// Test cases #include #include #include "CPy.h" static PyObject *moduleDict; static PyObject *int_from_str(const char *str) { return PyLong_FromString(str, 0, 10); } static std::string str_from_object(PyObject *x) { PyObject *str = PyObject_Str(x); const char *utf8 = PyUnicode_AsUTF8(str); return std::string(utf8); } static std::string str_from_int(CPyTagged x) { return str_from_object(CPyTagged_AsObject(x)); } static bool is_py_equal(PyObject *x, PyObject *y) { int result = PyObject_RichCompareBool(x, y, Py_EQ); if (result < 0) { std::cout << "ERROR: Rich compare failed"; } return result == 1; } static bool is_int_equal(CPyTagged x, CPyTagged y) { if (CPyTagged_CheckShort(x)) { return x == y; } else if (CPyTagged_CheckShort(y)) { return false; } else { return is_py_equal(CPyTagged_LongAsObject(x), CPyTagged_LongAsObject(y)); } } static void fail(std::string message) { std::cerr << message << "\n"; exit(1); } static PyObject *eval(std::string expr) { PyObject *dict = PyDict_New(); auto result = PyRun_String(expr.c_str(), Py_eval_input, moduleDict, dict); Py_DECREF(dict); if (result == 0) { fail("Python exception"); } return result; } static CPyTagged eval_int(std::string expr) { auto o = eval(expr); EXPECT_TRUE(PyLong_Check(o)); return CPyTagged_FromObject(o); } static PyObject *empty_list() { PyObject *list = PyList_New(0); EXPECT_TRUE(list); return list; } static void list_append(PyObject *list, std::string expr) { PyObject *obj = eval(expr); int result = PyList_Append(list, obj); EXPECT_TRUE(result == 0); } class CAPITest : public ::testing::Test { protected: PyObject *max_short; PyObject *min_short; PyObject *min_pos_long; PyObject *max_neg_long; Py_ssize_t c_max_short; Py_ssize_t c_min_short; Py_ssize_t c_min_pos_long; Py_ssize_t c_max_neg_long; virtual void SetUp() { if (!moduleDict) { fail("Could not find module dictionary"); } c_max_short = CPY_TAGGED_MAX; // 2**62-1 c_min_pos_long = c_max_short + 1; // 2**62 c_min_short = CPY_TAGGED_MIN; // -2**62 c_max_neg_long = c_min_short - 1; // -(2**62+1) max_short = PyLong_FromSsize_t(c_max_short); min_pos_long = PyLong_FromSsize_t(c_min_pos_long); min_short = PyLong_FromSsize_t(c_min_short); max_neg_long = PyLong_FromSsize_t(c_max_neg_long); } virtual void TearDown() { Py_DECREF(max_short); Py_DECREF(min_pos_long); Py_DECREF(min_short); Py_DECREF(max_neg_long); } }; TEST_F(CAPITest, test_cint_conversions) { EXPECT_EQ(CPyTagged_ShortFromInt(0), 0); EXPECT_EQ(CPyTagged_ShortFromInt(3), 