# Argument Clinic # Copyright 2012-2013 by Larry Hastings. # Licensed to the PSF under a contributor agreement. from functools import partial from test import support, test_tools from test.support import os_helper from test.support.os_helper import TESTFN, unlink from textwrap import dedent from unittest import TestCase import contextlib import inspect import os.path import re import sys import unittest test_tools.skip_if_missing('clinic') with test_tools.imports_under_tool('clinic'): import clinic from clinic import DSLParser def _make_clinic(*, filename='clinic_tests'): clang = clinic.CLanguage(None) c = clinic.Clinic(clang, filename=filename) c.block_parser = clinic.BlockParser('', clang) return c def _expect_failure(tc, parser, code, errmsg, *, filename=None, lineno=None, strip=True): """Helper for the parser tests. tc: unittest.TestCase; passed self in the wrapper parser: the clinic parser used for this test case code: a str with input text (clinic code) errmsg: the expected error message filename: str, optional filename lineno: int, optional line number """ code = dedent(code) if strip: code = code.strip() errmsg = re.escape(errmsg) with tc.assertRaisesRegex(clinic.ClinicError, errmsg) as cm: parser(code) if filename is not None: tc.assertEqual(cm.exception.filename, filename) if lineno is not None: tc.assertEqual(cm.exception.lineno, lineno) return cm.exception class ClinicWholeFileTest(TestCase): maxDiff = None def expect_failure(self, raw, errmsg, *, filename=None, lineno=None): _expect_failure(self, self.clinic.parse, raw, errmsg, filename=filename, lineno=lineno) def setUp(self): self.clinic = _make_clinic(filename="test.c") def test_eol(self): # regression test: # clinic's block parser didn't recognize # the "end line" for the block if it # didn't end in "\n" (as in, the last) # byte of the file was '/'. # so it would spit out an end line for you. # and since you really already had one, # the last line of the block got corrupted. raw = "/*[clinic]\nfoo\n[clinic]*/" cooked = self.clinic.parse(raw).splitlines() end_line = cooked[2].rstrip() # this test is redundant, it's just here explicitly to catch # the regression test so we don't forget what it looked like self.assertNotEqual(end_line, "[clinic]*/[clinic]*/") self.assertEqual(end_line, "[clinic]*/") def test_mangled_marker_line(self): raw = """ /*[clinic input] [clinic start generated code]*/ /*[clinic end generated code: foo]*/ """ err = ( "Mangled Argument Clinic marker line: " "'/*[clinic end generated code: foo]*/'" ) self.expect_failure(raw, err, filename="test.c", lineno=3) def test_checksum_mismatch(self): raw = """ /*[clinic input] [clinic start generated code]*/ /*[clinic end generated code: output=0123456789abcdef input=fedcba9876543210]*/ """ err = ("Checksum mismatch! " "Expected '0123456789abcdef', computed 'da39a3ee5e6b4b0d'") self.expect_failure(raw, err, filename="test.c", lineno=3) def test_garbage_after_stop_line(self): raw = """ /*[clinic input] [clinic start generated code]*/foobarfoobar! """ err = "Garbage after stop line: 'foobarfoobar!'" self.expect_failure(raw, err, filename="test.c", lineno=2) def test_whitespace_before_stop_line(self): raw = """ /*[clinic input] [clinic start generated code]*/ """ err = ( "Whitespace is not allowed before the stop line: " "' [clinic start generated code]*/'" ) self.expect_failure(raw, err, filename="test.c", lineno=2) def test_parse_with_body_prefix(self): clang = clinic.CLanguage(None) clang.body_prefix = "//" clang.start_line = "//[{dsl_name} start]" clang.stop_line = "//[{dsl_name} stop]" cl = clinic.Clinic(clang, filename="test.c") raw = dedent(""" //[clinic start] //module test //[clinic stop] """).strip() out = cl.parse(raw) expected = dedent(""" //[clinic start] //module test // //[clinic stop] /*[clinic end generated code: output=da39a3ee5e6b4b0d input=65fab8adff58cf08]*/ """).lstrip() # Note, lstrip() because of the newline self.assertEqual(out, expected) def test_cpp_monitor_fail_nested_block_comment(self): raw = """ /* start /* nested */ */ """ err = 'Nested block comment!' self.expect_failure(raw, err, filename="test.c", lineno=2) def test_cpp_monitor_fail_invalid_format_noarg(self): raw = """ #if a() #endif """ err = 'Invalid format for #if line: no argument!' self.expect_failure(raw, err, filename="test.c", lineno=1) def test_cpp_monitor_fail_invalid_format_toomanyargs(self): raw = """ #ifdef A B a() #endif """ err = 'Invalid format for #ifdef line: should be exactly one argument!' self.expect_failure(raw, err, filename="test.c", lineno=1) def test_cpp_monitor_fail_no_matching_if(self): raw = '#else' err = '#else without matching #if / #ifdef / #ifndef!' self.expect_failure(raw, err, filename="test.c", lineno=1) def test_directive_output_unknown_preset(self): raw = """ /*[clinic input] output preset nosuchpreset [clinic start generated code]*/ """ err = "Unknown preset 'nosuchpreset'" self.expect_failure(raw, err) def test_directive_output_cant_pop(self): raw = """ /*[clinic input] output pop [clinic start generated code]*/ """ err = "Can't 'output pop', stack is empty" self.expect_failure(raw, err) def test_directive_output_print(self): raw = dedent(""" /*[clinic input] output print 'I told you once.' [clinic start generated code]*/ """) out = self.clinic.parse(raw) # The generated output will differ for every run, but we can check that # it starts with the clinic block, we check that it contains all the # expected fields, and we check that it contains the checksum line. self.assertTrue(out.startswith(dedent(""" /*[clinic input] output print 'I told you once.' [clinic start generated code]*/ """))) fields = { "cpp_endif", "cpp_if", "docstring_definition", "docstring_prototype", "impl_definition", "impl_prototype", "methoddef_define", "methoddef_ifndef", "parser_definition", "parser_prototype", } for field in fields: with self.subTest(field=field): self.assertIn(field, out) last_line = out.rstrip().split("\n")[-1] self.assertTrue( last_line.startswith("/*[clinic end generated code: output=") ) def test_directive_wrong_arg_number(self): raw = dedent(""" /*[clinic input] preserve foo bar baz eggs spam ham mushrooms [clinic start generated code]*/ """) err = "takes 1 positional argument but 8 were given" self.expect_failure(raw, err) def test_unknown_destination_command(self): raw = """ /*[clinic input] destination buffer nosuchcommand [clinic start generated code]*/ """ err = "unknown destination command 'nosuchcommand'" self.expect_failure(raw, err) def test_no_access_to_members_in_converter_init(self): raw = """ /*[python input] class Custom_converter(CConverter): converter = "some_c_function" def converter_init(self): self.function.noaccess [python start generated code]*/ /*[clinic input] module test test.fn a: Custom [clinic start generated code]*/ """ err = ( "accessing self.function inside converter_init is disallowed!" ) self.expect_failure(raw, err) @staticmethod @contextlib.contextmanager def _clinic_version(new_version): """Helper for test_version_*() tests""" _saved = clinic.version clinic.version = new_version try: yield finally: clinic.version = _saved def test_version_directive(self): dataset = ( # (clinic version, required version) ('3', '2'), # required version < clinic version ('3.1', '3.0'), # required version < clinic version ('1.2b0', '1.2a7'), # required version < clinic version ('5', '5'), # required version == clinic version ('6.1', '6.1'), # required version == clinic version ('1.2b3', '1.2b3'), # required version == clinic version ) for clinic_version, required_version in dataset: with self.subTest(clinic_version=clinic_version, required_version=required_version): with self._clinic_version(clinic_version): block = dedent(f""" /*[clinic input] version {required_version} [clinic start generated code]*/ """) self.clinic.parse(block) def test_version_directive_insufficient_version(self): with self._clinic_version('4'): err = ( "Insufficient Clinic version!\n" " Version: 4\n" " Required: 5" ) block = """ /*[clinic input] version 5 [clinic start generated code]*/ """ self.expect_failure(block, err) def test_version_directive_illegal_char(self): err = "Illegal character 'v' in version string 'v5'" block = """ /*[clinic input] version v5 [clinic start generated code]*/ """ self.expect_failure(block, err) def test_version_directive_unsupported_string(self): err = "Unsupported version string: '.-'" block = """ /*[clinic input] version .