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libcxx/test/std/utilities/tuple/tuple.tuple/tuple.apply/apply_large_arity.pass.cpp
JF Bastien e15dd4e32e Support tests in freestanding 
Summary:
Freestanding is *weird*. The standard allows it to differ in a bunch of odd
manners from regular C++, and the committee would like to improve that
situation. I'd like to make libc++ behave better with what freestanding should
be, so that it can be a tool we use in improving the standard. To do that we
need to try stuff out, both with "freestanding the language mode" and
"freestanding the library subset".

Let's start with the super basic: run the libc++ tests in freestanding, using
clang as the compiler, and see what works. The easiest hack to do this:

In utils/libcxx/test/config.py add:

  self.cxx.compile_flags += ['-ffreestanding']

Run the tests and they all fail.

Why? Because in freestanding `main` isn't special. This "not special" property
has two effects: main doesn't get mangled, and main isn't allowed to omit its
`return` statement. The first means main gets mangled and the linker can't
create a valid executable for us to test. The second means we spew out warnings
(ew) and the compiler doesn't insert the `return` we omitted, and main just
falls of the end and does whatever undefined behavior (if you're luck, ud2
leading to non-zero return code).

Let's start my work with the basics. This patch changes all libc++ tests to
declare `main` as `int main(int, char**` so it mangles consistently (enabling us
to declare another `extern "C"` main for freestanding which calls the mangled
one), and adds `return 0;` to all places where it was missing. This touches 6124
files, and I apologize.

The former was done with The Magic Of Sed.

The later was done with a (not quite correct but decent) clang tool:

  https://gist.github.com/jfbastien/793819ff360baa845483dde81170feed

This works for most tests, though I did have to adjust a few places when e.g.
the test runs with `-x c`, macros are used for main (such as for the filesystem
tests), etc.

Once this is in we can create a freestanding bot which will prevent further
regressions. After that, we can start the real work of supporting C++
freestanding fairly well in libc++.

<rdar://problem/47754795>

Reviewers: ldionne, mclow.lists, EricWF

Subscribers: christof, jkorous, dexonsmith, arphaman, miyuki, libcxx-commits

Differential Revision: https://reviews.llvm.org/D57624

git-svn-id: https://llvm.org/svn/llvm-project/libcxx/trunk@353086 91177308-0d34-0410-b5e6-96231b3b80d8
2019-02-04 20:31:13 +00:00

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//===----------------------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
// UNSUPPORTED: c++98, c++03, c++11, c++14
// <tuple>
// template <class F, class T> constexpr decltype(auto) apply(F &&, T &&)
// Stress testing large arities with tuple and array.
#include <tuple>
#include <array>
#include <utility>
#include <cassert>
////////////////////////////////////////////////////////////////////////////////
template <class T, std::size_t Dummy = 0>
struct always_imp
{
typedef T type;
};
template <class T, std::size_t Dummy = 0>
using always_t = typename always_imp<T, Dummy>::type;
////////////////////////////////////////////////////////////////////////////////
template <class Tuple, class Idx>
struct make_function;
template <class Tp, std::size_t ...Idx>
struct make_function<Tp, std::integer_sequence<std::size_t, Idx...>>
{
using type = bool (*)(always_t<Tp, Idx>...);
};
template <class Tp, std::size_t Size>
using make_function_t = typename make_function<Tp, std::make_index_sequence<Size>>::type;
////////////////////////////////////////////////////////////////////////////////
template <class Tp, class Idx>
struct make_tuple_imp;
////////////////////////////////////////////////////////////////////////////////
template <class Tp, std::size_t ...Idx>
struct make_tuple_imp<Tp, std::integer_sequence<std::size_t, Idx...>>
{
using type = std::tuple<always_t<Tp, Idx>...>;
};
template <class Tp, std::size_t Size>
using make_tuple_t = typename make_tuple_imp<Tp, std::make_index_sequence<Size>>::type;
template <class ...Types>
bool test_apply_fn(Types...) { return true; }
template <std::size_t Size>
void test_all()
{
using A = std::array<int, Size>;
using ConstA = std::array<int const, Size>;
using Tuple = make_tuple_t<int, Size>;
using CTuple = make_tuple_t<const int, Size>;
using ValFn = make_function_t<int, Size>;
ValFn val_fn = &test_apply_fn;
using RefFn = make_function_t<int &, Size>;
RefFn ref_fn = &test_apply_fn;
using CRefFn = make_function_t<int const &, Size>;
CRefFn cref_fn = &test_apply_fn;
using RRefFn = make_function_t<int &&, Size>;
RRefFn rref_fn = &test_apply_fn;
{
A a{};
assert(std::apply(val_fn, a));
assert(std::apply(ref_fn, a));
assert(std::apply(cref_fn, a));
assert(std::apply(rref_fn, std::move(a)));
}
{
ConstA a{};
assert(std::apply(val_fn, a));
assert(std::apply(cref_fn, a));
}
{
Tuple a{};
assert(std::apply(val_fn, a));
assert(std::apply(ref_fn, a));
assert(std::apply(cref_fn, a));
assert(std::apply(rref_fn, std::move(a)));
}
{
CTuple a{};
assert(std::apply(val_fn, a));
assert(std::apply(cref_fn, a));
}
}
template <std::size_t Size>
void test_one()
{
using A = std::array<int, Size>;
using Tuple = make_tuple_t<int, Size>;
using ValFn = make_function_t<int, Size>;
ValFn val_fn = &test_apply_fn;
{
A a{};
assert(std::apply(val_fn, a));
}
{
Tuple a{};
assert(std::apply(val_fn, a));
}
}
int main(int, char**)
{
// Instantiate with 1-5 arguments.
test_all<1>();
test_all<2>();
test_all<3>();
test_all<4>();
test_all<5>();
// Stress test with 256
test_one<256>();
return 0;
}
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