   operator--( int ) gsl_is_delete;
    not_null & operator+ ( size_t ) gsl_is_delete;
    not_null & operator+=( size_t ) gsl_is_delete;
    not_null & operator- ( size_t ) gsl_is_delete;
    not_null & operator-=( size_t ) gsl_is_delete;
    not_null & operator+=( std::ptrdiff_t ) gsl_is_delete;
    not_null & operator-=( std::ptrdiff_t ) gsl_is_delete;
    void       operator[]( std::ptrdiff_t ) const gsl_is_delete;
};
#if gsl_CONFIG_DEFAULTS_VERSION >= 1
template< class T >
class not_null< T * >
{
private:
    detail::not_null_data<T *, true> data_;

    // need to access `not_null<U>::data_`
    template< class U >
    friend class not_null;

    template< class U >
    friend struct detail::not_null_accessor;

public:
    typedef T element_type;

    gsl_api gsl_constexpr14
#if gsl_CONFIG( NOT_NULL_EXPLICIT_CTOR )
    explicit
#endif // gsl_CONFIG( NOT_NULL_EXPLICIT_CTOR )
    not_null( T * other )
    : data_( other )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }

#if gsl_HAVE( MOVE_FORWARD )
    // In Clang 3.x, `is_constructible<not_null<unique_ptr<X>>, unique_ptr<X>>` tries to instantiate the copy constructor of `unique_ptr<>`, triggering an error.
    // Note that Apple Clang's `__clang_major__` etc. are different from regular Clang.
# if gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && ! gsl_BETWEEN( gsl_COMPILER_CLANG_VERSION, 1, 400 ) && ! gsl_BETWEEN( gsl_COMPILER_APPLECLANG_VERSION, 1, 1001 )
    template< class U
        // We *have* to use SFINAE with an NTTP arg here, otherwise the overload is ambiguous.
        , typename std::enable_if< ( std::is_constructible<T*, U>::value && !std::is_convertible<U, T*>::value ), int >::type = 0
    >
    gsl_api gsl_constexpr14 explicit not_null( not_null<U> other )
    : data_( static_cast<T*>( std::move( other.data_.ptr_ ) ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }

    template< class U
        // We *have* to use SFINAE with an NTTP arg here, otherwise the overload is ambiguous.
        , typename std::enable_if< ( std::is_convertible<U, T*>::value ), int >::type = 0
    >
    gsl_api gsl_constexpr14 not_null( not_null<U> other )
    : data_( std::move( other.data_.ptr_ ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }
# else // a.k.a. ! ( gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && ! gsl_BETWEEN( gsl_COMPILER_CLANG_VERSION, 1, 400 ) && ! gsl_BETWEEN( gsl_COMPILER_APPLECLANG_VERSION, 1, 1001 )
    // If type_traits are not available, then we can't distinguish `is_convertible<>` and `is_constructible<>`, so we unconditionally permit implicit construction.
    template< class U >
    gsl_api gsl_constexpr14 not_null( not_null<U> other )
    : data_( std::move( other.data_.ptr_ ) )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }
    template< class U >
    gsl_api gsl_constexpr14 not_null<T*>& operator=( not_null<U> other )
    {
        gsl_Expects( other.data_.ptr_ != gsl_nullptr );
        data_.ptr_ = std::move( other.data_.ptr_ );
        return *this;
    }
# endif // gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && ! gsl_BETWEEN( gsl_COMPILER_CLANG_VERSION, 1, 400 ) && ! gsl_BETWEEN( gsl_COMPILER_APPLECLANG_VERSION, 1, 1001 )
#else // a.k.a. ! gsl_HAVE( MOVE_FORWARD )
    template< class U >
    gsl_api gsl_constexpr14 not_null( not_null<U> const& other )
    : data_( other.data_.ptr_ )
    {
        gsl_Expects( data_.ptr_ != gsl_nullptr );
    }
    template< class U >
    gsl_api gsl_constexpr14 not_null<T*>& operator=( not_null<U> const & other )
    {
        gsl_Expects( other.data_.ptr_ != gsl_nullptr );
        data_.ptr_ = other.data_.ptr_;
        return *this;
    }
#endif // gsl_HAVE( MOVE_FORWARD )

#if ! gsl_CONFIG( TRANSPARENT_NOT_NULL )
    gsl_NODISCARD gsl_api gsl_constexpr14 T*
    get() const
    {
        return data_.ptr_;
    }
#endif

#if gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && gsl_HAVE( EXPLICIT )
    // explicit conversion operator
    template< class U
        // We *have* to use SFINAE with an NTTP arg here, otherwise the overload is ambiguous.
        , typename std::enable_if< ( std::is_constructible<U, T*>::value && !std::is_convertible<T*, U>::value && !detail::is_not_null_or_bool_oracle<U>::value ), int >::type = 0
    >
    gsl_NODISCARD gsl_api gsl_constexpr14 explicit
    operator U() const
    {
        return U( data_.ptr_ );
    }

    // implicit conversion operator
    template< class U
        // We *have* to use SFINAE with an NTTP arg here, otherwise the overload is ambiguous.
        , typename std::enable_if< ( std::is_constructible<U, T*>::value && std::is_convertible<T*, U>::value && !detail::is_not_null_or_bool_oracle<U>::value ), int >::type = 0
    >
    gsl_NODISCARD gsl_api gsl_constexpr14
    operator U() const
    {
        return data_.ptr_;
    }
#else // a.k.a. #if !( gsl_HAVE( MOVE_FORWARD ) && gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && gsl_HAVE( EXPLICIT ) )
    template< class U >
    gsl_NODISCARD gsl_api gsl_constexpr14
    operator U() const
    {
        return data_.ptr_;
    }
#endif // gsl_HAVE( MOVE_FORWARD ) && gsl_HAVE( TYPE_TRAITS ) && gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) && gsl_HAVE( EXPLICIT )

    gsl_NODISCARD gsl_api gsl_constexpr14 T*
    operator->() const
    {
        return data_.ptr_;
    }

    gsl_NODISCARD gsl_api gsl_constexpr14 element_type &
    operator*() const
    {
        return *data_.ptr_;
    }

#if gsl_HAVE( IS_DEFAULT )
    gsl_constexpr14 not_null( not_null const & ) = default;
    gsl_constexpr14 not_null & operator=( not_null const & ) = default;
#endif

    gsl_api gsl_constexpr20 friend void swap( not_null & lhs, not_null & rhs ) gsl_noexcept
    {
        using std::swap;
        swap( lhs.data_.ptr_, rhs.data_.ptr_ );
    }

gsl_is_delete_access:
    not_null() gsl_is_delete;
    // prevent compilation when initialized with a nullptr or literal 0:
#if gsl_HAVE( NULLPTR )
    not_null(             std::nullptr_t ) gsl_is_delete;
    not_null & operator=( std::nullptr_t ) gsl_is_delete;
#else
    not_null(             int ) gsl_is_delete;
    not_null & operator=( int ) gsl_is_delete;
#endif

    // unwanted operators...pointers only point to single objects!
    not_null & operator++() gsl_is_delete;
    not_null & operator--() gsl_is_delete;
    not_null   operator++( int ) gsl_is_delete;
    not_null   operator--( int ) gsl_is_delete;
    not_null & operator+ ( size_t ) gsl_is_delete;
    not_null & operator+=( size_t ) gsl_is_delete;
    not_null & operator- ( size_t ) gsl_is_delete;
    not_null & operator-=( size_t ) gsl_is_delete;
    not_null & operator+=( std::ptrdiff_t ) gsl_is_delete;
    not_null & operator-=( std::ptrdiff_t ) gsl_is_delete;
    void       operator[]( std::ptrdiff_t ) const gsl_is_delete;
};
#endif // gsl_CONFIG_DEFAULTS_VERSION >= 1
#if gsl_HAVE( DEDUCTION_GUIDES )
template< class U >
not_null( U ) -> not_null<U>;
template< class U >
not_null( not_null<U> ) -> not_null<U>;
#endif

#if gsl_HAVE( NULLPTR )
void make_not_null( std::nullptr_t ) gsl_is_delete;
#endif // gsl_HAVE( NULLPTR )
#if gsl_HAVE( MOVE_FORWARD )
template< class U >
gsl_NODISCARD gsl_api gsl_constexpr14 not_null<U>
make_not_null( U u )
{
    return not_null<U>( std::move( u ) );
}
template< class U >
gsl_NODISCARD gsl_api gsl_constexpr14 not_null<U>
make_not_null( not_null<U> u )
{
    return std::move( u );
}
#else // a.k.a. ! gsl_HAVE( MOVE_FORWARD )
template< class U >
gsl_NODISCARD gsl_api not_null<U>
make_not_null( U const & u )
{
    return not_null<U>( u );
}
template< class U >
gsl_NODISCARD gsl_api not_null<U>
make_not_null( not_null<U> const & u )
{
    return u;
}
#endif // gsl_HAVE( MOVE_FORWARD )

namespace detail {

template< class T >
struct as_nullable_helper
{
    typedef T type;
};
template< class T >
struct as_nullable_helper< not_null<T> >
{
};

template< class T >
struct not_null_accessor
{
#if gsl_HAVE( MOVE_FORWARD )
    static gsl_api T get( not_null<T>&& p ) gsl_noexcept
    {
        return std::move( p.data_.ptr_ );
    }
#endif
    static gsl_api T const & get( not_null<T> const & p ) gsl_noexcept
    {
        return p.data_.ptr_;
    }
};

namespace no_adl {

#if gsl_HAVE( MOVE_FORWARD )
template< class T >
gsl_NODISCARD gsl_api gsl_constexpr auto as_nullable( T && p )
gsl_noexcept_if( std::is_nothrow_move_constructible<T>::value )
-> typename detail::as_nullable_helper<typename std20::remove_cvref<T>::type>::type
{
    return std::move( p );
}
template< class T >
gsl_NODISCARD gsl_api gsl_constexpr14 T as_nullable( not_null<T> && p )
{
    T result = detail::not_null_accessor<T>::get( std::move( p ) );
    gsl_Expects( result != gsl_nullptr );
    return result;
}
#else // ! gsl_HAVE( MOVE_FORWARD )
template< class T >
gsl_NODISCARD gsl_api gsl_constexpr T const & as_nullable( T const & p ) gsl_noexcept
{
    return p;
}
#endif // gsl_HAVE( MOVE_FORWARD )
template< class T >
gsl_NODISCARD gsl_api gsl_constexpr14 T const & as_nullable( not_null<T> const & p )
{
    T const & result = detail::not_null_accessor<T>::get( p );
    gsl_Expects( result != gsl_nullptr );
    return result;
}
template< class T >
gsl_NODISCARD gsl_api gsl_constexpr T* as_nullable( not_null<T*> p ) gsl_noexcept
{
    return detail::not_null_accessor<T*>::get( p );
}

