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libcryfs/test/cpp-utils/pointer/unique_ref_test.cpp

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Switch to plain cmake, no biicode anymore.
2016-02-10 00:58:03 +01:00
#include <gtest/gtest.h>
Move fspp to its own subdirectories
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#include "cpp-utils/pointer/unique_ref.h"
Finish implementing unique_ref and added many more test cases
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#include <vector>
#include <set>
#include <map>
#include <unordered_set>
#include <unordered_map>
Implemented unique_ref and started writing test cases
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using namespace cpputils;
Implement cpputils::destruct(unique_ref)
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//TODO Test unique_ref destructor
//TODO Test cpputils::destruct()
Implemented unique_ref and started writing test cases
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class SomeClass0Parameters {};
class SomeClass1Parameter {
public:
SomeClass1Parameter(int param_): param(param_) {}
int param;
};
class SomeClass2Parameters {
public:
SomeClass2Parameters(int param1_, int param2_): param1(param1_), param2(param2_) {}
int param1;
int param2;
};
Finish implementing unique_ref and added many more test cases
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using SomeClass = SomeClass0Parameters;
Implemented unique_ref and started writing test cases
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TEST(MakeUniqueRefTest, Primitive) {
unique_ref<int> var = make_unique_ref<int>(3);
EXPECT_EQ(3, *var);
}
TEST(MakeUniqueRefTest, ClassWith0Parameters) {
unique_ref<SomeClass0Parameters> var = make_unique_ref<SomeClass0Parameters>();
//Check that the type is correct
EXPECT_EQ(var.get(), dynamic_cast<SomeClass0Parameters*>(var.get()));
}
TEST(MakeUniqueRefTest, ClassWith1Parameter) {
unique_ref<SomeClass1Parameter> var = make_unique_ref<SomeClass1Parameter>(5);
EXPECT_EQ(5, var->param);
}
TEST(MakeUniqueRefTest, ClassWith2Parameters) {
unique_ref<SomeClass2Parameters> var = make_unique_ref<SomeClass2Parameters>(7,2);
EXPECT_EQ(7, var->param1);
EXPECT_EQ(2, var->param2);
}
TEST(MakeUniqueRefTest, TypeIsAutoDeductible) {
auto var1 = make_unique_ref<int>(3);
auto var2 = make_unique_ref<SomeClass0Parameters>();
auto var3 = make_unique_ref<SomeClass1Parameter>(2);
auto var4 = make_unique_ref<SomeClass2Parameters>(2, 3);
}
TEST(NullcheckTest, PrimitiveNullptr) {
boost::optional<unique_ref<int>> var = nullcheck(std::unique_ptr<int>(nullptr));
EXPECT_FALSE((bool)var);
}
TEST(NullcheckTest, ObjectNullptr) {
boost::optional<unique_ref<SomeClass0Parameters>> var = nullcheck(std::unique_ptr<SomeClass0Parameters>(nullptr));
EXPECT_FALSE((bool)var);
}
TEST(NullcheckTest, Primitive) {
boost::optional<unique_ref<int>> var = nullcheck(std::make_unique<int>(3));
EXPECT_TRUE((bool)var);
EXPECT_EQ(3, **var);
}
TEST(NullcheckTest, ClassWith0Parameters) {
boost::optional<unique_ref<SomeClass0Parameters>> var = nullcheck(std::make_unique<SomeClass0Parameters>());
