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integer/test/integer_test.cpp
jzmaddock 83feb20e51 Missing #include 
Test case uses mpl:: types without including the needed header - exposed by ongoing type traits rewrite.
2015-01-23 19:05:59 +00:00

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// boost integer.hpp test program ------------------------------------------//
// Copyright Beman Dawes 1999.
// Copyright Daryle Walker 2001.
// Copyright John Maddock 2009.
// Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/libs/integer for documentation.
// Revision History
// 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
#include <boost/detail/lightweight_test.hpp> // for main, BOOST_TEST
#include <boost/integer.hpp> // for boost::int_t, boost::uint_t
#include <boost/type_traits/is_same.hpp>
#include <boost/mpl/bool.hpp> // for mpl::true_ and false_
#include <climits> // for ULONG_MAX, LONG_MAX, LONG_MIN
#include <iostream> // for std::cout (std::endl indirectly)
#include <typeinfo> // for std::type_info
#ifdef BOOST_MSVC
#pragma warning(disable:4127) // conditional expression is constant
#endif
#if defined( __BORLANDC__ )
# pragma option -w-8008 -w-8066 // condition is always true
#endif
//
// Keep track of error count, so we can print out detailed
// info only if we need it:
//
int last_error_count = 0;
//
// Helpers to print out the name of a type,
// we use these as typeid(X).name() doesn't always
// return a human readable string:
//
template <class T> const char* get_name_of_type(T){ return typeid(T).name(); }
const char* get_name_of_type(signed char){ return "signed char"; }
const char* get_name_of_type(unsigned char){ return "unsigned char"; }
const char* get_name_of_type(short){ return "short"; }
const char* get_name_of_type(unsigned short){ return "unsigned short"; }
const char* get_name_of_type(int){ return "int"; }
const char* get_name_of_type(unsigned int){ return "unsigned int"; }
const char* get_name_of_type(long){ return "long"; }
const char* get_name_of_type(unsigned long){ return "unsigned long"; }
#ifdef BOOST_HAS_LONG_LONG
const char* get_name_of_type(boost::long_long_type){ return "boost::long_long_type"; }
const char* get_name_of_type(boost::ulong_long_type){ return "boost::ulong_long_type"; }
#endif
template <int Bits>
void do_test_exact(boost::mpl::true_ const&)
{
// Test the ::exact member:
typedef typename boost::int_t<Bits>::exact int_exact;
typedef typename boost::uint_t<Bits>::exact uint_exact;
typedef typename boost::int_t<Bits>::least least_int;
typedef typename boost::uint_t<Bits>::least least_uint;
BOOST_TEST((boost::is_same<int_exact, least_int>::value));
BOOST_TEST((boost::is_same<uint_exact, least_uint>::value));
}
template <int Bits>
void do_test_exact(boost::mpl::false_ const&)
{
// Nothing to do, type does not have an ::extact member.
}
template <int Bits>
void do_test_bits()
{
//
// Recurse to next smallest number of bits:
//
do_test_bits<Bits - 1>();
//
// Test exact types if we have them:
//
do_test_exact<Bits>(
boost::mpl::bool_<
(sizeof(unsigned char) * CHAR_BIT == Bits)
|| (sizeof(unsigned short) * CHAR_BIT == Bits)
|| (sizeof(unsigned int) * CHAR_BIT == Bits)
|| (sizeof(unsigned long) * CHAR_BIT == Bits)
#ifdef BOOST_HAS_LONG_LONG
|| (sizeof(boost::ulong_long_type) * CHAR_BIT == Bits)
#endif
>());
//
// We need to check all aspects of the members of int_t<Bits> and uint_t<Bits>:
//
typedef typename boost::int_t<Bits>::least least_int;
typedef typename boost::int_t<Bits>::least fast_int;
typedef typename boost::uint_t<Bits>::least least_uint;
typedef typename boost::uint_t<Bits>::fast fast_uint;
if(std::numeric_limits<least_int>::is_specialized)
{
BOOST_TEST(std::numeric_limits<least_int>::digits + 1 >= Bits);
}
if(std::numeric_limits<least_uint>::is_specialized)
{