} // namespace no_adl
} // namespace detail

using namespace detail::no_adl;

// not_null with implicit constructor, allowing copy-initialization:

template< class T >
class not_null_ic : public not_null<T>
{
public:
    template< class U
        gsl_ENABLE_IF_(( std::is_constructible<T, U>::value ))
    >
    gsl_api gsl_constexpr14
#if gsl_HAVE( MOVE_FORWARD )
    not_null_ic( U && u )
    : not_null<T>( std::forward<U>( u ) )
#else // ! gsl_HAVE( MOVE_FORWARD )
    not_null_ic( U const & u )
    : not_null<T>( u )
#endif // gsl_HAVE( MOVE_FORWARD )
    {}
};

// more not_null unwanted operators

template< class T, class U >
std::ptrdiff_t operator-( not_null<T> const &, not_null<U> const & ) gsl_is_delete;

template< class T >
not_null<T> operator-( not_null<T> const &, std::ptrdiff_t ) gsl_is_delete;

template< class T >
not_null<T> operator+( not_null<T> const &, std::ptrdiff_t ) gsl_is_delete;

template< class T >
not_null<T> operator+( std::ptrdiff_t, not_null<T> const & ) gsl_is_delete;

// not_null comparisons

#if gsl_HAVE( NULLPTR ) && gsl_HAVE( IS_DELETE )
template< class T >
gsl_constexpr bool
operator==( not_null<T> const &, std::nullptr_t ) = delete;
template< class T >
gsl_constexpr bool
operator==( std::nullptr_t , not_null<T> const & ) = delete;
template< class T >
gsl_constexpr bool
operator!=( not_null<T> const &, std::nullptr_t ) = delete;
template< class T >
gsl_constexpr bool
operator!=( std::nullptr_t , not_null<T> const & ) = delete;
#endif // gsl_HAVE( NULLPTR ) && gsl_HAVE( IS_DELETE )

template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator==( not_null<T> const & l, not_null<U> const & r )
gsl_RETURN_DECLTYPE_( l.operator->() == r.operator->() )
{
    return l.operator->() == r.operator->();
}
template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator==( not_null<T> const & l, U const & r )
gsl_RETURN_DECLTYPE_(l.operator->() == r )
{
    return l.operator->() == r;
}
template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator==( T const & l, not_null<U> const & r )
gsl_RETURN_DECLTYPE_( l == r.operator->() )
{
    return l == r.operator->();
}

template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator<( not_null<T> const & l, not_null<U> const & r )
gsl_RETURN_DECLTYPE_( l.operator->() < r.operator->() )
{
    return l.operator->() < r.operator->();
}
template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator<( not_null<T> const & l, U const & r )
gsl_RETURN_DECLTYPE_( l.operator->() < r )
{
    return l.operator->() < r;
}
template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator<( T const & l, not_null<U> const & r )
gsl_RETURN_DECLTYPE_( l < r.operator->() )
{
    return l < r.operator->();
}

template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator!=( not_null<T> const & l, not_null<U> const & r )
gsl_RETURN_DECLTYPE_( !( l == r ) )
{
    return !( l == r );
}
template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator!=( not_null<T> const & l, U const & r )
gsl_RETURN_DECLTYPE_( !( l == r ) )
{
    return !( l == r );
}
template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator!=( T const & l, not_null<U> const & r )
gsl_RETURN_DECLTYPE_( !( l == r ) )
{
    return !( l == r );
}

template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator<=( not_null<T> const & l, not_null<U> const & r )
gsl_RETURN_DECLTYPE_( !( r < l ) )
{
    return !( r < l );
}
template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator<=( not_null<T> const & l, U const & r )
gsl_RETURN_DECLTYPE_( !( r < l ) )
{
    return !( r < l );
}
template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator<=( T const & l, not_null<U> const & r )
gsl_RETURN_DECLTYPE_( !( r < l ) )
{
    return !( r < l );
}

template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator>( not_null<T> const & l, not_null<U> const & r )
gsl_RETURN_DECLTYPE_( r < l )
{
    return r < l;
}
template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator>( not_null<T> const & l, U const & r )
gsl_RETURN_DECLTYPE_( r < l )
{
    return r < l;
}
template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator>( T const & l, not_null<U> const & r )
gsl_RETURN_DECLTYPE_( r < l )
{
    return r < l;
}

template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator>=( not_null<T> const & l, not_null<U> const & r )
gsl_RETURN_DECLTYPE_( !( l < r ) )
{
    return !( l < r );
}
template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator>=( not_null<T> const & l, U const & r )
gsl_RETURN_DECLTYPE_( !( l < r ) )
{
    return !( l < r );
}
template< class T, class U >
gsl_NODISCARD inline gsl_api gsl_constexpr gsl_TRAILING_RETURN_TYPE_( bool )
operator>=( T const & l, not_null<U> const & r )
gsl_RETURN_DECLTYPE_( !( l < r ) )
{
    return !( l < r );
}

// print not_null

template< class CharType, class Traits, class T >
std::basic_ostream< CharType, Traits > & operator<<( std::basic_ostream< CharType, Traits > & os, not_null<T> const & p )
{
    return os << p.operator->();
}


//
// Byte-specific type.
//
#if gsl_HAVE( ENUM_CLASS_CONSTRUCTION_FROM_UNDERLYING_TYPE )
  enum class gsl_may_alias byte : unsigned char {};
#else
  struct gsl_may_alias byte { typedef unsigned char type; type v; };
#endif

template< class T >
gsl_NODISCARD gsl_api inline gsl_constexpr byte
to_byte( T v ) gsl_noexcept
{
#if    gsl_HAVE( ENUM_CLASS_CONSTRUCTION_FROM_UNDERLYING_TYPE )
    return static_cast<byte>( v );
#elif  gsl_HAVE( CONSTEXPR_11 )
    return { static_cast<typename byte::type>( v ) };
#else
    byte b = { static_cast<typename byte::type>( v ) }; return b;
#endif
}

template< class IntegerType  gsl_ENABLE_IF_(( std::is_integral<IntegerType>::value )) >
gsl_NODISCARD gsl_api inline gsl_constexpr IntegerType
to_integer( byte b ) gsl_noexcept
{
#if gsl_HAVE( ENUM_CLASS_CONSTRUCTION_FROM_UNDERLYING_TYPE )
    return static_cast<typename std::underlying_type<byte>::type>( b );
#else
    return b.v;
#endif
}

gsl_NODISCARD gsl_api inline gsl_constexpr unsigned char
to_uchar( byte b ) gsl_noexcept
{
    return to_integer<unsigned char>( b );
}

gsl_NODISCARD gsl_api inline gsl_constexpr unsigned char
to_uchar( int i ) gsl_noexcept
{
    return static_cast<unsigned char>( i );
}

template< class IntegerType  gsl_ENABLE_IF_(( std::is_integral<IntegerType>::value )) >
gsl_api inline gsl_constexpr14 byte &
operator<<=( byte & b, IntegerType shift ) gsl_noexcept
{
#if gsl_HAVE( ENUM_CLASS_CONSTRUCTION_FROM_UNDERLYING_TYPE )
    return b = ::gsl::to_byte( ::gsl::to_uchar( b ) << shift );
#else
    b.v = ::gsl::to_uchar( b.v << shift ); return b;
#endif
}

template< class IntegerType  gsl_ENABLE_IF_(( std::is_integral<IntegerType>::value )) >
gsl_NODISCARD gsl_api inline gsl_constexpr byte
operator<<( byte b, IntegerType shift ) gsl_noexcept
{
    return ::gsl::to_byte( ::gsl::to_uchar( b ) << shift );
}

template< class IntegerType  gsl_ENABLE_IF_(( std::is_integral<IntegerType>::value )) >
gsl_NODISCARD gsl_api inline gsl_constexpr14 byte &
operator>>=( byte & b, IntegerType shift ) gsl_noexcept
{
#if gsl_HAVE( ENUM_CLASS_CONSTRUCTION_FROM_UNDERLYING_TYPE )
    return b = ::gsl::to_byte( ::gsl::to_uchar( b ) >> shift );
#else
    b.v = ::gsl::to_uchar( b.v >> shift ); return b;
#endif
}

template< class IntegerType  gsl_ENABLE_IF_(( std::is_integral<IntegerType>::value )) >
gsl_NODISCARD gsl_api inline gsl_constexpr byte
operator>>( byte b, IntegerType shift ) gsl_noexcept
{
    return ::gsl::to_byte( ::gsl::to_uchar( b ) >> shift );
}