- [clinic start generated code]*/ """ self.expect_failure(block, err) def test_clone_mismatch(self): err = "'kind' of function and cloned function don't match!" block = """ /*[clinic input] module m @classmethod m.f1 a: object [clinic start generated code]*/ /*[clinic input] @staticmethod m.f2 = m.f1 [clinic start generated code]*/ """ self.expect_failure(block, err, lineno=9) def test_badly_formed_return_annotation(self): err = "Badly formed annotation for 'm.f': 'Custom'" block = """ /*[python input] class Custom_return_converter(CReturnConverter): def __init__(self): raise ValueError("abc") [python start generated code]*/ /*[clinic input] module m m.f -> Custom [clinic start generated code]*/ """ self.expect_failure(block, err, lineno=8) def test_module_already_got_one(self): err = "Already defined module 'm'!" block = """ /*[clinic input] module m module m [clinic start generated code]*/ """ self.expect_failure(block, err, lineno=3) def test_destination_already_got_one(self): err = "Destination already exists: 'test'" block = """ /*[clinic input] destination test new buffer destination test new buffer [clinic start generated code]*/ """ self.expect_failure(block, err, lineno=3) def test_destination_does_not_exist(self): err = "Destination does not exist: '/dev/null'" block = """ /*[clinic input] output everything /dev/null [clinic start generated code]*/ """ self.expect_failure(block, err, lineno=2) def test_class_already_got_one(self): err = "Already defined class 'C'!" block = """ /*[clinic input] class C "" "" class C "" "" [clinic start generated code]*/ """ self.expect_failure(block, err, lineno=3) def test_cant_nest_module_inside_class(self): err = "Can't nest a module inside a class!" block = """ /*[clinic input] class C "" "" module C.m [clinic start generated code]*/ """ self.expect_failure(block, err, lineno=3) def test_dest_buffer_not_empty_at_eof(self): expected_warning = ("Destination buffer 'buffer' not empty at " "end of file, emptying.") expected_generated = dedent(""" /*[clinic input] output everything buffer fn a: object / [clinic start generated code]*/ /*[clinic end generated code: output=da39a3ee5e6b4b0d input=1c4668687f5fd002]*/ /*[clinic input] dump buffer [clinic start generated code]*/ PyDoc_VAR(fn__doc__); PyDoc_STRVAR(fn__doc__, "fn($module, a, /)\\n" "--\\n" "\\n"); #define FN_METHODDEF \\ {"fn", (PyCFunction)fn, METH_O, fn__doc__}, static PyObject * fn(PyObject *module, PyObject *a) /*[clinic end generated code: output=be6798b148ab4e53 input=524ce2e021e4eba6]*/ """) block = dedent(""" /*[clinic input] output everything buffer fn a: object / [clinic start generated code]*/ """) with support.captured_stdout() as stdout: generated = self.clinic.parse(block) self.assertIn(expected_warning, stdout.getvalue()) self.assertEqual(generated, expected_generated) def test_dest_clear(self): err = "Can't clear destination 'file': it's not of type 'buffer'" block = """ /*[clinic input] destination file clear [clinic start generated code]*/ """ self.expect_failure(block, err, lineno=2) def test_directive_set_misuse(self): err = "unknown variable 'ets'" block = """ /*[clinic input] set ets tse [clinic start generated code]*/ """ self.expect_failure(block, err, lineno=2) def test_directive_set_prefix(self): block = dedent(""" /*[clinic input] set line_prefix '// ' output everything suppress output docstring_prototype buffer fn a: object / [clinic start generated code]*/ /* We need to dump the buffer. * If not, Argument Clinic will emit a warning */ /*[clinic input] dump buffer [clinic start generated code]*/ """) generated = self.clinic.parse(block) expected_docstring_prototype = "// PyDoc_VAR(fn__doc__);" self.assertIn(expected_docstring_prototype, generated) def test_directive_set_suffix(self): block = dedent(""" /*[clinic input] set line_suffix ' // test' output everything suppress output docstring_prototype buffer fn a: object / [clinic start generated code]*/ /* We need to dump the buffer. * If not, Argument Clinic will emit a warning */ /*[clinic input] dump buffer [clinic start generated code]*/ """) generated = self.clinic.parse(block) expected_docstring_prototype = "PyDoc_VAR(fn__doc__); // test" self.assertIn(expected_docstring_prototype, generated) def test_directive_set_prefix_and_suffix(self): block = dedent(""" /*[clinic input] set line_prefix '{block comment start} ' set line_suffix ' {block comment end}' output everything suppress output docstring_prototype buffer fn a: object / [clinic start generated code]*/ /* We need to dump the buffer. * If not, Argument Clinic will emit a warning */ /*[clinic input] dump buffer [clinic start generated code]*/ """) generated = self.clinic.parse(block) expected_docstring_prototype = "/* PyDoc_VAR(fn__doc__); */" self.assertIn(expected_docstring_prototype, generated) def test_directive_printout(self): block = dedent(""" /*[clinic input] output everything buffer printout test [clinic start generated code]*/ """) expected = dedent(""" /*[clinic input] output everything buffer printout test [clinic start generated code]*/ test /*[clinic end generated code: output=4e1243bd22c66e76 input=898f1a32965d44ca]*/ """) generated = self.clinic.parse(block) self.assertEqual(generated, expected) def test_directive_preserve_twice(self): err = "Can't have 'preserve' twice in one block!" block = """ /*[clinic input] preserve preserve [clinic start generated code]*/ """ self.expect_failure(block, err, lineno=3) def test_directive_preserve_input(self): err = "'preserve' only works for blocks that don't produce any output!" block = """ /*[clinic input] preserve fn a: object / [clinic start generated code]*/ """ self.expect_failure(block, err, lineno=6) def test_directive_preserve_output(self): block = dedent(""" /*[clinic input] output everything buffer preserve [clinic start generated code]*/ // Preserve this /*[clinic end generated code: output=eaa49677ae4c1f7d input=559b5db18fddae6a]*/ /*[clinic input] dump buffer [clinic start generated code]*/ /*[clinic end generated code: output=da39a3ee5e6b4b0d input=524ce2e021e4eba6]*/ """) generated = self.clinic.parse(block) self.assertEqual(generated, block) def test_directive_output_invalid_command(self): err = dedent(""" Invalid command or destination name 'cmd'. Must be one of: - 'preset' - 'push' - 'pop' - 'print' - 'everything' - 'cpp_if' - 'docstring_prototype' - 'docstring_definition' - 'methoddef_define' - 'impl_prototype' - 'parser_prototype' - 'parser_definition' - 'cpp_endif' - 'methoddef_ifndef' - 'impl_definition' """).strip() block = """ /*[clinic input] output cmd buffer [clinic start generated code]*/ """ self.expect_failure(block, err, lineno=2) def test_validate_cloned_init(self): block = """ /*[clinic input] class C "void *" "" C.meth a: int [clinic start generated code]*/ /*[clinic input] @classmethod C.__init__ = C.meth [clinic start generated code]*/ """ err = "'__init__' must be a normal method, not a class or static method" self.expect_failure(block, err, lineno=8) def test_validate_cloned_new(self): block = """ /*[clinic input] class C "void *" "" C.meth a: int [clinic start generated code]*/ /*[clinic input] C.__new__ = C.meth [clinic start generated code]*/ """ err = "'__new__' must be a class method" self.expect_failure(block, err, lineno=7) def test_no_c_basename_cloned(self): block = """ /*[clinic input] foo2 [clinic start generated code]*/ /*[clinic input] foo as = foo2 [clinic start generated code]*/ """ err = "No C basename provided after 'as' keyword" self.expect_failure(block, err, lineno=5) def test_cloned_with_custom_c_basename(self): raw = dedent(""" /*[clinic input] # Make sure we don't create spurious clinic/ directories. output everything suppress foo2 [clinic start generated code]*/ /*[clinic input] foo as foo1 = foo2 [clinic start generated code]*/ """) self.clinic.parse(raw) funcs = self.clinic.functions self.assertEqual(len(funcs), 2) self.assertEqual(funcs[1].name, "foo") self.assertEqual(funcs[1].c_basename, "foo1") def test_cloned_with_illegal_c_basename(self): block = """ /*[clinic input] class C "void *" "" foo1 [clinic start generated code]*/ /*[clinic input] foo2 as .illegal. = foo1 [clinic start generated code]*/ """ err = "Illegal C basename: '.illegal.'" self.expect_failure(block, err, lineno=7) class ParseFileUnitTest(TestCase): def expect_parsing_failure( self, *, filename, expected_error, verify=True, output=None ): errmsg = re.escape(dedent(expected_error).strip()) with self.assertRaisesRegex(clinic.ClinicError, errmsg): clinic.parse_file(filename) def test_parse_file_no_extension(self) -> None: self.expect_parsing_failure( filename="foo", expected_error="Can't extract file type for file 'foo'" ) def test_parse_file_strange_extension(self) -> None: filenames_to_errors = { "foo.rs": "Can't identify file type for file 'foo.rs'", "foo.hs": "Can't identify file type for file 'foo.hs'", "foo.js": "Can't identify file type for file 'foo.js'", } for filename, errmsg in filenames_to_errors.items(): with self.subTest(filename=filename): self.expect_parsing_failure(filename=filename, expected_error=errmsg) class ClinicGroupPermuterTest(TestCase): def _test(self, l, m, r, output): computed = clinic.permute_optional_groups(l, m, r) self.assertEqual(output, computed) def test_range(self): self._test([['start']], ['stop'], [['step']], ( ('stop',), ('start', 'stop',), ('start', 'stop', 'step',), )) def test_add_window(self): self._test([['x', 'y']], ['ch'], [['attr']], ( ('ch',), ('ch', 'attr'), ('x', 'y', 'ch',), ('x', 'y', 'ch', 'attr'), )) def test_ludicrous(self): self._test([['a1', 'a2', 'a3'], ['b1', 'b2']], ['c1'], [['d1', 'd2'], ['e1', 'e2', 'e3']], ( ('c1',), ('b1', 'b2', 'c1'), ('b1', 'b2', 'c1', 'd1', 'd2'), ('a1', 'a2', 'a3', 'b1', 'b2', 'c1'), ('a1', 'a2', 'a3', 'b1', 'b2', 'c1', 'd1', 'd2'), ('a1', 'a2', 'a3', 'b1', 'b2', 'c1', 'd1', 'd2', 'e1', 'e2', 'e3'), )) def test_right_only(self): self._test([], [], [['a'],['b'],['c']], ( (), ('a',), ('a', 'b'), ('a', 'b', 'c') )) def test_have_left_options_but_required_is_empty(self): def fn(): clinic.permute_optional_groups(['a'], [], []) self.assertRaises(ValueError, fn) class ClinicLinearFormatTest(TestCase): def _test(self, input, output, **kwargs): computed = clinic.linear_format(input, **kwargs) self.assertEqual(output, computed) def test_empty_strings(self): self._test('', '') def test_solo_newline(self): self._test('\n', '\n') def test_no_substitution(self): self._test(""" abc """, """ abc """) def test_empty_substitution(self): self._test(""" abc {name} def """, """ abc def """, name='') def test_single_line_substitution(self): self._test(""" abc {name} def """, """ abc GARGLE def """, name='GARGLE') def test_multiline_substitution(self): self._test(""" abc {name} def """, """ abc bingle bungle def """, name='bingle\nbungle\n') class InertParser: def __init__(self, clinic): pass def parse(self, block): pass class CopyParser: def __init__(self, clinic): pass def parse(self, block): block.output = block.input class ClinicBlockParserTest(TestCase): def _test(self, input, output): language = clinic.CLanguage(None) blocks = list(clinic.BlockParser(input, language)) writer = clinic.BlockPrinter(language) for block in blocks: writer.print_block(block) output = writer.f.getvalue() assert output == input, "output != input!