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GSL/tests/maybenull_tests.cpp
Kern Handa 2b6d90436f not_null and maybe_null variants should only work on nullptr-assignable types. 
This is in accordance with the GSL.View guidance on not_null and maybe_null
types in the CppCoreGuidelines document.
2015-09-27 19:35:23 +00:00

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///////////////////////////////////////////////////////////////////////////////
//
// Copyright (c) 2015 Microsoft Corporation. All rights reserved.
//
// This code is licensed under the MIT License (MIT).
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
//
///////////////////////////////////////////////////////////////////////////////
#include <UnitTest++/UnitTest++.h>
#include <gsl.h>
#include <vector>
using namespace Guide;
struct MyBase { bool foo() { return true; } };
struct MyDerived : public MyBase {};
struct Unrelated {};
SUITE(MaybeNullTests)
{
TEST(TestMaybeNull1)
{
#ifdef CONFIRM_COMPILATION_ERRORS
// Forbid non-nullptr assignable types
maybe_null_ret<std::vector<int>> f_ret(std::vector<int>{1});
maybe_null_ret<std::vector<int>> f_ret(std::vector<int>{1});
maybe_null_ret<int> z_ret(10);
maybe_null_dbg<std::vector<int>> y_dbg({1,2});
maybe_null_dbg<int> z_dbg(10);
maybe_null_dbg<std::vector<int>> y_dbg({1,2});
#endif
int n = 5;
maybe_null_dbg<int *> opt_n(&n);
int result = 0;
bool threw = false;
CHECK_THROW(result = *opt_n, fail_fast);
maybe_null_ret<std::shared_ptr<int>> x_ret(std::make_shared<int>(10)); // shared_ptr<int> is nullptr assignable
maybe_null_dbg<std::shared_ptr<int>> x_dbg(std::make_shared<int>(10)); // shared_ptr<int> is nullptr assignable
}
TEST(TestMaybeNull2)
{
int n = 5;
maybe_null<int *> opt_n(&n);
int result = 0;
if (opt_n.present())
result = *opt_n;
}
TEST(TestMaybeNull3)
{
int n = 5;
maybe_null<int *> opt_n(&n);
int result = 0;
if (opt_n != nullptr)
result = *opt_n;
}
int test4_helper(maybe_null<int *> p)
{
if (p != nullptr)
return *p;
return -1;
}
TEST(TestMaybeNull4)
{
int n = 5;
int result = 0;
result = test4_helper(&n);
}
int test5_helper(maybe_null_dbg<int *> p)
{
return *p;
}
TEST(TestMaybeNull5)
{
int n = 5;
int result = 0;
bool threw = false;
CHECK_THROW(result = test5_helper(&n), fail_fast);
}
#ifdef CONFIRM_COMPILATION_ERRORS
int TestMaybeNull6()
{
int n;
maybe_null<int> o(n);
}
#endif
int g_int;
void test7_helper(maybe_null<maybe_null<int *> *> outptr)
{
g_int = 5;
if (outptr.present())
*outptr = &g_int;
}
void test7b_helper(maybe_null_dbg<maybe_null_dbg<int *> *> outptr)
{
g_int = 5;
if (outptr.present())
*outptr = &g_int;
}
TEST(TestMaybeNull7a)
{
maybe_null<int *> outval;
test7_helper(&outval);
CHECK(outval.present() && *outval == 5);
}
TEST(TestMaybeNull7b)
{
maybe_null_dbg<int *> outval;
test7b_helper(&outval);
CHECK_THROW((void)*outval, fail_fast);
}
int test8_helper1(maybe_null_dbg<int *> opt)
{
return *opt;
}
int test8_helper2a(maybe_null_dbg<int *> opt)
{
if (!opt.present())
return 0;
return test8_helper1(opt);
}
TEST(TestMaybeNull8a)
{
int n = 5;
maybe_null_dbg<int *> opt(&n);
CHECK_THROW(test8_helper2a(opt), fail_fast);
}
#ifdef CONVERT_TO_PTR_TO_CONST
int test9_helper(maybe_null<const int *> copt)
{
if (copt.present())
return *copt;
return 0;
}
void TestMaybeNull9()
{
int n = 5;
maybe_null<int *> opt(&n);
CHECK_THROW(test9_helper(opt), fail_fast);
}
#endif
TEST(TestMaybeNullCasting)
{
MyDerived derived;
maybe_null<MyDerived*> p = &derived;
CHECK(p.present());
maybe_null<MyBase*> q = p;
CHECK(q == p);
#ifdef CONFIRM_COMPILATION_ERRORS
maybe_null<Unrelated*> r = p;
maybe_null<Unrelated*> s = reinterpret_cast<Unrelated*>(p);
#endif
maybe_null_dbg<Unrelated*> t = reinterpret_cast<Unrelated*>(p.get());
CHECK_THROW((void)(void*)t.get(), fail_fast);
maybe_null_dbg<Unrelated*> u = reinterpret_cast<Unrelated*>(p.get());
CHECK(u.present());
CHECK((void*)p.get() == (void*)u.get());
}
TEST(TestMaybeNullArrow)
{
MyDerived derived;
maybe_null_dbg<MyDerived*> p = &derived;
CHECK_THROW(p->foo(), fail_fast);
CHECK(p.present());
CHECK(p->foo());
maybe_null<MyBase*> q = p;
CHECK(q.present());
CHECK(q->foo());
}
TEST(TestMaybeNullCompare)
{
int i1 = 1;
int i2 = 2;
maybe_null_dbg<int*> p1 = &i1;
maybe_null_dbg<int*> p1_2 = &i1;
maybe_null_dbg<int*> p2 = &i2;
CHECK_THROW(p1.get(), fail_fast);
CHECK_THROW(p1_2.get(), fail_fast);
CHECK_THROW(p2.get(), fail_fast);
CHECK(p1 != p2);
CHECK(!(p1 == p2));
CHECK(p1 == p1);
CHECK(p1 == p1_2);
// Make sure we no longer throw here
CHECK(p1.get() != nullptr);
CHECK(p1_2.get() != nullptr);
CHECK(p2.get() != nullptr);
}
TEST(TestMaybeNullCopy)
{
int i1 = 1;
int i2 = 2;
maybe_null_dbg<int*> p1 = &i1;
maybe_null_dbg<int*> p1_2 = &i1;
maybe_null_dbg<int*> p2 = &i2;
CHECK(p1 != p2);
CHECK(p1 == p1_2);
// Make sure we no longer throw here
CHECK(p1.get() != nullptr);
CHECK(p2.get() != nullptr);
p1 = p2;
// Make sure we now throw
CHECK_THROW(p1.get(), fail_fast);
CHECK(p1 == p2);
CHECK(p1 != p1_2);
// Make sure we no longer throw here
CHECK(p1.get() != nullptr);
}
}
int main(int, const char *[])
{
return UnitTest::RunAllTests();
}
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