/****************************************************************************** The MIT License(MIT) Embedded Template Library. https://github.com/ETLCPP/etl https://www.etlcpp.com Copyright(c) 2025 John Wellbelove Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files(the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and / or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions : The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. 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 "unit_test_framework.h" #include "etl/inplace_function.h" #include "etl/vector.h" #include #include #include #include #include // Enable exactly one of these at a time to see the corresponding static_assert fire. //#define ETL_NEGATIVE_TEST_INPLACE_FUNCTION_BAD_RETURN //#define ETL_NEGATIVE_TEST_INPLACE_FUNCTION_RVALUE_PARAM_MISMATCH_NONCONST //#define ETL_NEGATIVE_TEST_INPLACE_FUNCTION_RVALUE_PARAM_MISMATCH_CONST namespace { //***************************************************************************** enum class FunctionCalled : int { Not_Called, Free_Void_Called, Free_Int_Called, Free_Reference_Called, Free_Moveableonly_Called, Normal_Called, Normal_Returning_Void_Called, Alternative_Called, Member_Void_Called, Member_Void_Const_Called, Member_Int_Called, Member_Int_Const_Called, Member_Reference_Called, Member_Reference_Const_Called, Member_Moveableonly_Called, Member_Static_Called, Operator_Called, Operator_Const_Called, Lambda_Called }; FunctionCalled function_called = FunctionCalled::Not_Called; //***************************************************************************** const int VALUE1 = 1; const int VALUE2 = 2; bool parameter_correct = false; //***************************************************************************** // Object data structure. //***************************************************************************** struct Data { int ipf; }; //***************************************************************************** // Object moveable only data structure. //***************************************************************************** struct MoveableOnlyData { MoveableOnlyData() = default; ~MoveableOnlyData() = default; MoveableOnlyData(const MoveableOnlyData&) = delete; MoveableOnlyData& operator=(const MoveableOnlyData&) = delete; MoveableOnlyData(MoveableOnlyData&&) = default; MoveableOnlyData& operator=(MoveableOnlyData&&) = default; int ipf; }; //***************************************************************************** // The free function taking no parameters. //***************************************************************************** static void free_void() { function_called = FunctionCalled::Free_Void_Called; } //***************************************************************************** // The free function taking an int parameter. //***************************************************************************** void free_int(int i, int j) { function_called = FunctionCalled::Free_Int_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); } //***************************************************************************** // The free function taking a Data reference parameter. //***************************************************************************** void free_reference(const Data& data, int j) { function_called = FunctionCalled::Free_Reference_Called; parameter_correct = (data.ipf == VALUE1) && (j == VALUE2); } //***************************************************************************** // The free function taking a moveable only parameter. //***************************************************************************** void free_moveableonly(MoveableOnlyData&& data) { function_called = FunctionCalled::Free_Moveableonly_Called; parameter_correct = (data.ipf == VALUE1); } //***************************************************************************** // The normal function. //***************************************************************************** int normal(int i, int j) { function_called = FunctionCalled::Normal_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); return i + j; } //***************************************************************************** // The normal function returning void. //***************************************************************************** void normal_returning_void(int i, int j) { function_called = FunctionCalled::Normal_Returning_Void_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); } //***************************************************************************** // The alternative function. //***************************************************************************** int alternative(int i, int j) { function_called = FunctionCalled::Alternative_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); return i + j + 1; } //***************************************************************************** // The throwing function. //***************************************************************************** void