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Reverted Integer back to Release branch state - as per devel-list discussions.

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[SVN r57580]
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John Maddock
2009-11-11 18:57:24 +00:00
parent fd0a8f8c2c
commit eecbd5276f
12 changed files with 619 additions and 1875 deletions
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test/integer_test.cpp
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@ -4,666 +4,288 @@
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/libs/integer for documentation.
// Revision History
// 16 Jul 08 Added MPL-compatible variants of the minimum-size and value-
// based integer templates. (Daryle Walker)
// 15 Jul 08 Added exact-integer templates; added MPL-compatible variant of
// processor-optimized integer template. (Daryle Walker)
// 14 Jul 08 Improved testing of processor-optimized integer template; added
// extended-integer support. (Daryle Walker)
// 13 Jul 08 Modernized tests w/ MPL instead of giant macros (Daryle Walker)
// 07 Jul 08 Changed tests to use the unit-test system (Daryle Walker)
// 04 Oct 01 Added tests for new templates; rewrote code (Daryle Walker)
// 10 Mar 01 Boost Test Library now used for tests (Beman Dawes)
// 31 Aug 99 Initial version
#define BOOST_TEST_MODULE "Integer size-selection tests"
#include <boost/test/minimal.hpp> // for main, BOOST_CHECK
#include <boost/test/unit_test.hpp> // unit testing framework
#include <boost/config.hpp> // for BOOST_NO_USING_TEMPLATE
#include <boost/cstdlib.hpp> // for boost::exit_success
#include <boost/integer.hpp> // for boost::int_t, boost::uint_t
#include <boost/config.hpp> // for BOOST_NO_SFINAE
#include <boost/cstdint.hpp> // for boost::uintmax_t, intmax_t
#include <boost/integer.hpp> // for boost::int_t, boost::uint_t, etc.
#include <boost/integer_traits.hpp> // for boost::integer_traits
#include <boost/limits.hpp> // for std::numeric_limits
#include <boost/detail/extended_integer.hpp> // BOOST_HAS_XINT, BOOST_UXINT_MAX
#include <boost/mpl/arithmetic.hpp> // for boost::mpl::plus, divides
#include <boost/mpl/assert.hpp> // for BOOST_MPL_ASSERT_RELATION, etc.
#include <boost/mpl/back.hpp> // for boost::mpl::back
#include <boost/mpl/copy.hpp> // for boost::mpl::copy
#include <boost/mpl/equal.hpp> // for boost::mpl::equal
#include <boost/mpl/front_inserter.hpp> // for boost::mpl::front_inserter
#include <boost/mpl/int.hpp> // for boost::mpl::int_
#include <boost/mpl/integral_c.hpp> // for boost::mpl::integral_c
#include <boost/mpl/joint_view.hpp> // for boost::mpl::joint_view
#include <boost/mpl/pop_back.hpp> // for boost::mpl::pop_back
#include <boost/mpl/push_back.hpp> // for boost::mpl::push_back
#include <boost/mpl/push_front.hpp> // for boost::mpl::push_front
#include <boost/mpl/range_c.hpp> // for boost::mpl::range_c
#include <boost/mpl/shift_right.hpp> // for boost::mpl::shift_right
#include <boost/mpl/sort.hpp> // for boost::mpl::sort
#include <boost/mpl/transform.hpp> // for boost::mpl::transform
#include <boost/mpl/transform_view.hpp> // for boost::mpl::transform_view
#include <boost/mpl/unpack_args.hpp> // for boost::mpl::unpack_args
#include <boost/mpl/vector.hpp> // for boost::mpl::vector
#include <boost/mpl/zip_view.hpp> // for boost::mpl::zip_view
#include <boost/type_traits/is_same.hpp> // for boost::is_same
#include <boost/type_traits/make_signed.hpp> // for boost::make_signed
#include <algorithm> // for std::binary_search
#include <climits> // for ULONG_MAX, LONG_MAX, LONG_MIN, etc.
#include <cstddef> // for std::size_t
#include <typeinfo> // for std::type_info
#include <climits> // for ULONG_MAX, LONG_MAX, LONG_MIN
#include <iostream> // for std::cout (std::endl indirectly)
#include <typeinfo> // for std::type_info
// Control what the "fast" specialization of "short" is
#ifndef CONTROL_FAST_SHORT
#define CONTROL_FAST_SHORT long
#endif
// Control if every potential bit-count is used, or only a selection
// For me, full counts increase compile time from 90 seconds to 20 minutes!
#ifndef CONTROL_FULL_COUNTS
#define CONTROL_FULL_COUNTS 1
// Control if the names of the types for each version
// of the integer templates will be printed.
#ifndef CONTROL_SHOW_TYPES
#define CONTROL_SHOW_TYPES 0
#endif
// If specializations have not already been done, then we can confirm
// the effects of the fast types by making a specialization. If there
// is a specialization for "short," make sure that CONTROL_FAST_SHORT
// is set to a type distinct from "short" and the default implementation.