#if gsl_HAVE( ENUM_CLASS_CONSTRUCTION_FROM_UNDERLYING_TYPE )
gsl_DEFINE_ENUM_BITMASK_OPERATORS( byte )
gsl_DEFINE_ENUM_RELATIONAL_OPERATORS( byte )
#else // a.k.a. !gsl_HAVE( ENUM_CLASS_CONSTRUCTION_FROM_UNDERLYING_TYPE )
gsl_api inline gsl_constexpr bool operator==( byte l, byte r ) gsl_noexcept
{
    return l.v == r.v;
}

gsl_api inline gsl_constexpr bool operator!=( byte l, byte r ) gsl_noexcept
{
    return !( l == r );
}

gsl_api inline gsl_constexpr bool operator< ( byte l, byte r ) gsl_noexcept
{
    return l.v < r.v;
}

gsl_api inline gsl_constexpr bool operator<=( byte l, byte r ) gsl_noexcept
{
    return !( r < l );
}

gsl_api inline gsl_constexpr bool operator> ( byte l, byte r ) gsl_noexcept
{
    return ( r < l );
}

gsl_api inline gsl_constexpr bool operator>=( byte l, byte r ) gsl_noexcept
{
    return !( l < r );
}

gsl_api inline gsl_constexpr14 byte & operator|=( byte & l, byte r ) gsl_noexcept
{
    l.v |= r.v; return l;
}

gsl_api inline gsl_constexpr byte operator|( byte l, byte r ) gsl_noexcept
{
    return ::gsl::to_byte( l.v | r.v );
}

gsl_api inline gsl_constexpr14 byte & operator&=( byte & l, byte r ) gsl_noexcept
{
    l.v &= r.v; return l;
}

gsl_api inline gsl_constexpr byte operator&( byte l, byte r ) gsl_noexcept
{
    return ::gsl::to_byte( l.v & r.v );
}

gsl_api inline gsl_constexpr14 byte & operator^=( byte & l, byte r ) gsl_noexcept
{
    l.v ^= r.v; return l;
}

gsl_api inline gsl_constexpr byte operator^( byte l, byte r ) gsl_noexcept
{
    return ::gsl::to_byte( l.v ^ r.v );
}

gsl_api inline gsl_constexpr byte operator~( byte b ) gsl_noexcept
{
    return ::gsl::to_byte( ~b.v );
}
#endif // gsl_HAVE( ENUM_CLASS_CONSTRUCTION_FROM_UNDERLYING_TYPE )

#if gsl_FEATURE_TO_STD( WITH_CONTAINER )

// Tag to select span constructor taking a container:

struct with_container_t { gsl_constexpr with_container_t( ) gsl_noexcept { } };
const  gsl_constexpr   with_container_t with_container; // TODO: this can lead to ODR violations because the symbol will be defined in multiple translation units

#endif

namespace detail {

template< class T >
gsl_api gsl_constexpr14 T * endptr( T * data, gsl_CONFIG_SPAN_INDEX_TYPE size )
{
        // Be sure to run the check before doing pointer arithmetics, which would be UB for `nullptr` and non-0 integers.
    gsl_Expects( size == 0 || data != gsl_nullptr );
    return data + size;
}

} // namespace detail

//
// span<> - A 1D view of contiguous T's, replace (*,len).
//
template< class T >
class span
{
    template< class U > friend class span;

public:
    typedef gsl_CONFIG_SPAN_INDEX_TYPE index_type;

    typedef T element_type;
    typedef typename std11::remove_cv< T >::type value_type;

    typedef T & reference;
    typedef T * pointer;
    typedef T const * const_pointer;
    typedef T const & const_reference;

    typedef pointer       iterator;
    typedef const_pointer const_iterator;

    typedef std::reverse_iterator< iterator >       reverse_iterator;
    typedef std::reverse_iterator< const_iterator > const_reverse_iterator;

    typedef gsl_CONFIG_SPAN_INDEX_TYPE size_type;
    typedef std::ptrdiff_t difference_type;

    // 26.7.3.2 Constructors, copy, and assignment [span.cons]

    gsl_api gsl_constexpr span() gsl_noexcept
        : first_( gsl_nullptr )
        , last_ ( gsl_nullptr )
    {
    }

#if ! gsl_DEPRECATE_TO_LEVEL( 5 )

#if gsl_HAVE( NULLPTR )
    gsl_api gsl_constexpr14 span( std::nullptr_t, index_type size_in )
        : first_( nullptr )
        , last_ ( nullptr )
    {
        gsl_Expects( size_in == 0 );
    }
#endif

#if gsl_HAVE( IS_DELETE )
    gsl_DEPRECATED
    gsl_api gsl_constexpr span( reference data_in )
        : span( &data_in, 1 )
    {}

    gsl_api gsl_constexpr span( element_type && ) = delete;
#endif

#endif // deprecate

    gsl_api gsl_constexpr14 span( pointer data_in, index_type size_in )
        : first_( data_in )
        , last_( detail::endptr( data_in, size_in ) )
    {
    }

    gsl_api gsl_constexpr14 span( pointer first_in, pointer last_in )
        : first_( first_in )
        , last_ ( last_in )
    {
        gsl_Expects( first_in <= last_in );
    }

#if ! gsl_DEPRECATE_TO_LEVEL( 5 )

    template< class U >
    gsl_api gsl_constexpr14 span( U * data_in, index_type size_in )
        : first_( data_in )
        , last_( detail::endptr( data_in, size_in ) )
    {
    }

#endif // deprecate

#if ! gsl_DEPRECATE_TO_LEVEL( 5 )
    template< class U, size_t N >
    gsl_api gsl_constexpr span( U (&arr)[N] ) gsl_noexcept
        : first_( gsl_ADDRESSOF( arr[0] ) )
        , last_ ( gsl_ADDRESSOF( arr[0] ) + N )
    {}
#else
    template< size_t N
        gsl_ENABLE_IF_(( std::is_convertible<value_type(*)[], element_type(*)[] >::value ))
    >
    gsl_api gsl_constexpr span( element_type (&arr)[N] ) gsl_noexcept
        : first_( gsl_ADDRESSOF( arr[0] ) )
        , last_ ( gsl_ADDRESSOF( arr[0] ) + N )
    {}
#endif // deprecate

#if gsl_HAVE( ARRAY )
#if ! gsl_DEPRECATE_TO_LEVEL( 5 )

    template< class U, size_t N >
    gsl_api gsl_constexpr span( std::array< U, N > & arr )
        : first_( arr.data() )
        , last_ ( arr.data() + N )
    {}

    template< class U, size_t N >
    gsl_api gsl_constexpr span( std::array< U, N > const & arr )
        : first_( arr.data() )
        , last_ ( arr.data() + N )
    {}

#else

    template< size_t N
        gsl_ENABLE_IF_(( std::is_convertible<value_type(*)[], element_type(*)[] >::value ))
    >
    gsl_constexpr span( std::array< value_type, N > & arr )
        : first_( arr.data() )
        , last_ ( arr.data() + N )
    {}

    template< size_t N
        gsl_ENABLE_IF_(( std::is_convertible<value_type(*)[], element_type(*)[] >::value ))
    >
    gsl_constexpr span( std::array< value_type, N > const & arr )
        : first_( arr.data() )
        , last_ ( arr.data() + N )
    {}

#endif // deprecate
#endif // gsl_HAVE( ARRAY )

#if gsl_HAVE( CONSTRAINED_SPAN_CONTAINER_CTOR )
    template< class Container
        gsl_ENABLE_IF_(( detail::is_compatible_container< Container, element_type >::value ))
    >
    gsl_api gsl_constexpr span( Container & cont ) gsl_noexcept
        : first_( std17::data( cont ) )
        , last_ ( std17::data( cont ) + std17::size( cont ) )
    {}

    template< class Container
        gsl_ENABLE_IF_((
            std::is_const< element_type >::value
            && detail::is_compatible_container< Container, element_type >::value
        ))
    >
    gsl_api gsl_constexpr span( Container const & cont ) gsl_noexcept
        : first_( std17::data( cont ) )
        , last_ ( std17::data( cont ) + std17::size( cont ) )
    {}

#elif gsl_HAVE( UNCONSTRAINED_SPAN_CONTAINER_CTOR )

    template< class Container >
    gsl_constexpr span( Container & cont )
        : first_( cont.size() == 0 ? gsl_nullptr : gsl_ADDRESSOF( cont[0] ) )
        , last_ ( cont.size() == 0 ? gsl_nullptr : gsl_ADDRESSOF( cont[0] ) + cont.size() )
    {}

    template< class Container >
    gsl_constexpr span( Container const & cont )
        : first_( cont.size() == 0 ? gsl_nullptr : gsl_ADDRESSOF( cont[0] ) )
        , last_ ( cont.size() == 0 ? gsl_nullptr : gsl_ADDRESSOF( cont[0] ) + cont.size() )
    {}

#endif

#if gsl_FEATURE_TO_STD( WITH_CONTAINER )

    template< class Container >
    gsl_constexpr span( with_container_t, Container & cont ) gsl_noexcept
        : first_( cont.size() == 0 ? gsl_nullptr : gsl_ADDRESSOF( cont[0] ) )
        , last_ ( cont.size() == 0 ? gsl_nullptr : gsl_ADDRESSOF( cont[0] ) + cont.size() )
    {}

    template< class Container >
    gsl_constexpr span( with_container_t, Container const & cont ) gsl_noexcept
        : first_( cont.size() == 0 ? gsl_nullptr : gsl_ADDRESSOF( cont[0] ) )
        , last_ ( cont.size() == 0 ? gsl_nullptr : gsl_ADDRESSOF( cont[0] ) + cont.size() )
    {}

#endif

#if !gsl_DEPRECATE_TO_LEVEL( 4 )
    // constructor taking shared_ptr deprecated since 0.29.0

