//===-- PythonDataObjectsTests.cpp ------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "gtest/gtest.h" #include "lldb/Host/File.h" #include "lldb/Host/FileSystem.h" #include "lldb/Host/HostInfo.h" #include "Plugins/ScriptInterpreter/Python/lldb-python.h" #include "Plugins/ScriptInterpreter/Python/PythonDataObjects.h" #include "Plugins/ScriptInterpreter/Python/ScriptInterpreterPython.h" #include "PythonTestSuite.h" using namespace lldb_private; class PythonDataObjectsTest : public PythonTestSuite { public: void SetUp() override { PythonTestSuite::SetUp(); PythonString sys_module("sys"); m_sys_module.Reset(PyRefType::Owned, PyImport_Import(sys_module.get())); m_main_module = PythonModule::MainModule(); m_builtins_module = PythonModule::BuiltinsModule(); } void TearDown() override { m_sys_module.Reset(); m_main_module.Reset(); m_builtins_module.Reset(); PythonTestSuite::TearDown(); } protected: PythonModule m_sys_module; PythonModule m_main_module; PythonModule m_builtins_module; }; TEST_F(PythonDataObjectsTest, TestOwnedReferences) { // After creating a new object, the refcount should be >= 1 PyObject *obj = PyLong_FromLong(3); Py_ssize_t original_refcnt = obj->ob_refcnt; EXPECT_LE(1, original_refcnt); // If we take an owned reference, the refcount should be the same PythonObject owned_long(PyRefType::Owned, obj); EXPECT_EQ(original_refcnt, owned_long.get()->ob_refcnt); // Take another reference and verify that the refcount increases by 1 PythonObject strong_ref(owned_long); EXPECT_EQ(original_refcnt + 1, strong_ref.get()->ob_refcnt); // If we reset the first one, the refcount should be the original value. owned_long.Reset(); EXPECT_EQ(original_refcnt, strong_ref.get()->ob_refcnt); } TEST_F(PythonDataObjectsTest, TestResetting) { PythonDictionary dict(PyInitialValue::Empty); PyObject *new_dict = PyDict_New(); dict.Reset(PyRefType::Owned, new_dict); EXPECT_EQ(new_dict, dict.get()); dict.Reset(PyRefType::Owned, nullptr); EXPECT_EQ(nullptr, dict.get()); dict.Reset(PyRefType::Owned, PyDict_New()); EXPECT_NE(nullptr, dict.get()); dict.Reset(); EXPECT_EQ(nullptr, dict.get()); } TEST_F(PythonDataObjectsTest, TestBorrowedReferences) { PythonInteger long_value(PyRefType::Owned, PyLong_FromLong(3)); Py_ssize_t original_refcnt = long_value.get()->ob_refcnt; EXPECT_LE(1, original_refcnt); PythonInteger borrowed_long(PyRefType::Borrowed, long_value.get()); EXPECT_EQ(original_refcnt + 1, borrowed_long.get()->ob_refcnt); } TEST_F(PythonDataObjectsTest, TestGlobalNameResolutionNoDot) { PythonObject sys_module = m_main_module.ResolveName("sys"); EXPECT_EQ(m_sys_module.get(), sys_module.get()); EXPECT_TRUE(sys_module.IsAllocated()); EXPECT_TRUE(PythonModule::Check(sys_module.get())); } TEST_F(PythonDataObjectsTest, TestModuleNameResolutionNoDot) { PythonObject sys_path = m_sys_module.ResolveName("path"); PythonObject sys_version_info = m_sys_module.ResolveName("version_info"); EXPECT_TRUE(sys_path.IsAllocated()); EXPECT_TRUE(sys_version_info.IsAllocated()); EXPECT_TRUE(PythonList::Check(sys_path.get())); } TEST_F(PythonDataObjectsTest, TestTypeNameResolutionNoDot) { PythonObject sys_version_info = m_sys_module.ResolveName("version_info"); PythonObject version_info_type(PyRefType::Owned, PyObject_Type(sys_version_info.get())); EXPECT_TRUE(version_info_type.IsAllocated()); PythonObject