// the effects of the "fast" types by making a specialization.
namespace boost
{
template < >
struct fast_integral< short >
struct int_fast_t< short >
{
typedef CONTROL_FAST_SHORT type;
typedef long fast;
};
}
// Custom types/templates, helper functions, and objects
namespace
{
// List the built-in integral types, excluding the ones that are strong-typedefs
// of a lower type.
typedef boost::mpl::vector<
unsigned char
#if USHRT_MAX > UCHAR_MAX
, unsigned short
#endif
#if UINT_MAX > USHRT_MAX
, unsigned int
#endif
#if ULONG_MAX > UINT_MAX
, unsigned long
#endif
#if BOOST_HAS_XINT && (BOOST_UXINT_MAX > ULONG_MAX)
, boost::detail::uxint_t
#endif
> distinct_unsigned_types;
typedef boost::mpl::transform<
distinct_unsigned_types,
boost::make_signed< boost::mpl::_1 >
>::type distinct_signed_types;
// List the digit counts for each integral type
template < typename T >
struct digits_of
: boost::mpl::int_< std::numeric_limits<T>::digits >
{
};
typedef boost::mpl::transform<
distinct_unsigned_types,
digits_of< boost::mpl::_1 >
>::type distinct_integral_bit_counts;
// Make list of bit counts between each offical point, plus CHAR_BIT/2
typedef boost::mpl::transform_view<
boost::mpl::zip_view<
boost::mpl::vector<
boost::mpl::push_front<
boost::mpl::pop_back< distinct_integral_bit_counts >::type,
boost::mpl::integral_c< int, 0 >
>::type,
distinct_integral_bit_counts
>
>,
boost::mpl::unpack_args<
boost::mpl::divides<
boost::mpl::plus< boost::mpl::_1, boost::mpl::_2 >,
boost::mpl::integral_c< int, 2 >
>
>
> median_bit_counts;
// Maximum number of bits allowed
typedef std::numeric_limits<boost:: intmax_t> intmax_limits;
typedef std::numeric_limits<boost::uintmax_t> uintmax_limits;
int const intmax_bits = intmax_limits::digits + 1;
int const uintmax_bits = uintmax_limits::digits;
// Make master lists including an outlier beyond all valid bit counts
#if CONTROL_FULL_COUNTS
typedef boost::mpl::range_c<int, 0, uintmax_bits + 2> bits_list;
// Show the types of an integer template version
#if CONTROL_SHOW_TYPES
#define SHOW_TYPE(Template, Number, Type) ::std::cout << "Type \"" \
#Template "<" #Number ">::" #Type "\" is \"" << typeid(Template < \
Number > :: Type).name() << ".\"\n"
#else
typedef boost::mpl::sort<
boost::mpl::copy<
boost::mpl::joint_view<
distinct_integral_bit_counts,
median_bit_counts
>,
boost::mpl::front_inserter<
boost::mpl::vector<
boost::mpl::integral_c<int, uintmax_bits + 1>
>
>
>::type
>::type bits_list;
#define SHOW_TYPE(Template, Number, Type)
#endif
// Remove the outlier when all bits counts must be valid
#if CONTROL_FULL_COUNTS
typedef boost::mpl::range_c<int, 0, uintmax_bits + 1> valid_bits_list;
#define SHOW_TYPES(Template, Type) SHOW_TYPE(Template, 32, Type); \
SHOW_TYPE(Template, 31, Type); SHOW_TYPE(Template, 30, Type); \
SHOW_TYPE(Template, 29, Type); SHOW_TYPE(Template, 28, Type); \
SHOW_TYPE(Template, 27, Type); SHOW_TYPE(Template, 26, Type); \
SHOW_TYPE(Template, 25, Type); SHOW_TYPE(Template, 24, Type); \
SHOW_TYPE(Template, 23, Type); SHOW_TYPE(Template, 22, Type); \
SHOW_TYPE(Template, 21, Type); SHOW_TYPE(Template, 20, Type); \
SHOW_TYPE(Template, 19, Type); SHOW_TYPE(Template, 18, Type); \
SHOW_TYPE(Template, 17, Type); SHOW_TYPE(Template, 16, Type); \
SHOW_TYPE(Template, 15, Type); SHOW_TYPE(Template, 14, Type); \
SHOW_TYPE(Template, 13, Type); SHOW_TYPE(Template, 12, Type); \
SHOW_TYPE(Template, 11, Type); SHOW_TYPE(Template, 10, Type); \
SHOW_TYPE(Template, 9, Type); SHOW_TYPE(Template, 8, Type); \
SHOW_TYPE(Template, 7, Type); SHOW_TYPE(Template, 6, Type); \
SHOW_TYPE(Template, 5, Type); SHOW_TYPE(Template, 4, Type); \
SHOW_TYPE(Template, 3, Type); SHOW_TYPE(Template, 2, Type); \
SHOW_TYPE(Template, 1, Type); SHOW_TYPE(Template, 0, Type)
#define SHOW_SHIFTED_TYPE(Template, Number, Type) SHOW_TYPE(Template, (1UL << Number), Type)
#define SHOW_SHIFTED_TYPES(Template, Type) SHOW_SHIFTED_TYPE(Template, 30, Type); \
SHOW_SHIFTED_TYPE(Template, 29, Type); SHOW_SHIFTED_TYPE(Template, 28, Type); \
SHOW_SHIFTED_TYPE(Template, 27, Type); SHOW_SHIFTED_TYPE(Template, 26, Type); \
SHOW_SHIFTED_TYPE(Template, 25, Type); SHOW_SHIFTED_TYPE(Template, 24, Type); \
SHOW_SHIFTED_TYPE(Template, 23, Type); SHOW_SHIFTED_TYPE(Template, 22, Type); \
SHOW_SHIFTED_TYPE(Template, 21, Type); SHOW_SHIFTED_TYPE(Template, 20, Type); \
SHOW_SHIFTED_TYPE(Template, 19, Type); SHOW_SHIFTED_TYPE(Template, 18, Type); \
SHOW_SHIFTED_TYPE(Template, 17, Type); SHOW_SHIFTED_TYPE(Template, 16, Type); \
SHOW_SHIFTED_TYPE(Template, 15, Type); SHOW_SHIFTED_TYPE(Template, 14, Type); \
SHOW_SHIFTED_TYPE(Template, 13, Type); SHOW_SHIFTED_TYPE(Template, 12, Type); \
SHOW_SHIFTED_TYPE(Template, 11, Type); SHOW_SHIFTED_TYPE(Template, 10, Type); \
SHOW_SHIFTED_TYPE(Template, 9, Type); SHOW_SHIFTED_TYPE(Template, 8, Type); \
SHOW_SHIFTED_TYPE(Template, 7, Type); SHOW_SHIFTED_TYPE(Template, 6, Type); \
SHOW_SHIFTED_TYPE(Template, 5, Type); SHOW_SHIFTED_TYPE(Template, 4, Type); \
SHOW_SHIFTED_TYPE(Template, 3, Type); SHOW_SHIFTED_TYPE(Template, 2, Type); \
SHOW_SHIFTED_TYPE(Template, 1, Type); SHOW_SHIFTED_TYPE(Template, 0, Type)
#define SHOW_POS_SHIFTED_TYPE(Template, Number, Type) SHOW_TYPE(Template, +(1L << Number), Type)
#define SHOW_POS_SHIFTED_TYPES(Template, Type) SHOW_POS_SHIFTED_TYPE(Template, 30, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 29, Type); SHOW_POS_SHIFTED_TYPE(Template, 28, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 27, Type); SHOW_POS_SHIFTED_TYPE(Template, 26, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 25, Type); SHOW_POS_SHIFTED_TYPE(Template, 24, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 23, Type); SHOW_POS_SHIFTED_TYPE(Template, 22, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 21, Type); SHOW_POS_SHIFTED_TYPE(Template, 20, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 19, Type); SHOW_POS_SHIFTED_TYPE(Template, 18, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 17, Type); SHOW_POS_SHIFTED_TYPE(Template, 16, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 15, Type); SHOW_POS_SHIFTED_TYPE(Template, 14, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 13, Type); SHOW_POS_SHIFTED_TYPE(Template, 12, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 11, Type); SHOW_POS_SHIFTED_TYPE(Template, 10, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 9, Type); SHOW_POS_SHIFTED_TYPE(Template, 8, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 7, Type); SHOW_POS_SHIFTED_TYPE(Template, 6, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 5, Type); SHOW_POS_SHIFTED_TYPE(Template, 4, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 3, Type); SHOW_POS_SHIFTED_TYPE(Template, 2, Type); \
SHOW_POS_SHIFTED_TYPE(Template, 1, Type); SHOW_POS_SHIFTED_TYPE(Template, 0, Type)
#define SHOW_NEG_SHIFTED_TYPE(Template, Number, Type) SHOW_TYPE(Template, -(1L << Number), Type)