throwing_void() { throw std::runtime_error("throwing function"); } int throwing_normal(int, int) { throw std::runtime_error("throwing function with two parameters"); } //******************************************* // Functor with non-const operator() struct Functor { void operator()() { function_called = FunctionCalled::Operator_Called; } }; //******************************************* // Functor with const operator() struct FunctorConst { void operator()() const { function_called = FunctionCalled::Operator_Const_Called; } }; //******************************************* int times_2(int a) { return a * 2; } //******************************************* // Free int return. int free_int_return(int i, int j) { return i + j; } #if ETL_USING_CPP17 static auto global_lambda = [](int i, int j) { function_called = FunctionCalled::Lambda_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); }; #endif //******************************************* // Functor with that is destructible and movable //******************************************* struct DestructibleMovableObject { DestructibleMovableObject() : call_count(0) { destructor_called = false; copy_constructor_called = false; move_constructor_called = false; function_operator_called = false; } ~DestructibleMovableObject() { destructor_called = true; } DestructibleMovableObject(const DestructibleMovableObject& other) : call_count(other.call_count) { copy_constructor_called = true; } DestructibleMovableObject(DestructibleMovableObject&& other) : call_count(other.call_count) { move_constructor_called = true; } void operator()(int, int) { function_operator_called = true; ++call_count; } static bool destructor_called; static bool copy_constructor_called; static bool move_constructor_called; static bool function_operator_called; int call_count; }; bool DestructibleMovableObject::destructor_called = false; bool DestructibleMovableObject::copy_constructor_called = false; bool DestructibleMovableObject::move_constructor_called = false; bool DestructibleMovableObject::function_operator_called = false; //******************************************* // Sized functor template struct FunctorSized { FunctorSized() : data() { } int operator()() { function_called = FunctionCalled::Operator_Called; return Size; } int size() const { return Size; } char data[Size]; }; } //***************************************************************************** // The test class with member functions. //***************************************************************************** class Object { public: //******************************************* constexpr Object() : call_count(0) { } //******************************************* // void void member_void() { function_called = FunctionCalled::Member_Void_Called; } void member_void_const() const { function_called = FunctionCalled::Member_Void_Const_Called; } //******************************************* // int int member_int(int i, int j) { function_called = FunctionCalled::Member_Int_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); ++call_count; return i + j + 1; } int member_int_const(int i, int j) const { function_called = FunctionCalled::Member_Int_Const_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); ++call_count; return i + j + 1; } //******************************************* // reference void member_reference(const Data& data, int j) { function_called = FunctionCalled::Member_Reference_Called; parameter_correct = (data.ipf == VALUE1) && (j == VALUE2); } void member_reference_const(const Data& data, int j) const { function_called = FunctionCalled::Member_Reference_Const_Called; parameter_correct = (data.ipf == VALUE1) && (j == VALUE2); ++call_count; } //******************************************* // moveable only data void member_moveableonly(MoveableOnlyData&& data) { function_called = FunctionCalled::Member_Moveableonly_Called; parameter_correct = (data.ipf == VALUE1); ++call_count; } //******************************************* // static static void member_static(const Data& data, int j) { function_called = FunctionCalled::Member_Static_Called; parameter_correct = (data.ipf == VALUE1) && (j == VALUE2); } //******************************************* // operator() void operator()() { function_called = FunctionCalled::Operator_Called; ++call_count; } //******************************************* // operator() const void operator()() const { function_called = FunctionCalled::Operator_Const_Called; ++call_count; } mutable int call_count; }; Object object_static; constexpr const Object const_object_static; Functor functor_static; const FunctorConst const_functor_static; namespace { //***************************************************************************** // Initialises the test results. //***************************************************************************** struct SetupFixture { SetupFixture() { function_called = FunctionCalled::Not_Called; parameter_correct = false; } }; SUITE(test_inplace_function) { //************************************************************************* TEST_FIXTURE(SetupFixture, test_inplace_function_types) { using InplaceFunction = etl::inplace_function; // Check the return type. CHECK_TRUE((std::is_same::value)); // Check the argument types. CHECK_TRUE((std::is_same>::value)); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_inplace_function_size_and_alignment) { using InplaceFunction84 = etl::inplace_function; using InplaceFunction168 = etl::inplace_function; // Check the sizes. CHECK_EQUAL(8, InplaceFunction84::size()); CHECK_EQUAL(16, InplaceFunction168::size()); // Check the alignments. CHECK_EQUAL(4, InplaceFunction84::alignment()); CHECK_EQUAL(8, InplaceFunction168::alignment()); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_is_valid_false) { etl::inplace_function ipf; CHECK(!ipf.is_valid()); CHECK(!ipf); CHECK_THROW(ipf(), etl::inplace_function_uninitialized); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_is_valid_true) { auto lambda = [] {}; etl::inplace_function ipf(lambda); CHECK(ipf.is_valid()); CHECK(ipf); CHECK_NO_THROW(ipf()); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_is_valid_after_clear) { auto lambda = [] {}; etl::inplace_function ipf(lambda); CHECK_TRUE(ipf.is_valid()); ipf.clear(); CHECK_FALSE(ipf.is_valid()); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_free_void_run_time) { etl::inplace_function ipf(free_void); ipf(); CHECK(function_called == FunctionCalled::Free_Void_Called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_free_void_compile_time) { auto ipf = etl::inplace_function::create(); ipf(); CHECK(function_called == FunctionCalled::Free_Void_Called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_free_void_run_time) { auto ipf = etl::make_inplace_function(free_void); ipf(); CHECK(function_called == FunctionCalled::Free_Void_Called); } #if ETL_USING_CPP17 //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_free_void_compile_time) { auto ipf = etl::make_inplace_function<&free_void>(); ipf(); CHECK(function_called == FunctionCalled::Free_Void_Called); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_throwing) { { auto ipf = etl::inplace_function::create(); CHECK_THROW(ipf(), std::runtime_error); CHECK_THROW(ipf.call_if(), std::runtime_error); } { auto ipf = etl::inplace_function::create(); CHECK_THROW({ipf.call_or(alternative, VALUE1, VALUE2);}, std::runtime_error); CHECK_THROW({ipf.call_or(VALUE1, VALUE2);}, std::runtime_error); } } //************************************************************************* TEST_FIXTURE(SetupFixture, test_free_int_run_time) { etl::inplace_function ipf(free_int); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Free_Int_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_free_int_compile_time) { auto ipf = etl::inplace_function::create(); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Free_Int_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_free_int_run_time) { auto ipf = etl::make_inplace_function(free_int); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Free_Int_Called); CHECK(parameter_correct); } #if ETL_USING_CPP17 //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_free_int_compile_time) { auto ipf = etl::make_inplace_function<&free_int>(); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Free_Int_Called); CHECK(parameter_correct); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_free_reference_run_time) { etl::inplace_function ipf(free_reference); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK(function_called == FunctionCalled::Free_Reference_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_free_reference_compile_time) { auto ipf = etl::inplace_function::create(); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK(function_called == FunctionCalled::Free_Reference_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_free_reference_run_time) { auto ipf = etl::make_inplace_function(free_reference); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK(function_called == FunctionCalled::Free_Reference_Called); CHECK(parameter_correct); } #if ETL_USING_CPP17 //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_free_reference_compile_time) { auto ipf = etl::make_inplace_function<&free_reference>(); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK(function_called == FunctionCalled::Free_Reference_Called); CHECK(parameter_correct); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_free_moveableonly_run_time) { etl::inplace_function ipf(free_moveableonly); MoveableOnlyData data; data.ipf = VALUE1; ipf(std::move(data)); CHECK(function_called == FunctionCalled::Free_Moveableonly_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_free_moveableonly_compile_time) { auto ipf = etl::inplace_function::create(); MoveableOnlyData data; data.ipf = VALUE1; ipf(std::move(data)); CHECK(function_called == FunctionCalled::Free_Moveableonly_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_free_moveableonly_run_time) { auto ipf = etl::make_inplace_function(free_moveableonly); MoveableOnlyData data; data.ipf = VALUE1; ipf(std::move(data)); CHECK(function_called == FunctionCalled::Free_Moveableonly_Called); CHECK(parameter_correct); } #if ETL_USING_CPP17 //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_free_moveableonly_compile_time) { auto ipf = etl::make_inplace_function<&free_moveableonly>(); MoveableOnlyData data; data.ipf = VALUE1; ipf(std::move(data)); CHECK(function_called == FunctionCalled::Free_Moveableonly_Called); CHECK(parameter_correct); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_lambda_int) { auto lambda = [](int i, int j) { function_called = FunctionCalled::Lambda_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); }; etl::inplace_function ipf(lambda); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Lambda_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_inplace_function_lambda_int_run_time) { auto lambda = [](int i, int j) { function_called = FunctionCalled::Lambda_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); }; auto ipf = etl::make_inplace_function(lambda); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Lambda_Called); CHECK(parameter_correct); } #if ETL_USING_CPP17 //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_inplace_function_lambda_int_compile_time) { static auto lambda = [](int i, int j) { function_called = FunctionCalled::Lambda_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); }; auto ipf = etl::make_inplace_function(); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Lambda_Called); CHECK(parameter_correct); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_capturing_lambda_int) { int value = VALUE1; auto lambda = [value](int i, int j) -> int { function_called = FunctionCalled::Lambda_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); return value + VALUE1 + VALUE2; }; etl::inplace_function ipf(lambda); int result = ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Lambda_Called); CHECK(parameter_correct); CHECK_EQUAL(result, VALUE1 + VALUE1 + VALUE2); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_inplace_function_capturing_lambda_int_run_time) { int value = VALUE1; auto lambda = [value](int i, int j) -> int { function_called = FunctionCalled::Lambda_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); return value + VALUE1 + VALUE2; }; auto ipf = etl::make_inplace_function(lambda); int result = ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Lambda_Called); CHECK(parameter_correct); CHECK_EQUAL(result, VALUE1 + VALUE1 + VALUE2); } #if ETL_USING_CPP17 //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_inplace_function_capturing_lambda_int_compile_time) { int value = VALUE1; static auto lambda = [value](int i, int j) -> int { function_called = FunctionCalled::Lambda_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); return value + VALUE1 + VALUE2; }; auto ipf = etl::make_inplace_function(); int result = ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Lambda_Called); CHECK(parameter_correct); CHECK_EQUAL(result, VALUE1 + VALUE1 + VALUE2); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_member_operator_void) { Object object; etl::inplace_function ipf(object); ipf(); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Operator_Called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_member_operator_void_const) { const Object object; etl::inplace_function ipf(object); ipf(); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Operator_Const_Called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_inplace_function_member_operator_void_const) { const FunctorConst object; auto ipf = etl::make_inplace_function(object); ipf(); CHECK(function_called == FunctionCalled::Operator_Const_Called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_member_operator_void_compile_time) { auto ipf = etl::inplace_function::create(); ipf(); CHECK(function_called == FunctionCalled::Operator_Called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_member_operator_void_compile_time_const) { auto ipf = etl::inplace_function::create(); ipf(); CHECK(function_called == FunctionCalled::Operator_Const_Called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_inplace_functor_operator_void_run_time) { auto ipf = etl::make_inplace_function(functor_static); ipf(); CHECK(function_called == FunctionCalled::Operator_Called); } //************************************************************************* #if ETL_USING_CPP17 TEST_FIXTURE(SetupFixture, test_make_inplace_functor_operator_void_compile_time) { auto ipf = etl::make_inplace_function(); ipf(); CHECK(function_called == FunctionCalled::Operator_Called); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_inplace_function_member_operator_const_void_run_time) { auto ipf = etl::make_inplace_function(const_functor_static); ipf(); CHECK(function_called == FunctionCalled::Operator_Const_Called); } //************************************************************************* #if ETL_USING_CPP17 TEST_FIXTURE(SetupFixture, test_make_inplace_function_member_operator_const_void_compile_time) { auto ipf = etl::make_inplace_function(); ipf(); CHECK(function_called == FunctionCalled::Operator_Const_Called); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_assignment_member_operator_void) { Object object; etl::inplace_function ipf; ipf = object; ipf(); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Operator_Called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_member_void) { auto ipf = etl::inplace_function::create(); ipf(); CHECK(function_called == FunctionCalled::Member_Void_Called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_inplace_function_member_void_run_time) { static Object object; auto ipf = etl::make_inplace_function(&Object::member_void, object); ipf(); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Member_Void_Called); } #if ETL_USING_CPP17 //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_inplace_function_member_void_compile_time) { auto ipf = etl::make_inplace_function(); ipf(); CHECK(function_called == FunctionCalled::Member_Void_Called); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_member_void_const) { auto ipf = etl::inplace_function::create(); ipf(); CHECK(function_called == FunctionCalled::Member_Void_Const_Called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_inplace_function_member_void_const_run_time) { static const Object object; auto ipf = etl::make_inplace_function(&Object::member_void_const, object); ipf(); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Member_Void_Const_Called); } //************************************************************************* #if ETL_USING_CPP17 TEST_FIXTURE(SetupFixture, test_make_inplace_function_member_void_const_compile_time) { auto ipf = etl::make_inplace_function(); ipf(); CHECK(function_called == FunctionCalled::Member_Void_Const_Called); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_member_int) { auto ipf = etl::inplace_function::create(); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Member_Int_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_inplace_function_member_int_run_time) { Object object; auto ipf = etl::make_inplace_function(&Object::member_int, object); // Pass it by value to the inplace function. ipf(VALUE1, VALUE2); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Member_Int_Called); CHECK(parameter_correct); } //************************************************************************* #if ETL_USING_CPP17 TEST_FIXTURE(SetupFixture, test_make_inplace_function_member_int_compile_time) { auto ipf = etl::make_inplace_function(); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Member_Int_Called); CHECK(parameter_correct); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_member_int_const) { auto ipf = etl::inplace_function::create(); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Member_Int_Const_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_inplace_function_member_int_const_run_time) { Object object; auto ipf = etl::make_inplace_function(&Object::member_int_const, object); ipf(VALUE1, VALUE2); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Member_Int_Const_Called); CHECK(parameter_correct); } //************************************************************************* #if ETL_USING_CPP17 TEST_FIXTURE(SetupFixture, test_make_inplace_function_member_int_const_compile_time) { auto ipf = etl::make_inplace_function(); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Member_Int_Const_Called); CHECK(parameter_correct); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_member_reference) { Object object; auto ipf = etl::inplace_function(&Object::member_reference, object); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Member_Reference_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_member_reference_run_time) { Object object; auto ipf = etl::make_inplace_function(&Object::member_reference, object); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Member_Reference_Called); CHECK(parameter_correct); } #if ETL_USING_CPP17 //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_member_reference_compile_time) { auto ipf = etl::make_inplace_function(); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK(function_called == FunctionCalled::Member_Reference_Called); CHECK(parameter_correct); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_member_reference_const) { Object object; auto ipf = etl::inplace_function(&Object::member_reference_const, object); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Member_Reference_Const_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_member_reference_run_time_const) { Object object; auto ipf = etl::make_inplace_function(&Object::member_reference_const, object); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Member_Reference_Const_Called); CHECK(parameter_correct); } #if ETL_USING_CPP17 //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_member_reference_compile_time_const) { auto ipf = etl::make_inplace_function(); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK(function_called == FunctionCalled::Member_Reference_Const_Called); CHECK(parameter_correct); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_member_moveableonly) { Object object; auto ipf = etl::inplace_function(&Object::member_moveableonly, object); MoveableOnlyData data; data.ipf = VALUE1; ipf(std::move(data)); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Member_Moveableonly_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_member_static) { auto ipf = etl::inplace_function(Object::member_static); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK(function_called == FunctionCalled::Member_Static_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_member_static_run_time) { auto ipf = etl::make_inplace_function(Object::member_static); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK(function_called == FunctionCalled::Member_Static_Called); CHECK(parameter_correct); } #if ETL_USING_CPP17 //************************************************************************* TEST_FIXTURE(SetupFixture, test_make_member_static_compile_time) { auto ipf = etl::make_inplace_function(); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK(function_called == FunctionCalled::Member_Static_Called); CHECK(parameter_correct); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_set_free_int_run_time) { // Start with a destructible object to check that it is properly destroyed DestructibleMovableObject object; etl::inplace_function ipf(object); ipf.set(free_int); CHECK_TRUE(DestructibleMovableObject::destructor_called); ipf(VALUE1, VALUE2); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Free_Int_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_set_free_int_compile_time) { etl::inplace_function ipf; ipf.set<&free_int>(); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Free_Int_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_set_lambda_int_run_time) { etl::inplace_function ipf; auto lambda = [](int i, int j) { function_called = FunctionCalled::Lambda_Called; parameter_correct = (i == VALUE1) && (j == VALUE2); }; ipf.set(lambda); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Lambda_Called); CHECK(parameter_correct); } #if ETL_USING_CPP17 //************************************************************************* TEST_FIXTURE(SetupFixture, test_set_lambda_int_compile_time) { etl::inplace_function ipf; ipf.set(); ipf(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Lambda_Called); CHECK(parameter_correct); } #endif //************************************************************************* TEST_FIXTURE(SetupFixture, test_set_functor_run_time) { etl::inplace_function ipf; Functor functor; ipf.set(functor); ipf(); CHECK(function_called == FunctionCalled::Operator_Called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_set_functor_compile_time) { etl::inplace_function ipf; ipf.set(); ipf(); CHECK(function_called == FunctionCalled::Operator_Called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_set_member_reference_run_time) { Object object; etl::inplace_function ipf; ipf.set(&Object::member_reference, object); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Member_Reference_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_set_member_reference_compile_time) { Object object; etl::inplace_function ipf; ipf.set(&Object::member_reference, object); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK(function_called == FunctionCalled::Member_Reference_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_set_member_reference_const_run_time) { const Object object; etl::inplace_function ipf; ipf.set(&Object::member_reference_const, object); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Member_Reference_Const_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_set_member_reference_const_compile_time) { const Object object; etl::inplace_function ipf; ipf.set(&Object::member_reference_const, object); Data data; data.ipf = VALUE1; ipf(data, VALUE2); CHECK(function_called == FunctionCalled::Member_Reference_Const_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_copy_construct_run_time_contruction) { Object object; auto d1 = etl::inplace_function(&Object::member_int, object); auto d2(d1); d2(VALUE1, VALUE2); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK(function_called == FunctionCalled::Member_Int_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_copy_construct_compile_time_contruction) { auto d1 = etl::inplace_function::create(); auto d2(d1); d2(VALUE1, VALUE2); CHECK(function_called == FunctionCalled::Member_Int_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_copy_construct_different_size) { auto