libs/utility/call_traits_test.cpp
// boost::compressed_pair test program
// (C) Copyright John Maddock 2000.
// Use, modification and distribution are subject to the Boost Software License,
// Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt).
// standalone test program for <boost/call_traits.hpp>
// 18 Mar 2002:
// Changed some names to prevent conflicts with some new type_traits additions.
// 03 Oct 2000:
// Enabled extra tests for VC6.
#include <iostream>
#include <iomanip>
#include <algorithm>
#include <typeinfo>
#include <boost/call_traits.hpp>
#include <libs/type_traits/test/test.hpp>
#include <libs/type_traits/test/check_type.hpp>
#ifdef BOOST_MSVC
#pragma warning(disable:4181) // : warning C4181: qualifier applied to reference type; ignored
#endif
// a way prevent warnings for unused variables
template<class T> inline void unused_variable(const T&) {}
//
// struct contained models a type that contains a type (for example std::pair)
// arrays are contained by value, and have to be treated as a special case:
//
template <class T>
struct contained
{
// define our typedefs first, arrays are stored by value
// so value_type is not the same as result_type:
typedef typename boost::call_traits<T>::param_type param_type;
typedef typename boost::call_traits<T>::reference reference;
typedef typename boost::call_traits<T>::const_reference const_reference;
typedef T value_type;
typedef typename boost::call_traits<T>::value_type result_type;
// stored value:
value_type v_;
// constructors:
contained() {}
contained(param_type p) : v_(p){}
// return byval:
result_type value()const { return v_; }
// return by_ref:
reference get() { return v_; }
const_reference const_get()const { return v_; }
// pass value:
void call(param_type){}
private:
contained& operator=(const contained&);
};
#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
template <class T, std::size_t N>
struct contained<T[N]>
{
typedef typename boost::call_traits<T[N]>::param_type param_type;
typedef typename boost::call_traits<T[N]>::reference reference;
typedef typename boost::call_traits<T[N]>::const_reference const_reference;
typedef T value_type[N];
typedef typename boost::call_traits<T[N]>::value_type result_type;
value_type v_;
contained(param_type p)
{
std::copy(p, p+N, v_);
}
// return byval:
result_type value()const { return v_; }
// return by_ref:
reference get() { return v_; }
const_reference const_get()const { return v_; }
void call(param_type){}
private:
contained& operator=(const contained&);
};
#endif
template <class T>
contained<typename boost::call_traits<T>::value_type> test_wrap_type(const T& t)
{
typedef typename boost::call_traits<T>::value_type ct;
return contained<ct>(t);
}
namespace test{
template <class T1, class T2>
std::pair<
typename boost::call_traits<T1>::value_type,
typename boost::call_traits<T2>::value_type>
make_pair(const T1& t1, const T2& t2)
{
return std::pair<
typename boost::call_traits<T1>::value_type,
typename boost::call_traits<T2>::value_type>(t1, t2);
}
} // namespace test
using namespace std;
//
// struct call_traits_checker:
// verifies behaviour of contained example:
//
template <class T>
struct call_traits_checker
{
typedef typename boost::call_traits<T>::param_type param_type;
void operator()(param_type);
};
template <class T>
void call_traits_checker<T>::operator()(param_type p)
{
T t(p);
contained<T> c(t);
cout << "checking contained<" << typeid(T).name() << ">..." << endl;
BOOST_CHECK(t == c.value());
BOOST_CHECK(t == c.get());
BOOST_CHECK(t == c.const_get());
#ifndef __ICL
//cout << "typeof contained<" << typeid(T).name() << ">::v_ is: " << typeid(&contained<T>::v_).name() << endl;
cout << "typeof contained<" << typeid(T).name() << ">::value() is: " << typeid(&contained<T>::value).name() << endl;
cout << "typeof contained<" << typeid(T).name() << ">::get() is: " << typeid(&contained<T>::get).name() << endl;
cout << "typeof contained<" << typeid(T).name() << ">::const_get() is: " << typeid(&contained<T>::const_get).name() << endl;
cout << "typeof contained<" << typeid(T).name() << ">::call() is: " << typeid(&contained<T>::call).name() << endl;
cout << endl;
#endif
}
#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
template <class T, std::size_t N>
struct call_traits_checker<T[N]>
{
typedef typename boost::call_traits<T[N]>::param_type param_type;
void operator()(param_type t)
{
contained<T[N]> c(t);
cout << "checking contained<" << typeid(T[N]).name() << ">..." << endl;
unsigned int i = 0;
for(i = 0; i < N; ++i)