#define SHOW_NEG_SHIFTED_TYPES(Template, Type) SHOW_NEG_SHIFTED_TYPE(Template, 30, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 29, Type); SHOW_NEG_SHIFTED_TYPE(Template, 28, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 27, Type); SHOW_NEG_SHIFTED_TYPE(Template, 26, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 25, Type); SHOW_NEG_SHIFTED_TYPE(Template, 24, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 23, Type); SHOW_NEG_SHIFTED_TYPE(Template, 22, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 21, Type); SHOW_NEG_SHIFTED_TYPE(Template, 20, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 19, Type); SHOW_NEG_SHIFTED_TYPE(Template, 18, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 17, Type); SHOW_NEG_SHIFTED_TYPE(Template, 16, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 15, Type); SHOW_NEG_SHIFTED_TYPE(Template, 14, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 13, Type); SHOW_NEG_SHIFTED_TYPE(Template, 12, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 11, Type); SHOW_NEG_SHIFTED_TYPE(Template, 10, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 9, Type); SHOW_NEG_SHIFTED_TYPE(Template, 8, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 7, Type); SHOW_NEG_SHIFTED_TYPE(Template, 6, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 5, Type); SHOW_NEG_SHIFTED_TYPE(Template, 4, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 3, Type); SHOW_NEG_SHIFTED_TYPE(Template, 2, Type); \
SHOW_NEG_SHIFTED_TYPE(Template, 1, Type); SHOW_NEG_SHIFTED_TYPE(Template, 0, Type)
// Test if a constant can fit within a certain type
#define PRIVATE_FIT_TEST(Template, Number, Type, Value) BOOST_CHECK( Template < Number > :: Type ( Value ) == Value )
#if ULONG_MAX > 0xFFFFFFFFL
#define PRIVATE_FIT_TESTS(Template, Type, ValType, InitVal) do { ValType v = InitVal ; \
PRIVATE_FIT_TEST(Template, 64, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 63, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 62, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 61, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 60, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 59, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 58, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 57, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 56, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 55, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 54, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 53, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 52, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 51, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 50, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 49, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 48, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 47, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 46, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 45, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 44, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 43, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 42, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 41, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 40, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 39, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 38, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 37, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 36, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 35, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 34, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 33, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 32, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 31, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 30, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 29, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 28, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 27, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 26, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 25, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 24, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 23, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 22, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 21, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 20, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 19, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 18, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 17, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 16, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 15, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 14, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 13, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 12, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 11, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 10, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 9, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 8, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 7, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 6, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 5, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 4, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 3, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 2, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 1, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 0, Type, v); } while ( false )
#else
typedef boost::mpl::pop_back<bits_list>::type valid_bits_list;
#define PRIVATE_FIT_TESTS(Template, Type, ValType, InitVal) do { ValType v = InitVal ; \
PRIVATE_FIT_TEST(Template, 32, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 31, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 30, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 29, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 28, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 27, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 26, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 25, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 24, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 23, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 22, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 21, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 20, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 19, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 18, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 17, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 16, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 15, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 14, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 13, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 12, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 11, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 10, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 9, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 8, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 7, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 6, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 5, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 4, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 3, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 2, Type, v); v >>= 1; \
PRIVATE_FIT_TEST(Template, 1, Type, v); v >>= 1; PRIVATE_FIT_TEST(Template, 0, Type, v); } while ( false )
#endif
// Replace the minimum bit count with one more, so right-shifting by a stored
// value doesn't give an invalid result
#if CONTROL_FULL_COUNTS
typedef boost::mpl::range_c<int, 1, uintmax_bits + 1>
valid_to_decrease_bits_list;
#define PRIVATE_SHIFTED_FIT_TEST(Template, Number, Type, Value) BOOST_CHECK( Template < (ULONG_MAX >> Number) > :: Type ( Value ) == Value )
#define PRIVATE_SHIFTED_FIT_TESTS(Template, Type, ValType, InitVal) do { ValType v = InitVal ; \