EXPECT_TRUE((bool)var);
//Check that the type is correct
EXPECT_EQ(var->get(), dynamic_cast<SomeClass0Parameters*>(var->get()));
}
TEST(NullcheckTest, ClassWith1Parameter) {
boost::optional<unique_ref<SomeClass1Parameter>> var = nullcheck(std::make_unique<SomeClass1Parameter>(5));
EXPECT_TRUE((bool)var);
EXPECT_EQ(5, (*var)->param);
}
TEST(NullcheckTest, ClassWith2Parameters) {
boost::optional<unique_ref<SomeClass2Parameters>> var = nullcheck(std::make_unique<SomeClass2Parameters>(7,2));
EXPECT_TRUE((bool)var);
EXPECT_EQ(7, (*var)->param1);
EXPECT_EQ(2, (*var)->param2);
}
TEST(NullcheckTest, OptionIsResolvable_Primitive) {
boost::optional<unique_ref<int>> var = nullcheck(std::make_unique<int>(3));
Allow dereferencing rvalues in unique_ref
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unique_ref<int> resolved = std::move(var).value();
Implemented unique_ref and started writing test cases
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}
TEST(NullcheckTest, OptionIsResolvable_Object) {
Finish implementing unique_ref and added many more test cases
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boost::optional<unique_ref<SomeClass0Parameters>> var = nullcheck(std::make_unique<SomeClass>());
Allow dereferencing rvalues in unique_ref
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unique_ref<SomeClass0Parameters> resolved = std::move(var).value();
Implemented unique_ref and started writing test cases
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}
TEST(NullcheckTest, OptionIsAutoResolvable_Primitive) {
auto var = nullcheck(std::make_unique<int>(3));
Allow dereferencing rvalues in unique_ref
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auto resolved = std::move(var).value();
Implemented unique_ref and started writing test cases
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}
TEST(NullcheckTest, OptionIsAutoResolvable_Object) {
Finish implementing unique_ref and added many more test cases
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auto var = nullcheck(std::make_unique<SomeClass>());
Allow dereferencing rvalues in unique_ref
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auto resolved = std::move(var).value();
Implemented unique_ref and started writing test cases
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}
Finish implementing unique_ref and added many more test cases
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class UniqueRefTest: public ::testing::Test {
public:
template<typename T> void makeInvalid(unique_ref<T> ref) {
UNUSED(ref);
//ref is moved in here and then destructed
}
};
TEST_F(UniqueRefTest, Get_Primitive) {
unique_ref<int> obj = make_unique_ref<int>(3);
EXPECT_EQ(3, *obj.get());
}
TEST_F(UniqueRefTest, Get_Object) {
unique_ref<SomeClass1Parameter> obj = make_unique_ref<SomeClass1Parameter>(5);
EXPECT_EQ(5, obj.get()->param);
}
TEST_F(UniqueRefTest, Deref_Primitive) {
unique_ref<int> obj = make_unique_ref<int>(3);
EXPECT_EQ(3, *obj);
}
TEST_F(UniqueRefTest, Deref_Object) {
unique_ref<SomeClass1Parameter> obj = make_unique_ref<SomeClass1Parameter>(5);
EXPECT_EQ(5, (*obj).param);