BOOST_CHECK(t[i] == c.value()[i]);
for(i = 0; i < N; ++i)
BOOST_CHECK(t[i] == c.get()[i]);
for(i = 0; i < N; ++i)
BOOST_CHECK(t[i] == c.const_get()[i]);
cout << "typeof contained<" << typeid(T[N]).name() << ">::v_ is: " << typeid(&contained<T[N]>::v_).name() << endl;
cout << "typeof contained<" << typeid(T[N]).name() << ">::value is: " << typeid(&contained<T[N]>::value).name() << endl;
cout << "typeof contained<" << typeid(T[N]).name() << ">::get is: " << typeid(&contained<T[N]>::get).name() << endl;
cout << "typeof contained<" << typeid(T[N]).name() << ">::const_get is: " << typeid(&contained<T[N]>::const_get).name() << endl;
cout << "typeof contained<" << typeid(T[N]).name() << ">::call is: " << typeid(&contained<T[N]>::call).name() << endl;
cout << endl;
}
};
#endif
//
// check_wrap:
template <class W, class U>
void check_wrap(const W& w, const U& u)
{
cout << "checking " << typeid(W).name() << "..." << endl;
BOOST_CHECK(w.value() == u);
}
//
// check_make_pair:
// verifies behaviour of "make_pair":
//
template <class T, class U, class V>
void check_make_pair(T c, U u, V v)
{
cout << "checking std::pair<" << typeid(c.first).name() << ", " << typeid(c.second).name() << ">..." << endl;
BOOST_CHECK(c.first == u);
BOOST_CHECK(c.second == v);
cout << endl;
}
struct comparible_UDT
{
int i_;
comparible_UDT() : i_(2){}
comparible_UDT(const comparible_UDT& other) : i_(other.i_){}
comparible_UDT& operator=(const comparible_UDT& other)
{
i_ = other.i_;
return *this;
}
bool operator == (const comparible_UDT& v){ return v.i_ == i_; }
};
int main()
{
call_traits_checker<comparible_UDT> c1;
comparible_UDT u;
c1(u);
call_traits_checker<int> c2;
int i = 2;
c2(i);
int* pi = &i;
int a[2] = {1,2};
#if defined(BOOST_MSVC6_MEMBER_TEMPLATES) && !defined(__ICL)
call_traits_checker<int*> c3;
c3(pi);
call_traits_checker<int&> c4;
c4(i);
call_traits_checker<const int&> c5;
c5(i);
#if !defined (BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION) && !defined(__MWERKS__) && !defined(__SUNPRO_CC)
call_traits_checker<int[2]> c6;
c6(a);
#endif
#endif
check_wrap(test_wrap_type(2), 2);
#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION) && !defined(__SUNPRO_CC)
check_wrap(test_wrap_type(a), a);
check_make_pair(test::make_pair(a, a), a, a);
#endif
// cv-qualifiers applied to reference types should have no effect
// declare these here for later use with is_reference and remove_reference:
typedef int& r_type;
typedef const r_type cr_type;
BOOST_CHECK_TYPE(comparible_UDT, boost::call_traits<comparible_UDT>::value_type);
BOOST_CHECK_TYPE(comparible_UDT&, boost::call_traits<comparible_UDT>::reference);
BOOST_CHECK_TYPE(const comparible_UDT&, boost::call_traits<comparible_UDT>::const_reference);
BOOST_CHECK_TYPE(const comparible_UDT&, boost::call_traits<comparible_UDT>::param_type);
BOOST_CHECK_TYPE(int, boost::call_traits<int>::value_type);
BOOST_CHECK_TYPE(int&, boost::call_traits<int>::reference);
BOOST_CHECK_TYPE(const int&, boost::call_traits<int>::const_reference);
BOOST_CHECK_TYPE(const int, boost::call_traits<int>::param_type);
BOOST_CHECK_TYPE(int*, boost::call_traits<int*>::value_type);
BOOST_CHECK_TYPE(int*&, boost::call_traits<int*>::reference);
BOOST_CHECK_TYPE(int*const&, boost::call_traits<int*>::const_reference);
BOOST_CHECK_TYPE(int*const, boost::call_traits<int*>::param_type);
#if defined(BOOST_MSVC6_MEMBER_TEMPLATES)
BOOST_CHECK_TYPE(int&, boost::call_traits<int&>::value_type);
BOOST_CHECK_TYPE(int&, boost::call_traits<int&>::reference);
BOOST_CHECK_TYPE(const int&, boost::call_traits<int&>::const_reference);
BOOST_CHECK_TYPE(int&, boost::call_traits<int&>::param_type);
#if !(defined(__GNUC__) && ((__GNUC__ < 3) || (__GNUC__ == 3) && (__GNUC_MINOR__ < 1)))
BOOST_CHECK_TYPE(int&, boost::call_traits<cr_type>::value_type);
BOOST_CHECK_TYPE(int&, boost::call_traits<cr_type>::reference);
BOOST_CHECK_TYPE(const int&, boost::call_traits<cr_type>::const_reference);
BOOST_CHECK_TYPE(int&, boost::call_traits<cr_type>::param_type);
#else
std::cout << "Your compiler cannot instantiate call_traits<int&const>, skipping four tests (4 errors)" << std::endl;
#endif
BOOST_CHECK_TYPE(const int&, boost::call_traits<const int&>::value_type);
BOOST_CHECK_TYPE(const int&, boost::call_traits<const int&>::reference);
BOOST_CHECK_TYPE(const int&, boost::call_traits<const int&>::const_reference);
BOOST_CHECK_TYPE(const int&, boost::call_traits<const int&>::param_type);
#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
BOOST_CHECK_TYPE(const int*, boost::call_traits<int[3]>::value_type);