# if gsl_HAVE( SHARED_PTR )
    gsl_DEPRECATED
    gsl_constexpr span( shared_ptr<element_type> const & ptr )
        : first_( ptr.get() )
        , last_ ( ptr.get() ? ptr.get() + 1 : gsl_nullptr )
    {}
# endif

    // constructors taking unique_ptr deprecated since 0.29.0

# if gsl_HAVE( UNIQUE_PTR )
#  if gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG )
    template< class ArrayElementType = typename std::add_pointer<element_type>::type >
#  else
    template< class ArrayElementType >
#  endif
    gsl_DEPRECATED
    gsl_constexpr span( unique_ptr<ArrayElementType> const & ptr, index_type count )
        : first_( ptr.get() )
        , last_ ( ptr.get() + count )
    {}

    gsl_DEPRECATED
    gsl_constexpr span( unique_ptr<element_type> const & ptr )
        : first_( ptr.get() )
        , last_ ( ptr.get() ? ptr.get() + 1 : gsl_nullptr )
    {}
# endif

#endif // deprecate shared_ptr, unique_ptr

#if gsl_HAVE( IS_DEFAULT ) && ! gsl_BETWEEN( gsl_COMPILER_GNUC_VERSION, 430, 600)
    gsl_constexpr span( span && ) gsl_noexcept = default;
    gsl_constexpr span( span const & ) = default;
#else
    gsl_api gsl_constexpr span( span const & other )
        : first_( other.begin() )
        , last_ ( other.end() )
    {}
#endif

#if gsl_HAVE( IS_DEFAULT )
    gsl_constexpr14 span & operator=( span && ) gsl_noexcept = default;
    gsl_constexpr14 span & operator=( span const & ) gsl_noexcept = default;
#else
    gsl_constexpr14 span & operator=( span other ) gsl_noexcept
    {
        first_ = other.first_;
        last_ = other.last_;
        return *this;
    }
#endif

    template< class U
        gsl_ENABLE_IF_(( std::is_convertible<U(*)[], element_type(*)[]>::value ))
    >
    gsl_api gsl_constexpr span( span<U> const & other )
        : first_( other.begin() )
        , last_ ( other.end() )
    {}

#if 0
    // Converting from other span ?
    template< class U > operator=();
#endif

    // 26.7.3.3 Subviews [span.sub]

    gsl_NODISCARD gsl_api gsl_constexpr14 span
    first( index_type count ) const
    {
        gsl_Expects( std::size_t( count ) <= std::size_t( this->size() ) );
        return span( this->data(), count );
    }

    gsl_NODISCARD gsl_api gsl_constexpr14 span
    last( index_type count ) const
    {
        gsl_Expects( std::size_t( count ) <= std::size_t( this->size() ) );
        return span( this->data() + this->size() - count, count );
    }

    gsl_NODISCARD gsl_api gsl_constexpr14 span
    subspan( index_type offset ) const
    {
        gsl_Expects( std::size_t( offset ) <= std::size_t( this->size() ) );
        return span( this->data() + offset, this->size() - offset );
    }

    gsl_NODISCARD gsl_api gsl_constexpr14 span
    subspan( index_type offset, index_type count ) const
    {
        gsl_Expects(
            std::size_t( offset ) <= std::size_t( this->size() ) &&
            std::size_t( count ) <= std::size_t( this->size() - offset ) );
        return span( this->data() + offset, count );
    }

    // 26.7.3.4 Observers [span.obs]

    gsl_NODISCARD gsl_api gsl_constexpr index_type
    size() const gsl_noexcept
    {
        return narrow_cast<index_type>( last_ - first_ );
    }

    gsl_NODISCARD gsl_api gsl_constexpr std::ptrdiff_t
    ssize() const gsl_noexcept
    {
        return narrow_cast<std::ptrdiff_t>( last_ - first_ );
    }

    gsl_NODISCARD gsl_api gsl_constexpr index_type
    size_bytes() const gsl_noexcept
    {
        return size() * narrow_cast<index_type>( sizeof( element_type ) );
    }

    gsl_NODISCARD gsl_api gsl_constexpr bool
    empty() const gsl_noexcept
    {
        return size() == 0;
    }

    // 26.7.3.5 Element access [span.elem]

    gsl_NODISCARD gsl_api gsl_constexpr14 reference
    operator[]( index_type pos ) const
    {
        gsl_Expects( pos < size() );
        return first_[ pos ];
    }

#if ! gsl_DEPRECATE_TO_LEVEL( 6 )
    gsl_DEPRECATED_MSG("use subscript indexing instead")
    gsl_api gsl_constexpr14 reference
    operator()( index_type pos ) const
    {
        return (*this)[ pos ];
    }

    gsl_DEPRECATED_MSG("use subscript indexing instead")
    gsl_api gsl_constexpr14 reference
    at( index_type pos ) const
    {
        return (*this)[ pos ];
    }
#endif // deprecate

    gsl_NODISCARD gsl_api gsl_constexpr14 reference
    front() const
    {
        gsl_Expects( first_ != last_ );
        return *first_;
    }

    gsl_NODISCARD gsl_api gsl_constexpr14 reference
    back() const
    {
        gsl_Expects( first_ != last_ );
        return *(last_ - 1);
    }

    gsl_NODISCARD gsl_api gsl_constexpr pointer
    data() const gsl_noexcept
    {
        return first_;
    }

    // 26.7.3.6 Iterator support [span.iterators]

    gsl_NODISCARD gsl_api gsl_constexpr iterator
    begin() const gsl_noexcept
    {
        return iterator( first_ );
    }

    gsl_NODISCARD gsl_api gsl_constexpr iterator
    end() const gsl_noexcept
    {
        return iterator( last_ );
    }

    gsl_NODISCARD gsl_api gsl_constexpr const_iterator
    cbegin() const gsl_noexcept
    {
#if gsl_CPP11_OR_GREATER
        return { begin() };
#else
        return const_iterator( begin() );
#endif
    }

    gsl_NODISCARD gsl_api gsl_constexpr const_iterator
    cend() const gsl_noexcept
    {
#if gsl_CPP11_OR_GREATER
        return { end() };
#else
        return const_iterator( end() );
#endif
    }

    gsl_NODISCARD gsl_constexpr17 reverse_iterator
    rbegin() const gsl_noexcept
    {
        return reverse_iterator( end() );
    }

    gsl_NODISCARD gsl_constexpr17 reverse_iterator
    rend() const gsl_noexcept
    {
        return reverse_iterator( begin() );
    }

    gsl_NODISCARD gsl_constexpr17 const_reverse_iterator
    crbegin() const gsl_noexcept
    {
        return const_reverse_iterator( cend() );
    }

    gsl_NODISCARD gsl_constexpr17 const_reverse_iterator
    crend() const gsl_noexcept
    {
        return const_reverse_iterator( cbegin() );
    }

    gsl_constexpr14 void swap( span & other ) gsl_noexcept
    {
        std::swap( first_, other.first_ );
        std::swap( last_ , other.last_  );
    }

#if ! gsl_DEPRECATE_TO_LEVEL( 3 )
    // member length() deprecated since 0.29.0

    gsl_DEPRECATED_MSG("use size() instead")
    gsl_api gsl_constexpr index_type length() const gsl_noexcept
    {
        return size();
    }

    // member length_bytes() deprecated since 0.29.0

    gsl_DEPRECATED_MSG("use size_bytes() instead")
    gsl_api gsl_constexpr index_type length_bytes() const gsl_noexcept
    {
        return size_bytes();
    }
#endif

#if ! gsl_DEPRECATE_TO_LEVEL( 2 )
    // member as_bytes(), as_writeable_bytes deprecated since 0.17.0

    gsl_DEPRECATED_MSG("use free function gsl::as_bytes() instead")
    gsl_api span< const byte > as_bytes() const gsl_noexcept
    {
        return span< const byte >( reinterpret_cast<const byte *>( data() ), size_bytes() ); // NOLINT
    }

    gsl_DEPRECATED_MSG("use free function gsl::as_writable_bytes() instead")
    gsl_api span< byte > as_writeable_bytes() const gsl_noexcept
    {
        return span< byte >( reinterpret_cast<byte *>( data() ), size_bytes() ); // NOLINT
    }

#endif

    template< class U >
    gsl_NODISCARD gsl_api span< U >
    as_span() const
    {
        gsl_Expects( ( this->size_bytes() % sizeof(U) ) == 0 );
        return span< U >( reinterpret_cast<U *>( this->data() ), this->size_bytes() / sizeof( U ) ); // NOLINT
    }

private:
    pointer first_;
    pointer last_;
};

// class template argument deduction guides:

#if gsl_HAVE( DEDUCTION_GUIDES )   // gsl_CPP17_OR_GREATER

template< class T, size_t N >
span( T (&)[N] ) -> span<T /*, N*/>;

template< class T, size_t N >
span( std::array<T, N> & ) -> span<T /*, N*/>;

template< class T, size_t N >
span( std::array<T, N> const & ) -> span<const T /*, N*/>;

template< class Container >
span( Container& ) -> span<typename Container::value_type>;

template< class Container >
span( Container const & ) -> span<const typename Container::value_type>;

#endif // gsl_HAVE( DEDUCTION_GUIDES )

// 26.7.3.7 Comparison operators [span.comparison]

#if gsl_CONFIG( ALLOWS_SPAN_COMPARISON )
# if gsl_CONFIG( ALLOWS_NONSTRICT_SPAN_COMPARISON )

template< class T, class U >
gsl_SUPPRESS_MSGSL_WARNING(stl.1)
gsl_NODISCARD inline gsl_constexpr bool operator==( span<T> const & l, span<U> const & r )
{
    return  l.size()  == r.size()
        && (l.begin() == r.begin() || std98::equal( l.begin(), l.end(), r.begin() ) );
}

template< class T, class U >
gsl_SUPPRESS_MSGSL_WARNING(stl.1)
gsl_NODISCARD inline gsl_constexpr bool operator< ( span<T> const & l, span<U> const & r )
{
    return std98::lexicographical_compare( l.begin(), l.end(), r.begin(), r.end() );
}