PRIVATE_SHIFTED_FIT_TEST(Template, 0, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 1, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 2, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 3, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 4, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 5, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 6, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 7, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 8, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 9, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 10, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 11, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 12, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 13, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 14, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 15, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 16, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 17, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 18, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 19, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 20, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 21, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 22, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 23, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 24, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 25, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 26, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 27, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 28, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 29, Type, v); v >>= 1; \
PRIVATE_SHIFTED_FIT_TEST(Template, 30, Type, v); v >>= 1; PRIVATE_SHIFTED_FIT_TEST(Template, 31, Type, v); } while ( false )
#define PRIVATE_POS_SHIFTED_FIT_TEST(Template, Number, Type, Value) BOOST_CHECK( Template < (LONG_MAX >> Number) > :: Type ( Value ) == Value )
#define PRIVATE_POS_FIT_TESTS(Template, Type, ValType, InitVal) do { ValType v = InitVal ; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 0, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 1, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 2, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 3, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 4, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 5, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 6, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 7, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 8, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 9, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 10, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 11, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 12, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 13, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 14, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 15, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 16, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 17, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 18, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 19, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 20, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 21, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 22, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 23, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 24, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 25, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 26, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 27, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 28, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 29, Type, v); v >>= 1; \
PRIVATE_POS_SHIFTED_FIT_TEST(Template, 30, Type, v); v >>= 1; PRIVATE_POS_SHIFTED_FIT_TEST(Template, 31, Type, v); } while ( false )
#define PRIVATE_NEG_SHIFTED_FIT_TEST(Template, Number, Type, Value) BOOST_CHECK( Template < (LONG_MIN >> Number) > :: Type ( Value ) == Value )
#define PRIVATE_NEG_FIT_TESTS(Template, Type, ValType, InitVal) do { ValType v = InitVal ; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 0, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 1, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 2, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 3, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 4, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 5, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 6, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 7, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 8, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 9, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 10, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 11, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 12, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 13, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 14, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 15, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 16, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 17, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 18, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 19, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 20, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 21, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 22, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 23, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 24, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 25, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 26, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 27, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 28, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 29, Type, v); v >>= 1; \
PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 30, Type, v); v >>= 1; PRIVATE_NEG_SHIFTED_FIT_TEST(Template, 31, Type, v); } while ( false )
// Test program
int
test_main
(
int,
char*[]
)
{
#ifndef BOOST_NO_USING_TEMPLATE
using boost::int_t;
using boost::uint_t;
using boost::int_max_value_t;
using boost::int_min_value_t;
using boost::uint_value_t;
#else
typedef valid_bits_list valid_to_decrease_bits_list;
using namespace boost;
#endif
// Replace the maximum bit count with one less, so left-shifting by a stored
// value doesn't give an invalid result
#if CONTROL_FULL_COUNTS
typedef boost::mpl::range_c<int, 0, uintmax_bits> valid_to_increase_ubits_list;
#else
typedef boost::mpl::push_back<
boost::mpl::pop_back< valid_bits_list >::type,
boost::mpl::integral_c< int, uintmax_bits - 1 >
>::type valid_to_increase_ubits_list;
#endif
// Do it again for signed types since they have one-less bit to use for the
// mantissa (don't want to shift into the sign bit)
#if CONTROL_FULL_COUNTS
typedef boost::mpl::range_c<int, 0, intmax_bits - 2>
valid_to_increase_sbits_list;
#else
typedef boost::mpl::push_back<
boost::mpl::pop_back< valid_bits_list >::type,
boost::mpl::integral_c< int, intmax_bits - 3 >
>::type valid_to_increase_sbits_list;
#endif
// List the digit counts for each integral type, this time as an object, an
// array working as a sorted list
int const integral_bit_lengths[] = {
std::numeric_limits< unsigned char >::digits
#if USHRT_MAX > UCHAR_MAX
, std::numeric_limits< unsigned short >::digits
#endif
#if UINT_MAX > USHRT_MAX
, std::numeric_limits< unsigned int >::digits
#endif
#if ULONG_MAX > UINT_MAX
, std::numeric_limits< unsigned long >::digits
#endif
#if BOOST_HAS_XINT && (BOOST_UXINT_MAX > ULONG_MAX)
, std::numeric_limits< boost::detail::uxint_t >::digits
#endif
};
std::size_t const integral_type_count = sizeof(integral_bit_lengths) /
sizeof(integral_bit_lengths[0]);
// "Template-typedefs" to reduce two-argument templates to single-argument.
