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object-introspection/test/test_name_gen.cpp

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TypeGraph: Add core code This code mostly works, but is obviously not complete. This commit just adds the code and tests, but does not enable it in OID or OIL.
2023-05-26 13:52:09 +01:00
#include <gtest/gtest.h>
#include "oi/ContainerInfo.h"
#include "oi/type_graph/NameGen.h"
#include "oi/type_graph/Types.h"
using namespace type_graph;
Container getVector() {
ContainerInfo info{"std::vector", SEQ_TYPE, "vector"};
return Container{info, 24};
}
TEST(NameGenTest, ClassParams) {
auto myparam1 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto myparam2 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto myclass = std::make_unique<Class>(Class::Kind::Struct,
"MyClass<MyParam, MyParam>", 13);
myclass->templateParams.push_back(myparam1.get());
myclass->templateParams.push_back(myparam2.get());
NameGen nameGen;
nameGen.generateNames({*myclass});
EXPECT_EQ(myclass->name(), "MyClass_0");
EXPECT_EQ(myparam1->name(), "MyParam_1");
EXPECT_EQ(myparam2->name(), "MyParam_2");
}
TEST(NameGenTest, ClassContainerParam) {
auto myint = std::make_unique<Primitive>(Primitive::Kind::Int32);
auto myparam = getVector();
myparam.templateParams.push_back(myint.get());
auto myclass = std::make_unique<Class>(Class::Kind::Struct, "MyClass", 13);
myclass->templateParams.push_back(&myparam);
NameGen nameGen;
nameGen.generateNames({*myclass});
EXPECT_EQ(myclass->name(), "MyClass_0");
EXPECT_EQ(myparam.name(), "std::vector<int32_t>");
}
TEST(NameGenTest, ClassParents) {
auto myparent1 = std::make_unique<Class>(Class::Kind::Struct, "MyParent", 13);
auto myparent2 = std::make_unique<Class>(Class::Kind::Struct, "MyParent", 13);
auto myclass = std::make_unique<Class>(Class::Kind::Struct, "MyClass", 13);
myclass->parents.push_back(Parent{myparent1.get(), 0});
myclass->parents.push_back(Parent{myparent2.get(), 0});
NameGen nameGen;
nameGen.generateNames({*myclass});
EXPECT_EQ(myclass->name(), "MyClass_0");
EXPECT_EQ(myparent1->name(), "MyParent_1");
EXPECT_EQ(myparent2->name(), "MyParent_2");
}
TEST(NameGenTest, ClassMembers) {
auto mymember1 = std::make_unique<Class>(Class::Kind::Struct, "MyMember", 13);
auto mymember2 = std::make_unique<Class>(Class::Kind::Struct, "MyMember", 13);
auto myclass = std::make_unique<Class>(Class::Kind::Struct, "MyClass", 13);
// A class may end up with members sharing a name after flattening
myclass->members.push_back(Member{mymember1.get(), "mem", 0});
myclass->members.push_back(Member{mymember2.get(), "mem", 0});
NameGen nameGen;
nameGen.generateNames({*myclass});
EXPECT_EQ(myclass->name(), "MyClass_0");
EXPECT_EQ(myclass->members[0].name, "mem_0");
EXPECT_EQ(myclass->members[1].name, "mem_1");
EXPECT_EQ(mymember1->name(), "MyMember_1");
EXPECT_EQ(mymember2->name(), "MyMember_2");
}
TEST(NameGenTest, ClassChildren) {
auto mychild1 = std::make_unique<Class>(Class::Kind::Struct, "MyChild", 13);
auto mychild2 = std::make_unique<Class>(Class::Kind::Struct, "MyChild", 13);
auto myclass = std::make_unique<Class>(Class::Kind::Struct, "MyClass", 13);
myclass->children.push_back(*mychild1);
myclass->children.push_back(*mychild2);
NameGen nameGen;
nameGen.generateNames({*myclass});
EXPECT_EQ(myclass->name(), "MyClass_0");
EXPECT_EQ(mychild1->name(), "MyChild_1");
EXPECT_EQ(mychild2->name(), "MyChild_2");
}
TEST(NameGenTest, ContainerParams) {
auto myparam1 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto myparam2 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto mycontainer = getVector();
mycontainer.templateParams.push_back(myparam1.get());
mycontainer.templateParams.push_back(myparam2.get());
NameGen nameGen;
nameGen.generateNames({mycontainer});
EXPECT_EQ(myparam1->name(), "MyParam_0");
EXPECT_EQ(myparam2->name(), "MyParam_1");
EXPECT_EQ(mycontainer.name(), "std::vector<MyParam_0, MyParam_1>");
}
TEST(NameGenTest, ContainerParamsDuplicates) {
auto myparam = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto mycontainer = getVector();
mycontainer.templateParams.push_back(myparam.get());
mycontainer.templateParams.push_back(myparam.get());
NameGen nameGen;
nameGen.generateNames({mycontainer});
EXPECT_EQ(myparam->name(), "MyParam_0");
EXPECT_EQ(mycontainer.name(), "std::vector<MyParam_0, MyParam_0>");
}
TEST(NameGenTest, ContainerParamsDuplicatesDeep) {
auto myparam = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto mycontainer1 = getVector();
mycontainer1.templateParams.push_back(myparam.get());
auto mycontainer2 = getVector();
mycontainer2.templateParams.push_back(myparam.get());