# else // a.k.a. !gsl_CONFIG( ALLOWS_NONSTRICT_SPAN_COMPARISON )

template< class T >
gsl_SUPPRESS_MSGSL_WARNING(stl.1)
gsl_NODISCARD inline gsl_constexpr bool operator==( span<T> const & l, span<T> const & r )
{
    return  l.size()  == r.size()
        && (l.begin() == r.begin() || std98::equal( l.begin(), l.end(), r.begin() ) );
}

template< class T >
gsl_SUPPRESS_MSGSL_WARNING(stl.1)
gsl_NODISCARD inline gsl_constexpr bool operator< ( span<T> const & l, span<T> const & r )
{
    return std98::lexicographical_compare( l.begin(), l.end(), r.begin(), r.end() );
}
# endif // gsl_CONFIG( ALLOWS_NONSTRICT_SPAN_COMPARISON )

template< class T, class U >
gsl_NODISCARD inline gsl_constexpr bool operator!=( span<T> const & l, span<U> const & r )
{
    return !( l == r );
}

template< class T, class U >
gsl_NODISCARD inline gsl_constexpr bool operator<=( span<T> const & l, span<U> const & r )
{
    return !( r < l );
}

template< class T, class U >
gsl_NODISCARD inline gsl_constexpr bool operator> ( span<T> const & l, span<U> const & r )
{
    return ( r < l );
}

template< class T, class U >
gsl_NODISCARD inline gsl_constexpr bool operator>=( span<T> const & l, span<U> const & r )
{
    return !( l < r );
}
#endif // gsl_CONFIG( ALLOWS_SPAN_COMPARISON )

// span algorithms

template< class T >
gsl_NODISCARD gsl_api inline gsl_constexpr std::size_t
size( span<T> const & spn )
{
    return static_cast<std::size_t>( spn.size() );
}

template< class T >
gsl_NODISCARD gsl_api inline gsl_constexpr std::ptrdiff_t
ssize( span<T> const & spn )
{
    return spn.ssize();
}

namespace detail {

template< class II, class N, class OI >
gsl_api gsl_constexpr14 inline OI copy_n( II first, N count, OI result )
{
    if ( count > 0 )
    {
        *result++ = *first;
        for ( N i = 1; i < count; ++i )
        {
            *result++ = *++first;
        }
    }
    return result;
}
}

template< class T, class U >
gsl_api gsl_constexpr14 inline void copy( span<T> src, span<U> dest )
{
#if gsl_CPP14_OR_GREATER // gsl_HAVE( TYPE_TRAITS ) (circumvent Travis clang 3.4)
    static_assert( std::is_assignable<U &, T const &>::value, "Cannot assign elements of source span to elements of destination span" );
#endif
    gsl_Expects( dest.size() >= src.size() );
    detail::copy_n( src.data(), src.size(), dest.data() );
}

// span creator functions (see ctors)

template< class T >
gsl_NODISCARD gsl_api inline span< const byte >
as_bytes( span<T> spn ) gsl_noexcept
{
    return span< const byte >( reinterpret_cast<const byte *>( spn.data() ), spn.size_bytes() ); // NOLINT
}

template< class T>
gsl_NODISCARD gsl_api inline span< byte >
as_writable_bytes( span<T> spn ) gsl_noexcept
{
    return span< byte >( reinterpret_cast<byte *>( spn.data() ), spn.size_bytes() ); // NOLINT
}

#if ! gsl_DEPRECATE_TO_LEVEL( 6 )
template< class T>
gsl_DEPRECATED_MSG("use as_writable_bytes() (different spelling) instead")
gsl_api inline span< byte > as_writeable_bytes( span<T> spn ) gsl_noexcept
{
    return span< byte >( reinterpret_cast<byte *>( spn.data() ), spn.size_bytes() ); // NOLINT
}
#endif // deprecate

#if gsl_FEATURE_TO_STD( MAKE_SPAN )

template< class T >
gsl_NODISCARD gsl_api inline gsl_constexpr span<T>
make_span( T * ptr, typename span<T>::index_type count )
{
    return span<T>( ptr, count );
}

template< class T >
gsl_NODISCARD gsl_api inline gsl_constexpr span<T>
make_span( T * first, T * last )
{
    return span<T>( first, last );
}

template< class T, size_t N >
gsl_NODISCARD inline gsl_constexpr span<T>
make_span( T (&arr)[N] )
{
    return span<T>( gsl_ADDRESSOF( arr[0] ), N );
}

#if gsl_HAVE( ARRAY )

template< class T, size_t N >
gsl_NODISCARD inline gsl_constexpr span<T>
make_span( std::array<T,N> & arr )
{
    return span<T>( arr );
}

template< class T, size_t N >
gsl_NODISCARD inline gsl_constexpr span<const T>
make_span( std::array<T,N> const & arr )
{
    return span<const T>( arr );
}
#endif

#if gsl_HAVE( CONSTRAINED_SPAN_CONTAINER_CTOR ) && gsl_HAVE( AUTO )

template< class Container, class EP = decltype( std17::data(std::declval<Container&>())) >
gsl_NODISCARD inline gsl_constexpr auto
make_span( Container & cont ) -> span< typename std::remove_pointer<EP>::type >
{
    return span< typename std::remove_pointer<EP>::type >( cont );
}

template< class Container, class EP = decltype( std17::data(std::declval<Container&>())) >
gsl_NODISCARD inline gsl_constexpr auto
make_span( Container const & cont ) -> span< const typename std::remove_pointer<EP>::type >
{
    return span< const typename std::remove_pointer<EP>::type >( cont );
}

#else

template< class T >
inline span<T>
make_span( std::vector<T> & cont )
{
    return span<T>( with_container, cont );
}

template< class T >
inline span<const T>
make_span( std::vector<T> const & cont )
{
    return span<const T>( with_container, cont );
}
#endif

#if gsl_FEATURE_TO_STD( WITH_CONTAINER )

template< class Container >
gsl_NODISCARD inline gsl_constexpr span<typename Container::value_type>
make_span( with_container_t, Container & cont ) gsl_noexcept
{
    return span< typename Container::value_type >( with_container, cont );
}

template< class Container >
gsl_NODISCARD inline gsl_constexpr span<const typename Container::value_type>
make_span( with_container_t, Container const & cont ) gsl_noexcept
{
    return span< const typename Container::value_type >( with_container, cont );
}

#endif // gsl_FEATURE_TO_STD( WITH_CONTAINER )

#if !gsl_DEPRECATE_TO_LEVEL( 4 )
template< class Ptr >
gsl_DEPRECATED
inline span<typename Ptr::element_type>
make_span( Ptr & ptr )
{
    return span<typename Ptr::element_type>( ptr );
}
#endif // !gsl_DEPRECATE_TO_LEVEL( 4 )

template< class Ptr >
gsl_DEPRECATED
inline span<typename Ptr::element_type>
make_span( Ptr & ptr, typename span<typename Ptr::element_type>::index_type count )
{
    return span<typename Ptr::element_type>( ptr, count );
}

#endif // gsl_FEATURE_TO_STD( MAKE_SPAN )

#if gsl_FEATURE_TO_STD( BYTE_SPAN )

template< class T >
gsl_NODISCARD gsl_api inline gsl_constexpr span<byte>
byte_span( T & t ) gsl_noexcept
{
    return span<byte>( reinterpret_cast<byte *>( &t ), sizeof(T) );
}

template< class T >
gsl_NODISCARD gsl_api inline gsl_constexpr span<const byte>
byte_span( T const & t ) gsl_noexcept
{
    return span<const byte>( reinterpret_cast<byte const *>( &t ), sizeof(T) );
}

#endif // gsl_FEATURE_TO_STD( BYTE_SPAN )

//
// basic_string_span:
//

template< class T >
class basic_string_span;

namespace detail {

template< class T >
struct is_basic_string_span_oracle : std11::false_type {};

template< class T >
struct is_basic_string_span_oracle< basic_string_span<T> > : std11::true_type {};

template< class T >
struct is_basic_string_span : is_basic_string_span_oracle< typename std11::remove_cv<T>::type > {};

template< class T >
gsl_api inline gsl_constexpr14 std::size_t string_length( T * ptr, std::size_t max )
{
    if ( ptr == gsl_nullptr || max <= 0 )
        return 0;

    std::size_t len = 0;
    while ( len < max && ptr[len] ) // NOLINT
        ++len;

    return len;
}

} // namespace detail

//
// basic_string_span<> - A view of contiguous characters, replace (*,len).
//
template< class T >
class basic_string_span
{
public:
    typedef T element_type;
    typedef span<T> span_type;

    typedef typename span_type::size_type size_type;
    typedef typename span_type::index_type index_type;
    typedef typename span_type::difference_type difference_type;

    typedef typename span_type::pointer pointer ;
    typedef typename span_type::reference reference ;

    typedef typename span_type::iterator iterator ;
    typedef typename span_type::const_iterator const_iterator ;
    typedef typename span_type::reverse_iterator reverse_iterator;
    typedef typename span_type::const_reverse_iterator const_reverse_iterator;

    // construction:

#if gsl_HAVE( IS_DEFAULT )
    gsl_constexpr basic_string_span() gsl_noexcept = default;
#else
    gsl_api gsl_constexpr basic_string_span() gsl_noexcept {}
#endif

#if gsl_HAVE( NULLPTR )
    gsl_api gsl_constexpr basic_string_span( std::nullptr_t ) gsl_noexcept
    : span_( nullptr, static_cast<index_type>( 0 ) )
    {}
#endif