6); EXPECT_EQ(CPyTagged_ShortFromInt(-5), -10); EXPECT_EQ(CPyTagged_ShortAsSsize_t(0), 0); EXPECT_EQ(CPyTagged_ShortAsSsize_t(6), 3); EXPECT_EQ(CPyTagged_ShortAsSsize_t(-10), -5); } TEST_F(CAPITest, test_is_long_int) { EXPECT_TRUE(CPyTagged_CheckLong(1)); EXPECT_TRUE(CPyTagged_CheckLong(15)); EXPECT_FALSE(CPyTagged_CheckLong(0)); EXPECT_FALSE(CPyTagged_CheckLong(6)); EXPECT_FALSE(CPyTagged_CheckLong(-4)); } TEST_F(CAPITest, test_is_short_int) { EXPECT_FALSE(CPyTagged_CheckShort(1)); EXPECT_FALSE(CPyTagged_CheckShort(15)); EXPECT_TRUE(CPyTagged_CheckShort(0)); EXPECT_TRUE(CPyTagged_CheckShort(6)); EXPECT_TRUE(CPyTagged_CheckShort(-4)); } TEST_F(CAPITest, test_obj_to_short_int) { EXPECT_EQ(CPyTagged_FromObject(int_from_str("0")), CPyTagged_ShortFromInt(0)); EXPECT_EQ(CPyTagged_FromObject(int_from_str("1234")), CPyTagged_ShortFromInt(1234)); EXPECT_EQ(CPyTagged_FromObject(int_from_str("-1234")), CPyTagged_ShortFromInt(-1234)); EXPECT_EQ(CPyTagged_FromObject(max_short), CPyTagged_ShortFromSsize_t(c_max_short)); EXPECT_EQ(CPyTagged_FromObject(min_short), CPyTagged_ShortFromSsize_t(c_min_short)); } TEST_F(CAPITest, test_obj_to_long_int) { // A value larger than 2**64 PyObject *large = int_from_str("18464758493694263305"); PyObject *small = int_from_str("-18464758493694263305"); CPyTagged x; x = CPyTagged_FromObject(large); ASSERT_TRUE(CPyTagged_CheckLong(x)); EXPECT_TRUE(is_py_equal(large, CPyTagged_LongAsObject(x))); x = CPyTagged_FromObject(small); ASSERT_TRUE(CPyTagged_CheckLong(x)); EXPECT_TRUE(is_py_equal(small, CPyTagged_LongAsObject(x))); x = CPyTagged_FromObject(min_pos_long); ASSERT_TRUE(CPyTagged_CheckLong(x)); EXPECT_TRUE(is_py_equal(min_pos_long, CPyTagged_LongAsObject(x))); x = CPyTagged_FromObject(max_neg_long); ASSERT_TRUE(CPyTagged_CheckLong(x)); EXPECT_TRUE(is_py_equal(max_neg_long, CPyTagged_LongAsObject(x))); } TEST_F(CAPITest, test_short_int_to_obj) { EXPECT_TRUE(is_py_equal(CPyTagged_AsObject(CPyTagged_ShortFromInt(0)), int_from_str("0"))); EXPECT_TRUE(is_py_equal(CPyTagged_AsObject(CPyTagged_ShortFromInt(1234)), int_from_str("1234"))); EXPECT_TRUE(is_py_equal(CPyTagged_AsObject(CPyTagged_ShortFromInt(-1234)), int_from_str("-1234"))); EXPECT_TRUE(is_py_equal(CPyTagged_AsObject(CPyTagged_ShortFromSsize_t(c_max_short)), max_short)); EXPECT_TRUE(is_py_equal(CPyTagged_AsObject(CPyTagged_ShortFromSsize_t(c_min_short)), min_short)); } TEST_F(CAPITest, test_long_int_to_obj) { // A value larger than 2**64 PyObject *large = int_from_str("18464758493694263305"); PyObject *small = int_from_str("-18464758493694263305"); PyObject *x; x = CPyTagged_AsObject(CPyTagged_FromObject(large)); EXPECT_TRUE(is_py_equal(large, x)); x = CPyTagged_AsObject(CPyTagged_FromObject(small)); EXPECT_TRUE(is_py_equal(small, x)); x = CPyTagged_AsObject(CPyTagged_FromObject(min_pos_long)); EXPECT_TRUE(is_py_equal(min_pos_long, x)); x = CPyTagged_AsObject(CPyTagged_FromObject(max_neg_long)); EXPECT_TRUE(is_py_equal(max_neg_long, x)); } #define EXPECT_INT_EQUAL(x, y) \ do { \ if (!is_int_equal(x, y)) \ std::cout << "Failure: " << str_from_int(x) << " != " << str_from_int(y) << \ "\n"; \ EXPECT_TRUE(is_int_equal(x, y)); \ } while (false) #define ASSERT_ADD(x, y, result) \ EXPECT_TRUE(is_int_equal(CPyTagged_Add(eval_int(x), eval_int(y)), eval_int(result))) TEST_F(CAPITest, test_add_short_int) { ASSERT_ADD("13", "8", "21"); ASSERT_ADD("-13", "8", "-5"); ASSERT_ADD("13", "-7", "6"); ASSERT_ADD("13", "-14", "-1"); ASSERT_ADD("-3", "-5", "-8"); } TEST_F(CAPITest, test_add_long_ints) { ASSERT_ADD("2**64", "2**65", "2**64 + 2**65"); ASSERT_ADD("2**64", "-2**65", "2**64 - 2**65"); } TEST_F(CAPITest, test_add_long_and_short) { ASSERT_ADD("1", "2**65", "1 + 2**65"); ASSERT_ADD("2**65", "1", "1 + 2**65"); } TEST_F(CAPITest, test_add_short_overflow) { // Overfloat ASSERT_ADD("2**62 - 1", "1", "2**62"); ASSERT_ADD("-2**62", "-1", "-2**62 - 1"); } TEST_F(CAPITest, test_add_short_edge_cases) { // Close but not quite overflow ASSERT_ADD("2**62 - 2", "1", "2**62 - 1"); ASSERT_ADD("-2**62 + 1", "-1", "-2**62"); // Max magnitudes ASSERT_ADD("2**62 - 1", "2**62 - 1", "2**63 - 2"); ASSERT_ADD("2**62 - 1", "-2**62", "-1"); } #define ASSERT_SUBTRACT(x, y, result) \ EXPECT_TRUE(is_int_equal(CPyTagged_Subtract(eval_int(x), eval_int(y)), eval_int(result))) TEST_F(CAPITest, test_subtract_short_int) { ASSERT_SUBTRACT("13", "8", "5"); ASSERT_SUBTRACT("8", "13", "-5"); ASSERT_SUBTRACT("-13", "8", "-21"); ASSERT_SUBTRACT("13", "-7", "20"); ASSERT_SUBTRACT("-3", "-5", "2"); } TEST_F(CAPITest, test_subtract_long_int) { ASSERT_SUBTRACT("2**65", "2**64", "2**65 - 2**64"); ASSERT_SUBTRACT("2**65", "-2**64", "2**65 + 2**64"); } TEST_F(CAPITest, test_subtract_long_and_short) { ASSERT_SUBTRACT("1", "2**65", "1 - 2**65"); ASSERT_SUBTRACT("2**65", "1", "2**65 - 1"); } TEST_F(CAPITest, test_subtract_short_overflow) { ASSERT_SUBTRACT("2**62-1", "-1", "2**62"); ASSERT_SUBTRACT("-2**62", "1", "-2**62 - 1"); ASSERT_SUBTRACT("0", "-2**62", "2**62"); ASSERT_SUBTRACT("1", "-2**62 + 1", "2**62"); ASSERT_SUBTRACT("-2", "2**62 - 1", "-2**62 - 