d1 = etl::inplace_function(free_int); auto d2 = etl::inplace_function(free_int); auto d3 = etl::inplace_function(free_int); auto d4 = etl::inplace_function(free_int); // These should not trigger any static asserts. decltype(d1) d1_1_copy(d1); decltype(d1) d1_4_copy(d4); decltype(d2) d2_1_copy(d1); decltype(d2) d2_2_copy(d2); decltype(d3) d3_3_copy(d3); decltype(d3) d3_4_copy(d4); CHECK_EQUAL(d1.size(), d1_1_copy.size()); CHECK_EQUAL(d1.alignment(), d1_1_copy.alignment()); CHECK_EQUAL(d1.size(), d1_4_copy.size()); CHECK_EQUAL(d1.alignment(), d1_4_copy.alignment()); CHECK_EQUAL(d2.size(), d2_1_copy.size()); CHECK_EQUAL(d2.alignment(), d2_1_copy.alignment()); CHECK_EQUAL(d2.size(), d2_2_copy.size()); CHECK_EQUAL(d2.alignment(), d2_2_copy.alignment()); CHECK_EQUAL(d3.size(), d3_3_copy.size()); CHECK_EQUAL(d3.alignment(), d3_3_copy.alignment()); CHECK_EQUAL(d3.size(), d3_4_copy.size()); CHECK_EQUAL(d3.alignment(), d3_4_copy.alignment()); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_copy_assignment) { DestructibleMovableObject object; auto d1 = etl::inplace_function(object); etl::inplace_function d2; d2 = d1; d2(VALUE1, VALUE2); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK_TRUE(DestructibleMovableObject::function_operator_called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_move_assignment) { DestructibleMovableObject object; auto d1 = etl::inplace_function(object); etl::inplace_function d2; d2 = etl::move(d1); d2(VALUE1, VALUE2); CHECK_EQUAL(0, object.call_count); // Ensure the original object is not modified. CHECK_TRUE(DestructibleMovableObject::function_operator_called); } //************************************************************************* TEST(test_vector_of_inplace_functions) { etl::vector, 5> vector_of_inplace_functions; vector_of_inplace_functions.push_back(etl::inplace_function::create()); CHECK_EQUAL(42, vector_of_inplace_functions.front()(21)); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_call_or_run_time_normal) { auto ipf = etl::inplace_function(normal); int result = ipf.call_or(alternative, VALUE1, VALUE2); CHECK_EQUAL(VALUE1 + VALUE2, result); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_call_or_run_time_alternative) { etl::inplace_function ipf; int result = ipf.call_or(alternative, VALUE1, VALUE2); CHECK_EQUAL(VALUE1 + VALUE2 + 1, result); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_call_or_compile_time_alternative) { etl::inplace_function ipf; int result = ipf.call_or(VALUE1, VALUE2); CHECK_EQUAL(VALUE1 + VALUE2 + 1, result); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_call_or_inplace_function_alternative) { etl::inplace_function ipf; auto alt = etl::inplace_function::create(); int result = ipf.call_or(alt, VALUE1, VALUE2); CHECK_EQUAL(VALUE1 + VALUE2 + 1, result); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_call_if_and_valid) { auto ipf = etl::inplace_function::create(); etl::optional result = ipf.call_if(VALUE1, VALUE2); CHECK(bool(result)); CHECK_EQUAL(VALUE1 + VALUE2, result.value()); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_call_if_and_not_valid) { etl::inplace_function ipf; etl::optional result = ipf.call_if(VALUE1, VALUE2); CHECK(!bool(result)); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_call_if_and_valid_returning_void) { auto ipf = etl::inplace_function::create(); bool was_called = ipf.call_if(VALUE1, VALUE2); CHECK(was_called); CHECK(function_called == FunctionCalled::Normal_Returning_Void_Called); CHECK(parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_call_if_and_not_valid_returning_void) { etl::inplace_function ipf; bool was_called = ipf.call_if(VALUE1, VALUE2); CHECK(!was_called); CHECK(function_called == FunctionCalled::Not_Called); CHECK(!parameter_correct); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_inplace_function_for) { FunctorSized<32> functor32; auto ipf = etl::inplace_function_for(functor32); int size = 0; function_called = FunctionCalled::Not_Called; size = ipf(); CHECK_EQUAL(functor32.size(), size); CHECK_TRUE(function_called == FunctionCalled::Operator_Called); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_inplace_function_for_any) { FunctorSized<8> functor8; FunctorSized<16> functor16; FunctorSized<32> functor32; auto ipf = etl::inplace_function_for_any, FunctorSized<16>, FunctorSized<32>>(); int size = 0; function_called = FunctionCalled::Not_Called; ipf.set(functor8); size = ipf(); CHECK_TRUE(function_called == FunctionCalled::Operator_Called); CHECK_EQUAL(functor8.size(), size); function_called = FunctionCalled::Not_Called; ipf.set(functor16); size = ipf(); CHECK_TRUE(function_called == FunctionCalled::Operator_Called); CHECK_EQUAL(functor16.size(), size); function_called = FunctionCalled::Not_Called; ipf.set(functor32); size = ipf(); CHECK_TRUE(function_called == FunctionCalled::Operator_Called); CHECK_EQUAL(functor32.size(), size); } //************************************************************************* TEST(make_inplace_function_from_free_function_name) { // Create