BOOST_TEST(std::numeric_limits<least_uint>::digits >= Bits);
}
BOOST_TEST(sizeof(least_int) * CHAR_BIT >= Bits);
BOOST_TEST(sizeof(least_uint) * CHAR_BIT >= Bits);
BOOST_TEST(sizeof(fast_int) >= sizeof(least_int));
BOOST_TEST(sizeof(fast_uint) >= sizeof(least_uint));
//
// There should be no type smaller than least_* that also has enough bits:
//
if(!boost::is_same<signed char, least_int>::value)
{
BOOST_TEST(std::numeric_limits<signed char>::digits < Bits);
if(!boost::is_same<short, least_int>::value)
{
BOOST_TEST(std::numeric_limits<short>::digits < Bits);
if(!boost::is_same<int, least_int>::value)
{
BOOST_TEST(std::numeric_limits<int>::digits < Bits);
if(!boost::is_same<long, least_int>::value)
{
BOOST_TEST(std::numeric_limits<long>::digits < Bits);
}
}
}
}
// And again, but unsigned:
if(!boost::is_same<unsigned char, least_uint>::value)
{
BOOST_TEST(std::numeric_limits<unsigned char>::digits < Bits);
if(!boost::is_same<unsigned short, least_uint>::value)
{
BOOST_TEST(std::numeric_limits<unsigned short>::digits < Bits);
if(!boost::is_same<unsigned int, least_uint>::value)
{
BOOST_TEST(std::numeric_limits<unsigned int>::digits < Bits);
if(!boost::is_same<unsigned long, least_uint>::value)
{
BOOST_TEST(std::numeric_limits<unsigned long>::digits < Bits);
}
}
}
}
if(boost::detail::test_errors() != last_error_count)
{
last_error_count = boost::detail::test_errors();
std::cout << "Errors occurred while testing with bit count = " << Bits << std::endl;
std::cout << "Type int_t<" << Bits << ">::least was " << get_name_of_type(least_int(0)) << std::endl;
std::cout << "Type int_t<" << Bits << ">::fast was " << get_name_of_type(fast_int(0)) << std::endl;
std::cout << "Type uint_t<" << Bits << ">::least was " << get_name_of_type(least_uint(0)) << std::endl;
std::cout << "Type uint_t<" << Bits << ">::fast was " << get_name_of_type(fast_uint(0)) << std::endl;
}
}
template <>
void do_test_bits<-1>()
{
// Nothing to do here!!
}
template <class Traits, class Expected>
void test_min_max_type(Expected val)
{
typedef typename Traits::least least_type;
typedef typename Traits::fast fast_type;
BOOST_TEST((boost::is_same<least_type, Expected>::value));
BOOST_TEST(sizeof(fast_type) >= sizeof(least_type));
BOOST_TEST((std::numeric_limits<least_type>::min)() <= val);
BOOST_TEST((std::numeric_limits<least_type>::max)() >= val);
if(boost::detail::test_errors() != last_error_count)
{
last_error_count = boost::detail::test_errors();
std::cout << "Traits type is: " << typeid(Traits).name() << std::endl;
std::cout << "Least type is: " << get_name_of_type(least_type(0)) << std::endl;
std::cout << "Fast type is: " << get_name_of_type(fast_type(0)) << std::endl;
std::cout << "Expected type is: " << get_name_of_type(Expected(0)) << std::endl;
std::cout << "Required value is: " << val << std::endl;
}
}
// Test program
int main(int, char*[])
{
// Test int_t and unint_t first:
if(std::numeric_limits<boost::intmax_t>::is_specialized)
do_test_bits<std::numeric_limits<boost::uintmax_t>::digits>();
else
do_test_bits<std::numeric_limits<long>::digits>();
//
// Test min and max value types:
//
test_min_max_type<boost::int_max_value_t<SCHAR_MAX>, signed char>(SCHAR_MAX);
test_min_max_type<boost::int_min_value_t<SCHAR_MIN>, signed char>(SCHAR_MIN);
test_min_max_type<boost::uint_value_t<UCHAR_MAX>, unsigned char>(UCHAR_MAX);
#if(USHRT_MAX != UCHAR_MAX)
test_min_max_type<boost::int_max_value_t<SCHAR_MAX+1>, short>(SCHAR_MAX+1);
test_min_max_type<boost::int_min_value_t<SCHAR_MIN-1>, short>(SCHAR_MIN-1);
test_min_max_type<boost::uint_value_t<UCHAR_MAX+1>, unsigned short>(UCHAR_MAX+1);
test_min_max_type<boost::int_max_value_t<SHRT_MAX>, short>(SHRT_MAX);
test_min_max_type<boost::int_min_value_t<SHRT_MIN>, short>(SHRT_MIN);
test_min_max_type<boost::uint_value_t<USHRT_MAX>, unsigned short>(USHRT_MAX);