\n\noutput " + repr(output) + "\n\n input " + repr(input) def round_trip(self, input): return self._test(input, input) def test_round_trip_1(self): self.round_trip(""" verbatim text here lah dee dah """) def test_round_trip_2(self): self.round_trip(""" verbatim text here lah dee dah /*[inert] abc [inert]*/ def /*[inert checksum: 7b18d017f89f61cf17d47f92749ea6930a3f1deb]*/ xyz """) def _test_clinic(self, input, output): language = clinic.CLanguage(None) c = clinic.Clinic(language, filename="file") c.parsers['inert'] = InertParser(c) c.parsers['copy'] = CopyParser(c) computed = c.parse(input) self.assertEqual(output, computed) def test_clinic_1(self): self._test_clinic(""" verbatim text here lah dee dah /*[copy input] def [copy start generated code]*/ abc /*[copy end generated code: output=03cfd743661f0797 input=7b18d017f89f61cf]*/ xyz """, """ verbatim text here lah dee dah /*[copy input] def [copy start generated code]*/ def /*[copy end generated code: output=7b18d017f89f61cf input=7b18d017f89f61cf]*/ xyz """) class ClinicParserTest(TestCase): def parse(self, text): c = _make_clinic() parser = DSLParser(c) block = clinic.Block(text) parser.parse(block) return block def parse_function(self, text, signatures_in_block=2, function_index=1): block = self.parse(text) s = block.signatures self.assertEqual(len(s), signatures_in_block) assert isinstance(s[0], clinic.Module) assert isinstance(s[function_index], clinic.Function) return s[function_index] def expect_failure(self, block, err, *, filename=None, lineno=None, strip=True): return _expect_failure(self, self.parse_function, block, err, filename=filename, lineno=lineno, strip=strip) def checkDocstring(self, fn, expected): self.assertTrue(hasattr(fn, "docstring")) self.assertEqual(dedent(expected).strip(), fn.docstring.strip()) def test_trivial(self): parser = DSLParser(_make_clinic()) block = clinic.Block(""" module os os.access """) parser.parse(block) module, function = block.signatures self.assertEqual("access", function.name) self.assertEqual("os", module.name) def test_ignore_line(self): block = self.parse(dedent(""" # module os os.access """)) module, function = block.signatures self.assertEqual("access", function.name) self.assertEqual("os", module.name) def test_param(self): function = self.parse_function(""" module os os.access path: int """) self.assertEqual("access", function.name) self.assertEqual(2, len(function.parameters)) p = function.parameters['path'] self.assertEqual('path', p.name) self.assertIsInstance(p.converter, clinic.int_converter) def test_param_default(self): function = self.parse_function(""" module os os.access follow_symlinks: bool = True """) p = function.parameters['follow_symlinks'] self.assertEqual(True, p.default) def test_param_with_continuations(self): function = self.parse_function(r""" module os os.access follow_symlinks: \ bool \ = \ True """) p = function.parameters['follow_symlinks'] self.assertEqual(True, p.default) def test_param_default_expr_named_constant(self): function = self.parse_function(""" module os os.access follow_symlinks: int(c_default='MAXSIZE') = sys.maxsize """) p = function.parameters['follow_symlinks'] self.assertEqual(sys.maxsize, p.default) self.assertEqual("MAXSIZE", p.converter.c_default) err = ( "When you specify a named constant ('sys.maxsize') as your default value, " "you MUST specify a valid c_default." ) block = """ module os os.access follow_symlinks: int = sys.maxsize """ self.expect_failure(block, err, lineno=2) def test_param_with_bizarre_default_fails_correctly(self): template = """ module os os.access follow_symlinks: int = {default} """ err = "Unsupported expression as default value" for bad_default_value in ( "{1, 2, 3}", "3 if bool() else 4", "[x for x in range(42)]" ): with self.subTest(bad_default=bad_default_value): block = template.format(default=bad_default_value) self.expect_failure(block, err, lineno=2) def test_unspecified_not_allowed_as_default_value(self): block = """ module os os.access follow_symlinks: int(c_default='MAXSIZE') = unspecified """ err = "'unspecified' is not a legal default value!" exc = self.expect_failure(block, err, lineno=2) self.assertNotIn('Malformed expression given as default value', str(exc)) def test_malformed_expression_as_default_value(self): block = """ module os os.access follow_symlinks: int(c_default='MAXSIZE') = 1/0 """ err = "Malformed expression given as default value" self.expect_failure(block, err, lineno=2) def test_param_default_expr_binop(self): err = ( "When you specify an expression ('a + b') as your default value, " "you MUST specify a valid c_default." ) block = """ fn follow_symlinks: int = a + b """ self.expect_failure(block, err, lineno=1) def test_param_no_docstring(self): function = self.parse_function(""" module os os.access follow_symlinks: bool = True something_else: str = '' """) self.assertEqual(3, len(function.parameters)) conv = function.parameters['something_else'].converter self.assertIsInstance(conv, clinic.str_converter) def test_param_default_parameters_out_of_order(self): err = ( "Can't have a parameter without a default ('something_else') " "after a parameter with a default!" ) block = """ module os os.access follow_symlinks: bool = True something_else: str """ self.expect_failure(block, err, lineno=3) def disabled_test_converter_arguments(self): function = self.parse_function(""" module os os.access path: path_t(allow_fd=1) """) p = function.parameters['path'] self.assertEqual(1, p.converter.args['allow_fd']) def test_function_docstring(self): function = self.parse_function(""" module os os.stat as os_stat_fn path: str Path to be examined Ensure that multiple lines are indented correctly. Perform a stat system call on the given path. Ensure that multiple lines are indented correctly. Ensure that multiple lines are indented correctly. """) self.checkDocstring(function, """ stat($module, /, path) -- Perform a stat system call on the given path. path Path to be examined Ensure that multiple lines are indented correctly. Ensure that multiple lines are indented correctly. Ensure that multiple lines are indented correctly. """) def test_docstring_trailing_whitespace(self): function = self.parse_function( "module t\n" "t.s\n" " a: object\n" " Param docstring with trailing whitespace \n" "Func docstring summary with trailing whitespace \n" " \n" "Func docstring body with trailing whitespace \n" ) self.checkDocstring(function, """ s($module, /, a) -- Func docstring summary with trailing whitespace a Param docstring with trailing whitespace Func docstring body with trailing whitespace """) def test_explicit_parameters_in_docstring(self): function = self.parse_function(dedent(""" module foo foo.bar x: int Documentation for x. y: int This is the documentation for foo. Okay, we're done here. """)) self.checkDocstring(function, """ bar($module, /, x, y) -- This is the documentation for foo. x Documentation for x. Okay, we're done here. """) def test_docstring_with_comments(self): function = self.parse_function(dedent(""" module foo foo.bar x: int # We're about to have # the documentation for x. Documentation for x. # We've just had # the documentation for x. y: int # We're about to have # the documentation for foo. This is the documentation for foo. # We've just had # the documentation for foo. Okay, we're done here. """)) self.checkDocstring(function, """ bar($module, /, x, y) -- This is the documentation for foo. x Documentation for x. Okay, we're done here. """) def test_parser_regression_special_character_in_parameter_column_of_docstring_first_line(self): function = self.parse_function(dedent(""" module os os.stat path: str This/used to break Clinic! """)) self.checkDocstring(function, """ stat($module, /, path) -- This/used to break Clinic! """) def test_c_name(self): function = self.parse_function(""" module os os.stat as os_stat_fn """) self.assertEqual("os_stat_fn", function.c_basename) def test_base_invalid_syntax(self): block = """ module os os.stat invalid syntax: int = 42 """ err = dedent(r""" Function 'stat' has an invalid parameter declaration: \s+'invalid syntax: int = 42' """).strip() with self.assertRaisesRegex(clinic.ClinicError, err): self.parse_function(block) def test_param_default_invalid_syntax(self): block = """ module os os.stat x: int = invalid syntax """ err = r"Syntax error: 'x = invalid syntax\n'" self.expect_failure(block, err, lineno=2) def test_cloning_nonexistent_function_correctly_fails(self): block = """ cloned = fooooooooooooooooo This is trying to clone a nonexistent function!! """ err = "Couldn't find existing function 'fooooooooooooooooo'!" with support.captured_stderr() as stderr: self.expect_failure(block, err, lineno=0) expected_debug_print = dedent("""\ cls=None, module=, existing='fooooooooooooooooo' (cls or module).functions=[] """) stderr = stderr.getvalue() self.assertIn(expected_debug_print, stderr) def test_return_converter(self): function = self.parse_function(""" module os os.stat -> int """) self.assertIsInstance(function.return_converter, clinic.int_return_converter) def test_return_converter_invalid_syntax(self): block = """ module os os.stat -> invalid syntax """ err = "Badly formed annotation for 'os.stat': 'invalid syntax'" self.expect_failure(block, err) def test_legacy_converter_disallowed_in_return_annotation(self): block = """ module os os.stat -> "s" """ err = "Legacy converter 's' not allowed as a return converter" self.expect_failure(block, err) def test_unknown_return_converter(self): block = """ module os os.stat -> fooooooooooooooooooooooo """ err = "No available return converter called 'fooooooooooooooooooooooo'" self.expect_failure(block, err) def test_star(self): function = self.parse_function(""" module os os.access * follow_symlinks: bool = True """) p = function.parameters['follow_symlinks'] self.assertEqual(inspect.Parameter.KEYWORD_ONLY, p.kind) self.assertEqual(0, p.group) def test_group(self): function = self.parse_function(""" module window window.border [ ls: int ] / """) p = function.parameters['ls'] self.assertEqual(1, p.group) def test_left_group(self): function = self.parse_function(""" module curses curses.addch [ y: int Y-coordinate. x: int X-coordinate. ] ch: char Character to add. [ attr: long Attributes for the character. ] / """) dataset = ( ('y', -1), ('x', -1), ('ch', 0), ('attr', 1), ) for name, group in dataset: with self.subTest(name=name, group=group): p = function.parameters[name] self.assertEqual(p.group, group) self.assertEqual(p.kind, inspect.Parameter.POSITIONAL_ONLY) self.checkDocstring(function, """ addch([y, x,] ch, [attr]) y Y-coordinate. x X-coordinate. ch Character to add. attr Attributes for the character. """) def test_nested_groups(self): function = self.parse_function(""" module curses curses.imaginary [ [ y1: int Y-coordinate. y2: int Y-coordinate. ] x1: int X-coordinate. x2: int X-coordinate. ] ch: char Character to add. [ attr1: long Attributes for the character. attr2: long Attributes for the character. attr3: long Attributes for the character. [ attr4: long Attributes for the character. attr5: long Attributes for the character. attr6: long Attributes for the character. ] ] / """) dataset = ( ('y1', -2), ('y2', -2), ('x1', -1), ('x2', -1), ('ch', 0), ('attr1', 1), ('attr2', 1), ('attr3', 1), ('attr4', 2), ('attr5', 2), ('attr6', 2), ) for name, group in dataset: with self.subTest(name=name, group=group): p = function.parameters[name] self.assertEqual(p.group, group) self.assertEqual(p.kind, inspect.Parameter.POSITIONAL_ONLY) self.checkDocstring(function, """ imaginary([[y1, y2,] x1, x2,] ch, [attr1, attr2, attr3, [attr4, attr5, attr6]]) y1 Y-coordinate. y2 Y-coordinate. x1 X-coordinate. x2 X-coordinate. ch Character to add. attr1 Attributes for the character. attr2 Attributes for the character. attr3 Attributes for the character. attr4 Attributes for the character. attr5 Attributes for the character. attr6 Attributes for the character. """) def test_disallowed_grouping__two_top_groups_on_left(self): err = ( "Function 'two_top_groups_on_left' has an unsupported group " "configuration. (Unexpected state 2.b)" ) block = """ module foo foo.two_top_groups_on_left [ group1 : int ] [ group2 : int ] param: int """ self.expect_failure(block, err, lineno=5) def test_disallowed_grouping__two_top_groups_on_right(self): block = """ module foo foo.two_top_groups_on_right param: int [ group1 : int ] [ group2 : int ] """ err = ( "Function 'two_top_groups_on_right' has an unsupported group " "configuration. (Unexpected state 6.b)" ) self.expect_failure(block, err) def test_disallowed_grouping__parameter_after_group_on_right(self): block = """ module foo foo.parameter_after_group_on_right param: int [ [ group1 : int ] group2 : int ] """ err = ( "Function parameter_after_group_on_right has an unsupported group " "configuration. (Unexpected state 6.a)" ) self.expect_failure(block, err) def test_disallowed_grouping__group_after_parameter_on_left(self): block = """ module foo foo.group_after_parameter_on_left [ group2 : int [ group1 : int ] ] param: int """ err = ( "Function 'group_after_parameter_on_left' has an unsupported group " "configuration. (Unexpected state 2.b)" ) self.expect_failure(block, err) def test_disallowed_grouping__empty_group_on_left(self): block = """ module foo foo.empty_group [ [ ] group2 : int ] param: int """ err = ( "Function 'empty_group' has an empty group. " "All groups must contain at least one parameter." ) self.expect_failure(block, err) def test_disallowed_grouping__empty_group_on_right(self): block = """ module foo foo.empty_group param: int [ [ ] group2 : int ] """ err = ( "Function 'empty_group' has an empty group. " "All groups must contain at least one parameter." ) self.expect_failure(block, err) def test_disallowed_grouping__no_matching_bracket(self): block = """ module foo foo.empty_group param: int ] group2: int ] """ err = "Function 'empty_group' has a ']' without a matching '['" self.expect_failure(block, err) def test_disallowed_grouping__must_be_position_only(self): dataset = (""" with_kwds [ * a: object ] """, """ with_kwds [ a: object ] """) err = ( "You cannot use optional groups ('[' and ']') unless all " "parameters are positional-only ('/')" ) for block in dataset: with self.subTest(block=block): self.expect_failure(block, err) def test_no_parameters(self): function = self.parse_function(""" module foo foo.bar Docstring """) self.assertEqual("bar($module, /)\n--\n\nDocstring", function.docstring) self.assertEqual(1, len(function.parameters)) # self! def test_init_with_no_parameters(self): function = self.parse_function(""" module foo class foo.Bar "unused" "notneeded" foo.Bar.__init__ Docstring """, signatures_in_block=3, function_index=2) # self is not in the signature self.assertEqual("Bar()\n--\n\nDocstring", function.docstring) # but it *is* a parameter self.assertEqual(1, len(function.parameters)) def test_illegal_module_line(self): block = """ module foo foo.bar => int / """ err = "Illegal function name: 'foo.bar => int'" self.expect_failure(block, err) def test_illegal_c_basename(self): block = """ module foo foo.bar as 935 / """ err = "Illegal C basename: '935'" self.expect_failure(block, err) def test_no_c_basename(self): block = "foo as " err = "No C basename provided after 'as' keyword" self.expect_failure(block, err, strip=False) def test_single_star(self): block = """ module foo foo.bar * * """ err = "Function 'bar' uses '*' more than once." self.expect_failure(block, err) def test_parameters_required_after_star(self): dataset = ( "module foo\nfoo.bar\n *", "module foo\nfoo.bar\n *\nDocstring here.", "module foo\nfoo.bar\n this: int\n *", "module foo\nfoo.bar\n this: int\n *\nDocstring.", ) err = "Function 'foo.bar' specifies '*' without any parameters afterwards." for block in dataset: with self.subTest(block=block): self.expect_failure(block, err) def test_fulldisplayname_class(self): dataset = ( ("T", """ class T "void *" "" T.__init__ """), ("m.T", """ module m class m.T "void *" "" @classmethod m.T.__new__ """), ("m.T.C", """ module m class m.T "void *" "" class m.T.C "void *" "" m.T.C.__init__ """), ) for name, code in dataset: with self.subTest(name=name, code=code): block = self.parse(code) func = block.signatures[-1] self.assertEqual(func.fulldisplayname, name) def test_fulldisplayname_meth(self): dataset = ( ("func", "func"), ("m.func", """ module m m.func """), ("T.meth", """ class T "void *" "" T.meth """), ("m.T.meth", """ module m class m.T "void *" "" m.T.meth """), ("m.T.C.meth", """ module m class m.T "void *" "" class m.T.C "void *" "" m.T.C.meth """), ) for name, code in dataset: with self.subTest(name=name, code=code): block = self.parse(code) func = block.signatures[-1] self.assertEqual(func.fulldisplayname, name) def test_depr_star_invalid_format_1(self): block = """ module foo foo.bar this: int * [from 3] Docstring. """ err = ( "Function 'foo.bar': expected format '* [from major.minor]' " "where 'major' and 'minor' are integers; got '3'" ) self.expect_failure(block, err, lineno=3) def test_depr_star_invalid_format_2(self): block = """ module foo foo.bar this: int * [from a.b] Docstring. """ err = ( "Function 'foo.bar': expected format '* [from major.minor]' " "where 'major' and 'minor' are integers; got 'a.b'" ) self.expect_failure(block, err, lineno=3) def test_depr_star_invalid_format_3(self): block = """ module foo foo.bar this: int * [from 1.2.3] Docstring. """ err = ( "Function 'foo.bar': expected format '* [from major.minor]' " "where 'major' and 'minor' are integers; got '1.2.3'" ) self.expect_failure(block, err, lineno=3) def test_parameters_required_after_depr_star(self): block = """ module foo foo.bar this: int * [from 3.14] Docstring. """ err = ( "Function 'foo.bar' specifies '* [from ...]' without " "any parameters afterwards" ) self.expect_failure(block, err, lineno=4) def test_depr_star_must_come_before_star(self): block = """ module foo foo.bar this: int * * [from 3.14] Docstring. """ err = "Function 'foo.bar': '* [from ...]' must come before '*'" self.expect_failure(block, err, lineno=4) def test_depr_star_duplicate(self): block = """ module foo foo.bar a: int * [from 3.14] b: int * [from 3.14] c: int Docstring. """ err = "Function 'foo.bar' uses '[from ...]' more than once" self.expect_failure(block, err, lineno=5) def test_single_slash(self): block = """ module foo