test/std/containers/views/span.cons/array.pass.cpp - libcxx - Git at Google

 // -*- C++ -*-
 //===------------------------------ span ---------------------------------===//
 //
 // 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, c++17

 // <span>

 // template<size_t N>
 //     constexpr span(element_type (&arr)[N]) noexcept;
 //
 // Remarks: These constructors shall not participate in overload resolution unless:
 //   — extent == dynamic_extent || N == extent is true, and
 //   — remove_pointer_t<decltype(data(arr))>(*)[] is convertible to ElementType(*)[].
 //


 #include <span>
 #include <cassert>
 #include <string>

 #include "test_macros.h"


 void checkCV()
 {
                    int   arr[] = {1,2,3};
     const          int  carr[] = {4,5,6};
           volatile int  varr[] = {7,8,9};
     const volatile int cvarr[] = {1,3,5};

 //  Types the same (dynamic sized)
     {
     std::span<               int> s1{  arr};    // a span<               int> pointing at int.
     std::span<const          int> s2{ carr};    // a span<const          int> pointing at const int.
     std::span<      volatile int> s3{ varr};    // a span<      volatile int> pointing at volatile int.
     std::span<const volatile int> s4{cvarr};    // a span<const volatile int> pointing at const volatile int.
     assert(s1.size() + s2.size() + s3.size() + s4.size() == 12);
     }

 //  Types the same (static sized)
     {
     std::span<               int,3> s1{  arr};  // a span<               int> pointing at int.
     std::span<const          int,3> s2{ carr};  // a span<const          int> pointing at const int.
     std::span<      volatile int,3> s3{ varr};  // a span<      volatile int> pointing at volatile int.
     std::span<const volatile int,3> s4{cvarr};  // a span<const volatile int> pointing at const volatile int.
     assert(s1.size() + s2.size() + s3.size() + s4.size() == 12);
     }


 //  types different (dynamic sized)
     {
     std::span<const          int> s1{ arr};     // a span<const          int> pointing at int.
     std::span<      volatile int> s2{ arr};     // a span<      volatile int> pointing at int.
     std::span<      volatile int> s3{ arr};     // a span<      volatile int> pointing at const int.
     std::span<const volatile int> s4{ arr};     // a span<const volatile int> pointing at int.
     std::span<const volatile int> s5{carr};     // a span<const volatile int> pointing at const int.
     std::span<const volatile int> s6{varr};     // a span<const volatile int> pointing at volatile int.
     assert(s1.size() + s2.size() + s3.size() + s4.size() + s5.size() + s6.size() == 18);
     }

 //  types different (static sized)
     {
     std::span<const          int,3> s1{ arr};   // a span<const          int> pointing at int.
     std::span<      volatile int,3> s2{ arr};   // a span<      volatile int> pointing at int.
     std::span<      volatile int,3> s3{ arr};   // a span<      volatile int> pointing at const int.
     std::span<const volatile int,3> s4{ arr};   // a span<const volatile int> pointing at int.
     std::span<const volatile int,3> s5{carr};   // a span<const volatile int> pointing at const int.
     std::span<const volatile int,3> s6{varr};   // a span<const volatile int> pointing at volatile int.
     assert(s1.size() + s2.size() + s3.size() + s4.size() + s5.size() + s6.size() == 18);
     }
 }


 template <typename T>
 constexpr bool testConstexprSpan()
 {
     constexpr T val[2] = {};

     ASSERT_NOEXCEPT(std::span<const T>   {val});
     ASSERT_NOEXCEPT(std::span<const T, 2>{val});
     std::span<const T>    s1{val};
     std::span<const T, 2> s2{val};
     return
         s1.data() == &val[0] && s1.size() == 2
     &&  s2.data() == &val[0] && s2.size() == 2;
 }


 template <typename T>
 void testRuntimeSpan()
 {
     T val[2] = {};
     ASSERT_NOEXCEPT(std::span<T>   {val});
     ASSERT_NOEXCEPT(std::span<T, 2>{val});
     std::span<T>    s1{val};
     std::span<T, 2> s2{val};
     assert(s1.data() == &val[0] && s1.size() == 2);
     assert(s2.data() == &val[0] && s2.size() == 2);
 }

 struct A{};

 int main(int, char**)
 {
     static_assert(testConstexprSpan<int>(),    "");
     static_assert(testConstexprSpan<long>(),   "");
     static_assert(testConstexprSpan<double>(), "");
     static_assert(testConstexprSpan<A>(),      "");

     testRuntimeSpan<int>();
     testRuntimeSpan<long>();
     testRuntimeSpan<double>();
     testRuntimeSpan<std::string>();
     testRuntimeSpan<A>();

     checkCV();

   return 0;
 }
	// -- C++ --
	//===------------------------------ span ---------------------------------===//
	//
	// 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, c++17