#endif
#if(UINT_MAX != USHRT_MAX)
test_min_max_type<boost::int_max_value_t<SHRT_MAX+1>, int>(SHRT_MAX+1);
test_min_max_type<boost::int_min_value_t<SHRT_MIN-1>, int>(SHRT_MIN-1);
test_min_max_type<boost::uint_value_t<USHRT_MAX+1>, unsigned int>(USHRT_MAX+1);
test_min_max_type<boost::int_max_value_t<INT_MAX>, int>(INT_MAX);
test_min_max_type<boost::int_min_value_t<INT_MIN>, int>(INT_MIN);
test_min_max_type<boost::uint_value_t<UINT_MAX>, unsigned int>(UINT_MAX);
#endif
#if(ULONG_MAX != UINT_MAX)
test_min_max_type<boost::int_max_value_t<INT_MAX+1L>, long>(INT_MAX+1L);
test_min_max_type<boost::int_min_value_t<INT_MIN-1L>, long>(INT_MIN-1L);
test_min_max_type<boost::uint_value_t<UINT_MAX+1uL>, unsigned long>(UINT_MAX+1uL);
test_min_max_type<boost::int_max_value_t<LONG_MAX>, long>(LONG_MAX);
test_min_max_type<boost::int_min_value_t<LONG_MIN>, long>(LONG_MIN);
test_min_max_type<boost::uint_value_t<ULONG_MAX>, unsigned long>(ULONG_MAX);
#endif
#ifndef BOOST_NO_INTEGRAL_INT64_T
#if defined(BOOST_HAS_LONG_LONG) && (defined(ULLONG_MAX) && (ULLONG_MAX != ULONG_MAX))
test_min_max_type<boost::int_max_value_t<LONG_MAX+1LL>, boost::long_long_type>(LONG_MAX+1LL);
test_min_max_type<boost::int_min_value_t<LONG_MIN-1LL>, boost::long_long_type>(LONG_MIN-1LL);
test_min_max_type<boost::uint_value_t<ULONG_MAX+1uLL>, boost::ulong_long_type>(ULONG_MAX+1uLL);
test_min_max_type<boost::int_max_value_t<LLONG_MAX>, boost::long_long_type>(LLONG_MAX);
test_min_max_type<boost::int_min_value_t<LLONG_MIN>, boost::long_long_type>(LLONG_MIN);
test_min_max_type<boost::uint_value_t<ULLONG_MAX>, boost::ulong_long_type>(ULLONG_MAX);
#endif
#if defined(BOOST_HAS_LONG_LONG) && (defined(ULONG_LONG_MAX) && (ULONG_LONG_MAX != ULONG_MAX))
test_min_max_type<boost::int_max_value_t<LONG_MAX+1LL>, boost::long_long_type>(LONG_MAX+1LL);
test_min_max_type<boost::int_min_value_t<LONG_MIN-1LL>, boost::long_long_type>(LONG_MIN-1LL);
test_min_max_type<boost::uint_value_t<ULONG_MAX+1uLL>, boost::ulong_long_type>(ULONG_MAX+1uLL);
test_min_max_type<boost::int_max_value_t<LONG_LONG_MAX>, boost::long_long_type>(LONG_LONG_MAX);
test_min_max_type<boost::int_min_value_t<LONG_LONG_MIN>, boost::long_long_type>(LONG_LONG_MIN);
test_min_max_type<boost::uint_value_t<ULONG_LONG_MAX>, boost::ulong_long_type>(ULONG_LONG_MAX);
#endif
#if defined(BOOST_HAS_LONG_LONG) && (defined(ULONGLONG_MAX) && (ULONGLONG_MAX != ULONG_MAX))
test_min_max_type<boost::int_max_value_t<LONG_MAX+1LL>, boost::long_long_type>(LONG_MAX+1LL);
test_min_max_type<boost::int_min_value_t<LONG_MIN-1LL>, boost::long_long_type>(LONG_MIN-1LL);
test_min_max_type<boost::uint_value_t<ULONG_MAX+1uLL>, boost::ulong_long_type>(ULONG_MAX+1uLL);
test_min_max_type<boost::int_max_value_t<LONGLONG_MAX>, boost::long_long_type>(LONGLONG_MAX);
test_min_max_type<boost::int_min_value_t<LONGLONG_MIN>, boost::long_long_type>(LONGLONG_MAX);
test_min_max_type<boost::uint_value_t<ULONGLONG_MAX>, boost::ulong_long_type>(ULONGLONG_MAX);
#endif
#if defined(BOOST_HAS_LONG_LONG) && (defined(_ULLONG_MAX) && defined(_LLONG_MIN) && (_ULLONG_MAX != ULONG_MAX))
test_min_max_type<boost::int_max_value_t<LONG_MAX+1LL>, boost::long_long_type>(LONG_MAX+1LL);
test_min_max_type<boost::int_min_value_t<LONG_MIN-1LL>, boost::long_long_type>(LONG_MIN-1LL);
test_min_max_type<boost::uint_value_t<ULONG_MAX+1uLL>, boost::ulong_long_type>(ULONG_MAX+1uLL);
test_min_max_type<boost::int_max_value_t<_LLONG_MAX>, boost::long_long_type>(_LLONG_MAX);
test_min_max_type<boost::int_min_value_t<_LLONG_MIN>, boost::long_long_type>(_LLONG_MIN);
test_min_max_type<boost::uint_value_t<_ULLONG_MAX>, boost::ulong_long_type>(_ULLONG_MAX);
#endif // BOOST_HAS_LONG_LONG
#endif // BOOST_NO_INTEGRAL_INT64_T
return boost::report_errors();
}
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