// This way, all the MPL-compatible templates have the same form, for below.
template < int Bits >
struct signed_sized_integral : boost::sized_integral<Bits, signed> {};
template < int Bits >
struct unsigned_sized_integral : boost::sized_integral<Bits, unsigned> {};
template < int Bits >
struct signed_exact_integral : boost::exact_integral<Bits, signed> {};
template < int Bits >
struct unsigned_exact_integral : boost::exact_integral<Bits, unsigned> {};
// Use SFINAE to check if a particular parameter is supported
#ifndef BOOST_NO_SFINAE
template < typename ValueT, template<ValueT> class Tmpl, ValueT Value >
bool
print_out_template( Tmpl<Value> const &, ValueT setting, char const
*template_pre_name, char const *template_post_name, typename Tmpl<Value>::type
*unused = 0 )
{
// Too bad the type-id expression couldn't use the compact form "*unused",
// but type-ids of dereferenced null pointers throw by order of C++ 2003,
// sect. 5.2.8, para. 2 (although the result is not conceptually needed).
BOOST_TEST_MESSAGE( "This is " << template_pre_name << setting
<< template_post_name << " specialization, with type '" << typeid(typename
Tmpl<Value>::type).name() << "'." );
return true;
SHOW_TYPES( int_t, least );
SHOW_TYPES( int_t, fast );
SHOW_TYPES( uint_t, least );
SHOW_TYPES( uint_t, fast );
SHOW_POS_SHIFTED_TYPES( int_max_value_t, least );
SHOW_POS_SHIFTED_TYPES( int_max_value_t, fast );
SHOW_NEG_SHIFTED_TYPES( int_min_value_t, least );
SHOW_NEG_SHIFTED_TYPES( int_min_value_t, fast );
SHOW_SHIFTED_TYPES( uint_value_t, least );
SHOW_SHIFTED_TYPES( uint_value_t, fast );
PRIVATE_FIT_TESTS( int_t, least, long, LONG_MAX );
PRIVATE_FIT_TESTS( int_t, fast, long, LONG_MAX );
PRIVATE_FIT_TESTS( uint_t, least, unsigned long, ULONG_MAX );
PRIVATE_FIT_TESTS( uint_t, fast, unsigned long, ULONG_MAX );
PRIVATE_POS_FIT_TESTS( int_max_value_t, least, long, LONG_MAX );
PRIVATE_POS_FIT_TESTS( int_max_value_t, fast, long, LONG_MAX );
PRIVATE_NEG_FIT_TESTS( int_min_value_t, least, long, LONG_MIN );
PRIVATE_NEG_FIT_TESTS( int_min_value_t, fast, long, LONG_MIN );
PRIVATE_SHIFTED_FIT_TESTS( uint_value_t, least, unsigned long, ULONG_MAX );
PRIVATE_SHIFTED_FIT_TESTS( uint_value_t, fast, unsigned long, ULONG_MAX );
return boost::exit_success;
}
template < typename ValueT, typename T >
bool
print_out_template( T const &, ValueT setting, char const *template_pre_name,
char const *template_post_name )
{
BOOST_TEST_MESSAGE( "Looking for " << template_pre_name << setting
<< template_post_name << " specialization? It doesn't exist." );
return false;
}
#else
#error "These tests cannot work without Substitution-Failure-Is-Not-An-Error"
#endif
// Get the extreme values for each integral type
template < typename T >
struct minimum_of
: boost::mpl::integral_c< T, boost::integer_traits<T>::const_min >
{
};
template < typename T >
struct maximum_of
: boost::mpl::integral_c< T, boost::integer_traits<T>::const_max >
{
};
} // unnamed namespace
// Check the processor-optimzed type system
BOOST_AUTO_TEST_SUITE( optimized_type_tests )
// Check the optimzed type override of a given type
BOOST_AUTO_TEST_CASE( fast_type_test )
{
typedef short least_type;
typedef boost::int_fast_t<least_type>::fast fast_type;
typedef std::numeric_limits<least_type> least_limits;
typedef std::numeric_limits<fast_type> fast_limits;
typedef boost::fast_integral<least_type>::type real_fast_type;
BOOST_MPL_ASSERT_RELATION( (boost::is_same<least_type, fast_type>::value),
==, false );
BOOST_MPL_ASSERT_RELATION( (boost::is_same<fast_type,
real_fast_type>::value), ==, true );
BOOST_MPL_ASSERT_RELATION( fast_limits::is_specialized, ==, true );
BOOST_MPL_ASSERT_RELATION( fast_limits::is_signed &&
fast_limits::is_bounded, ==, true );
BOOST_MPL_ASSERT_RELATION( fast_limits::radix, ==, 2 );
BOOST_MPL_ASSERT_RELATION( fast_limits::digits, >=, least_limits::digits );
}
BOOST_AUTO_TEST_SUITE_END()
// Check if given types can support given size parameters
BOOST_AUTO_TEST_SUITE( show_type_tests )
// Check the specialization type status of given bit lengths, minimum
BOOST_AUTO_TEST_CASE_TEMPLATE( show_types_for_lengths_test, T, bits_list )
{
BOOST_CHECK_EQUAL( print_out_template(signed_sized_integral<T::value>(),
T::value, "a sized_integral<", ", signed>"), T::value && (T::value <=
intmax_bits) );
BOOST_CHECK_EQUAL( print_out_template(unsigned_sized_integral<T::value>(),
T::value, "a sized_integral<", ", unsigned>"), T::value <= uintmax_bits );
}
// Check the classic specialization type status of given bit lengths, minimum,
// unsigned
BOOST_AUTO_TEST_CASE_TEMPLATE( show_types_for_classic_lengths_unsigned_test, T,
valid_bits_list )
{
// This test is supposed to replace the following printouts given in
// puesdo-code by:
// Routine: Template, Type
// for N := 32 downto 0
// cout << "Type '" << Template << "<" N << ">::" << Type << "' is '"
// << typeid(Template<N>::Type).name << ".'\n"
// end for
// end Routine
// with Template = {int_t, uint_t}; Type = {least, fast}
// But now we'll use template meta-programming instead of macros. The limit
// of type-lists is usually less than 32 (not to mention 64) elements, so we
// have to take selected values. The only interesting part is if the bit
// count is too large, and we can't check that yet.