}
TEST_F(UniqueRefTest, DerefArrow) {
unique_ref<SomeClass1Parameter> obj = make_unique_ref<SomeClass1Parameter>(3);
EXPECT_EQ(3, obj->param);
}
TEST_F(UniqueRefTest, Assignment) {
unique_ref<SomeClass> obj1 = make_unique_ref<SomeClass>();
unique_ref<SomeClass> obj2 = make_unique_ref<SomeClass>();
SomeClass *obj1ptr = obj1.get();
obj2 = std::move(obj1);
EXPECT_EQ(obj1ptr, obj2.get());
EXPECT_EQ(nullptr, obj1.get());
}
TEST_F(UniqueRefTest, MoveConstructor) {
unique_ref<SomeClass> obj1 = make_unique_ref<SomeClass>();
SomeClass *obj1ptr = obj1.get();
unique_ref<SomeClass> obj2 = std::move(obj1);
EXPECT_EQ(obj1ptr, obj2.get());
EXPECT_EQ(nullptr, obj1.get());
}
TEST_F(UniqueRefTest, Swap) {
unique_ref<SomeClass> obj1 = make_unique_ref<SomeClass>();
unique_ref<SomeClass> obj2 = make_unique_ref<SomeClass>();
SomeClass *obj1ptr = obj1.get();
SomeClass *obj2ptr = obj2.get();
std::swap(obj1, obj2);
EXPECT_EQ(obj2ptr, obj1.get());
EXPECT_EQ(obj1ptr, obj2.get());
}
TEST_F(UniqueRefTest, SwapFromInvalid) {
unique_ref<SomeClass> obj1 = make_unique_ref<SomeClass>();
makeInvalid(std::move(obj1));
unique_ref<SomeClass> obj2 = make_unique_ref<SomeClass>();
SomeClass *obj2ptr = obj2.get();
std::swap(obj1, obj2);
EXPECT_EQ(obj2ptr, obj1.get());
EXPECT_EQ(nullptr, obj2.get());
}
TEST_F(UniqueRefTest, SwapWithInvalid) {
unique_ref<SomeClass> obj1 = make_unique_ref<SomeClass>();
unique_ref<SomeClass> obj2 = make_unique_ref<SomeClass>();
makeInvalid(std::move(obj2));
SomeClass *obj1ptr = obj1.get();
std::swap(obj1, obj2);
EXPECT_EQ(nullptr, obj1.get());
EXPECT_EQ(obj1ptr, obj2.get());
}
TEST_F(UniqueRefTest, SwapInvalidWithInvalid) {
unique_ref<SomeClass> obj1 = make_unique_ref<SomeClass>();
unique_ref<SomeClass> obj2 = make_unique_ref<SomeClass>();
makeInvalid(std::move(obj1));
makeInvalid(std::move(obj2));
std::swap(obj1, obj2);
EXPECT_EQ(nullptr, obj1.get());
EXPECT_EQ(nullptr, obj2.get());
}
TEST_F(UniqueRefTest, SwapFromRValue) {
unique_ref<SomeClass> obj1 = make_unique_ref<SomeClass>();
unique_ref<SomeClass> obj2 = make_unique_ref<SomeClass>();
SomeClass *obj1ptr = obj1.get();
SomeClass *obj2ptr = obj2.get();
std::swap(std::move(obj1), obj2);
EXPECT_EQ(obj2ptr, obj1.get());
EXPECT_EQ(obj1ptr, obj2.get());
}
TEST_F(UniqueRefTest, SwapWithRValue) {
unique_ref<SomeClass> obj1 = make_unique_ref<SomeClass>();
unique_ref<SomeClass> obj2 = make_unique_ref<SomeClass>();
SomeClass *obj1ptr = obj1.get();
SomeClass *obj2ptr = obj2.get();
std::swap(obj1, std::move(obj2));
EXPECT_EQ(obj2ptr, obj1.get());
EXPECT_EQ(obj1ptr, obj2.get());
}
TEST_F(UniqueRefTest, CanBePutInContainer_Primitive) {
std::vector<unique_ref<int>> vec;
vec.push_back(make_unique_ref<int>(3));
EXPECT_EQ(3, *vec[0]);
}
TEST_F(UniqueRefTest, CanBePutInContainer_Object) {
std::vector<unique_ref<SomeClass1Parameter>> vec;
vec.push_back(make_unique_ref<SomeClass1Parameter>(5));
EXPECT_EQ(5, vec[0]->param);
}
TEST_F(UniqueRefTest, CanBePutInContainer_Nullcheck) {
std::vector<unique_ref<int>> vec;
vec.push_back(*nullcheck(std::make_unique<int>(3)));
EXPECT_EQ(3, *vec[0]);
}
TEST_F(UniqueRefTest, CanBePutInSet_Primitive) {
