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Better testing, more clarification

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[SVN r1702]
This commit is contained in:
Dave Abrahams
2003-10-23 23:13:00 +00:00
parent a99e88d6d5
commit b1b6182a4d
1 changed files with 113 additions and 57 deletions
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150
test/named_params_test.cpp
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@@ -2,73 +2,120 @@
// subject to the Boost Software License, Version 1.0. (See accompanying // subject to the Boost Software License, Version 1.0. (See accompanying
// file LICENSE-1.0 or http://www.boost.org/LICENSE-1.0) // file LICENSE-1.0 or http://www.boost.org/LICENSE-1.0)
#include <iostream>
#include <boost/named_params.hpp> #include <boost/named_params.hpp>
#include <boost/type_traits/is_convertible.hpp> #include <boost/type_traits/is_convertible.hpp>
#include <cassert> #include <cassert>
#include <cstring>
namespace test { namespace test
using boost::keyword;
using boost::keywords;
struct name_t : keyword<name_t>
{ {
using boost::keyword;
using boost::keywords;
struct name_t : keyword<name_t>
{
// this should go in a wrapper type, like arg<keyword, predicate> // this should go in a wrapper type, like arg<keyword, predicate>
typedef boost::is_convertible<boost::mpl::_1, const char*> predicate; typedef boost::is_convertible<boost::mpl::_1, const char*> predicate;
using keyword<name_t>::operator=; using keyword<name_t>::operator=;
} name; } name;
struct value_t : keyword<value_t> struct value_t : keyword<value_t>
{ {
using keyword<value_t>::operator=; using keyword<value_t>::operator=;
} value; } value;
struct index_t : keyword<index_t> struct index_t : keyword<index_t>
{ {
using keyword<index_t>::operator=; using keyword<index_t>::operator=;
} index; } index;
struct f_keywords // vc6 is happier with inheritance than with a typedef struct tester_t : keyword<tester_t>
{
using keyword<tester_t>::operator=;
} tester;
struct f_keywords // vc6 is happier with inheritance than with a typedef
: keywords< : keywords<
name_t tester_t
, name_t
, value_t , value_t
, index_t , index_t
> >
{}; {};
template<class Params> template<class Params>
int f_impl(const Params& p) int f_impl(const Params& p)
{ {
std::cout << "-------- f --------" << std::endl; p[tester](
// name has no default p[name]
std::cout << "name = " << p[name] << std::endl; , p[value | 666.222]
std::cout << "value = " << p[value | 666.222] << std::endl; , p[index | 999]
std::cout << "index = " << p[index | 999] << std::endl; );
return 1; return 1;
} }
template<class Name, class Value, class Index> template<class Tester, class Name, class Value, class Index>
int f(const Name& name_, const Value& value_, const Index& index_, int f(Tester const& t, const Name& name_, const Value& value_, const Index& index_,
typename f_keywords::restrict<Name, Value, Index>::type x = f_keywords()) typename f_keywords::restrict<Tester, Name, Value, Index>::type x = f_keywords())
{ {
return f_impl(x(name_, value_, index_)); return f_impl(x(t, name_, value_, index_));
} }
template<class Name, class Value> template<class Tester, class Name, class Value>
int f(const Name& name_, const Value& value_, int f(Tester const& t, const Name& name_, const Value& value_,
typename f_keywords::restrict<Name, Value>::type x = f_keywords()) typename f_keywords::restrict<Tester, Name, Value>::type x = f_keywords())
{ {
return f_impl(x(name_, value_)); return f_impl(x(t, name_, value_));
} }
template<class Name> template<class Tester, class Name>
int f(const Name& name_, int f(Tester const& t, const Name& name_,
typename f_keywords::restrict<Name>::type x = f_keywords()) typename f_keywords::restrict<Tester, Name>::type x = f_keywords())
{ {
return f_impl(x(name_)); return f_impl(x(t, name_));
} }
template <class T>
bool equal(T const& x, T const& y)
{
return x == y;
}
bool equal(char const* s1, char const* s2)
{
return !std::strcmp(s1,s2);
}
template <class Name, class Value, class Index>
struct values_t
{
values_t(Name const& n, Value const& v, Index const& i)
: n(n), v(v), i(i)
{}
template <class Name_, class Value_, class Index_>
void operator()(Name_ const& n_, Value_ const& v_, Index_ const& i_) const
{
BOOST_STATIC_ASSERT((boost::is_same<Name,Name_>::value));
assert(equal(n, n_));
BOOST_STATIC_ASSERT((boost::is_same<Value,Value_>::value));
assert(equal(v, v_));
BOOST_STATIC_ASSERT((boost::is_same<Index,Index_>::value));
assert(equal(i, i_));
}
Name const& n;
Value const& v;
Index const& i;
};
template <class Name, class Value, class Index>
values_t<Name,Value,Index>
values(Name const& n, Value const& v, Index const& i)
{
return values_t<Name,Value,Index>(n,v,i);
}
} }
struct Foo { operator const char*() const { return "foo"; } }; struct Foo { operator const char*() const { return "foo"; } };
@@ -78,13 +125,22 @@ int main()
using test::name; using test::name;
using test::value; using test::value;
using test::index; using test::index;
using test::tester;
f("foo", "bar", "baz"); f(
test::values("foo", "bar", "baz")
, "foo", "bar", "baz"
);
f(
test::values("foo", 666.222, 56)
#if BOOST_MSVC == 1200 // sadly templated operator= just doesn't work. #if BOOST_MSVC == 1200 // sadly templated operator= just doesn't work.
f(index(56), name("foo")); , index(56), name("foo")
#else #else
f(index = 56, name = Foo()); , index = 56, name = "foo"
#endif #endif
);
//f(index = 56, name = 55); // won't compile //f(index = 56, name = 55); // won't compile
return 0; return 0;
} }