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+//===----------------------------------------------------------------------===//
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+//
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+// The LLVM Compiler Infrastructure
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+//
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+// This file is dual licensed under the MIT and the University of Illinois Open
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+// Source Licenses. See LICENSE.TXT for details.
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+//
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+//===----------------------------------------------------------------------===//
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+
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+// <tuple>
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+
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+// template <class... Types> class tuple;
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+
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+// UNSUPPORTED: c++98, c++03
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+
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+#include <tuple>
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+#include <utility>
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+#include <cassert>
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+
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+template <class ConstructFrom>
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+struct ConstructibleFromT {
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+ ConstructibleFromT() = default;
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+ ConstructibleFromT(ConstructFrom v) : value(v) {}
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+ ConstructFrom value;
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+};
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+
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+template <class AssertOn>
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+struct CtorAssertsT {
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+ bool defaulted;
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+ CtorAssertsT() : defaulted(true) {}
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+ template <class T>
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+ constexpr CtorAssertsT(T) : defaulted(false) {
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+ static_assert(!std::is_same<T, AssertOn>::value, "");
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+ }
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+};
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+
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+template <class AllowT, class AssertT>
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+struct AllowAssertT {
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+ AllowAssertT() = default;
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+ AllowAssertT(AllowT) {}
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+ template <class U>
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+ constexpr AllowAssertT(U) {
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+ static_assert(!std::is_same<U, AssertT>::value, "");
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+ }
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+};
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+
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+// Construct a tuple<T1, T2> from pair<int, int> where T1 and T2
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+// are not constructible from ints but T1 is constructible from std::pair.
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+// This considers the following constructors:
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+// (1) tuple(TupleLike) -> checks is_constructible<Tn, int>
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+// (2) tuple(UTypes...) -> checks is_constructible<T1, pair<int, int>>
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+// and is_default_constructible<T2>
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+// The point of this test is to ensure that the consideration of (1)
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+// short circuits before evaluating is_constructible<T2, int>, which
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+// will cause a static assertion.
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+void test_tuple_like_lazy_sfinae() {
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+#if defined(_LIBCPP_VERSION)
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+ // This test requires libc++'s reduced arity initialization.
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+ using T1 = ConstructibleFromT<std::pair<int, int>>;
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+ using T2 = CtorAssertsT<int>;
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+ std::pair<int, int> p(42, 100);
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+ std::tuple<T1, T2> t(p);
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+ assert(std::get<0>(t).value == p);
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+ assert(std::get<1>(t).defaulted);
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+#endif
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+}
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+
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+
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+struct NonConstCopyable {
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+ NonConstCopyable() = default;
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+ explicit NonConstCopyable(int v) : value(v) {}
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+ NonConstCopyable(NonConstCopyable&) = default;
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+ NonConstCopyable(NonConstCopyable const&) = delete;
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+ int value;
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+};
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+
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+template <class T>
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+struct BlowsUpOnConstCopy {
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+ BlowsUpOnConstCopy() = default;
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+ constexpr BlowsUpOnConstCopy(BlowsUpOnConstCopy const&) {
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+ static_assert(!std::is_same<T, T>::value, "");
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+ }
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+ BlowsUpOnConstCopy(BlowsUpOnConstCopy&) = default;
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+};
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+
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+// Test the following constructors:
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+// (1) tuple(Types const&...)
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+// (2) tuple(UTypes&&...)
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+// Test that (1) short circuits before evaluating the copy constructor of the
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+// second argument. Constructor (2) should be selected.
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+void test_const_Types_lazy_sfinae()
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+{
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+ NonConstCopyable v(42);
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+ BlowsUpOnConstCopy<int> b;
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+ std::tuple<NonConstCopyable, BlowsUpOnConstCopy<int>> t(v, b);
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+ assert(std::get<0>(t).value == 42);
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+}
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+
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+int main() {
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+ test_tuple_like_lazy_sfinae();
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+ test_const_Types_lazy_sfinae();
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+}
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Eric Fiselier