BOOST_MPL_ASSERT_RELATION( std::numeric_limits<typename
boost::uint_t<T::value>::least>::digits, >=, T::value );
BOOST_MPL_ASSERT_RELATION( std::numeric_limits<typename
boost::uint_t<T::value>::fast>::digits, >=, T::value );
}
// Check the classic specialization type status of given bit lengths, minimum,
// signed
BOOST_AUTO_TEST_CASE_TEMPLATE( show_types_for_classic_lengths_signed_test, T,
valid_to_decrease_bits_list )
{
BOOST_MPL_ASSERT_RELATION( std::numeric_limits<typename
boost::int_t<T::value>::least>::digits, >=, T::value - 1 );
BOOST_MPL_ASSERT_RELATION( std::numeric_limits<typename
boost::int_t<T::value>::fast>::digits, >=, T::value - 1 );
}
// Check size comparisons of given value support, unsigned
BOOST_AUTO_TEST_CASE_TEMPLATE( show_types_for_shifted_unsigned_values_test, T,
valid_to_increase_ubits_list )
{
// This test is supposed to replace the following printouts given in
// puesdo-code by:
// Routine: Type
// for N := 30 downto 0
// cout << "Type '" << uint_value_t << "<" (1ul << N) << ">::" << Type
// << "' is '"<< typeid(uint_value_t<(1ul << N)>::Type).name << ".'\n"
// end for
// end Routine
// with Type = {least, fast}
// But now we'll use template meta-programming instead of macros. The limit
// of type-lists is usually less than 32 (not to mention 64) elements, so we
// have to take selected values. The interesting parts are where N is the
// length of a integral type, so 1 << N would have to fit in the next larger
// type. (This is why N can't be more than bitlength(uintmax_t) - 1.)
boost::uintmax_t const one = 1u;
BOOST_MPL_ASSERT( (boost::mpl::equal< boost::maximum_unsigned_integral<(one
<< T::value)>, unsigned_sized_integral<T::value + 1> >) );
}
// Check size comparisons of given value support, signed
BOOST_AUTO_TEST_CASE_TEMPLATE( show_types_for_shifted_signed_values_test, T,
valid_to_increase_sbits_list )
{
// This test is supposed to replace the following printouts given in
// puesdo-code by:
// Routine: Type
// for N := 30 downto 0
// cout << "Type '" << int_max_value_t << "<" +(1ul << N) << ">::" <<
// Type << "' is '" << typeid(int_max_value_t<+(1ul << N)>::Type).name
// << ".'\n"
// cout << "Type '" << int_min_value_t << "<" -(1ul << N) << ">::" <<
// Type << "' is '" << typeid(int_min_value_t<-(1ul << N)>::Type).name
// << ".'\n"
// end for
// end Routine
// with Type = {least, fast}
// But now we'll use template meta-programming instead of macros. The limit
// of type-lists is usually less than 32 (not to mention 64) elements, so we
// have to take selected values. The interesting parts are where N is the
// length of a integral type, so 1 << N would have to fit in the next larger
// type. (This is why N can't be more than bitlength(intmax_t) - 1. Note
// that bitlength(intmax_t) + 1 == bitlength(uintmax_t).)
static boost::intmax_t const one = 1;
BOOST_MPL_ASSERT( (boost::mpl::equal< boost::maximum_signed_integral<+(one
<< T::value)>, signed_sized_integral<T::value + 1> >) );
BOOST_MPL_ASSERT( (boost::mpl::equal< boost::minimum_signed_integral<-(one
<< T::value)>, signed_sized_integral<T::value + 1> >) );
}
// Check the specialization type status of given bit lengths, exact only
BOOST_AUTO_TEST_CASE_TEMPLATE( show_types_for_exact_lengths_test, T, bits_list )
{
bool const is_exact_length = std::binary_search( integral_bit_lengths,
integral_bit_lengths + integral_type_count, T::value );
BOOST_CHECK_EQUAL( print_out_template(signed_exact_integral<T::value>(),
T::value, "an exact_integral<", ", signed>"), is_exact_length );
BOOST_CHECK_EQUAL( print_out_template(unsigned_exact_integral<T::value>(),
T::value, "an exact_integral<", ", unsigned>"), is_exact_length );
}
// Check the classic specialization type status of given bit lengths, exact only
BOOST_AUTO_TEST_CASE_TEMPLATE( show_types_for_classic_exact_lengths_test, T,
distinct_integral_bit_counts )
{
BOOST_MPL_ASSERT_RELATION( std::numeric_limits<typename
boost::int_exact_t<T::value>::exact>::digits, ==, T::value - 1 );
BOOST_MPL_ASSERT_RELATION( std::numeric_limits<typename
boost::uint_exact_t<T::value>::exact>::digits, ==, T::value );
}
// Check if MPL-compatible templates give bad returns for out-of-range values
BOOST_AUTO_TEST_CASE( show_not_type_for_parameter_test )
{
typedef signed_sized_integral< 3> ssz3_type;
typedef signed_sized_integral< 0> ssz0_type;
typedef signed_sized_integral<-3> ssz3n_type;
BOOST_CHECK( print_out_template(ssz3_type(), ssz3_type::bit_count,
"a sized_integral<", ", signed>") );