std::set<unique_ref<int>> set;
set.insert(make_unique_ref<int>(3));
EXPECT_EQ(3, **set.begin());
}
TEST_F(UniqueRefTest, CanBePutInSet_Object) {
std::set<unique_ref<SomeClass1Parameter>> set;
set.insert(make_unique_ref<SomeClass1Parameter>(5));
EXPECT_EQ(5, (*set.begin())->param);
}
TEST_F(UniqueRefTest, CanBePutInSet_Nullcheck) {
std::set<unique_ref<int>> set;
set.insert(*nullcheck(std::make_unique<int>(3)));
EXPECT_EQ(3, **set.begin());
}
TEST_F(UniqueRefTest, CanBePutInUnorderedSet_Primitive) {
std::unordered_set<unique_ref<int>> set;
set.insert(make_unique_ref<int>(3));
EXPECT_EQ(3, **set.begin());
}
TEST_F(UniqueRefTest, CanBePutInUnorderedSet_Object) {
std::unordered_set<unique_ref<SomeClass1Parameter>> set;
set.insert(make_unique_ref<SomeClass1Parameter>(5));
EXPECT_EQ(5, (*set.begin())->param);
}
TEST_F(UniqueRefTest, CanBePutInUnorderedSet_Nullcheck) {
std::unordered_set<unique_ref<int>> set;
set.insert(*nullcheck(std::make_unique<int>(3)));
EXPECT_EQ(3, **set.begin());
}
TEST_F(UniqueRefTest, CanBePutInMap_Primitive) {
std::map<unique_ref<int>, unique_ref<int>> map;
map.insert(std::make_pair(make_unique_ref<int>(3), make_unique_ref<int>(5)));
EXPECT_EQ(3, *map.begin()->first);
EXPECT_EQ(5, *map.begin()->second);
}
TEST_F(UniqueRefTest, CanBePutInMap_Object) {
std::map<unique_ref<SomeClass1Parameter>, unique_ref<SomeClass1Parameter>> map;
map.insert(std::make_pair(make_unique_ref<SomeClass1Parameter>(5), make_unique_ref<SomeClass1Parameter>(3)));
EXPECT_EQ(5, map.begin()->first->param);
EXPECT_EQ(3, map.begin()->second->param);
}
TEST_F(UniqueRefTest, CanBePutInMap_Nullcheck) {
std::map<unique_ref<int>, unique_ref<int>> map;
map.insert(std::make_pair(*nullcheck(std::make_unique<int>(3)), *nullcheck(std::make_unique<int>(5))));
EXPECT_EQ(3, *map.begin()->first);
EXPECT_EQ(5, *map.begin()->second);
}
TEST_F(UniqueRefTest, CanBePutInUnorderedMap_Primitive) {
std::unordered_map<unique_ref<int>, unique_ref<int>> map;
map.insert(std::make_pair(make_unique_ref<int>(3), make_unique_ref<int>(5)));
EXPECT_EQ(3, *map.begin()->first);
EXPECT_EQ(5, *map.begin()->second);
}
TEST_F(UniqueRefTest, CanBePutInUnorderedMap_Object) {
std::unordered_map<unique_ref<SomeClass1Parameter>, unique_ref<SomeClass1Parameter>> map;
map.insert(std::make_pair(make_unique_ref<SomeClass1Parameter>(5), make_unique_ref<SomeClass1Parameter>(3)));
EXPECT_EQ(5, map.begin()->first->param);
EXPECT_EQ(3, map.begin()->second->param);
}
TEST_F(UniqueRefTest, CanBePutInUnorderedMap_Nullcheck) {
std::unordered_map<unique_ref<int>, unique_ref<int>> map;
map.insert(std::make_pair(*nullcheck(std::make_unique<int>(3)), *nullcheck(std::make_unique<int>(5))));
EXPECT_EQ(3, *map.begin()->first);
EXPECT_EQ(5, *map.begin()->second);
}
TEST_F(UniqueRefTest, Equality_Nullptr) {
unique_ref<int> var1 = make_unique_ref<int>(3);
unique_ref<int> var2 = make_unique_ref<int>(4);
makeInvalid(std::move(var1));
makeInvalid(std::move(var2));
EXPECT_TRUE(var1 == var2);
EXPECT_FALSE(var1 != var2);
}
TEST_F(UniqueRefTest, Nonequality) {
unique_ref<int> var1 = make_unique_ref<int>(3);