foo.bar / / """ err = ( "Function 'bar' has an unsupported group configuration. " "(Unexpected state 0.d)" ) self.expect_failure(block, err) def test_double_slash(self): block = """ module foo foo.bar a: int / b: int / """ err = "Function 'bar' uses '/' more than once." self.expect_failure(block, err) def test_mix_star_and_slash(self): block = """ module foo foo.bar x: int y: int * z: int / """ err = ( "Function 'bar' mixes keyword-only and positional-only parameters, " "which is unsupported." ) self.expect_failure(block, err) def test_parameters_not_permitted_after_slash_for_now(self): block = """ module foo foo.bar / x: int """ err = ( "Function 'bar' has an unsupported group configuration. " "(Unexpected state 0.d)" ) self.expect_failure(block, err) def test_parameters_no_more_than_one_vararg(self): err = "Too many var args" block = """ module foo foo.bar *vararg1: object *vararg2: object """ self.expect_failure(block, err, lineno=0) def test_function_not_at_column_0(self): function = self.parse_function(""" module foo foo.bar x: int Nested docstring here, goeth. * y: str Not at column 0! """) self.checkDocstring(function, """ bar($module, /, x, *, y) -- Not at column 0! x Nested docstring here, goeth. """) def test_docstring_only_summary(self): function = self.parse_function(""" module m m.f summary """) self.checkDocstring(function, """ f($module, /) -- summary """) def test_docstring_empty_lines(self): function = self.parse_function(""" module m m.f """) self.checkDocstring(function, """ f($module, /) -- """) def test_docstring_explicit_params_placement(self): function = self.parse_function(""" module m m.f a: int Param docstring for 'a' will be included b: int c: int Param docstring for 'c' will be included This is the summary line. We'll now place the params section here: {parameters} And now for something completely different! (Note the added newline) """) self.checkDocstring(function, """ f($module, /, a, b, c) -- This is the summary line. We'll now place the params section here: a Param docstring for 'a' will be included c Param docstring for 'c' will be included And now for something completely different! (Note the added newline) """) def test_indent_stack_no_tabs(self): block = """ module foo foo.bar *vararg1: object \t*vararg2: object """ err = ("Tab characters are illegal in the Clinic DSL: " r"'\t*vararg2: object'") self.expect_failure(block, err) def test_indent_stack_illegal_outdent(self): block = """ module foo foo.bar a: object b: object """ err = "Illegal outdent" self.expect_failure(block, err) def test_directive(self): parser = DSLParser(_make_clinic()) parser.flag = False parser.directives['setflag'] = lambda : setattr(parser, 'flag', True) block = clinic.Block("setflag") parser.parse(block) self.assertTrue(parser.flag) def test_legacy_converters(self): block = self.parse('module os\nos.access\n path: "s"') module, function = block.signatures conv = (function.parameters['path']).converter self.assertIsInstance(conv, clinic.str_converter) def test_legacy_converters_non_string_constant_annotation(self): err = "Annotations must be either a name, a function call, or a string" dataset = ( 'module os\nos.access\n path: 42', 'module os\nos.access\n path: 42.42', 'module os\nos.access\n path: 42j', 'module os\nos.access\n path: b"42"', ) for block in dataset: with self.subTest(block=block): self.expect_failure(block, err, lineno=2) def test_other_bizarre_things_in_annotations_fail(self): err = "Annotations must be either a name, a function call, or a string" dataset = ( 'module os\nos.access\n path: {"some": "dictionary"}', 'module os\nos.access\n path: ["list", "of", "strings"]', 'module os\nos.access\n path: (x for x in range(42))', ) for block in dataset: with self.subTest(block=block): self.expect_failure(block, err, lineno=2) def test_kwarg_splats_disallowed_in_function_call_annotations(self): err = "Cannot use a kwarg splat in a function-call annotation" dataset = ( 'module fo\nfo.barbaz\n o: bool(**{None: "bang!"})', 'module fo\nfo.barbaz -> bool(**{None: "bang!"})', 'module fo\nfo.barbaz -> bool(**{"bang": 42})', 'module fo\nfo.barbaz\n o: bool(**{"bang": None})', ) for block in dataset: with self.subTest(block=block): self.expect_failure(block, err) def test_self_param_placement(self): err = ( "A 'self' parameter, if specified, must be the very first thing " "in the parameter block." ) block = """ module foo foo.func a: int self: self(type="PyObject *") """ self.expect_failure(block, err, lineno=3) def test_self_param_cannot_be_optional(self): err = "A 'self' parameter cannot be marked optional." block = """ module foo foo.func self: self(type="PyObject *") = None """ self.expect_failure(block, err, lineno=2) def test_defining_class_param_placement(self): err = ( "A 'defining_class' parameter, if specified, must either be the " "first thing in the parameter block, or come just after 'self'." ) block = """ module foo foo.func self: self(type="PyObject *") a: int cls: defining_class """ self.expect_failure(block, err, lineno=4) def test_defining_class_param_cannot_be_optional(self): err = "A 'defining_class' parameter cannot be marked optional." block = """ module foo foo.func cls: defining_class(type="PyObject *") = None """ self.expect_failure(block, err, lineno=2) def test_slot_methods_cannot_access_defining_class(self): block = """ module foo class Foo "" "" Foo.__init__ cls: defining_class a: object """ err = "Slot methods cannot access their defining class." with self.assertRaisesRegex(ValueError, err): self.parse_function(block) def test_new_must_be_a_class_method(self): err = "'__new__' must be a class method!" block = """ module foo class Foo "" "" Foo.__new__ """ self.expect_failure(block, err, lineno=2) def test_init_must_be_a_normal_method(self): err = "'__init__' must be a normal method, not a class or static method!" block = """ module foo class Foo "" "" @classmethod Foo.__init__ """ self.expect_failure(block, err, lineno=3) def test_duplicate_coexist(self): err = "Called @coexist twice" block = """ module m @coexist @coexist m.fn """ self.expect_failure(block, err, lineno=2) def test_unused_param(self): block = self.parse(""" module foo foo.func fn: object k: float i: float(unused=True) / * flag: bool(unused=True) = False """) sig = block.signatures[1] # Function index == 1 params = sig.parameters conv = lambda fn: params[fn].converter dataset = ( {"name": "fn", "unused": False}, {"name": "k", "unused": False}, {"name": "i", "unused": True}, {"name": "flag", "unused": True}, ) for param in dataset: name, unused = param.values() with self.subTest(name=name, unused=unused): p = conv(name) # Verify that the unused flag is parsed correctly. self.assertEqual(unused, p.unused) # Now, check that we'll produce correct code. decl = p.simple_declaration(in_parser=False) if unused: self.assertIn("Py_UNUSED", decl) else: self.assertNotIn("Py_UNUSED", decl) # Make sure the Py_UNUSED macro is not used in the parser body. parser_decl = p.simple_declaration(in_parser=True) self.assertNotIn("Py_UNUSED", parser_decl) def test_scaffolding(self): # test repr on special values self.assertEqual(repr(clinic.unspecified), '') self.assertEqual(repr(clinic.NULL), '') # test that fail fails with support.captured_stdout() as stdout: errmsg = 'The igloos are melting' with self.assertRaisesRegex(clinic.ClinicError, errmsg) as cm: clinic.fail(errmsg, filename='clown.txt', line_number=69) exc = cm.exception self.assertEqual(exc.filename, 'clown.txt') self.assertEqual(exc.lineno, 69) self.assertEqual(stdout.getvalue(), "") def test_non_ascii_character_in_docstring(self): block = """ module test test.fn a: int á param docstring docstring fü bár baß """ with support.captured_stdout() as stdout: self.parse(block) # The line numbers are off; this is a known limitation. expected = dedent("""\ Warning in file 'clinic_tests' on line 0: Non-ascii characters are not allowed in docstrings: 'á' Warning in file 'clinic_tests' on line 0: Non-ascii characters are not allowed in docstrings: 'ü', 'á', 'ß' """) self.assertEqual(stdout.getvalue(), expected) def test_illegal_c_identifier(self): err = "Illegal C identifier: 17a" block = """ module test test.fn a as 17a: int """ self.expect_failure(block, err, lineno=2) def test_cannot_convert_special_method(self): err = "'__len__' is a special method and cannot be converted" block = """ class T "" "" T.