#ifdef __CUDACC_RELAXED_CONSTEXPR__
    gsl_api
#endif // __CUDACC_RELAXED_CONSTEXPR__
    gsl_constexpr basic_string_span( pointer ptr )
    : span_( remove_z( ptr, (std::numeric_limits<index_type>::max)() ) )
    {}

    gsl_api gsl_constexpr basic_string_span( pointer ptr, index_type count )
    : span_( ptr, count )
    {}

    gsl_api gsl_constexpr basic_string_span( pointer firstElem, pointer lastElem )
    : span_( firstElem, lastElem )
    {}

    template< std::size_t N >
    gsl_constexpr basic_string_span( element_type (&arr)[N] )
    : span_( remove_z( gsl_ADDRESSOF( arr[0] ), N ) )
    {}

#if gsl_HAVE( ARRAY )

    template< std::size_t N >
    gsl_constexpr basic_string_span( std::array< typename std11::remove_const<element_type>::type, N> & arr )
    : span_( remove_z( arr ) )
    {}

    template< std::size_t N >
    gsl_constexpr basic_string_span( std::array< typename std11::remove_const<element_type>::type, N> const & arr )
    : span_( remove_z( arr ) )
    {}

#endif

#if gsl_HAVE( CONSTRAINED_SPAN_CONTAINER_CTOR )

    // Exclude: array, [basic_string,] basic_string_span

    template< class Container
        gsl_ENABLE_IF_((
            ! detail::is_std_array< Container >::value
            && ! detail::is_basic_string_span< Container >::value
            && std::is_convertible< typename Container::pointer, pointer >::value
            && std::is_convertible< typename Container::pointer, decltype(std::declval<Container>().data()) >::value
        ))
    >
    gsl_constexpr basic_string_span( Container & cont )
    : span_( ( cont ) )
    {}

    // Exclude: array, [basic_string,] basic_string_span

    template< class Container
        gsl_ENABLE_IF_((
            ! detail::is_std_array< Container >::value
            && ! detail::is_basic_string_span< Container >::value
            && std::is_convertible< typename Container::pointer, pointer >::value
            && std::is_convertible< typename Container::pointer, decltype(std::declval<Container const &>().data()) >::value
        ))
    >
    gsl_constexpr basic_string_span( Container const & cont )
    : span_( ( cont ) )
    {}

#elif gsl_HAVE( UNCONSTRAINED_SPAN_CONTAINER_CTOR )

    template< class Container >
    gsl_constexpr basic_string_span( Container & cont )
    : span_( cont )
    {}

    template< class Container >
    gsl_constexpr basic_string_span( Container const & cont )
    : span_( cont )
    {}

#else

    template< class U >
    gsl_api gsl_constexpr basic_string_span( span<U> const & rhs )
    : span_( rhs )
    {}

#endif

#if gsl_FEATURE_TO_STD( WITH_CONTAINER )

    template< class Container >
    gsl_constexpr basic_string_span( with_container_t, Container & cont )
    : span_( with_container, cont )
    {}
#endif

#if gsl_HAVE( IS_DEFAULT )
# if gsl_BETWEEN( gsl_COMPILER_GNUC_VERSION, 440, 600 )
    gsl_constexpr basic_string_span( basic_string_span const & ) = default;

    gsl_constexpr basic_string_span( basic_string_span && ) = default;
# else
    gsl_constexpr basic_string_span( basic_string_span const & ) gsl_noexcept = default;

    gsl_constexpr basic_string_span( basic_string_span && ) gsl_noexcept = default;
# endif
#endif

    template< class U
        gsl_ENABLE_IF_(( std::is_convertible<typename basic_string_span<U>::pointer, pointer>::value ))
    >
    gsl_api gsl_constexpr basic_string_span( basic_string_span<U> const & rhs )
    : span_( reinterpret_cast<pointer>( rhs.data() ), rhs.length() ) // NOLINT
    {}

#if gsl_STDLIB_CPP11_120
    template< class U
        gsl_ENABLE_IF_(( std::is_convertible<typename basic_string_span<U>::pointer, pointer>::value ))
    >
    gsl_api gsl_constexpr basic_string_span( basic_string_span<U> && rhs )
    : span_( reinterpret_cast<pointer>( rhs.data() ), rhs.length() ) // NOLINT
    {}
#endif // gsl_STDLIB_CPP11_120

    template< class CharTraits, class Allocator >
    gsl_constexpr basic_string_span(
        std::basic_string< typename std11::remove_const<element_type>::type, CharTraits, Allocator > & str )
    : span_( gsl_ADDRESSOF( str[0] ), str.length() )
    {}

    template< class CharTraits, class Allocator >
    gsl_constexpr basic_string_span(
        std::basic_string< typename std11::remove_const<element_type>::type, CharTraits, Allocator > const & str )
    : span_( gsl_ADDRESSOF( str[0] ), str.length() )
    {}

    // assignment:

#if gsl_HAVE( IS_DEFAULT )
    gsl_constexpr14 basic_string_span & operator=( basic_string_span const & ) gsl_noexcept = default;

    gsl_constexpr14 basic_string_span & operator=( basic_string_span && ) gsl_noexcept = default;
#endif

    // sub span:

    /*gsl_api*/ // currently disabled due to an apparent NVCC bug
    gsl_NODISCARD gsl_constexpr14 basic_string_span
    first( index_type count ) const
    {
        return span_.first( count );
    }

    /*gsl_api*/ // currently disabled due to an apparent NVCC bug
    gsl_NODISCARD gsl_constexpr14 basic_string_span
    last( index_type count ) const
    {
        return span_.last( count );
    }

    /*gsl_api*/ // currently disabled due to an apparent NVCC bug
    gsl_NODISCARD gsl_constexpr14 basic_string_span
    subspan( index_type offset ) const
    {
        return span_.subspan( offset );
    }

    /*gsl_api*/ // currently disabled due to an apparent NVCC bug
    gsl_NODISCARD gsl_constexpr14 basic_string_span
    subspan( index_type offset, index_type count ) const
    {
        return span_.subspan( offset, count );
    }

    // observers:

    gsl_NODISCARD gsl_api gsl_constexpr index_type
    length() const gsl_noexcept
    {
        return span_.size();
    }

    gsl_NODISCARD gsl_api gsl_constexpr index_type
    size() const gsl_noexcept
    {
        return span_.size();
    }

    gsl_NODISCARD gsl_api gsl_constexpr index_type
    length_bytes() const gsl_noexcept
    {
        return span_.size_bytes();
    }

    gsl_NODISCARD gsl_api gsl_constexpr index_type
    size_bytes() const gsl_noexcept
    {
        return span_.size_bytes();
    }

    gsl_NODISCARD gsl_api gsl_constexpr bool
    empty() const gsl_noexcept
    {
        return size() == 0;
    }

    gsl_NODISCARD gsl_api gsl_constexpr14 reference
    operator[]( index_type idx ) const
    {
        return span_[idx];
    }

#if ! gsl_DEPRECATE_TO_LEVEL( 6 )
    gsl_DEPRECATED_MSG("use subscript indexing instead")
    gsl_api gsl_constexpr14 reference operator()( index_type idx ) const
    {
        return span_[idx];
    }
#endif // deprecate

    gsl_NODISCARD gsl_api gsl_constexpr14 reference
    front() const
    {
        return span_.front();
    }

    gsl_NODISCARD gsl_api gsl_constexpr14 reference
    back() const
    {
        return span_.back();
    }

    gsl_NODISCARD gsl_api gsl_constexpr pointer
    data() const gsl_noexcept
    {
        return span_.data();
    }

    gsl_NODISCARD gsl_api gsl_constexpr iterator
    begin() const gsl_noexcept
    {
        return span_.begin();
    }

    gsl_NODISCARD gsl_api gsl_constexpr iterator
    end() const gsl_noexcept
    {
        return span_.end();
    }

    gsl_NODISCARD gsl_constexpr17 reverse_iterator
    rbegin() const gsl_noexcept
    {
        return span_.rbegin();
    }

    gsl_NODISCARD gsl_constexpr17 reverse_iterator
    rend() const gsl_noexcept
    {
        return span_.rend();
    }

    // const version not in p0123r2:

    gsl_NODISCARD gsl_api gsl_constexpr const_iterator
    cbegin() const gsl_noexcept
    {
        return span_.cbegin();
    }

    gsl_NODISCARD gsl_api gsl_constexpr const_iterator
    cend() const gsl_noexcept
    {
        return span_.cend();
    }

    gsl_NODISCARD gsl_constexpr17 const_reverse_iterator
    crbegin() const gsl_noexcept
    {
        return span_.crbegin();
    }

    gsl_NODISCARD gsl_constexpr17 const_reverse_iterator
    crend() const gsl_noexcept
    {
        return span_.crend();
    }

private:
    gsl_api static gsl_constexpr14 span_type remove_z( pointer sz, std::size_t max )
    {
        return span_type( sz, detail::string_length( sz, max ) );
    }

#if gsl_HAVE( ARRAY )
    template< size_t N >
    gsl_NODISCARD static gsl_constexpr14 span_type
    remove_z( std::array<typename std11::remove_const<element_type>::type, N> & arr )
    {
        return remove_z( gsl_ADDRESSOF( arr[0] ), narrow_cast< std::size_t >( N ) );
    }

    template< size_t N >
    gsl_NODISCARD static gsl_constexpr14 span_type
    remove_z( std::array<typename std11::remove_const<element_type>::type, N> const & arr )
    {
        return remove_z( gsl_ADDRESSOF( arr[0] ), narrow_cast< std::size_t >( N ) );
    }
#endif

private:
    span_type span_;
};

// basic_string_span comparison functions:

