diff options
Diffstat (limited to 'gcc/testsuite/g++.dg/cpp0x/variadic-tuple.C')
| -rw-r--r-- | gcc/testsuite/g++.dg/cpp0x/variadic-tuple.C | 294 |
1 files changed, 294 insertions, 0 deletions
diff --git a/gcc/testsuite/g++.dg/cpp0x/variadic-tuple.C b/gcc/testsuite/g++.dg/cpp0x/variadic-tuple.C new file mode 100644 index 000000000..11ce14af2 --- /dev/null +++ b/gcc/testsuite/g++.dg/cpp0x/variadic-tuple.C @@ -0,0 +1,294 @@ +// { dg-do run } +// { dg-options "-std=gnu++0x" } +// An implementation of TR1's <tuple> using variadic teplates +// Contributed by Douglas Gregor <doug.gregor@gmail.com> + +#include <string> +#include <cassert> +#include <cstring> + +// Trivial reference_wrapper +template<typename T> +struct reference_wrapper +{ + reference_wrapper(T& x) : ptr(&x) { } + + operator T&() const { return *ptr; } + + T* ptr; +}; + +template<typename T> reference_wrapper<T> ref(T& x) { return x; } +template<typename T> reference_wrapper<const T> cref(const T& x) { return x; } + +// Simple type-traits we'll need +template<typename T> +struct add_reference +{ + typedef T& type; +}; + +template<typename T> +struct add_reference<T&> +{ + typedef T& type; +}; + +template<typename T, typename U> +struct is_same +{ + static const bool value = false; +}; + +template<typename T> +struct is_same<T, T> +{ + static const bool value = true; +}; + +// For creating the constructor parameters of tuple<> +template<typename T> +struct add_const_reference +{ + typedef const T& type; +}; + +template<typename T> +struct add_const_reference<T&> +{ + typedef T& type; +}; + +// 6.1.3 Class template tuple +template<typename... Values> +class tuple; + +template<> class tuple<> { }; + +template<typename Head, typename... Tail> +class tuple<Head, Tail...> + : private tuple<Tail...> +{ + typedef tuple<Tail...> inherited; + + public: + tuple() { } + + // implicit copy-constructor is okay + + tuple(typename add_const_reference<Head>::type v, + typename add_const_reference<Tail>::type... vtail) + : m_head(v), inherited(vtail...) { } + + template<typename... VValues> + tuple(const tuple<VValues...>& other) + : m_head(other.head()), inherited(other.tail()) { } + + template<typename... VValues> + tuple& operator=(const tuple<VValues...>& other) + { + m_head = other.head(); + tail() = other.tail(); + return *this; + } + + typename add_reference<Head>::type head() { return m_head; } + typename add_reference<const Head>::type head() const { return m_head; } + inherited& tail() { return *this; } + const inherited& tail() const { return *this; } + + protected: + Head m_head; +}; + +template<typename T> +struct make_tuple_result +{ + typedef T type; +}; + +template<typename T> +struct make_tuple_result<reference_wrapper<T> > +{ + typedef T& type; +}; + +// 6.1.3.2 Tuple creation functions +struct ignore_t { + template<typename T> ignore_t& operator=(const T&) { return *this; } +} ignore; + +template<typename... Values> +tuple<typename make_tuple_result<Values>::type...> +make_tuple(const Values&... values) +{ + return tuple<typename make_tuple_result<Values>::type...>(values...); +} + +template<typename... Values> +tuple<Values&...> tie(Values&... values) +{ + return tuple<Values&...>(values...); +} + +// 6.1.3.3 Tuple helper classes +template<typename Tuple> +struct tuple_size; + +template<> +struct tuple_size<tuple<> > +{ + static const std::size_t value = 0; +}; + +template<typename Head, typename... Tail> +struct tuple_size<tuple<Head, Tail...> > +{ + static const std::size_t value = 1 + tuple_size<tuple<Tail...> >::value; +}; + +template<int I, typename Tuple> +struct tuple_element; + +template<int I, typename Head, typename... Tail> +struct tuple_element<I, tuple<Head, Tail...> > +{ + typedef typename tuple_element<I-1, tuple<Tail...> >::type type; +}; + +template<typename Head, typename... Tail> +struct tuple_element<0, tuple<Head, Tail...