__len__ """ self.expect_failure(block, err, lineno=1) def test_cannot_specify_pydefault_without_default(self): err = "You can't specify py_default without specifying a default value!" block = """ fn a: object(py_default='NULL') """ self.expect_failure(block, err, lineno=1) def test_vararg_cannot_take_default_value(self): err = "Vararg can't take a default value!" block = """ fn *args: object = None """ self.expect_failure(block, err, lineno=1) def test_default_is_not_of_correct_type(self): err = ("int_converter: default value 2.5 for field 'a' " "is not of type 'int'") block = """ fn a: int = 2.5 """ self.expect_failure(block, err, lineno=1) def test_invalid_legacy_converter(self): err = "'fhi' is not a valid legacy converter" block = """ fn a: 'fhi' """ self.expect_failure(block, err, lineno=1) def test_parent_class_or_module_does_not_exist(self): err = "Parent class or module 'z' does not exist" block = """ module m z.func """ self.expect_failure(block, err, lineno=1) def test_duplicate_param_name(self): err = "You can't have two parameters named 'a'" block = """ module m m.func a: int a: float """ self.expect_failure(block, err, lineno=3) def test_param_requires_custom_c_name(self): err = "Parameter 'module' requires a custom C name" block = """ module m m.func module: int """ self.expect_failure(block, err, lineno=2) def test_state_func_docstring_assert_no_group(self): err = "Function 'func' has a ']' without a matching '['" block = """ module m m.func ] docstring """ self.expect_failure(block, err, lineno=2) def test_state_func_docstring_no_summary(self): err = "Docstring for 'm.func' does not have a summary line!" block = """ module m m.func docstring1 docstring2 """ self.expect_failure(block, err, lineno=0) def test_state_func_docstring_only_one_param_template(self): err = "You may not specify {parameters} more than once in a docstring!" block = """ module m m.func docstring summary these are the params: {parameters} these are the params again: {parameters} """ self.expect_failure(block, err, lineno=0) class ClinicExternalTest(TestCase): maxDiff = None def run_clinic(self, *args): with ( support.captured_stdout() as out, support.captured_stderr() as err, self.assertRaises(SystemExit) as cm ): clinic.main(args) return out.getvalue(), err.getvalue(), cm.exception.code def expect_success(self, *args): out, err, code = self.run_clinic(*args) if code != 0: self.fail("\n".join([f"Unexpected failure: {args=}", out, err])) self.assertEqual(err, "") return out def expect_failure(self, *args): out, err, code = self.run_clinic(*args) self.assertNotEqual(code, 0, f"Unexpected success: {args=}") return out, err def test_external(self): CLINIC_TEST = 'clinic.test.c' source = support.findfile(CLINIC_TEST) with open(source, 'r', encoding='utf-8') as f: orig_contents = f.read() # Run clinic CLI and verify that it does not complain. self.addCleanup(unlink, TESTFN) out = self.expect_success("-f", "-o", TESTFN, source) self.assertEqual(out, "") with open(TESTFN, 'r', encoding='utf-8') as f: new_contents = f.read() self.assertEqual(new_contents, orig_contents) def test_no_change(self): # bpo-42398: Test that the destination file is left unchanged if the # content does not change. Moreover, check also that the file # modification time does not change in this case. code = dedent(""" /*[clinic input] [clinic start generated code]*/ /*[clinic end generated code: output=da39a3ee5e6b4b0d input=da39a3ee5e6b4b0d]*/ """) with os_helper.temp_dir() as tmp_dir: fn = os.path.join(tmp_dir, "test.c") with open(fn, "w", encoding="utf-8") as f: f.write(code) pre_mtime = os.stat(fn).st_mtime_ns self.expect_success(fn) post_mtime = os.stat(fn).st_mtime_ns # Don't change the file modification time # if the content does not change self.assertEqual(pre_mtime, post_mtime) def test_cli_force(self): invalid_input = dedent(""" /*[clinic input] output preset block module test test.fn a: int [clinic start generated code]*/ const char *hand_edited = "output block is overwritten"; /*[clinic end generated code: output=bogus input=bogus]*/ """) fail_msg = ( "Checksum mismatch! Expected 'bogus', computed '2ed19'. " "Suggested fix: remove all generated code including the end marker, " "or use the '-f' option.\n" ) with os_helper.temp_dir() as tmp_dir: fn = os.path.join(tmp_dir, "test.c") with open(fn, "w", encoding="utf-8") as f: f.write(invalid_input) # First, run the CLI without -f and expect failure. # Note, we cannot check the entire fail msg, because the path to # the tmp file will change for every run. _, err = self.expect_failure(fn) self.assertTrue(err.endswith(fail_msg), f"{err!r} does not end with {fail_msg!r}") # Then, force regeneration; success expected. out = self.expect_success("-f", fn) self.assertEqual(out, "") # Verify by checking the checksum. checksum = ( "/*[clinic end generated code: " "output=2124c291eb067d76 input=9543a8d2da235301]*/\n" ) with open(fn, 'r', encoding='utf-8') as f: generated = f.read() self.assertTrue(generated.endswith(checksum)) def test_cli_make(self): c_code = dedent(""" /*[clinic input] [clinic start generated code]*/ """) py_code = "pass" c_files = "file1.c", "file2.c" py_files = "file1.py", "file2.py" def create_files(files, srcdir, code): for fn in files: path = os.path.join(srcdir, fn) with open(path, "w", encoding="utf-8") as f: f.write(code) with os_helper.temp_dir() as tmp_dir: # add some folders, some C files and a Python file create_files(c_files, tmp_dir, c_code) create_files(py_files, tmp_dir, py_code) # create C files in externals/ dir ext_path = os.path.join(tmp_dir, "externals") with os_helper.temp_dir(path=ext_path) as externals: create_files(c_files, externals, c_code) # run clinic in verbose mode with --make on tmpdir out = self.expect_success("-v", "--make", "--srcdir", tmp_dir) # expect verbose mode to only mention the C files in tmp_dir for filename in c_files: with self.subTest(filename=filename): path = os.path.join(tmp_dir, filename) self.assertIn(path, out) for filename in py_files: with self.subTest(filename=filename): path = os.path.join(tmp_dir, filename) self.assertNotIn(path, out) # don't expect C files from the externals dir for filename in c_files: with self.subTest(filename=filename): path = os.path.join(ext_path, filename) self.assertNotIn(path, out) def test_cli_make_exclude(self): code = dedent(""" /*[clinic input] [clinic start generated code]*/ """) with os_helper.temp_dir(quiet=False) as tmp_dir: # add some folders, some C files and a Python file for fn in "file1.c", "file2.c", "file3.c", "file4.c": path = os.path.join(tmp_dir, fn) with open(path, "w", encoding="utf-8") as f: f.write(code) # Run clinic in verbose mode with --make on tmpdir. # Exclude file2.c and file3.c. out = self.expect_success( "-v", "--make", "--srcdir", tmp_dir, "--exclude", os.path.join(tmp_dir, "file2.c"), # The added ./ should be normalised away. "--exclude", os.path.join(tmp_dir, "./file3.c"), # Relative paths should also work. "--exclude", "file4.c" ) # expect verbose mode to only mention the C files in tmp_dir self.assertIn("file1.c", out) self.assertNotIn("file2.c", out) self.assertNotIn("file3.c", out) self.assertNotIn("file4.c", out) def test_cli_verbose(self): with os_helper.temp_dir() as tmp_dir: fn = os.path.join(tmp_dir, "test.c") with open(fn, "w", encoding="utf-8") as f: f.write("") out = self.expect_success("-v", fn) self.assertEqual(out.strip(), fn) def test_cli_help(self): out = self.expect_success("-h") self.assertIn("usage: clinic.py", out) def test_cli_converters(self): prelude = dedent(""" Legacy converters: B C D L O S U Y Z Z# b c d f h i l p s s# s* u u# w* y y# y* z z# z* Converters: """) expected_converters = ( "bool", "byte", "char", "defining_class", "double", "fildes", "float", "int", "long", "long_long", "object", "Py_buffer", "Py_complex", "Py_ssize_t", "Py_UNICODE", "PyByteArrayObject", "PyBytesObject", "self", "short", "size_t", "slice_index", "str", "unicode", "unsigned_char", "unsigned_int", "unsigned_long", "unsigned_long_long", "unsigned_short", ) finale = dedent(""" Return converters: bool() double() float() init() int() long() Py_ssize_t() size_t() unsigned_int() unsigned_long() All converters also accept (c_default=None, py_default=None, annotation=None). All return converters also accept (py_default=None). """) out = self.expect_success("--converters") # We cannot simply compare the output, because the repr of the *accept* # param may change (it's a set, thus unordered). So, let's compare the # start and end of the expected output, and then assert that the # converters appear lined up in alphabetical order. self.assertTrue(out.startswith(prelude), out) self.assertTrue(out.endswith(finale), out) out = out.removeprefix(prelude) out = out.removesuffix(finale) lines = out.split("\n") for converter, line in zip(expected_converters, lines): line = line.lstrip() with self.subTest(converter=converter): self.assertTrue( line.startswith(converter), f"expected converter {converter!r}, got {line!r}" ) def test_cli_fail_converters_and_filename(self): _, err = self.expect_failure("--converters", "test.c") msg = "can't specify --converters and a filename at the same time" self.assertIn(msg, err) def test_cli_fail_no_filename(self): _, err = self.expect_failure() self.assertIn("no input files", err) def test_cli_fail_output_and_multiple_files(self): _, err = self.expect_failure("-o", "out.c", "input.c", "moreinput.c") msg = "error: can't use -o with multiple filenames" self.assertIn(msg, err) def test_cli_fail_filename_or_output_and_make(self): msg = "can't use -o or filenames with --make" for opts in ("-o", "out.c"), ("filename.c",): with self.subTest(opts=opts): _, err = self.expect_failure("--make", *opts) self.assertIn(msg, err) def test_cli_fail_make_without_srcdir(self): _, err = self.expect_failure("--make", "--srcdir", "") msg = "error: --srcdir must not be empty with --make" self.assertIn(msg, err) def test_file_dest(self): block = dedent(""" /*[clinic input] destination test new file {path}.h output everything test func a: object / [clinic start generated code]*/ """) expected_checksum_line = ( "/*[clinic end generated code: " "output=da39a3ee5e6b4b0d input=b602ab8e173ac3bd]*/\n" ) expected_output = dedent("""\ /*[clinic input] preserve [clinic start generated code]*/ #if defined(Py_BUILD_CORE) && !defined(Py_BUILD_CORE_MODULE) # include "pycore_gc.h" // PyGC_Head # include "pycore_runtime.h" // _Py_ID() #endif PyDoc_VAR(func__doc__); PyDoc_STRVAR(func__doc__, "func($module, a, /)\\n" "--\\n" "\\n"); #define FUNC_METHODDEF \\ {"func", (PyCFunction)func, METH_O, func__doc__}, static PyObject * func(PyObject *module, PyObject *a) /*[clinic end generated code: output=56c09670e89a0d9a input=a9049054013a1b77]*/ """) with os_helper.temp_dir() as tmp_dir: in_fn = os.path.join(tmp_dir, "test.c") out_fn = os.path.join(tmp_dir, "test.c.h") with open(in_fn, "w", encoding="utf-8") as f: f.write(block) with open(out_fn, "w", encoding="utf-8") as f: f.write("") # Write an empty output file! # Clinic should complain about the empty output file. _, err = self.expect_failure(in_fn) expected_err = (f"Modified destination file {out_fn!r}; " "not overwriting!") self.assertIn(expected_err, err) # Run clinic again, this time with the -f option. _ = self.expect_success("-f", in_fn) # Read back the generated output. with open(in_fn, encoding="utf-8") as f: data = f.read() expected_block = f"{block}{expected_checksum_line}" self.assertEqual(data, expected_block) with open(out_fn, encoding="utf-8") as f: data = f.read() self.assertEqual(data, expected_output) try: import _testclinic as ac_tester except ImportError: ac_tester = None @unittest.skipIf(ac_tester is None, "_testclinic is missing") class ClinicFunctionalTest(unittest.TestCase): locals().update((name, getattr(ac_tester, name)) for name in dir(ac_tester) if name.startswith('test_')) def check_depr_star(self, pnames, fn, *args, **kwds): regex = ( fr"Passing( more than)?