mycontainer2.templateParams.push_back(&mycontainer1);
NameGen nameGen;
nameGen.generateNames({mycontainer2});
EXPECT_EQ(myparam->name(), "MyParam_0");
EXPECT_EQ(mycontainer1.name(), "std::vector<MyParam_0>");
EXPECT_EQ(mycontainer2.name(),
"std::vector<MyParam_0, std::vector<MyParam_0>>");
}
TEST(NameGenTest, ContainerParamsDuplicatesAcrossContainers) {
auto myparam1 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto myparam2 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto myparam3 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto mycontainer1 = getVector();
mycontainer1.templateParams.push_back(myparam1.get());
mycontainer1.templateParams.push_back(myparam2.get());
auto mycontainer2 = getVector();
mycontainer2.templateParams.push_back(myparam2.get());
mycontainer2.templateParams.push_back(myparam3.get());
NameGen nameGen;
nameGen.generateNames({mycontainer1, mycontainer2});
EXPECT_EQ(myparam1->name(), "MyParam_0");
EXPECT_EQ(myparam2->name(), "MyParam_1");
EXPECT_EQ(myparam3->name(), "MyParam_2");
EXPECT_EQ(mycontainer1.name(), "std::vector<MyParam_0, MyParam_1>");
EXPECT_EQ(mycontainer2.name(), "std::vector<MyParam_1, MyParam_2>");
}
TEST(NameGenTest, Array) {
auto myparam1 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto myparam2 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto mycontainer = getVector();
mycontainer.templateParams.push_back(myparam1.get());
mycontainer.templateParams.push_back(myparam2.get());
auto myarray = std::make_unique<Array>(&mycontainer, 5);
NameGen nameGen;
nameGen.generateNames({*myarray});
EXPECT_EQ(myparam1->name(), "MyParam_0");
EXPECT_EQ(myparam2->name(), "MyParam_1");
EXPECT_EQ(mycontainer.name(), "std::vector<MyParam_0, MyParam_1>");
EXPECT_EQ(myarray->name(), "OIArray<std::vector<MyParam_0, MyParam_1>, 5>");
}
TEST(NameGenTest, Typedef) {
auto myparam1 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto myparam2 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto mycontainer = getVector();
mycontainer.templateParams.push_back(myparam1.get());
mycontainer.templateParams.push_back(myparam2.get());
auto mytypedef = std::make_unique<Typedef>("MyTypedef", &mycontainer);
NameGen nameGen;
nameGen.generateNames({*mytypedef});
EXPECT_EQ(myparam1->name(), "MyParam_0");
EXPECT_EQ(myparam2->name(), "MyParam_1");
EXPECT_EQ(mycontainer.name(), "std::vector<MyParam_0, MyParam_1>");
EXPECT_EQ(mytypedef->name(), "MyTypedef");
}
TEST(NameGenTest, Pointer) {
auto myparam1 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto myparam2 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto mycontainer = getVector();
mycontainer.templateParams.push_back(myparam1.get());
mycontainer.templateParams.push_back(myparam2.get());
auto mypointer = std::make_unique<Pointer>(&mycontainer);
NameGen nameGen;
nameGen.generateNames({*mypointer});
EXPECT_EQ(myparam1->name(), "MyParam_0");
EXPECT_EQ(myparam2->name(), "MyParam_1");
EXPECT_EQ(mycontainer.name(), "std::vector<MyParam_0, MyParam_1>");
EXPECT_EQ(mypointer->name(), "std::vector<MyParam_0, MyParam_1>*");
}
TEST(NameGenTest, DummyAllocator) {
auto myparam1 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto myparam2 = std::make_unique<Class>(Class::Kind::Struct, "MyParam", 13);
auto mycontainer = getVector();
mycontainer.templateParams.push_back(myparam1.get());
mycontainer.templateParams.push_back(myparam2.get());
auto myalloc = std::make_unique<DummyAllocator>(mycontainer, 0, 0);
NameGen nameGen;
nameGen.generateNames({*myalloc});
EXPECT_EQ(myparam1->name(), "MyParam_0");
EXPECT_EQ(myparam2->name(), "MyParam_1");
EXPECT_EQ(mycontainer.name(), "std::vector<MyParam_0, MyParam_1>");
EXPECT_EQ(myalloc->name(),
"std::allocator<std::vector<MyParam_0, MyParam_1>>");
}
TEST(NameGenTest, Cycle) {
auto classA = std::make_unique<Class>(Class::Kind::Class, "ClassA", 69);
auto classB = std::make_unique<Class>(Class::Kind::Class, "ClassB", 69);
auto ptrA = std::make_unique<Pointer>(classA.get());
classA->members.push_back(Member(classB.get(), "b", 0));
classB->members.push_back(Member(ptrA.get(), "a", 0));
NameGen nameGen;
nameGen.generateNames({*classA});
EXPECT_EQ(classA->name(), "ClassA_0");
EXPECT_EQ(classB->name(), "ClassB_1");
}
TEST(NameGenTest, ContainerCycle) {
auto container = getVector();
auto myclass = std::make_unique<Class>(Class::Kind::Class, "MyClass", 69);
myclass->members.push_back(Member(&container, "c", 0));
container.templateParams.push_back(TemplateParam(myclass.get()));
NameGen nameGen;
nameGen.generateNames({*myclass});
EXPECT_EQ(myclass->name(), "MyClass_0");
EXPECT_EQ(container.name(), "std::vector<MyClass_0>");
}
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