BOOST_CHECK( !print_out_template(ssz0_type(), ssz0_type::bit_count,
"a sized_integral<", ", signed>") );
BOOST_CHECK( !print_out_template(ssz3n_type(), ssz3n_type::bit_count,
"a sized_integral<", ", signed>") );
typedef unsigned_sized_integral< 3> usz3_type;
typedef unsigned_sized_integral< 0> usz0_type;
typedef unsigned_sized_integral<-3> usz3n_type;
BOOST_CHECK( print_out_template(usz3_type(), usz3_type::bit_count,
"a sized_integral<", ", unsigned>") );
BOOST_CHECK( print_out_template(usz0_type(), usz0_type::bit_count,
"a sized_integral<", ", unsigned>") );
BOOST_CHECK( !print_out_template(usz3n_type(), usz3n_type::bit_count,
"a sized_integral<", ", unsigned>") );
typedef signed_exact_integral< CHAR_BIT > se8_type;
typedef signed_exact_integral< 3> se3_type;
typedef signed_exact_integral< 0> se0_type;
typedef signed_exact_integral<-3> se3n_type;
typedef signed_exact_integral< - CHAR_BIT > se8n_type;
BOOST_CHECK( print_out_template(se8_type(), se8_type::bit_count,
"an exact_integral<", ", signed>") );
BOOST_CHECK( !print_out_template(se3_type(), se3_type::bit_count,
"an exact_integral<", ", signed>") );
BOOST_CHECK( !print_out_template(se0_type(), se0_type::bit_count,
"an exact_integral<", ", signed>") );
BOOST_CHECK( !print_out_template(se3n_type(), se3n_type::bit_count,
"an exact_integral<", ", signed>") );
BOOST_CHECK( !print_out_template(se8n_type(), se8n_type::bit_count,
"an exact_integral<", ", signed>") );
typedef unsigned_exact_integral< CHAR_BIT > ue8_type;
typedef unsigned_exact_integral< 3> ue3_type;
typedef unsigned_exact_integral< 0> ue0_type;
typedef unsigned_exact_integral<-3> ue3n_type;
typedef unsigned_exact_integral< - CHAR_BIT > ue8n_type;
BOOST_CHECK( print_out_template(ue8_type(), ue8_type::bit_count,
"an exact_integral<", ", unsigned>") );
BOOST_CHECK( !print_out_template(ue3_type(), ue3_type::bit_count,
"an exact_integral<", ", unsigned>") );
BOOST_CHECK( !print_out_template(ue0_type(), ue0_type::bit_count,
"an exact_integral<", ", unsigned>") );
BOOST_CHECK( !print_out_template(ue3n_type(), ue3n_type::bit_count,
"an exact_integral<", ", unsigned>") );
BOOST_CHECK( !print_out_template(ue8n_type(), ue8n_type::bit_count,
"an exact_integral<", ", unsigned>") );
typedef boost::maximum_signed_integral< 15> max15_type;
typedef boost::maximum_signed_integral< 0> max0_type;
typedef boost::maximum_signed_integral<-15> max15n_type;
BOOST_CHECK( print_out_template(max15_type(), max15_type::bound,
"a maximum_signed_integral<", ">") );
BOOST_CHECK( !print_out_template(max0_type(), max0_type::bound,
"a maximum_signed_integral<", ">") );
BOOST_CHECK( !print_out_template(max15n_type(), max15n_type::bound,
"a maximum_signed_integral<", ">") );
typedef boost::minimum_signed_integral< 15> min15_type;
typedef boost::minimum_signed_integral< 0> min0_type;
typedef boost::minimum_signed_integral<-15> min15n_type;
BOOST_CHECK( !print_out_template(min15_type(), min15_type::bound,
"a minimum_signed_integral<", ">") );
BOOST_CHECK( !print_out_template(min0_type(), min0_type::bound,
"a minimum_signed_integral<", ">") );
BOOST_CHECK( print_out_template(min15n_type(), min15n_type::bound,
"a minimum_signed_integral<", ">") );
typedef boost::maximum_unsigned_integral<15> umax15_type;
typedef boost::maximum_unsigned_integral< 0> umax0_type;
BOOST_CHECK( print_out_template(umax15_type(), umax15_type::bound,
"a maximum_unsigned_integral<", ">") );
BOOST_CHECK( print_out_template(umax0_type(), umax0_type::bound,
"a maximum_unsigned_integral<", ">") );
}
BOOST_AUTO_TEST_SUITE_END()
// Check if given constants can fit in given types
BOOST_AUTO_TEST_SUITE( fit_type_tests )
// Check if large value can fit its minimum required size, by size
BOOST_AUTO_TEST_CASE_TEMPLATE( fit_for_masked_values_test, T,
valid_to_decrease_bits_list )
{
// This test is supposed to replace the following checks given in
// puesdo-code by:
// Routine: Template, Type
// for ( N = 32, V = Template:Max ; N >= 0 ; --N, V >>= 1 )
// Confirm( static_cast<typename Template<N>::Type>(V) == V );
// end for
// end Routine
// with Template = {int_t, uint_t}; Type = {least, fast};
// Template:Max = { intmax_t.Max for int_t, uintmax_t.Max for uint_t }
// In other words, the selected type doesn't mask out any bits it's not
// supposed to. But now we'll use template meta-programming instead of
// macros. The limit of type-lists is usually less than 32 (not to mention
// 64) elements, so we have to take selected values.