1"); } TEST_F(CAPITest, test_subtract_short_edge_cases) { // Close but not quite overflow ASSERT_SUBTRACT("2**62 - 2", "-1", "2**62 - 1"); ASSERT_SUBTRACT("-2**62 + 1", "1", "-2**62"); // Max magnitudes ASSERT_SUBTRACT("2**62 - 1", "-2**62", "2**63 - 1"); ASSERT_SUBTRACT("-2**62", "2**62 - 1", "-2**63 + 1"); } #define ASSERT_MULTIPLY(x, y, result) \ EXPECT_TRUE(is_int_equal(CPyTagged_Multiply(eval_int(x), eval_int(y)), eval_int(result))) TEST_F(CAPITest, test_multiply_int) { ASSERT_MULTIPLY("0", "0", "0"); ASSERT_MULTIPLY("3", "5", "15"); ASSERT_MULTIPLY("2**40", "2**40", "2**80"); ASSERT_MULTIPLY("2**30-1", "2**30-1", "(2**30-1)**2"); ASSERT_MULTIPLY("2**30", "2**30-1", "2**30 * (2**30-1)"); ASSERT_MULTIPLY("2**30-1", "2**30", "2**30 * (2**30-1)"); ASSERT_MULTIPLY("2**15", "2**15-1", "2**15 * (2**15-1)"); ASSERT_MULTIPLY("2**15-1", "2**15", "2**15 * (2**15-1)"); ASSERT_MULTIPLY("3", "-5", "-15"); ASSERT_MULTIPLY("-3", "5", "-15"); ASSERT_MULTIPLY("-3", "-5", "15"); } #define ASSERT_FLOOR_DIV(x, y, result) \ EXPECT_INT_EQUAL(CPyTagged_FloorDivide(eval_int(x), eval_int(y)), eval_int(result)) TEST_F(CAPITest, test_floor_divide_short_int) { ASSERT_FLOOR_DIV("18", "6", "3"); ASSERT_FLOOR_DIV("17", "6", "2"); ASSERT_FLOOR_DIV("12", "6", "2"); ASSERT_FLOOR_DIV("15", "5", "3"); ASSERT_FLOOR_DIV("14", "5", "2"); ASSERT_FLOOR_DIV("11", "5", "2"); ASSERT_FLOOR_DIV("-18", "6", "-3"); ASSERT_FLOOR_DIV("-13", "6", "-3"); ASSERT_FLOOR_DIV("-12", "6", "-2"); ASSERT_FLOOR_DIV("18", "-6", "-3"); ASSERT_FLOOR_DIV("13", "-6", "-3"); ASSERT_FLOOR_DIV("12", "-6", "-2"); ASSERT_FLOOR_DIV("-3", "-3", "1"); ASSERT_FLOOR_DIV("-5", "-3", "1"); ASSERT_FLOOR_DIV("-6", "-3", "2"); ASSERT_FLOOR_DIV("2**60", "3", "2**60 // 3"); ASSERT_FLOOR_DIV("-2**62", "-1", "2**62"); ASSERT_FLOOR_DIV("-2**62", "1", "-2**62"); ASSERT_FLOOR_DIV("2**62 - 1", "1", "2**62 - 1"); ASSERT_FLOOR_DIV("2**62 - 1", "-1", "-2**62 + 1"); ASSERT_FLOOR_DIV("2**60", "3", "2**60 // 3"); ASSERT_FLOOR_DIV("-2**30", "-1", "2**30"); ASSERT_FLOOR_DIV("-2**30", "1", "-2**30"); ASSERT_FLOOR_DIV("2**30 - 1", "1", "2**30 - 1"); ASSERT_FLOOR_DIV("2**30 - 1", "-1", "-2**30 + 1"); } TEST_F(CAPITest, test_floor_divide_long_int) { ASSERT_FLOOR_DIV("2**100", "3", "2**100 // 3"); ASSERT_FLOOR_DIV("3", "2**100", "0"); ASSERT_FLOOR_DIV("2**100", "2**70 // 3", "2**100 // (2**70 // 3)"); } #define ASSERT_REMAINDER(x, y, result) \ EXPECT_INT_EQUAL(CPyTagged_Remainder(eval_int(x), eval_int(y)), eval_int(result)) TEST_F(CAPITest, test_remainder_short_int) { ASSERT_REMAINDER("18", "6", "0"); ASSERT_REMAINDER("17", "6", "5"); ASSERT_REMAINDER("13", "6", "1"); ASSERT_REMAINDER("12", "6", "0"); ASSERT_REMAINDER("15", "5", "0"); ASSERT_REMAINDER("14", "5", "4"); ASSERT_REMAINDER("11", "5", "1"); ASSERT_REMAINDER("-18", "6", "0"); ASSERT_REMAINDER("-13", "6", "5"); ASSERT_REMAINDER("-12", "6", "0"); ASSERT_REMAINDER("18", "-6", "0"); ASSERT_REMAINDER("13", "-6", "-5"); ASSERT_REMAINDER("12", "-6", "0"); ASSERT_REMAINDER("-3", "-3", "0"); ASSERT_REMAINDER("-5", "-3", "-2"); ASSERT_REMAINDER("-6", "-3", "0"); ASSERT_REMAINDER("-1", "2**62 - 1", "2**62 - 2"); ASSERT_REMAINDER("1", "-2**62", "-2**62 + 1"); } TEST_F(CAPITest, test_remainder_long_int) { ASSERT_REMAINDER("2**100", "3", "2**100 % 3"); ASSERT_REMAINDER("3", "2**100", "3"); ASSERT_REMAINDER("2**100", "2**70 // 3", "2**100 % (2**70 // 3)"); } #define INT_EQ(x, y) \ CPyTagged_IsEq(eval_int(x), eval_int(y)) TEST_F(CAPITest, test_int_equality) { EXPECT_TRUE(INT_EQ("0", "0")); EXPECT_TRUE(INT_EQ("5", "5")); EXPECT_TRUE(INT_EQ("-7", "-7")); EXPECT_TRUE(INT_EQ("2**65 + 0x1234", "2**65 + 0x1234")); EXPECT_TRUE(INT_EQ("-2**65 + 0x1234", "-2**65 + 0x1234")); EXPECT_FALSE(INT_EQ("0", "1")); EXPECT_FALSE(INT_EQ("5", "4")); EXPECT_FALSE(INT_EQ("-7", "7")); EXPECT_FALSE(INT_EQ("-7", "-6")); EXPECT_FALSE(INT_EQ("-7", "-5")); EXPECT_FALSE(INT_EQ("2**65 + 0x1234", "2**65 + 0x1233")); EXPECT_FALSE(INT_EQ("2**65 + 0x1234", "2**66 + 0x1234")); EXPECT_FALSE(INT_EQ("2**65 + 0x1234", "-2**65 - 0x1234")); EXPECT_FALSE(INT_EQ("-2**65 + 0x1234", "-2**65 + 0x1233")); } #define INT_NE(x, y) \ CPyTagged_IsNe(eval_int(x), eval_int(y)) TEST_F(CAPITest, test_int_non_equality) { EXPECT_FALSE(INT_NE("0", "0")); EXPECT_FALSE(INT_NE("5", "5")); EXPECT_FALSE(INT_NE("-7", "-7")); EXPECT_FALSE(INT_NE("2**65 + 0x1234", "2**65 + 0x1234")); EXPECT_FALSE(INT_NE("-2**65 + 0x1234", "-2**65 + 0x1234")); EXPECT_TRUE(INT_NE("0", "1")); EXPECT_TRUE(INT_NE("5", "4")); EXPECT_TRUE(INT_NE("-7", "7")); EXPECT_TRUE(INT_NE("-7", "-6")); EXPECT_TRUE(INT_NE("-7", "-5")); EXPECT_TRUE(INT_NE("2**65 + 0x1234", "2**65 + 0x1233")); EXPECT_TRUE(INT_NE("2**65 + 0x1234", "2**66 + 0x1234")); EXPECT_TRUE(INT_NE("2**65 + 0x1234", "-2**65 - 0x1234")); EXPECT_TRUE(INT_NE("-2**65 + 0x1234", "-2**65 + 0x1233")); } #define INT_LT(x, y) \ CPyTagged_IsLt(eval_int(x), eval_int(y)) TEST_F(CAPITest, test_int_less_than) { EXPECT_TRUE(INT_LT("0", "5")); EXPECT_TRUE(INT_LT("4", "5")); EXPECT_TRUE(INT_LT("-3", "1")); EXPECT_TRUE(INT_LT("-3", "0")); EXPECT_TRUE(INT_LT("-3", "-2")); EXPECT_FALSE(INT_LT("5", "0")); EXPECT_FALSE(INT_LT("5", "4")); EXPECT_FALSE(INT_LT("1", "-3")); EXPECT_FALSE(INT_LT("0", "-3")); EXPECT_FALSE(INT_LT("-2", "-3")); EXPECT_FALSE(INT_LT("-3", "-3")); EXPECT_FALSE(INT_LT("3", "3")); EXPECT_TRUE(INT_LT("5", "2**65")); EXPECT_TRUE(INT_LT("-2**65", "-5")); EXPECT_TRUE(INT_LT("-2**66", "2**65")); EXPECT_TRUE(INT_LT("2**65", "2**66")); EXPECT_TRUE(INT_LT("-2**66", "-2**65")); EXPECT_FALSE(INT_LT("2**65", "5")); EXPECT_FALSE(INT_LT("-5", "-2**65")); EXPECT_FALSE(INT_LT("2**65", "-2**66")); EXPECT_FALSE(INT_LT("2**66", "2**65")); EXPECT_FALSE(INT_LT("-2**65", "-2**66")); EXPECT_FALSE(INT_LT("-2**65", "-2**65")); EXPECT_FALSE(INT_LT("2**65", "2**65")); } #define INT_GE(x, y) \ CPyTagged_IsGe(eval_int(x), eval_int(y)) TEST_F(CAPITest, test_int_greater_than_or_equal) { EXPECT_TRUE(INT_GE("3", "2")); EXPECT_TRUE(INT_GE("3", "3")); EXPECT_FALSE(INT_GE("3", "4")); EXPECT_TRUE(INT_GE("3", "-4")); EXPECT_TRUE(INT_GE("-3", "-4")); EXPECT_TRUE(INT_GE("-3", "-3")); EXPECT_FALSE(INT_GE("-3", "-2")); EXPECT_FALSE(INT_GE("-3", "2")); EXPECT_TRUE(INT_GE("2**65", "2**65")); EXPECT_TRUE(INT_GE("2**65", "2**65 - 1")); EXPECT_FALSE(INT_GE("2**65", "2**65 + 1")); EXPECT_TRUE(INT_GE("2**65", "2**60")); } #define INT_GT(x, y) \ CPyTagged_IsGt(eval_int(x), eval_int(y)) TEST_F(CAPITest, test_int_greater_than) { EXPECT_TRUE(INT_GT("5", "0")); EXPECT_TRUE(INT_GT("5", "4")); EXPECT_FALSE(INT_GT("5", "5")); EXPECT_FALSE(INT_GT("5", "6")); EXPECT_TRUE(INT_GT("1", "-3")); EXPECT_FALSE(INT_GT("-3", "1")); EXPECT_TRUE(INT_GT("0", "-3")); EXPECT_TRUE(INT_GT("-2", "-3")); EXPECT_FALSE(INT_GT("-2", "-2")); EXPECT_FALSE(INT_GT("-2", "-1")); EXPECT_TRUE(INT_GT("2**65", "5")); EXPECT_TRUE(INT_GT("2**65", "2**65 - 1")); EXPECT_FALSE(INT_GT("2**65", "2**65")); EXPECT_FALSE(INT_GT("2**65", "2**65 + 1")); EXPECT_FALSE(INT_GT("-2**65", "1")); EXPECT_TRUE(INT_GT("-2**65", "-2**65 - 1")); EXPECT_FALSE(INT_GT("-2**65", "-2**65")); EXPECT_FALSE(INT_GT("-2**65", "-2**65 + 1")); } #define INT_LE(x, y) \ CPyTagged_IsLe(eval_int(x), eval_int(y)) TEST_F(CAPITest, test_int_less_than_or_equal) { EXPECT_TRUE(INT_LE("0", "5")); EXPECT_TRUE(INT_LE("5", "6")); EXPECT_TRUE(INT_LE("5", "5")); EXPECT_FALSE(INT_LE("5", "4")); EXPECT_FALSE(INT_LE("1", "-3")); EXPECT_TRUE(INT_LE("-3", "1")); EXPECT_TRUE(INT_LT("-3", "0")); EXPECT_TRUE(INT_LE("-2", "-1")); EXPECT_TRUE(INT_LE("-2", "-2")); EXPECT_FALSE(INT_LT("-2", "-3")); EXPECT_TRUE(INT_LE("5", "2**65")); EXPECT_FALSE(INT_LE("2**65", "5")); EXPECT_TRUE(INT_LE("2**65", "2**65 + 1")); EXPECT_TRUE(INT_LE("2**65", "2**65")); EXPECT_FALSE(INT_LE("2**65", "2**65 - 1")); EXPECT_TRUE(INT_LE("-2**65", "1")); EXPECT_FALSE(INT_LE("1", "-2**65")); EXPECT_TRUE(INT_LE("-2**65", "-2**65 + 1")); EXPECT_TRUE(INT_LE("-2**65", "-2**65")); EXPECT_FALSE(INT_LE("-2**65", "-2**65 - 1")); } #define list_get_eq(list, index, value) \ is_py_equal(CPyList_GetItem(list, eval_int(index)), eval(value)) TEST_F(CAPITest, test_list_get) { auto l = empty_list(); list_append(l, "3"); list_append(l, "5"); list_append(l, "7"); EXPECT_TRUE(list_get_eq(l, "0", "3")); EXPECT_TRUE(list_get_eq(l, "1", "5")); EXPECT_TRUE(list_get_eq(l, "2", "7")); EXPECT_TRUE(list_get_eq(l, "-1", "7")); EXPECT_TRUE(list_get_eq(l, "-2", "5")); EXPECT_TRUE(list_get_eq(l, "-3", "3")); } TEST_F(CAPITest, test_tagged_as_long_long) { auto s = eval_int("3"); auto neg = eval_int("-1"); auto l = eval_int("2**128"); EXPECT_TRUE(CPyTagged_AsSsize_t(s) == 3); EXPECT_FALSE(PyErr_Occurred()); EXPECT_TRUE(CPyTagged_AsSsize_t(neg) == -1); EXPECT_FALSE(PyErr_Occurred()); EXPECT_TRUE(CPyTagged_AsSsize_t(l) == -1); EXPECT_TRUE(PyErr_Occurred()); PyErr_Clear(); } //// // Python module glue to drive the C-API tests. // // The reason we have this as an extension module instead of a // standalone binary is because building an extension module is pretty // well behaved (just specify it with distutils/setuptools and it will // get compiled and linked against the running python) while linking a // library against libpython is a huge non-standard // PITA: python-config locations are janky and it behaves in weird // ways that I don't understand, while this works very cleanly. static PyObject *run_tests(PyObject *dummy, PyObject *should_be_null) { // Fake command line arguments. We could arrange to actually pass // in command line arguments (either real ones or ones given as // arguments) but have not bothered. int argc = 1; char asdf[] = "test_capi"; // InitGoogleTest wants char** which means it can't be const... char *argv[] = {asdf, NULL}; ::testing::InitGoogleTest(&argc, argv); return PyLong_FromLong(RUN_ALL_TESTS()); } static PyMethodDef test_methods[] = { {"run_tests", run_tests, METH_NOARGS, "Run the C API tests"}, {NULL, NULL, 0, NULL} }; static struct PyModuleDef test_module = { PyModuleDef_HEAD_INIT, "test_capi", NULL, -1, test_methods }; PyMODINIT_FUNC PyInit_test_capi(void) { PyObject *module = PyModule_Create(&test_module); if (module) { moduleDict = PyModule_GetDict(module); } return module; }