	// <span>

	// template<size_t N>
	// constexpr span(element_type (&arr)[N]) noexcept;
	//
	// Remarks: These constructors shall not participate in overload resolution unless:
	// — extent == dynamic_extent \|\| N == extent is true, and
	// — remove_pointer_t<decltype(data(arr))>()[] is convertible to ElementType()[].
	//


	#include <span>
	#include <cassert>
	#include <string>

	#include "test_macros.h"


	void checkCV()
	{
	int arr[] = {1,2,3};
	const int carr[] = {4,5,6};
	volatile int varr[] = {7,8,9};
	const volatile int cvarr[] = {1,3,5};

	// Types the same (dynamic sized)
	{
	std::span< int> s1{ arr}; // a span< int> pointing at int.
	std::span<const int> s2{ carr}; // a span<const int> pointing at const int.
	std::span< volatile int> s3{ varr}; // a span< volatile int> pointing at volatile int.
	std::span<const volatile int> s4{cvarr}; // a span<const volatile int> pointing at const volatile int.
	assert(s1.size() + s2.size() + s3.size() + s4.size() == 12);
	}

	// Types the same (static sized)
	{
	std::span< int,3> s1{ arr}; // a span< int> pointing at int.
	std::span<const int,3> s2{ carr}; // a span<const int> pointing at const int.
	std::span< volatile int,3> s3{ varr}; // a span< volatile int> pointing at volatile int.
	std::span<const volatile int,3> s4{cvarr}; // a span<const volatile int> pointing at const volatile int.
	assert(s1.size() + s2.size() + s3.size() + s4.size() == 12);
	}


	// types different (dynamic sized)
	{
	std::span<const int> s1{ arr}; // a span<const int> pointing at int.
	std::span< volatile int> s2{ arr}; // a span< volatile int> pointing at int.
	std::span< volatile int> s3{ arr}; // a span< volatile int> pointing at const int.
	std::span<const volatile int> s4{ arr}; // a span<const volatile int> pointing at int.
	std::span<const volatile int> s5{carr}; // a span<const volatile int> pointing at const int.
	std::span<const volatile int> s6{varr}; // a span<const volatile int> pointing at volatile int.
	assert(s1.size() + s2.size() + s3.size() + s4.size() + s5.size() + s6.size() == 18);
	}

	// types different (static sized)
	{
	std::span<const int,3> s1{ arr}; // a span<const int> pointing at int.
	std::span< volatile int,3> s2{ arr}; // a span< volatile int> pointing at int.
	std::span< volatile int,3> s3{ arr}; // a span< volatile int> pointing at const int.
	std::span<const volatile int,3> s4{ arr}; // a span<const volatile int> pointing at int.
	std::span<const volatile int,3> s5{carr}; // a span<const volatile int> pointing at const int.
	std::span<const volatile int,3> s6{varr}; // a span<const volatile int> pointing at volatile int.
	assert(s1.size() + s2.size() + s3.size() + s4.size() + s5.size() + s6.size() == 18);
	}
	}


	template <typename T>
	constexpr bool testConstexprSpan()
	{
	constexpr T val[2] = {};

	ASSERT_NOEXCEPT(std::span<const T> {val});
	ASSERT_NOEXCEPT(std::span<const T, 2>{val});
	std::span<const T> s1{val};
	std::span<const T, 2> s2{val};
	return
	s1.data() == &val[0] && s1.size() == 2
	&& s2.data() == &val[0] && s2.size() == 2;
	}


	template <typename T>
	void testRuntimeSpan()
	{
	T val[2] = {};
	ASSERT_NOEXCEPT(std::span<T> {val});
	ASSERT_NOEXCEPT(std::span<T, 2>{val});
	std::span<T> s1{val};
	std::span<T, 2> s2{val};
	assert(s1.data() == &val[0] && s1.size() == 2);
	assert(s2.data() == &val[0] && s2.size() == 2);
	}

	struct A{};

	int main(int, char**)
	{
	static_assert(testConstexprSpan<int>(), "");
	static_assert(testConstexprSpan<long>(), "");
	static_assert(testConstexprSpan<double>(), "");
	static_assert(testConstexprSpan<A>(), "");

	testRuntimeSpan<int>();
	testRuntimeSpan<long>();
	testRuntimeSpan<double>();
	testRuntimeSpan<std::string>();
	testRuntimeSpan<A>();

	checkCV();

	return 0;
	}