major_version_field = version_info_type.ResolveName("major"); EXPECT_TRUE(major_version_field.IsAllocated()); } TEST_F(PythonDataObjectsTest, TestInstanceNameResolutionNoDot) { PythonObject sys_version_info = m_sys_module.ResolveName("version_info"); PythonObject major_version_field = sys_version_info.ResolveName("major"); PythonObject minor_version_field = sys_version_info.ResolveName("minor"); EXPECT_TRUE(major_version_field.IsAllocated()); EXPECT_TRUE(minor_version_field.IsAllocated()); PythonInteger major_version_value = major_version_field.AsType(); PythonInteger minor_version_value = minor_version_field.AsType(); EXPECT_EQ(PY_MAJOR_VERSION, major_version_value.GetInteger()); EXPECT_EQ(PY_MINOR_VERSION, minor_version_value.GetInteger()); } TEST_F(PythonDataObjectsTest, TestGlobalNameResolutionWithDot) { PythonObject sys_path = m_main_module.ResolveName("sys.path"); EXPECT_TRUE(sys_path.IsAllocated()); EXPECT_TRUE(PythonList::Check(sys_path.get())); PythonInteger version_major = m_main_module.ResolveName( "sys.version_info.major").AsType(); PythonInteger version_minor = m_main_module.ResolveName( "sys.version_info.minor").AsType(); EXPECT_TRUE(version_major.IsAllocated()); EXPECT_TRUE(version_minor.IsAllocated()); EXPECT_EQ(PY_MAJOR_VERSION, version_major.GetInteger()); EXPECT_EQ(PY_MINOR_VERSION, version_minor.GetInteger()); } TEST_F(PythonDataObjectsTest, TestDictionaryResolutionWithDot) { // Make up a custom dictionary with "sys" pointing to the `sys` module. PythonDictionary dict(PyInitialValue::Empty); dict.SetItemForKey(PythonString("sys"), m_sys_module); // Now use that dictionary to resolve `sys.version_info.major` PythonInteger version_major = PythonObject::ResolveNameWithDictionary( "sys.version_info.major", dict).AsType(); PythonInteger version_minor = PythonObject::ResolveNameWithDictionary( "sys.version_info.minor", dict).AsType(); EXPECT_EQ(PY_MAJOR_VERSION, version_major.GetInteger()); EXPECT_EQ(PY_MINOR_VERSION, version_minor.GetInteger()); } TEST_F(PythonDataObjectsTest, TestPythonInteger) { // Test that integers behave correctly when wrapped by a PythonInteger. #if PY_MAJOR_VERSION < 3 // Verify that `PythonInt` works correctly when given a PyInt object. // Note that PyInt doesn't exist in Python 3.x, so this is only for 2.x PyObject *py_int = PyInt_FromLong(12); EXPECT_TRUE(PythonInteger::Check(py_int)); PythonInteger python_int(PyRefType::Owned, py_int); EXPECT_EQ(PyObjectType::Integer, python_int.GetObjectType()); EXPECT_EQ(12, python_int.GetInteger()); #endif // Verify that `PythonInteger` works correctly when given a PyLong object. PyObject *py_long = PyLong_FromLong(12); EXPECT_TRUE(PythonInteger::Check(py_long)); PythonInteger python_long(PyRefType::Owned, py_long); EXPECT_EQ(PyObjectType::Integer, python_long.GetObjectType()); // Verify that you can reset the value and that it is reflected properly. python_long.SetInteger(40); EXPECT_EQ(40, python_long.GetInteger()); // Test that creating a `PythonInteger` object works correctly with the // int constructor. PythonInteger constructed_int(7); EXPECT_EQ(7, constructed_int.GetInteger()); } TEST_F(PythonDataObjectsTest, TestPythonBytes) { static const char *test_bytes = "PythonDataObjectsTest::TestPythonBytes"; PyObject *py_bytes = PyBytes_FromString(test_bytes); EXPECT_TRUE(PythonBytes::Check(py_bytes)); PythonBytes python_bytes(PyRefType::Owned, py_bytes); #if PY_MAJOR_VERSION < 3 EXPECT_TRUE(PythonString::Check(py_bytes)); EXPECT_EQ(PyObjectType::String, python_bytes.GetObjectType()); #else EXPECT_FALSE(PythonString::Check(py_bytes)); EXPECT_EQ(PyObjectType::Bytes, python_bytes.GetObjectType()); #endif llvm::ArrayRef bytes = python_bytes.GetBytes(); EXPECT_EQ(bytes.size(), strlen(test_bytes)); EXPECT_EQ(0, ::memcmp(bytes.data(), test_bytes, bytes.size())); } TEST_F(PythonDataObjectsTest, TestPythonByteArray) { static const char *test_bytes = "PythonDataObjectsTest::TestPythonByteArray"; llvm::StringRef orig_bytes(test_bytes); PyObject *py_bytes = PyByteArray_FromStringAndSize(test_bytes, orig_bytes.size()); EXPECT_TRUE(PythonByteArray::Check(py_bytes)); PythonByteArray python_bytes(PyRefType::Owned, py_bytes); EXPECT_EQ(PyObjectType::ByteArray, python_bytes.GetObjectType()); llvm::ArrayRef after_bytes = python_bytes.GetBytes(); EXPECT_EQ(after_bytes.size(), orig_bytes.size()); EXPECT_EQ(0, ::memcmp(orig_bytes.data(), test_bytes, orig_bytes.size())); } TEST_F(PythonDataObjectsTest, TestPythonString) { // Test that strings behave correctly when wrapped by a PythonString. static const char *test_string = "PythonDataObjectsTest::TestPythonString1"; static const char *test_string2 = "PythonDataObjectsTest::TestPythonString2"; #if PY_MAJOR_VERSION < 3 // Verify that `PythonString` works correctly when given a PyString object. // Note that PyString doesn't exist in Python 3.x, so this is only for 2.x PyObject *py_string = PyString_FromString(test_string); EXPECT_TRUE(PythonString::Check(py_string)); PythonString python_string(PyRefType::Owned, py_string); EXPECT_EQ(PyObjectType::String, python_string.GetObjectType()); EXPECT_STREQ(test_string, python_string.GetString().data()); #else // Verify that `PythonString` works correctly when given a PyUnicode object. PyObject *py_unicode = PyUnicode_FromString(test_string); EXPECT_TRUE(PythonString::Check(py_unicode)); PythonString python_unicode(PyRefType::Owned, py_unicode); EXPECT_EQ(PyObjectType::String, python_unicode.GetObjectType()); EXPECT_STREQ(test_string, python_unicode.GetString().data()); #endif // Test that creating a `PythonString` object works correctly with the // string constructor PythonString constructed_string(test_string2); EXPECT_STREQ(test_string2, constructed_string.GetString().str().c_str()); } TEST_F(PythonDataObjectsTest, TestPythonStringToStr) { const char *c_str = "PythonDataObjectsTest::TestPythonStringToStr"; PythonString str(c_str); EXPECT_STREQ(c_str, str.GetString().str().c_str()); PythonString str_str = str.Str(); EXPECT_STREQ(c_str, str_str.GetString().str().c_str()); } TEST_F(PythonDataObjectsTest, TestPythonIntegerToStr) { } TEST_F(PythonDataObjectsTest, TestPythonIntegerToStructuredInteger) { PythonInteger integer(7); auto int_sp = integer.CreateStructuredInteger(); EXPECT_EQ(7U, int_sp->GetValue()); } TEST_F(PythonDataObjectsTest, TestPythonStringToStructuredString) { static const char *test_string = "PythonDataObjectsTest::TestPythonStringToStructuredString"; PythonString constructed_string(test_string); auto string_sp = constructed_string.CreateStructuredString(); EXPECT_STREQ(test_string, string_sp->GetStringValue().c_str()); } TEST_F(PythonDataObjectsTest, TestPythonListValueEquality) { // Test that a list which is built through the native // Python API behaves correctly when wrapped by a PythonList. static const unsigned list_size = 2; static const long long_value0 = 5; static const char *const string_value1 = "String Index 1"; PyObject *py_list = PyList_New(2); EXPECT_TRUE(PythonList::Check(py_list)); PythonList list(PyRefType::Owned, py_list); PythonObject list_items[list_size]; list_items[0].Reset(PythonInteger(long_value0)); list_items[1].Reset(PythonString(string_value1)); for (unsigned i = 0; i < list_size; ++i) list.SetItemAtIndex(i, list_items[i]); EXPECT_EQ(list_size, list.GetSize()); EXPECT_EQ(PyObjectType::List, list.GetObjectType()); // Verify that the values match PythonObject chk_value1 = list.GetItemAtIndex(0); PythonObject chk_value2 = list.GetItemAtIndex(1); EXPECT_TRUE(PythonInteger::Check(chk_value1.get())); EXPECT_TRUE(PythonString::Check(chk_value2.get())); PythonInteger chk_int(PyRefType::Borrowed, chk_value1.get()); PythonString chk_str(PyRefType::Borrowed, chk_value2.get()); EXPECT_EQ(long_value0, chk_int.GetInteger()); EXPECT_STREQ(string_value1, chk_str.GetString().str().c_str()); } TEST_F(PythonDataObjectsTest, TestPythonListManipulation) { // Test that manipulation of a PythonList behaves correctly when // wrapped by a PythonDictionary. static const long long_value0 = 5; static const char *const string_value1 = "String Index 1"; PythonList list(PyInitialValue::Empty); PythonInteger integer(long_value0); PythonString string(string_value1); list.AppendItem(integer); list.AppendItem(string); EXPECT_EQ(2U, list.GetSize()); // Verify that the values match PythonObject chk_value1 = list.GetItemAtIndex(0); PythonObject chk_value2 = list.GetItemAtIndex(1); EXPECT_TRUE(PythonInteger::Check(chk_value1.get())); EXPECT_TRUE(PythonString::Check(chk_value2.get())); PythonInteger chk_int(PyRefType::Borrowed, chk_value1.get()); PythonString chk_str(PyRefType::Borrowed, chk_value2.get()); EXPECT_EQ(long_value0, chk_int.GetInteger()); EXPECT_STREQ(string_value1, chk_str.GetString().str().c_str()); } TEST_F(PythonDataObjectsTest, TestPythonListToStructuredList) { static const long long_value0 = 5; static const char *const string_value1 = "String Index 1"; PythonList list(PyInitialValue::Empty); list.AppendItem(PythonInteger(long_value0)); list.AppendItem(PythonString(string_value1)); auto array_sp = list.CreateStructuredArray(); EXPECT_EQ(StructuredData::Type::eTypeInteger, array_sp->GetItemAtIndex(0)->GetType()); EXPECT_EQ(StructuredData::Type::eTypeString, array_sp->GetItemAtIndex(1)->GetType()); auto int_sp = array_sp->GetItemAtIndex(0)->GetAsInteger(); auto string_sp = array_sp->GetItemAtIndex(1)->GetAsString(); EXPECT_EQ(long_value0, long(int_sp->GetValue())); EXPECT_STREQ(string_value1, string_sp->GetValue().c_str()); } TEST_F(PythonDataObjectsTest, TestPythonTupleSize) { PythonTuple tuple(PyInitialValue::Empty); EXPECT_EQ(0U, tuple.GetSize()); tuple = PythonTuple(3); EXPECT_EQ(3U, tuple.GetSize()); } TEST_F(PythonDataObjectsTest, TestPythonTupleValues) { PythonTuple tuple(3); PythonInteger int_value(1); PythonString string_value("Test"); PythonObject