#if gsl_CONFIG( ALLOWS_NONSTRICT_SPAN_COMPARISON )

template< class T, class U >
gsl_SUPPRESS_MSGSL_WARNING(stl.1)
gsl_NODISCARD inline gsl_constexpr14 bool
operator==( basic_string_span<T> const & l, U const & u ) gsl_noexcept
{
    const basic_string_span< typename std11::add_const<T>::type > r( u );

    return l.size() == r.size()
        && std98::equal( l.begin(), l.end(), r.begin() );
}

template< class T, class U >
gsl_SUPPRESS_MSGSL_WARNING(stl.1)
gsl_NODISCARD inline gsl_constexpr14 bool
operator<( basic_string_span<T> const & l, U const & u ) gsl_noexcept
{
    const basic_string_span< typename std11::add_const<T>::type > r( u );

    return std98::lexicographical_compare( l.begin(), l.end(), r.begin(), r.end() );
}

#if gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG )

template< class T, class U
    gsl_ENABLE_IF_(( !detail::is_basic_string_span<U>::value ))
>
gsl_SUPPRESS_MSGSL_WARNING(stl.1)
gsl_NODISCARD inline gsl_constexpr14 bool
operator==( U const & u, basic_string_span<T> const & r ) gsl_noexcept
{
    const basic_string_span< typename std11::add_const<T>::type > l( u );

    return l.size() == r.size()
        && std98::equal( l.begin(), l.end(), r.begin() );
}

template< class T, class U
    gsl_ENABLE_IF_(( !detail::is_basic_string_span<U>::value ))
>
gsl_SUPPRESS_MSGSL_WARNING(stl.1)
gsl_NODISCARD inline gsl_constexpr14 bool
operator<( U const & u, basic_string_span<T> const & r ) gsl_noexcept
{
    const basic_string_span< typename std11::add_const<T>::type > l( u );

    return std98::lexicographical_compare( l.begin(), l.end(), r.begin(), r.end() );
}
#endif

#else //gsl_CONFIG( ALLOWS_NONSTRICT_SPAN_COMPARISON )

template< class T >
gsl_SUPPRESS_MSGSL_WARNING(stl.1)
gsl_NODISCARD inline gsl_constexpr14 bool
operator==( basic_string_span<T> const & l, basic_string_span<T> const & r ) gsl_noexcept
{
    return l.size() == r.size()
        && std98::equal( l.begin(), l.end(), r.begin() );
}

template< class T >
gsl_SUPPRESS_MSGSL_WARNING(stl.1)
gsl_NODISCARD inline gsl_constexpr14 bool
operator<( basic_string_span<T> const & l, basic_string_span<T> const & r ) gsl_noexcept
{
    return std98::lexicographical_compare( l.begin(), l.end(), r.begin(), r.end() );
}

#endif // gsl_CONFIG( ALLOWS_NONSTRICT_SPAN_COMPARISON )

template< class T, class U >
gsl_NODISCARD inline gsl_constexpr14 bool
operator!=( basic_string_span<T> const & l, U const & r ) gsl_noexcept
{
    return !( l == r );
}

template< class T, class U >
gsl_NODISCARD inline gsl_constexpr14 bool
operator<=( basic_string_span<T> const & l, U const & r ) gsl_noexcept
{
#if gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) || ! gsl_CONFIG( ALLOWS_NONSTRICT_SPAN_COMPARISON )
    return !( r < l );
#else
    basic_string_span< typename std11::add_const<T>::type > rr( r );
    return !( rr < l );
#endif
}

template< class T, class U >
gsl_NODISCARD inline gsl_constexpr14 bool
operator>( basic_string_span<T> const & l, U const & r ) gsl_noexcept
{
#if gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG ) || ! gsl_CONFIG( ALLOWS_NONSTRICT_SPAN_COMPARISON )
    return ( r < l );
#else
    basic_string_span< typename std11::add_const<T>::type > rr( r );
    return ( rr < l );
#endif
}

template< class T, class U >
gsl_NODISCARD inline gsl_constexpr14 bool
operator>=( basic_string_span<T> const & l, U const & r ) gsl_noexcept
{
    return !( l < r );
}

#if gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG )

template< class T, class U
    gsl_ENABLE_IF_(( !detail::is_basic_string_span<U>::value ))
>
gsl_NODISCARD inline gsl_constexpr14 bool
operator!=( U const & l, basic_string_span<T> const & r ) gsl_noexcept
{
    return !( l == r );
}

template< class T, class U
    gsl_ENABLE_IF_(( !detail::is_basic_string_span<U>::value ))
>
gsl_NODISCARD inline gsl_constexpr14 bool
operator<=( U const & l, basic_string_span<T> const & r ) gsl_noexcept
{
    return !( r < l );
}

template< class T, class U
    gsl_ENABLE_IF_(( !detail::is_basic_string_span<U>::value ))
>
gsl_NODISCARD inline gsl_constexpr14 bool
operator>( U const & l, basic_string_span<T> const & r ) gsl_noexcept
{
    return ( r < l );
}

template< class T, class U
    gsl_ENABLE_IF_(( !detail::is_basic_string_span<U>::value ))
>
gsl_NODISCARD inline gsl_constexpr14 bool
operator>=( U const & l, basic_string_span<T> const & r ) gsl_noexcept
{
    return !( l < r );
}

#endif // gsl_HAVE( DEFAULT_FUNCTION_TEMPLATE_ARG )

// convert basic_string_span to byte span:

template< class T >
gsl_NODISCARD gsl_api inline span< const byte >
as_bytes( basic_string_span<T> spn ) gsl_noexcept
{
    return span< const byte >( reinterpret_cast<const byte *>( spn.data() ), spn.size_bytes() ); // NOLINT
}

//
// String types:
//

typedef char * zstring;
typedef const char * czstring;

#if gsl_HAVE( WCHAR )
typedef wchar_t * wzstring;
typedef const wchar_t * cwzstring;
#endif

typedef basic_string_span< char > string_span;
typedef basic_string_span< char const > cstring_span;

#if gsl_HAVE( WCHAR )
typedef basic_string_span< wchar_t > wstring_span;
typedef basic_string_span< wchar_t const > cwstring_span;
#endif

// to_string() allow (explicit) conversions from string_span to string

#if 0

template< class T >
inline std::basic_string< typename std::remove_const<T>::type > to_string( basic_string_span<T> spn )
{
     std::string( spn.data(), spn.length() );
}

#else

gsl_NODISCARD inline std::string
to_string( string_span const & spn )
{
    return std::string( spn.data(), static_cast<std::size_t>( spn.length() ) );
}

gsl_NODISCARD inline std::string
to_string( cstring_span const & spn )
{
    return std::string( spn.data(), static_cast<std::size_t>( spn.length() ) );
}

#if gsl_HAVE( WCHAR )

gsl_NODISCARD inline std::wstring
to_string( wstring_span const & spn )
{
    return std::wstring( spn.data(), static_cast<std::size_t>( spn.length() ) );
}

gsl_NODISCARD inline std::wstring
to_string( cwstring_span const & spn )
{
    return std::wstring( spn.data(), static_cast<std::size_t>( spn.length() ) );
}

#endif // gsl_HAVE( WCHAR )
#endif // to_string()

//
// Stream output for string_span types
//

namespace detail {

template< class Stream >
void write_padding( Stream & os, std::streamsize n )
{
    for ( std::streamsize i = 0; i < n; ++i )
        os.rdbuf()->sputc( os.fill() );
}

template< class Stream, class Span >
Stream & write_to_stream( Stream & os, Span const & spn )
{
    typename Stream::sentry sentry( os );

    if ( !os )
        return os;

    const std::streamsize length = gsl::narrow_failfast<std::streamsize>( spn.length() );

    // Whether, and how, to pad
    const bool pad = ( length < os.width() );
    const bool left_pad = pad && ( os.flags() & std::ios_base::adjustfield ) == std::ios_base::right;

    if ( left_pad )
        detail::write_padding( os, os.width() - length );

    // Write span characters
    os.rdbuf()->sputn( spn.begin(), length );

    if ( pad && !left_pad )
        detail::write_padding( os, os.width() - length );

    // Reset output stream width
    os.width(0);

    return os;
}

} // namespace detail

template< typename Traits >
std::basic_ostream< char, Traits > & operator<<( std::basic_ostream< char, Traits > & os, string_span const & spn )
{
    return detail::write_to_stream( os, spn );
}

template< typename Traits >
std::basic_ostream< char, Traits > & operator<<( std::basic_ostream< char, Traits > & os, cstring_span const & spn )
{
    return detail::write_to_stream( os, spn );
}

#if gsl_HAVE( WCHAR )

template< typename Traits >
std::basic_ostream< wchar_t, Traits > & operator<<( std::basic_ostream< wchar_t, Traits > & os, wstring_span const & spn )
{
    return detail::write_to_stream( os, spn );
}

template< typename Traits >
std::basic_ostream< wchar_t, Traits > & operator<<( std::basic_ostream< wchar_t, Traits > & os, cwstring_span const & spn )
{
    return detail::write_to_stream( os, spn );
}

#endif // gsl_HAVE( WCHAR )

//
// ensure_sentinel()
//
// Provides a way to obtain a span from a contiguous sequence
// that ends with a (non-inclusive) sentinel value.
//
// Will fail-fast if sentinel cannot be found before max elements are examined.
//
namespace detail {

template< class T, class SizeType, const T Sentinel >
gsl_constexpr14 static span<T> ensure_sentinel( T * seq, SizeType max = (std::numeric_limits<SizeType>::max)() )
{
    typedef T * pointer;

    gsl_SUPPRESS_MSVC_WARNING( 26429, "f.23: symbol 'cur' is never tested for nullness, it can be marked as not_null" )
    pointer cur = seq;

    while ( static_cast<SizeType>( cur - seq ) < max && *cur != Sentinel )
        ++cur;

    gsl_Expects( *cur == Sentinel );

    return span<T>( seq, gsl::narrow_cast< typename span<T>::index_type >( cur - seq ) );
}
} // namespace detail