static int const count = T::value;
int const shift = uintmax_bits - count;
boost::uintmax_t const value_u = uintmax_limits::max
BOOST_PREVENT_MACRO_SUBSTITUTION () >> shift;
boost::intmax_t const value_s = intmax_limits::max
BOOST_PREVENT_MACRO_SUBSTITUTION () >> shift;
BOOST_CHECK_EQUAL( static_cast<typename
unsigned_sized_integral<count>::type>(value_u), value_u );
BOOST_CHECK_EQUAL( static_cast<typename
boost::uint_t<count>::least>(value_u), value_u );
BOOST_CHECK_EQUAL( static_cast<typename
boost::uint_t<count>::fast>(value_u), value_u );
BOOST_CHECK_EQUAL( static_cast<typename
signed_sized_integral<count>::type>(value_s), value_s );
BOOST_CHECK_EQUAL( static_cast<typename
boost::int_t<count>::least>(value_s), value_s );
BOOST_CHECK_EQUAL( static_cast<typename
boost::int_t<count>::fast>(value_s), value_s );
}
// Check if a large value can only fit of its exact bit length
BOOST_AUTO_TEST_CASE_TEMPLATE( fit_for_exact_lengths_test, T,
distinct_integral_bit_counts )
{
typename boost::exact_integral<T::value, unsigned>::type const one_u( 1u ),
high_bit_u( one_u << (T::value - 1) ), repeated_bits_u( (high_bit_u << 1) |
high_bit_u );
BOOST_CHECK( high_bit_u );
BOOST_CHECK_EQUAL( repeated_bits_u, high_bit_u );
typename boost::exact_integral<T::value, signed>::type const one_s( 1 ),
high_bit_s( one_s << (T::value - 2) ), repeated_bits_s( (high_bit_s << 1) |
high_bit_s ), repeated_2bits_s( (repeated_bits_s << 1) | high_bit_s );
BOOST_CHECK( high_bit_s > 0 );
BOOST_CHECK( repeated_bits_s < 0 );
BOOST_CHECK_EQUAL( repeated_bits_s, repeated_2bits_s );
}
// Check if large value can fit its minimum required size, by value, unsigned
BOOST_AUTO_TEST_CASE_TEMPLATE( fit_for_shifted_unsigned_values_test, T,
valid_to_increase_ubits_list )
{
// This test is supposed to replace the following checks given in
// puesdo-code by:
// Routine: Template, Type
// for ( N = 0, V = Template:Extreme ; N < 32 ; ++N, V >>= 1 )
// Confirm( static_cast<typename Template<V>::Type>(V) == V );
// end for
// end Routine
// with Template = {uint_value_t}; Type = {least, fast}; Template:Extreme =
// {uintmax_t.Max for uint_value_t}
// In other words, the selected type doesn't mask out any bits it's not
// supposed to. But now we'll use template meta-programming instead of
// macros. The limit of type-lists is usually less than 32 (not to mention
// 64) elements, so we have to take selected values.
using boost::uintmax_t;
typedef boost::mpl::shift_right<maximum_of<uintmax_t>, T> maxi_type;
uintmax_t const maxi = maxi_type::value;
BOOST_CHECK_EQUAL( static_cast<typename
boost::uint_value_t<maxi_type::value>::least>(maxi), maxi );
BOOST_CHECK_EQUAL( static_cast<typename
boost::uint_value_t<maxi_type::value>::fast>(maxi), maxi );
}
// Check if large value can fit its minimum required size, by value, signed
BOOST_AUTO_TEST_CASE_TEMPLATE( fit_for_shifted_signed_values_test, T,
valid_to_increase_sbits_list )
{
// This test is supposed to replace the following checks given in
// puesdo-code by:
// Routine: Template, Type
// for ( N = 0, V = Template:Extreme ; N < 32 ; ++N, V >>= 1 )
// Confirm( static_cast<typename Template<V>::Type>(V) == V );
// end for
// end Routine
// with Template = {int_max_value_t, int_min_value_t}; Type = {least, fast};
// Template:Extreme = {intmax_t.Min for int_min_value_t, intmax_t.Max
// for int_max_value_t}
// In other words, the selected type doesn't mask out any bits it's not
// supposed to. But now we'll use template meta-programming instead of
// macros. The limit of type-lists is usually less than 32 (not to mention
// 64) elements, so we have to take selected values.
using boost::intmax_t;
typedef boost::mpl::shift_right<minimum_of<intmax_t>, T> mini_type;
typedef boost::mpl::shift_right<maximum_of<intmax_t>, T> maxi_type;
intmax_t const maxi = maxi_type::value, mini = mini_type::value;
BOOST_CHECK_EQUAL( static_cast<typename
boost::int_max_value_t<maxi_type::value>::least>(maxi), maxi );
BOOST_CHECK_EQUAL( static_cast<typename
boost::int_max_value_t<maxi_type::value>::fast>(maxi), maxi );
BOOST_CHECK_EQUAL( static_cast<typename
boost::int_min_value_t<mini_type::value>::least>(mini), mini );
BOOST_CHECK_EQUAL( static_cast<typename
boost::int_min_value_t<mini_type::value>::fast>(mini), mini );
}
BOOST_AUTO_TEST_SUITE_END()
// Verification of bugs and their fixes
BOOST_AUTO_TEST_SUITE( bug_fix_tests )
BOOST_AUTO_TEST_SUITE_END()