BOOST_CHECK_TYPE(int(&)[3], boost::call_traits<int[3]>::reference);
BOOST_CHECK_TYPE(const int(&)[3], boost::call_traits<int[3]>::const_reference);
BOOST_CHECK_TYPE(const int*const, boost::call_traits<int[3]>::param_type);
BOOST_CHECK_TYPE(const int*, boost::call_traits<const int[3]>::value_type);
BOOST_CHECK_TYPE(const int(&)[3], boost::call_traits<const int[3]>::reference);
BOOST_CHECK_TYPE(const int(&)[3], boost::call_traits<const int[3]>::const_reference);
BOOST_CHECK_TYPE(const int*const, boost::call_traits<const int[3]>::param_type);
// test with abstract base class:
BOOST_CHECK_TYPE(test_abc1, boost::call_traits<test_abc1>::value_type);
BOOST_CHECK_TYPE(test_abc1&, boost::call_traits<test_abc1>::reference);
BOOST_CHECK_TYPE(const test_abc1&, boost::call_traits<test_abc1>::const_reference);
BOOST_CHECK_TYPE(const test_abc1&, boost::call_traits<test_abc1>::param_type);
#else
std::cout << "You're compiler does not support partial template specialiation, skipping 8 tests (8 errors)" << std::endl;
#endif
#else
std::cout << "You're compiler does not support partial template specialiation, skipping 20 tests (20 errors)" << std::endl;
#endif
// test with an incomplete type:
BOOST_CHECK_TYPE(incomplete_type, boost::call_traits<incomplete_type>::value_type);
BOOST_CHECK_TYPE(incomplete_type&, boost::call_traits<incomplete_type>::reference);
BOOST_CHECK_TYPE(const incomplete_type&, boost::call_traits<incomplete_type>::const_reference);
BOOST_CHECK_TYPE(const incomplete_type&, boost::call_traits<incomplete_type>::param_type);
return 0;
}
//
// define call_traits tests to check that the assertions in the docs do actually work
// this is an compile-time only set of tests:
//
template <typename T, bool isarray = false>
struct call_traits_test
{
typedef ::boost::call_traits<T> ct;
typedef typename ct::param_type param_type;
typedef typename ct::reference reference;
typedef typename ct::const_reference const_reference;
typedef typename ct::value_type value_type;
static void assert_construct(param_type val);
};
template <typename T, bool isarray>
void call_traits_test<T, isarray>::assert_construct(typename call_traits_test<T, isarray>::param_type val)
{
//
// this is to check that the call_traits assertions are valid:
T t(val);
value_type v(t);
reference r(t);
const_reference cr(t);
param_type p(t);
value_type v2(v);
value_type v3(r);
value_type v4(p);
reference r2(v);
reference r3(r);
const_reference cr2(v);
const_reference cr3(r);
const_reference cr4(cr);
const_reference cr5(p);
param_type p2(v);
param_type p3(r);
param_type p4(p);
unused_variable(v2);
unused_variable(v3);
unused_variable(v4);
unused_variable(r2);
unused_variable(r3);
unused_variable(cr2);
unused_variable(cr3);
unused_variable(cr4);
unused_variable(cr5);
unused_variable(p2);
unused_variable(p3);
unused_variable(p4);
}
#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
template <typename T>
struct call_traits_test<T, true>
{
typedef ::boost::call_traits<T> ct;
typedef typename ct::param_type param_type;
typedef typename ct::reference reference;
typedef typename ct::const_reference const_reference;
typedef typename ct::value_type value_type;
static void assert_construct(param_type val);
};
template <typename T>
void call_traits_test<T, true>::assert_construct(typename boost::call_traits<T>::param_type val)
{
//
// this is to check that the call_traits assertions are valid:
T t;
value_type v(t);
value_type v5(val);
reference r = t;
const_reference cr = t;
reference r2 = r;
#ifndef __BORLANDC__
// C++ Builder buglet:
const_reference cr2 = r;
#endif
param_type p(t);
value_type v2(v);
const_reference cr3 = cr;
value_type v3(r);
value_type v4(p);
param_type p2(v);
param_type p3(r);
param_type p4(p);
unused_variable(v2);
unused_variable(v3);
unused_variable(v4);
unused_variable(v5);
#ifndef __BORLANDC__
unused_variable(r2);
unused_variable(cr2);
#endif
unused_variable(cr3);
unused_variable(p2);
unused_variable(p3);
unused_variable(p4);
}
#endif //BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
//
// now check call_traits assertions by instantiating call_traits_test:
template struct call_traits_test<int>;
template struct call_traits_test<const int>;
template struct call_traits_test<int*>;
#if defined(BOOST_MSVC6_MEMBER_TEMPLATES)
template struct call_traits_test<int&>;
template struct call_traits_test<const int&>;
#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION) && !defined(__SUNPRO_CC)
template struct call_traits_test<int[2], true>;
#endif
#endif