//
// ensure_z - creates a string_span for a czstring or cwzstring.
// Will fail fast if a null-terminator cannot be found before
// the limit of size_type.
//

template< class T >
gsl_NODISCARD inline gsl_constexpr14 span<T>
ensure_z( T * const & sz, size_t max = (std::numeric_limits<size_t>::max)() )
{
    return detail::ensure_sentinel<T, size_t, 0>( sz, max );
}

template< class T, size_t N >
gsl_NODISCARD inline gsl_constexpr14 span<T>
ensure_z( T (&sz)[N] )
{
    return ::gsl::ensure_z( gsl_ADDRESSOF( sz[0] ), N );
}

# if gsl_HAVE( TYPE_TRAITS )

template< class Container >
gsl_NODISCARD inline gsl_constexpr14 span< typename std::remove_pointer<typename Container::pointer>::type >
ensure_z( Container & cont )
{
    return ::gsl::ensure_z( cont.data(), cont.length() );
}
# endif

//
// basic_zstring_span<> - A view of contiguous null-terminated characters, replace (*,len).
//

template <typename T>
class basic_zstring_span
{
public:
    typedef T element_type;
    typedef span<T> span_type;

    typedef typename span_type::index_type index_type;
    typedef typename span_type::difference_type difference_type;

    typedef element_type * czstring_type;
    typedef basic_string_span<element_type> string_span_type;

    gsl_api gsl_constexpr14 basic_zstring_span( span_type s )
        : span_( s )
    {
        // expects a zero-terminated span
        gsl_Expects( s.back() == '\0' );
    }

#if gsl_HAVE( IS_DEFAULT )
    gsl_constexpr basic_zstring_span( basic_zstring_span const & ) = default;
    gsl_constexpr basic_zstring_span( basic_zstring_span &&      ) = default;
    gsl_constexpr14 basic_zstring_span & operator=( basic_zstring_span const & ) = default;
    gsl_constexpr14 basic_zstring_span & operator=( basic_zstring_span &&      ) = default;
#else
    gsl_api gsl_constexpr basic_zstring_span( basic_zstring_span const & other) : span_ ( other.span_ ) {}
    gsl_api gsl_constexpr basic_zstring_span & operator=( basic_zstring_span const & other ) { span_ = other.span_; return *this; }
#endif

    gsl_NODISCARD gsl_api gsl_constexpr bool
    empty() const gsl_noexcept
    {
        return false;
    }

    gsl_NODISCARD gsl_api gsl_constexpr string_span_type
    as_string_span() const gsl_noexcept
    {
        return string_span_type( span_.data(), span_.size() - 1 );
    }

    /*gsl_api*/ // currently disabled due to an apparent NVCC bug
    gsl_NODISCARD gsl_constexpr string_span_type
    ensure_z() const
    {
        return ::gsl::ensure_z(span_.data(), span_.size());
    }

    gsl_NODISCARD gsl_api gsl_constexpr czstring_type
    assume_z() const gsl_noexcept
    {
        return span_.data();
    }

private:
    span_type span_;
};

//
// zString types:
//

typedef basic_zstring_span< char > zstring_span;
typedef basic_zstring_span< char const > czstring_span;

#if gsl_HAVE( WCHAR )
typedef basic_zstring_span< wchar_t > wzstring_span;
typedef basic_zstring_span< wchar_t const > cwzstring_span;
#endif

} // namespace gsl

#if gsl_HAVE( HASH )

//
// std::hash specializations for GSL types
//

namespace gsl {

namespace detail {

//
// Helper struct for std::hash specializations
//

template<bool Condition>
struct conditionally_enabled_hash
{

};

// disabled as described in [unord.hash]
template<>
struct conditionally_enabled_hash< false >
{
gsl_is_delete_access:
    conditionally_enabled_hash() gsl_is_delete;
    conditionally_enabled_hash( conditionally_enabled_hash const & ) gsl_is_delete;
    conditionally_enabled_hash( conditionally_enabled_hash && ) gsl_is_delete;
    conditionally_enabled_hash & operator=( conditionally_enabled_hash const & ) gsl_is_delete;
    conditionally_enabled_hash & operator=( conditionally_enabled_hash && ) gsl_is_delete;
};

} // namespace detail

} // namespace gsl

namespace std {

template< class T >
struct hash< ::gsl::not_null< T > > : public ::gsl::detail::conditionally_enabled_hash<is_default_constructible<hash<T>>::value>
{
public:
    gsl_NODISCARD gsl_constexpr std::size_t
    operator()( ::gsl::not_null<T> const & v ) const
    // hash function is not `noexcept` because `as_nullable()` has preconditions
    {
        return hash<T>()( ::gsl::as_nullable( v ) );
    }
};
template< class T >
struct hash< ::gsl::not_null< T* > >
{
public:
    gsl_NODISCARD gsl_constexpr std::size_t
    operator()( ::gsl::not_null< T* > const & v ) const gsl_noexcept
    {
        return hash<T*>()( ::gsl::as_nullable( v ) );
    }
};

template<>
struct hash< ::gsl::byte >
{
public:
    gsl_NODISCARD gsl_constexpr std::size_t operator()( ::gsl::byte v ) const gsl_noexcept
    {
        return ::gsl::to_integer<std::size_t>( v );
    }
};

} // namespace std

#endif // gsl_HAVE( HASH )

#if gsl_FEATURE( GSL_LITE_NAMESPACE )

// gsl_lite namespace:

// gsl-lite currently keeps all symbols in the namespace `gsl`. The `gsl_lite` namespace contains all the symbols in the
// `gsl` namespace, plus some extensions that are not specified in the Core Guidelines.
//
// Going forward, we want to support coexistence of gsl-lite with M-GSL, so we want to encourage using the `gsl_lite`
// namespace when consuming gsl-lite. Typical use in library code would be:
//
//     #include <gsl-lite/gsl-lite.hpp>  // instead of <gsl/gsl-lite.hpp>
//
//     namespace foo {
//         namespace gsl = ::gsl_lite;  // convenience alias
//         double mean( gsl::span<double const> elements )
//         {
//             gsl_Expects( ! elements.empty() );  // instead of Expects()
//             ...
//         }
//     } // namespace foo
//
// In a future version, the new <gsl-lite/gsl-lite.hpp> header will only define the `gsl_lite` namespace and no
// unprefixed `Expects()` and `Ensures()` macros to avoid collision with M-GSL. To ensure backward compatibility, the
// old header <gsl/gsl-lite.hpp> will keep defining the `gsl` namespace and the `Expects()` and `Ensures()` macros.

namespace gsl_lite {

namespace std11 = ::gsl::std11;
namespace std14 = ::gsl::std14;
namespace std17 = ::gsl::std17;
namespace std20 = ::gsl::std20;

using namespace std11;
using namespace std14;
using namespace std17;
using namespace std20;

using namespace ::gsl::detail::no_adl;

# if gsl_HAVE( SHARED_PTR )
using std::unique_ptr;
using std::shared_ptr;
using std::make_shared;
# endif

using ::gsl::index;
using ::gsl::dim;
using ::gsl::stride;
using ::gsl::diff;

# if gsl_HAVE( ALIAS_TEMPLATE )
#  if gsl_BETWEEN( gsl_COMPILER_MSVC_VERSION, 1, 141 )  // VS 2015 and earlier have trouble with `using` for alias templates
  template< class T
#   if gsl_HAVE( TYPE_TRAITS )
          , typename = typename std::enable_if< std::is_pointer<T>::value >::type
#   endif
  >
  using owner = T;
#  else
using ::gsl::owner;
#  endif
# endif

using ::gsl::fail_fast;

using ::gsl::finally;
# if gsl_FEATURE( EXPERIMENTAL_RETURN_GUARD )
using ::gsl::on_return;
using ::gsl::on_error;
# endif // gsl_FEATURE( EXPERIMENTAL_RETURN_GUARD )

using ::gsl::narrow_cast;
using ::gsl::narrowing_error;
using ::gsl::narrow;
using ::gsl::narrow_failfast;

using ::gsl::at;

using ::gsl::not_null;
using ::gsl::not_null_ic;
using ::gsl::make_not_null;

using ::gsl::byte;

using ::gsl::to_byte;
using ::gsl::to_integer;
using ::gsl::to_uchar;
using ::gsl::to_string;

using ::gsl::with_container_t;
using ::gsl::with_container;

using ::gsl::span;
using ::gsl::make_span;
using ::gsl::byte_span;
using ::gsl::copy;
using ::gsl::as_bytes;
using ::gsl::as_writable_bytes;
# if ! gsl_DEPRECATE_TO_LEVEL( 6 )
using ::gsl::as_writeable_bytes;
# endif

using ::gsl::basic_string_span;
using ::gsl::string_span;
using ::gsl::cstring_span;

using ::gsl::basic_zstring_span;
using ::gsl::zstring_span;
using ::gsl::czstring_span;

using ::gsl::zstring;
using ::gsl::czstring;

# if gsl_HAVE( WCHAR )
using ::gsl::wzstring;
using ::gsl::cwzstring;

using ::gsl::wzstring_span;
using ::gsl::cwzstring_span;
# endif // gsl_HAVE( WCHAR )

using ::gsl::ensure_z;

} // namespace gsl_lite

#endif // gsl_FEATURE( GSL_LITE_NAMESPACE )

gsl_RESTORE_MSVC_WARNINGS()

// #undef internal macros
#undef gsl_STATIC_ASSERT_
#undef gsl_ENABLE_IF_
#undef gsl_TRAILING_RETURN_TYPE_
#undef gsl_RETURN_DECLTYPE_

#endif // GSL_GSL_LITE_HPP_INCLUDED

// end of file