> > +{ + typedef Head type; +}; + +// 6.1.3.4 Element access +template<int I, typename Tuple> +class get_impl; + +template<int I, typename Head, typename... Values> +class get_impl<I, tuple<Head, Values...> > +{ + typedef typename tuple_element<I-1, tuple<Values...> >::type Element; + typedef typename add_reference<Element>::type RJ; + typedef typename add_const_reference<Element>::type PJ; + typedef get_impl<I-1, tuple<Values...> > Next; + + public: + static RJ get(tuple<Head, Values...>& t) + { return Next::get(t.tail()); } + + static PJ get(const tuple<Head, Values...>& t) + { return Next::get(t.tail()); } +}; + +template<typename Head, typename... Values> +class get_impl<0, tuple<Head, Values...> > +{ + typedef typename add_reference<Head>::type RJ; + typedef typename add_const_reference<Head>::type PJ; + + public: + static RJ get(tuple<Head, Values...>& t) { return t.head(); } + static PJ get(const tuple<Head, Values...>& t) { return t.head(); } +}; + +template<int I, typename... Values> +typename add_reference< + typename tuple_element<I, tuple<Values...> >::type + >::type +get(tuple<Values...>& t) +{ + return get_impl<I, tuple<Values...> >::get(t); +} + +template<int I, typename... Values> +typename add_const_reference< + typename tuple_element<I, tuple<Values...> >::type + >::type +get(const tuple<Values...>& t) +{ + return get_impl<I, tuple<Values...> >::get(t); +} + +// 6.1.3.5 Relational operators +inline bool operator==(const tuple<>&, const tuple<>&) { return true; } + +template<typename T, typename... TTail, typename U, typename... UTail> +bool operator==(const tuple<T, TTail...>& t, const tuple<U, UTail...>& u) +{ + return t.head() == u.head() && t.tail() == u.tail(); +} + +template<typename... TValues, typename... UValues> +bool operator!=(const tuple<TValues...>& t, const tuple<UValues...>& u) +{ + return !(t == u); +} + +inline bool operator<(const tuple<>&, const tuple<>&) { return false; } + +template<typename T, typename... TTail, typename U, typename... UTail> +bool operator<(const tuple<T, TTail...>& t, const tuple<U, UTail...>& u) +{ + return (t.head() < u.head() || + (!(t.head() < u.head()) && t.tail() < u.tail())); +} + +template<typename... TValues, typename... UValues> +bool operator>(const tuple<TValues...>& t, const tuple<UValues...>& u) +{ + return u < t; +} + +template<typename... TValues, typename... UValues> +bool operator<=(const tuple<TValues...>& t, const tuple<UValues...>& u) +{ + return !(u < t); +} + +template<typename... TValues, typename... UValues> +bool operator>=(const tuple<TValues...>& t, const tuple<UValues...>& u) +{ + return !(t < u); +} + +int a0[tuple_size<tuple<> >::value == 0? 1 : -1]; +int a1[tuple_size<tuple<int, float, double> >::value == 3? 1 : -1]; +int a2a[is_same<tuple_element<0, tuple<int, float, double> >::type, int> + ::value? 1 : -1]; +int a2b[is_same<tuple_element<1, tuple<int, float, double> >::type, float> + ::value? 1 : -1]; +int a2c[is_same<tuple_element<2, tuple<int, float, double> >::type, double> + ::value? 1 : -1]; + +int main() +{ + tuple<> t0; + tuple<int> t1(1); + tuple<int, float> t2(1, 3.14159f); + tuple<int, float, const char*> t3a(1, 3.14159f, "Hello, world!"); + tuple<long, double, std::string> t3b(t3a); + t3b = t3a; + // t3a = t3b; DPG: triggers an error, as it should. + + tuple<int, float, std::string> t3c = + make_tuple(17, 2.718281828, std::string("Fun")); + + int seventeen = 17; + double pi = 3.14159; + tuple<int&, double&> seventeen_pi = make_tuple(ref(seventeen), ref(pi)); + tuple<int&, const double&> seventeen_pi2 = + make_tuple(ref(seventeen), cref(pi)); + tuple<int&, double&> seventeen_pi_tied = tie(seventeen, pi); + assert(get<0>(t3a) == 1); + assert(get<1>(t3a) == 3.14159f); + assert(std::strcmp(get<2>(t3a), "Hello, world!") == 0); + + assert(t3a == t3b); + assert(!(t3a != t3b)); + assert(!(t3a < t3b)); + assert(!(t3a > t3b)); + assert(t3a <= t3b && t3b <= t3a); + assert(t3a >= t3b && t3b >= t3a); +} |