unique_ref<int> var2 = make_unique_ref<int>(3);
EXPECT_TRUE(var1 != var2);
EXPECT_FALSE(var1 == var2);
}
TEST_F(UniqueRefTest, Nonequality_NullptrLeft) {
unique_ref<int> var1 = make_unique_ref<int>(3);
unique_ref<int> var2 = make_unique_ref<int>(3);
makeInvalid(std::move(var1));
EXPECT_TRUE(var1 != var2);
EXPECT_FALSE(var1 == var2);
}
TEST_F(UniqueRefTest, Nonequality_NullptrRight) {
unique_ref<int> var1 = make_unique_ref<int>(3);
unique_ref<int> var2 = make_unique_ref<int>(3);
makeInvalid(std::move(var2));
EXPECT_TRUE(var1 != var2);
EXPECT_FALSE(var1 == var2);
}
TEST_F(UniqueRefTest, HashIsDifferent) {
unique_ref<int> var1 = make_unique_ref<int>(3);
unique_ref<int> var2 = make_unique_ref<int>(3);
EXPECT_NE(std::hash<unique_ref<int>>()(var1), std::hash<unique_ref<int>>()(var2));
}
TEST_F(UniqueRefTest, HashIsDifferent_NullptrLeft) {
unique_ref<int> var1 = make_unique_ref<int>(3);
unique_ref<int> var2 = make_unique_ref<int>(3);
makeInvalid(std::move(var1));
EXPECT_NE(std::hash<unique_ref<int>>()(var1), std::hash<unique_ref<int>>()(var2));
}
TEST_F(UniqueRefTest, HashIsDifferent_NullptrRight) {
unique_ref<int> var1 = make_unique_ref<int>(3);
unique_ref<int> var2 = make_unique_ref<int>(3);
makeInvalid(std::move(var2));
EXPECT_NE(std::hash<unique_ref<int>>()(var1), std::hash<unique_ref<int>>()(var2));
}
TEST_F(UniqueRefTest, HashIsSame_BothNullptr) {
unique_ref<int> var1 = make_unique_ref<int>(3);
unique_ref<int> var2 = make_unique_ref<int>(3);
makeInvalid(std::move(var1));
makeInvalid(std::move(var2));
EXPECT_EQ(std::hash<unique_ref<int>>()(var1), std::hash<unique_ref<int>>()(var2));
}
TEST_F(UniqueRefTest, OneIsLess) {
unique_ref<int> var1 = make_unique_ref<int>(3);
unique_ref<int> var2 = make_unique_ref<int>(3);
EXPECT_TRUE(std::less<unique_ref<int>>()(var1, var2) != std::less<unique_ref<int>>()(var2, var1));
}
TEST_F(UniqueRefTest, NullptrIsLess1) {
unique_ref<int> var1 = make_unique_ref<int>(3);
unique_ref<int> var2 = make_unique_ref<int>(3);
makeInvalid(std::move(var1));
EXPECT_TRUE(std::less<unique_ref<int>>()(var1, var2));
}
TEST_F(UniqueRefTest, NullptrIsLess2) {
unique_ref<int> var1 = make_unique_ref<int>(3);
unique_ref<int> var2 = make_unique_ref<int>(3);
makeInvalid(std::move(var2));
EXPECT_TRUE(std::less<unique_ref<int>>()(var2, var1));
}
TEST_F(UniqueRefTest, NullptrIsNotLessThanNullptr) {
unique_ref<int> var1 = make_unique_ref<int>(3);
unique_ref<int> var2 = make_unique_ref<int>(3);
makeInvalid(std::move(var1));
makeInvalid(std::move(var2));
EXPECT_FALSE(std::less<unique_ref<int>>()(var1, var2));
}
Allow dereferencing rvalues in unique_ref
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class OnlyMoveable {
public:
OnlyMoveable(int value_): value(value_) {}
OnlyMoveable(OnlyMoveable &&source): value(source.value) {source.value = -1;}
bool operator==(const OnlyMoveable &rhs) const {
return value == rhs.value;
}
int value;
private:
DISALLOW_COPY_AND_ASSIGN(OnlyMoveable);
};
TEST_F(UniqueRefTest, AllowsDerefOnRvalue) {
OnlyMoveable val = *make_unique_ref<OnlyMoveable>(5);
EXPECT_EQ(OnlyMoveable(5), val);
}
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