#include #include #include "oi/type_graph/TopoSorter.h" #include "oi/type_graph/Types.h" #include "test/type_graph_utils.h" using namespace type_graph; template using ref = std::reference_wrapper; void test(const std::vector> input, std::string expected) { TopoSorter topo; topo.sort(input); std::string output; for (const Type& type : topo.sortedTypes()) { output += type.name(); output.push_back('\n'); } boost::trim(expected); boost::trim(output); EXPECT_EQ(expected, output); } TEST(TopoSorterTest, SingleType) { auto myenum = Enum{"MyEnum", 4}; test({myenum}, "MyEnum"); } TEST(TopoSorterTest, UnrelatedTypes) { auto mystruct = Class{0, Class::Kind::Struct, "MyStruct", 13}; auto myenum = Enum{"MyEnum", 4}; auto myclass = Class{1, Class::Kind::Class, "MyClass", 69}; // Try the same input in a few different orders and ensure they output order // matches the input order test({mystruct, myenum, myclass}, R"( MyStruct MyEnum MyClass )"); test({myenum, mystruct, myclass}, R"( MyEnum MyStruct MyClass )"); test({myclass, myenum, mystruct}, R"( MyClass MyEnum MyStruct )"); } TEST(TopoSorterTest, ClassMembers) { auto mystruct = Class{0, Class::Kind::Struct, "MyStruct", 13}; auto myenum = Enum{"MyEnum", 4}; auto myclass = Class{1, Class::Kind::Class, "MyClass", 69}; myclass.members.push_back(Member{mystruct, "n", 0}); myclass.members.push_back(Member{myenum, "e", 4}); test({myclass}, R"( MyStruct MyEnum MyClass )"); } TEST(TopoSorterTest, Parents) { auto myparent = Class{0, Class::Kind::Struct, "MyParent", 13}; auto myclass = Class{1, Class::Kind::Class, "MyClass", 69}; myclass.parents.push_back(Parent{myparent, 0}); test({myclass}, R"( MyParent MyClass )"); } TEST(TopoSorterTest, TemplateParams) { auto myparam = Class{0, Class::Kind::Struct, "MyParam", 13}; auto myclass = Class{1, Class::Kind::Class, "MyClass", 69}; myclass.templateParams.push_back(TemplateParam{myparam}); test({myclass}, R"( MyParam MyClass )"); } TEST(TopoSorterTest, TemplateParamValue) { auto myclass = Class{1, Class::Kind::Class, "MyClass", 69}; auto myint = Primitive{Primitive::Kind::Int32}; myclass.templateParams.push_back(TemplateParam{myint, "123"}); test({myclass}, R"( int32_t MyClass )"); } TEST(TopoSorterTest, Children) { auto mymember = Class{0, Class::Kind::Struct, "MyMember", 13}; auto mychild = Class{1, Class::Kind::Struct, "MyChild", 13}; mychild.members.push_back(Member{mymember, "mymember", 0}); auto myclass = Class{2, Class::Kind::Class, "MyClass", 69}; mychild.parents.push_back(Parent{myclass, 0}); myclass.children.push_back(mychild); std::vector>> inputs = { {myclass}, {mychild}, }; // Same as for pointer cycles, outputs must be in the same order no matter // which type we start the sort on. for (const auto& input : inputs) { test(input, R"( MyClass MyMember MyChild )"); } } TEST(TopoSorterTest, ChildrenCycle) { // class MyParent {}; // class ClassA { // MyParent p; // }; // class MyChild : MyParent { // A a; // }; auto myparent = Class{0, Class::Kind::Class, "MyParent", 69}; auto classA = Class{1, Class::Kind::Struct, "ClassA", 5}; auto mychild = Class{2, Class::Kind::Struct, "MyChild", 13}; mychild.parents.push_back(Parent{myparent, 0}); myparent.children.push_back(mychild); mychild.members.push_back(Member{classA, "a", 0}); classA.members.push_back(Member{myparent, "p", 0}); std::vector>> inputs = { {myparent}, {classA}, {mychild}, }; // Same as for pointer cycles, outputs must be in the same order no matter // which type we start the sort on. for (const auto& input : inputs) { test(input, R"( MyParent ClassA MyChild )"); } } TEST(TopoSorterTest, Containers) { auto myparam1 = Class{1, Class::Kind::Struct, "MyParam1", 13}; auto myparam2 = Class{2, Class::Kind::Struct, "MyParam2", 13}; auto mycontainer = getMap(); mycontainer.templateParams.push_back((myparam1)); mycontainer.templateParams.push_back((myparam2)); test({mycontainer}, R"( MyParam1 MyParam2 std::map )"); } TEST(TopoSorterTest, ContainersVector) { // std::vector allows a forward declared type auto myparam = Class{1, Class::Kind::Struct, "MyParam", 13}; auto myalloc = Class{1, Class::Kind::Struct, "MyAlloc", 0}; auto mycontainer = getVector(); mycontainer.templateParams.push_back((myparam)); mycontainer.templateParams.push_back((myalloc)); test({mycontainer}, R"( MyAlloc std::vector MyParam )"); } TEST(TopoSorterTest, ContainersList) { // std::list allows a forward declared type auto myparam = Class{1, Class::Kind::Struct, "MyParam", 13}; auto myalloc = Class{1, Class::Kind::Struct, "MyAlloc", 0}; auto mycontainer = getList(); mycontainer.templateParams.push_back((myparam)); mycontainer.templateParams.push_back((myalloc)); test({mycontainer}, R"( MyAlloc std::list MyParam )"); } TEST(TopoSorterTest, Arrays) { auto myclass = Class{0, Class::Kind::Class, "MyClass", 69}; auto myarray = Array{1, myclass, 10}; test({myarray}, "MyClass\n"); } TEST(TopoSorterTest, Typedef) { auto classA = Class{0, Class::Kind::Class, "ClassA", 8}; auto aliasA = Typedef{1, "aliasA", classA}; test({aliasA}, R"( ClassA aliasA )"); } TEST(TopoSorterTest, Pointers) { // Pointers do not require pointee types to be defined first auto classA = Class{0, Class::Kind::Class, "ClassA", 69}; auto mypointer = Pointer{1, classA}; auto myclass = Class{2, Class::Kind::Class, "MyClass", 69}; myclass.members.push_back(Member{mypointer, "ptr", 0}); test({myclass}, R"( MyClass ClassA )"); } TEST(TopoSorterTest, PointerCycle) { auto classA = Class{0, Class::Kind::Class, "ClassA", 69}; auto classB = Class{1, Class::Kind::Class, "ClassB", 69}; auto ptrA = Pointer{2, classA}; classA.members.push_back(Member{classB, "b", 0}); classB.members.push_back(Member{ptrA, "a", 0}); std::vector>> inputs = { {classA}, {classB}, {ptrA}, }; // No matter which node we start the topological sort with, we must always get // the same sorted order for ClassA and ClassB. for (const auto& input : inputs) { test(input, R"( ClassB ClassA )"); } } TEST(TopoSorterTest, PointerToTypedef) { auto classA = Class{0, Class::Kind::Class, "ClassA", 8}; auto aliasA = Typedef{1, "aliasA", classA}; auto mypointer = Pointer{1, aliasA}; auto myclass = Class{2, Class::Kind::Class, "MyClass", 69}; myclass.members.push_back(Member{mypointer, "ptrToTypedef", 0}); test({myclass}, R"( ClassA aliasA MyClass )"); } TEST(TopoSorterTest, TwoDeep) { auto myunion = Class{0, Class::Kind::Union, "MyUnion", 7}; auto mystruct = Class{1, Class::Kind::Struct, "MyStruct", 13}; auto myclass = Class{2, Class::Kind::Class, "MyClass", 69}; myclass.members.push_back(Member{mystruct, "mystruct", 0}); mystruct.members.push_back(Member{myunion, "myunion", 0}); test({myclass}, R"( MyUnion MyStruct MyClass )"); } TEST(TopoSorterTest, MultiplePaths) { auto myunion = Class{0, Class::Kind::Union, "MyUnion", 7}; auto mystruct = Class{1, Class::Kind::Struct, "MyStruct", 13}; auto myclass = Class{2, Class::Kind::Class, "MyClass", 69}; myclass.members.push_back(Member{mystruct, "mystruct", 0}); myclass.members.push_back(Member{myunion, "myunion1", 0}); mystruct.members.push_back(Member{myunion, "myunion2", 0}); test({myclass}, R"( MyUnion MyStruct MyClass )"); } TEST(TopoSorterTest, CaptureKeys) { auto myparam1 = Class{1, Class::Kind::Struct, "MyParam1", 13}; auto myparam2 = Class{2, Class::Kind::Struct, "MyParam2", 13}; auto mycontainer = getMap(); mycontainer.templateParams.push_back((myparam1)); mycontainer.templateParams.push_back((myparam2)); auto captureKeys = CaptureKeys{mycontainer, mycontainer.containerInfo_}; test({captureKeys}, R"( MyParam1 MyParam2 std::map OICaptureKeys )"); }