none_value(PyRefType::Borrowed, Py_None); tuple.SetItemAtIndex(0, int_value); tuple.SetItemAtIndex(1, string_value); tuple.SetItemAtIndex(2, none_value); EXPECT_EQ(tuple.GetItemAtIndex(0).get(), int_value.get()); EXPECT_EQ(tuple.GetItemAtIndex(1).get(), string_value.get()); EXPECT_EQ(tuple.GetItemAtIndex(2).get(), none_value.get()); } TEST_F(PythonDataObjectsTest, TestPythonTupleInitializerList) { PythonInteger int_value(1); PythonString string_value("Test"); PythonObject none_value(PyRefType::Borrowed, Py_None); PythonTuple tuple{ int_value, string_value, none_value }; EXPECT_EQ(3U, tuple.GetSize()); EXPECT_EQ(tuple.GetItemAtIndex(0).get(), int_value.get()); EXPECT_EQ(tuple.GetItemAtIndex(1).get(), string_value.get()); EXPECT_EQ(tuple.GetItemAtIndex(2).get(), none_value.get()); } TEST_F(PythonDataObjectsTest, TestPythonTupleInitializerList2) { PythonInteger int_value(1); PythonString string_value("Test"); PythonObject none_value(PyRefType::Borrowed, Py_None); PythonTuple tuple{ int_value.get(), string_value.get(), none_value.get() }; EXPECT_EQ(3U, tuple.GetSize()); EXPECT_EQ(tuple.GetItemAtIndex(0).get(), int_value.get()); EXPECT_EQ(tuple.GetItemAtIndex(1).get(), string_value.get()); EXPECT_EQ(tuple.GetItemAtIndex(2).get(), none_value.get()); } TEST_F(PythonDataObjectsTest, TestPythonTupleToStructuredList) { PythonInteger int_value(1); PythonString string_value("Test"); PythonTuple tuple{ int_value.get(), string_value.get() }; auto array_sp = tuple.CreateStructuredArray(); EXPECT_EQ(tuple.GetSize(), array_sp->GetSize()); EXPECT_EQ(StructuredData::Type::eTypeInteger, array_sp->GetItemAtIndex(0)->GetType()); EXPECT_EQ(StructuredData::Type::eTypeString, array_sp->GetItemAtIndex(1)->GetType()); } TEST_F(PythonDataObjectsTest, TestPythonDictionaryValueEquality) { // Test that a dictionary which is built through the native // Python API behaves correctly when wrapped by a PythonDictionary. static const unsigned dict_entries = 2; const char *key_0 = "Key 0"; int key_1 = 1; const int value_0 = 0; const char *value_1 = "Value 1"; PythonObject py_keys[dict_entries]; PythonObject py_values[dict_entries]; py_keys[0].Reset(PythonString(key_0)); py_keys[1].Reset(PythonInteger(key_1)); py_values[0].Reset(PythonInteger(value_0)); py_values[1].Reset(PythonString(value_1)); PyObject *py_dict = PyDict_New(); EXPECT_TRUE(PythonDictionary::Check(py_dict)); PythonDictionary dict(PyRefType::Owned, py_dict); for (unsigned i = 0; i < dict_entries; ++i) PyDict_SetItem(py_dict, py_keys[i].get(), py_values[i].get()); EXPECT_EQ(dict.GetSize(), dict_entries); EXPECT_EQ(PyObjectType::Dictionary, dict.GetObjectType()); // Verify that the values match PythonObject chk_value1 = dict.GetItemForKey(py_keys[0]); PythonObject chk_value2 = dict.GetItemForKey(py_keys[1]); EXPECT_TRUE(PythonInteger::Check(chk_value1.get())); EXPECT_TRUE(PythonString::Check(chk_value2.get())); PythonInteger chk_int(PyRefType::Borrowed, chk_value1.get()); PythonString chk_str(PyRefType::Borrowed, chk_value2.get()); EXPECT_EQ(value_0, chk_int.GetInteger()); EXPECT_STREQ(value_1, chk_str.GetString().str().c_str()); } TEST_F(PythonDataObjectsTest, TestPythonDictionaryManipulation) { // Test that manipulation of a dictionary behaves correctly when wrapped // by a PythonDictionary. static const unsigned dict_entries = 2; const char *const key_0 = "Key 0"; const char *const key_1 = "Key 1"; const long value_0 = 1; const char *const value_1 = "Value 1"; PythonString keys[dict_entries]; PythonObject values[dict_entries]; keys[0].Reset(PythonString(key_0)); keys[1].Reset(PythonString(key_1)); values[0].Reset(PythonInteger(value_0)); values[1].Reset(PythonString(value_1)); PythonDictionary dict(PyInitialValue::Empty); for (int i = 0; i < 2; ++i) dict.SetItemForKey(keys[i], values[i]); EXPECT_EQ(dict_entries, dict.GetSize()); // Verify that the keys and values match PythonObject chk_value1 = dict.GetItemForKey(keys[0]); PythonObject chk_value2 = dict.GetItemForKey(keys[1]); EXPECT_TRUE(PythonInteger::Check(chk_value1.get())); EXPECT_TRUE(PythonString::Check(chk_value2.get())); PythonInteger chk_int(PyRefType::Borrowed, chk_value1.get()); PythonString chk_str(PyRefType::Borrowed, chk_value2.get()); EXPECT_EQ(value_0, chk_int.GetInteger()); EXPECT_STREQ(value_1, chk_str.GetString().str().c_str()); } TEST_F(PythonDataObjectsTest, TestPythonDictionaryToStructuredDictionary) { static const char *const string_key0 = "String Key 0"; static const char *const string_key1 = "String Key 1"; static const char *const string_value0 = "String Value 0"; static const long int_value1 = 7; PythonDictionary dict(PyInitialValue::Empty); dict.SetItemForKey(PythonString(string_key0), PythonString(string_value0)); dict.SetItemForKey(PythonString(string_key1), PythonInteger(int_value1)); auto dict_sp = dict.CreateStructuredDictionary(); EXPECT_EQ(2U, dict_sp->GetSize()); EXPECT_TRUE(dict_sp->HasKey(string_key0)); EXPECT_TRUE(dict_sp->HasKey(string_key1)); auto string_sp = dict_sp->GetValueForKey(string_key0)->GetAsString(); auto int_sp = dict_sp->GetValueForKey(string_key1)->GetAsInteger(); EXPECT_STREQ(string_value0, string_sp->GetValue().c_str()); EXPECT_EQ(int_value1, long(int_sp->GetValue())); } TEST_F(PythonDataObjectsTest, TestPythonCallableCheck) { PythonObject sys_exc_info = m_sys_module.ResolveName("exc_info"); PythonObject none(PyRefType::Borrowed, Py_None); EXPECT_TRUE(PythonCallable::Check(sys_exc_info.get())); EXPECT_FALSE(PythonCallable::Check(none.get())); } TEST_F(PythonDataObjectsTest, TestPythonCallableInvoke) { auto list = m_builtins_module.ResolveName("list").AsType(); PythonInteger one(1); PythonString two("two"); PythonTuple three = { one, two }; PythonTuple tuple_to_convert = { one, two, three }; PythonObject result = list({ tuple_to_convert }); EXPECT_TRUE(PythonList::Check(result.get())); auto list_result = result.AsType(); EXPECT_EQ(3U, list_result.GetSize()); EXPECT_EQ(one.get(), list_result.GetItemAtIndex(0).get()); EXPECT_EQ(two.get(), list_result.GetItemAtIndex(1).get()); EXPECT_EQ(three.get(), list_result.GetItemAtIndex(2).get()); } TEST_F(PythonDataObjectsTest, TestPythonFile) { File file(FileSystem::DEV_NULL, File::eOpenOptionRead); PythonFile py_file(file, "r"); EXPECT_TRUE(PythonFile::Check(py_file.get())); } TEST_F(PythonDataObjectsTest, TestObjectAttributes) { PythonInteger py_int(42); EXPECT_TRUE(py_int.HasAttribute("numerator")); EXPECT_FALSE(py_int.HasAttribute("this_should_not_exist")); PythonInteger numerator_attr = py_int.GetAttributeValue("numerator").AsType(); EXPECT_TRUE(numerator_attr.IsAllocated()); EXPECT_EQ(42, numerator_attr.GetInteger()); }