from function name (decays to function pointer) auto ipf = etl::make_inplace_function(&free_int_return); CHECK_TRUE(bool(ipf)); CHECK_EQUAL(7, ipf(3, 4)); } //************************************************************************* TEST(make_inplace_function_from_free_function_pointer_variable) { // Create from explicit function pointer variable int (*fp)(int, int) = &free_int_return; auto ipf = etl::make_inplace_function(fp); CHECK_TRUE(ipf.is_valid()); CHECK_EQUAL(13, ipf(6, 7)); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_assignment_to_an_ipf_of_function_over_a_lambda_and_back) { etl::inplace_function ipf; int value = 1; auto lambda = [value](int i, int j) -> int { return value + i + j; }; int result = 0; ipf = lambda; result = ipf(2, 3); CHECK_EQUAL(1 + 2 + 3, result); ipf = normal; result = ipf(3, 4); CHECK_EQUAL(3 + 4, result); ipf = lambda; result = ipf(5, 6); CHECK_EQUAL(1 + 5 + 6, result); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_swap_valid_valid) { Object object; // ipf1 -> normal, ipf2 -> member_int etl::inplace_function ipf1(normal); etl::inplace_function ipf2(&Object::member_int, object); int r1_before = ipf1(VALUE1, VALUE2); int r2_before = ipf2(VALUE1, VALUE2); CHECK_EQUAL(VALUE1 + VALUE2, r1_before); CHECK_EQUAL(VALUE1 + VALUE2 + 1, r2_before); swap(ipf1, ipf2); // ADL swap uses member swap int r1_after = ipf1(VALUE1, VALUE2); int r2_after = ipf2(VALUE1, VALUE2); // After swap ipf1 should now hold 'member_int', ipf2 should hold 'normal' CHECK_EQUAL(VALUE1 + VALUE2 + 1, r1_after); CHECK_EQUAL(VALUE1 + VALUE2, r2_after); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_swap_valid_empty) { etl::inplace_function ipf_valid(normal); etl::inplace_function ipf_empty; // default constructed CHECK_TRUE(ipf_valid.is_valid()); CHECK_FALSE(ipf_empty.is_valid()); swap(ipf_valid, ipf_empty); // ipf_valid should now be empty, ipf_empty should now have 'normal' CHECK_FALSE(ipf_valid.is_valid()); CHECK_TRUE(ipf_empty.is_valid()); CHECK_EQUAL(VALUE1 + VALUE2, ipf_empty(VALUE1, VALUE2)); CHECK_THROW(ipf_valid(VALUE1, VALUE2), etl::inplace_function_uninitialized); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_swap_empty_empty) { etl::inplace_function ipf_empty1; // default constructed etl::inplace_function ipf_empty2; // default constructed CHECK_FALSE(ipf_empty1.is_valid()); CHECK_FALSE(ipf_empty2.is_valid()); swap(ipf_empty1, ipf_empty2); // Both should still be empty CHECK_FALSE(ipf_empty1.is_valid()); CHECK_FALSE(ipf_empty2.is_valid()); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_swap_self_noop) { etl::inplace_function ipf(normal); int before = ipf(VALUE1, VALUE2); ipf.swap(ipf); // self-swap should be a no-op int after = ipf(VALUE1, VALUE2); CHECK_EQUAL(before, after); CHECK_EQUAL(VALUE1 + VALUE2, after); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_swap_runtime_functor_and_function) { struct PlusOne { int operator()(int a, int b) { return a + b + 1; } } functor; etl::inplace_function ipf_functor(functor); etl::inplace_function ipf_function(normal); CHECK_EQUAL(VALUE1 + VALUE2 + 1, ipf_functor(VALUE1, VALUE2)); CHECK_EQUAL(VALUE1 + VALUE2, ipf_function(VALUE1, VALUE2)); ipf_functor.swap(ipf_function); CHECK_EQUAL(VALUE1 + VALUE2, ipf_functor(VALUE1, VALUE2)); // now holds 'normal' CHECK_EQUAL(VALUE1 + VALUE2 + 1, ipf_function(VALUE1, VALUE2)); // now holds functor } #if defined(ETL_NEGATIVE_TEST_INPLACE_FUNCTION_BAD_RETURN) //************************************************************************* // Triggers: return type not convertible (void -> int) TEST(test_inplace_function_static_assert_bad_return) { auto bad = [](int) { /* returns void */ }; // static_assert in lambda_stub/const_lambda_stub should trigger: // "etl::inplace_function: bound lambda/functor is not compatible with the inplace_function signature" auto ipf = etl::inplace_function(bad); (void)ipf; } #endif #if defined(ETL_NEGATIVE_TEST_INPLACE_FUNCTION_RVALUE_PARAM_MISMATCH_NONCONST) //************************************************************************* // Triggers: parameter ref-qualification mismatch (expects rvalue, lambda takes lvalue ref) TEST(test_inplace_function_static_assert_param_mismatch_nonconst) { auto bad = [](int&) { /* needs lvalue */ }; // Not invocable with int&&, so is_compatible_callable is false, so static_assert triggers auto ipf = etl::inplace_function(bad); (void)ipf; } #endif #if defined(ETL_NEGATIVE_TEST_INPLACE_FUNCTION_RVALUE_PARAM_MISMATCH_CONST) //************************************************************************* // Same as above, but binds a const lambda to hit const_lambda_stub TEST(test_inplace_function_static_assert_param_mismatch_const) { const auto bad = [](int&) { /* needs lvalue */ }; // Not invocable with int&&, so is_compatible_callable is false, so static_assert triggers auto ipf = etl::inplace_function(bad); (void)ipf; } #endif } }