( [0-9]+)? positional argument(s)? to " fr"{fn.__name__}\(\) is deprecated. Parameter(s)? {pnames} will " fr"become( a)? keyword-only parameter(s)? in Python 3\.14" ) with self.assertWarnsRegex(DeprecationWarning, regex) as cm: # Record the line number, so we're sure we've got the correct stack # level on the deprecation warning. _, lineno = fn(*args, **kwds), sys._getframe().f_lineno self.assertEqual(cm.filename, __file__) self.assertEqual(cm.lineno, lineno) def test_objects_converter(self): with self.assertRaises(TypeError): ac_tester.objects_converter() self.assertEqual(ac_tester.objects_converter(1, 2), (1, 2)) self.assertEqual(ac_tester.objects_converter([], 'whatever class'), ([], 'whatever class')) self.assertEqual(ac_tester.objects_converter(1), (1, None)) def test_bytes_object_converter(self): with self.assertRaises(TypeError): ac_tester.bytes_object_converter(1) self.assertEqual(ac_tester.bytes_object_converter(b'BytesObject'), (b'BytesObject',)) def test_byte_array_object_converter(self): with self.assertRaises(TypeError): ac_tester.byte_array_object_converter(1) byte_arr = bytearray(b'ByteArrayObject') self.assertEqual(ac_tester.byte_array_object_converter(byte_arr), (byte_arr,)) def test_unicode_converter(self): with self.assertRaises(TypeError): ac_tester.unicode_converter(1) self.assertEqual(ac_tester.unicode_converter('unicode'), ('unicode',)) def test_bool_converter(self): with self.assertRaises(TypeError): ac_tester.bool_converter(False, False, 'not a int') self.assertEqual(ac_tester.bool_converter(), (True, True, True)) self.assertEqual(ac_tester.bool_converter('', [], 5), (False, False, True)) self.assertEqual(ac_tester.bool_converter(('not empty',), {1: 2}, 0), (True, True, False)) def test_char_converter(self): with self.assertRaises(TypeError): ac_tester.char_converter(1) with self.assertRaises(TypeError): ac_tester.char_converter(b'ab') chars = [b'A', b'\a', b'\b', b'\t', b'\n', b'\v', b'\f', b'\r', b'"', b"'", b'?', b'\\', b'\000', b'\377'] expected = tuple(ord(c) for c in chars) self.assertEqual(ac_tester.char_converter(), expected) chars = [b'1', b'2', b'3', b'4', b'5', b'6', b'7', b'8', b'9', b'0', b'a', b'b', b'c', b'd'] expected = tuple(ord(c) for c in chars) self.assertEqual(ac_tester.char_converter(*chars), expected) def test_unsigned_char_converter(self): from _testcapi import UCHAR_MAX with self.assertRaises(OverflowError): ac_tester.unsigned_char_converter(-1) with self.assertRaises(OverflowError): ac_tester.unsigned_char_converter(UCHAR_MAX + 1) with self.assertRaises(OverflowError): ac_tester.unsigned_char_converter(0, UCHAR_MAX + 1) with self.assertRaises(TypeError): ac_tester.unsigned_char_converter([]) self.assertEqual(ac_tester.unsigned_char_converter(), (12, 34, 56)) self.assertEqual(ac_tester.unsigned_char_converter(0, 0, UCHAR_MAX + 1), (0, 0, 0)) self.assertEqual(ac_tester.unsigned_char_converter(0, 0, (UCHAR_MAX + 1) * 3 + 123), (0, 0, 123)) def test_short_converter(self): from _testcapi import SHRT_MIN, SHRT_MAX with self.assertRaises(OverflowError): ac_tester.short_converter(SHRT_MIN - 1) with self.assertRaises(OverflowError): ac_tester.short_converter(SHRT_MAX + 1) with self.assertRaises(TypeError): ac_tester.short_converter([]) self.assertEqual(ac_tester.short_converter(-1234), (-1234,)) self.assertEqual(ac_tester.short_converter(4321), (4321,)) def test_unsigned_short_converter(self): from _testcapi import USHRT_MAX with self.assertRaises(ValueError): ac_tester.unsigned_short_converter(-1) with self.assertRaises(OverflowError): ac_tester.unsigned_short_converter(USHRT_MAX + 1) with self.assertRaises(OverflowError): ac_tester.unsigned_short_converter(0, USHRT_MAX + 1) with self.assertRaises(TypeError): ac_tester.unsigned_short_converter([]) self.assertEqual(ac_tester.unsigned_short_converter(), (12, 34, 56)) self.assertEqual(ac_tester.unsigned_short_converter(0, 0, USHRT_MAX + 1), (0, 0, 0)) self.assertEqual(ac_tester.unsigned_short_converter(0, 0, (USHRT_MAX + 1) * 3 + 123), (0, 0, 123)) def test_int_converter(self): from _testcapi import INT_MIN, INT_MAX with self.assertRaises(OverflowError): ac_tester.int_converter(INT_MIN - 1) with self.assertRaises(OverflowError): ac_tester.int_converter(INT_MAX + 1) with self.assertRaises(TypeError): ac_tester.int_converter(1, 2, 3) with self.assertRaises(TypeError): ac_tester.int_converter([]) self.assertEqual(ac_tester.int_converter(), (12, 34, 45)) self.assertEqual(ac_tester.int_converter(1, 2, '3'), (1, 2, ord('3'))) def test_unsigned_int_converter(self): from _testcapi import UINT_MAX with self.assertRaises(ValueError): ac_tester.unsigned_int_converter(-1) with self.assertRaises(OverflowError): ac_tester.unsigned_int_converter(UINT_MAX + 1) with self.assertRaises(OverflowError): ac_tester.unsigned_int_converter(0, UINT_MAX + 1) with self.assertRaises(TypeError): ac_tester.unsigned_int_converter([]) self.assertEqual(ac_tester.unsigned_int_converter(), (12, 34, 56)) self.assertEqual(ac_tester.unsigned_int_converter(0, 0, UINT_MAX + 1), (0, 0, 0)) self.assertEqual(ac_tester.unsigned_int_converter(0, 0, (UINT_MAX + 1) * 3 + 123), (0, 0, 123)) def test_long_converter(self): from _testcapi import LONG_MIN, LONG_MAX with self.assertRaises(OverflowError): ac_tester.long_converter(LONG_MIN - 1) with self.assertRaises(OverflowError): ac_tester.long_converter(LONG_MAX + 1) with self.assertRaises(TypeError): ac_tester.long_converter([]) self.assertEqual(ac_tester.long_converter(), (12,)) self.assertEqual(ac_tester.long_converter(-1234), (-1234,)) def test_unsigned_long_converter(self): from _testcapi import ULONG_MAX with self.assertRaises(ValueError): ac_tester.unsigned_long_converter(-1) with self.assertRaises(OverflowError): ac_tester.unsigned_long_converter(ULONG_MAX + 1) with self.assertRaises(OverflowError): ac_tester.unsigned_long_converter(0, ULONG_MAX + 1) with self.assertRaises(TypeError): ac_tester.unsigned_long_converter([]) self.assertEqual(ac_tester.unsigned_long_converter(), (12, 34, 56)) self.assertEqual(ac_tester.unsigned_long_converter(0, 0, ULONG_MAX + 1), (0, 0, 0)) self.assertEqual(ac_tester.unsigned_long_converter(0, 0, (ULONG_MAX + 1) * 3 + 123), (0, 0, 123)) def test_long_long_converter(self): from _testcapi import LLONG_MIN, LLONG_MAX with self.assertRaises(OverflowError): ac_tester.long_long_converter(LLONG_MIN - 1) with self.assertRaises(OverflowError): ac_tester.long_long_converter(LLONG_MAX + 1) with self.assertRaises(TypeError): ac_tester.long_long_converter([]) self.assertEqual(ac_tester.long_long_converter(), (12,)) self.assertEqual(ac_tester.long_long_converter(-1234), (-1234,)) def test_unsigned_long_long_converter(self): from _testcapi import ULLONG_MAX with self.assertRaises(ValueError): ac_tester.unsigned_long_long_converter(-1) with self.assertRaises(OverflowError): ac_tester.unsigned_long_long_converter(ULLONG_MAX + 1) with self.assertRaises(OverflowError): ac_tester.unsigned_long_long_converter(0, ULLONG_MAX + 1) with self.assertRaises(TypeError): ac_tester.unsigned_long_long_converter([]) self.assertEqual(ac_tester.unsigned_long_long_converter(), (12, 34, 56)) self.assertEqual(ac_tester.unsigned_long_long_converter(0, 0, ULLONG_MAX + 1), (0, 0, 0)) self.assertEqual(ac_tester.unsigned_long_long_converter(0, 0, (ULLONG_MAX + 1) * 3 + 123), (0, 0, 123)) def test_py_ssize_t_converter(self): from _testcapi import PY_SSIZE_T_MIN, PY_SSIZE_T_MAX with self.assertRaises(OverflowError): ac_tester.py_ssize_t_converter(PY_SSIZE_T_MIN - 1) with self.assertRaises(OverflowError): ac_tester.py_ssize_t_converter(PY_SSIZE_T_MAX + 1) with self.assertRaises(TypeError): ac_tester.py_ssize_t_converter([]) self.assertEqual(ac_tester.py_ssize_t_converter(), (12, 34, 56)) self.assertEqual(ac_tester.py_ssize_t_converter(1, 2, None), (1, 2, 56)) def test_slice_index_converter(self): from _testcapi import PY_SSIZE_T_MIN, PY_SSIZE_T_MAX with self.assertRaises(TypeError): ac_tester.slice_index_converter([]) self.assertEqual(ac_tester.slice_index_converter(), (12, 34, 56)) self.assertEqual(ac_tester.slice_index_converter(1, 2, None), (1, 2, 56)) self.assertEqual(ac_tester.slice_index_converter(PY_SSIZE_T_MAX, PY_SSIZE_T_MAX + 1, PY_SSIZE_T_MAX + 1234), (PY_SSIZE_T_MAX, PY_SSIZE_T_MAX, PY_SSIZE_T_MAX)) self.assertEqual(ac_tester.slice_index_converter(PY_SSIZE_T_MIN, PY_SSIZE_T_MIN - 1, PY_SSIZE_T_MIN - 1234), (PY_SSIZE_T_MIN, PY_SSIZE_T_MIN, PY_SSIZE_T_MIN)) def test_size_t_converter(self): with self.assertRaises(ValueError): ac_tester.size_t_converter(-1) with self.assertRaises(TypeError): ac_tester.size_t_converter([]) self.assertEqual(ac_tester.size_t_converter(), (12,)) def test_float_converter(self): with self.assertRaises(TypeError): ac_tester.float_converter([]) self.assertEqual(ac_tester.float_converter(), (12.5,)) self.assertEqual(ac_tester.float_converter(-0.5), (-0.5,)) def test_double_converter(self): with self.assertRaises(TypeError): ac_tester.double_converter([]) self.assertEqual(ac_tester.double_converter(), (12.5,)) self.assertEqual(ac_tester.double_converter(-0.5), (-0.5,)) def test_py_complex_converter(self): with self.assertRaises(TypeError): ac_tester.py_complex_converter([]) self.assertEqual(ac_tester.py_complex_converter(complex(1, 2)), (complex(1, 2),)) self.assertEqual(ac_tester.py_complex_converter(complex('-1-2j')), (complex('-1-2j'),)) self.assertEqual(ac_tester.py_complex_converter(-0.5), (-0.5,)) self.assertEqual(ac_tester.py_complex_converter(10), (10,)) def test_str_converter(self): with self.assertRaises(TypeError): ac_tester.str_converter(1) with self.assertRaises(TypeError): ac_tester.str_converter('a', 'b', 'c') with self.assertRaises(ValueError): ac_tester.str_converter('a', b'b\0b', 'c') self.assertEqual(ac_tester.str_converter('a', b'b', 'c'), ('a', 'b', 'c')) self.assertEqual(ac_tester.str_converter('a', b'b', b'c'), ('a', 'b', 'c')) self.assertEqual(ac_tester.str_converter('a', b'b', 'c\0c'), ('a', 'b', 'c\0c')) def test_str_converter_encoding(self): with self.assertRaises(TypeError): ac_tester.str_converter_encoding(1) self.assertEqual(ac_tester.str_converter_encoding('a', 'b', 'c'), ('a', 'b', 'c')) with self.assertRaises(TypeError): ac_tester.str_converter_encoding('a', b'b\0b', 'c') self.assertEqual(ac_tester.str_converter_encoding('a', b'b', bytearray([ord('c')])), ('a', 'b', 'c')) self.assertEqual(ac_tester.str_converter_encoding('a', b'b', bytearray([ord('c'), 0, ord('c')])), ('a', 'b', 'c\x00c')) self.assertEqual(ac_tester.str_converter_encoding('a', b'b', b'c\x00c'), ('a', 'b', 'c\x00c')) def test_py_buffer_converter(self): with self.assertRaises(TypeError): ac_tester.py_buffer_converter('a', 'b') self.assertEqual(ac_tester.py_buffer_converter('abc', bytearray([1, 2, 3])), (b'abc', b'\x01\x02\x03')) def test_keywords(self): self.assertEqual(ac_tester.keywords(1, 2), (1, 2)) self.assertEqual(ac_tester.keywords(1, b=2), (1, 2)) self.assertEqual(ac_tester.keywords(a=1, b=2), (1, 2)) def test_keywords_kwonly(self): with self.assertRaises(TypeError): ac_tester.keywords_kwonly(1, 2) self.assertEqual(ac_tester.keywords_kwonly(1, b=2), (1, 2)) self.assertEqual(ac_tester.keywords_kwonly(a=1, b=2), (1, 2)) def test_keywords_opt(self): self.assertEqual(ac_tester.keywords_opt(1), (1, None, None)) self.assertEqual(ac_tester.keywords_opt(1, 2), (1, 2, None)) self.assertEqual(ac_tester.keywords_opt(1, 2, 3), (1, 2, 3)) self.assertEqual(ac_tester.keywords_opt(1, b=2), (1, 2, None)) self.assertEqual(ac_tester.keywords_opt(1, 2, c=3), (1, 2, 3)) self.assertEqual(ac_tester.keywords_opt(a=1, c=3), (1, None, 3)) self.assertEqual(ac_tester.keywords_opt(a=1, b=2, c=3), (1, 2, 3)) def test_keywords_opt_kwonly(self): self.assertEqual(ac_tester.keywords_opt_kwonly(1), (1, None, None, None)) self.assertEqual(ac_tester.keywords_opt_kwonly(1, 2), (1, 2, None, None)) with self.assertRaises(TypeError): ac_tester.keywords_opt_kwonly(1, 2, 3) self.assertEqual(ac_tester.keywords_opt_kwonly(1, b=2), (1, 2, None, None)) self.assertEqual(ac_tester.keywords_opt_kwonly(1, 2, c=3), (1, 2, 3, None)) self.assertEqual(ac_tester.keywords_opt_kwonly(a=1, c=3), (1, None, 3, None)) self.assertEqual(ac_tester.keywords_opt_kwonly(a=1, b=2, c=3, d=4), (1, 2, 3, 4)) def test_keywords_kwonly_opt(self): self.assertEqual(ac_tester.keywords_kwonly_opt(1), (1, None, None)) with self.assertRaises(TypeError): ac_tester.keywords_kwonly_opt(1, 2) self.assertEqual(ac_tester.keywords_kwonly_opt(1, b=2), (1, 2, None)) self.assertEqual(ac_tester.keywords_kwonly_opt(a=1, c=3), (1, None, 3)) self.assertEqual(ac_tester.keywords_kwonly_opt(a=1, b=2, c=3), (1, 2, 3)) def test_posonly_keywords(self): with self.assertRaises(TypeError): ac_tester.posonly_keywords(1) with self.assertRaises(TypeError): ac_tester.posonly_keywords(a=1, b=2) self.assertEqual(ac_tester.posonly_keywords(1, 2), (1, 2)) self.assertEqual(ac_tester.posonly_keywords(1, b=2), (1, 2)) def test_posonly_kwonly(self): with self.assertRaises(TypeError): ac_tester.posonly_kwonly(1) with self.assertRaises(TypeError): ac_tester.posonly_kwonly(1, 2) with self.assertRaises(TypeError): ac_tester.posonly_kwonly(a=1, b=2) self.assertEqual(ac_tester.posonly_kwonly(1, b=2), (1, 2)) def test_posonly_keywords_kwonly(self): with self.assertRaises(TypeError): ac_tester.posonly_keywords_kwonly(1) with self.assertRaises(TypeError): ac_tester.posonly_keywords_kwonly(1, 2, 3) with self.assertRaises(TypeError): ac_tester.posonly_keywords_kwonly(a=1, b=2, c=3) self.assertEqual(ac_tester.posonly_keywords_kwonly(1, 2, c=3), (1, 2, 3)) self.assertEqual(ac_tester.posonly_keywords_kwonly(1, b=2, c=3), (1, 2, 3)) def test_posonly_keywords_opt(self): with self.assertRaises(TypeError): ac_tester.posonly_keywords_opt(1) self.assertEqual(ac_tester.posonly_keywords_opt(1, 2), (1, 2, None, None)) self.assertEqual(ac_tester.posonly_keywords_opt(1, 2, 3), (1, 2, 3, None)) self.assertEqual(ac_tester.posonly_keywords_opt(1, 2, 3, 4), (1, 2, 3, 4)) self.assertEqual(ac_tester.posonly_keywords_opt(1, b=2), (1, 2, None, None)) self.assertEqual(ac_tester.posonly_keywords_opt(1, 2, c=3), (1, 2, 3, None)) with self.assertRaises(TypeError): ac_tester.posonly_keywords_opt(a=1, b=2, c=3, d=4) self.assertEqual(ac_tester.posonly_keywords_opt(1, b=2, c=3, d=4), (1, 2, 3, 4)) def test_posonly_opt_keywords_opt(self): self.assertEqual(ac_tester.posonly_opt_keywords_opt(1), (1, None, None, None)) self.assertEqual(ac_tester.posonly_opt_keywords_opt(1, 2), (1, 2, None, None)) self.assertEqual(ac_tester.posonly_opt_keywords_opt(1, 2, 3), (1, 2, 3, None)) self.assertEqual(ac_tester.posonly_opt_keywords_opt(1, 2, 3, 4), (1, 2, 3, 4)) with self.assertRaises(TypeError): ac_tester.posonly_opt_keywords_opt(1, b=2) self.assertEqual(ac_tester.posonly_opt_keywords_opt(1, 2, c=3), (1, 2, 3, None)) self.assertEqual(ac_tester.posonly_opt_keywords_opt(1, 2, c=3, d=4), (1, 2, 3, 4)) with self.assertRaises(TypeError): ac_tester.posonly_opt_keywords_opt(a=1, b=2, c=3, d=4) def test_posonly_kwonly_opt(self): with self.assertRaises(TypeError): ac_tester.posonly_kwonly_opt(1) with self.assertRaises(TypeError): ac_tester.posonly_kwonly_opt(1, 2) self.assertEqual(ac_tester.posonly_kwonly_opt(1, b=2), (1, 2, None, None)) self.assertEqual(ac_tester.posonly_kwonly_opt(1, b=2, c=3), (1, 2, 3, None)) self.assertEqual(ac_tester.posonly_kwonly_opt(1, b=2, c=3, d=4), (1, 2, 3, 4)) with self.assertRaises(TypeError): ac_tester.posonly_kwonly_opt(a=1, b=2, c=3, d=4) def test_posonly_opt_kwonly_opt(self): self.assertEqual(ac_tester.posonly_opt_kwonly_opt(1), (1, None, None, None)) self.assertEqual(ac_tester.posonly_opt_kwonly_opt(1, 2), (1, 2, None, None)) with self.assertRaises(TypeError): ac_tester.posonly_opt_kwonly_opt(1, 2, 3) with self.assertRaises(TypeError): ac_tester.posonly_opt_kwonly_opt(1, b=2) self.assertEqual(ac_tester.posonly_opt_kwonly_opt(1, 2, c=3), (1, 2, 3, None)) self.assertEqual(ac_tester.posonly_opt_kwonly_opt(1, 2, c=3, d=4), (1, 2, 3, 4)) def test_posonly_keywords_kwonly_opt(self): with self.assertRaises(TypeError): ac_tester.posonly_keywords_kwonly_opt(1) with self.assertRaises(TypeError): ac_tester.posonly_keywords_kwonly_opt(1, 2) with self.assertRaises(TypeError): ac_tester.posonly_keywords_kwonly_opt(1, b=2) with self.assertRaises(TypeError): ac_tester.posonly_keywords_kwonly_opt(1, 2, 3) with self.assertRaises(TypeError): ac_tester.posonly_keywords_kwonly_opt(a=1, b=2, c=3) self.assertEqual(ac_tester.posonly_keywords_kwonly_opt(1, 2, c=3), (1, 2, 3, None, None)) self.assertEqual(ac_tester.posonly_keywords_kwonly_opt(1, b=2, c=3), (1, 2, 3, None, None)) self.assertEqual(ac_tester.posonly_keywords_kwonly_opt(1, 2, c=3, d=4), (1, 2, 3, 4, None)) self.assertEqual(ac_tester.posonly_keywords_kwonly_opt(1, 2, c=3, d=4, e=5), (1, 2, 3, 4, 5)) def test_posonly_keywords_opt_kwonly_opt(self): with self.assertRaises(TypeError): ac_tester.posonly_keywords_opt_kwonly_opt(1) self.assertEqual(ac_tester.posonly_keywords_opt_kwonly_opt(1, 2), (1, 2, None, None, None)) self.assertEqual(ac_tester.posonly_keywords_opt_kwonly_opt(1, b=2), (1, 2, None, None, None)) with self.assertRaises(TypeError): ac_tester.posonly_keywords_opt_kwonly_opt(1, 2, 3, 4) with self.assertRaises(TypeError): ac_tester.posonly_keywords_opt_kwonly_opt(a=1, b=2) self.assertEqual(ac_tester.posonly_keywords_opt_kwonly_opt(1, 2, c=3), (1, 2, 3, None, None)) self.assertEqual(ac_tester.posonly_keywords_opt_kwonly_opt(1, b=2, c=3), (1, 2, 3, None, None)) self.assertEqual(ac_tester.posonly_keywords_opt_kwonly_opt(1, 2, 3, d=4), (1, 2, 3, 4, None)) self.assertEqual(ac_tester.posonly_keywords_opt_kwonly_opt(1, 2, c=3, d=4), (1, 2, 3, 4, None)) self.assertEqual(ac_tester.posonly_keywords_opt_kwonly_opt(1, 2, 3, d=4, e=5), (1, 2, 3, 4, 5)) self.assertEqual(ac_tester.posonly_keywords_opt_kwonly_opt(1, 2, c=3, d=4, e=5), (1, 2, 3, 4, 5)) def test_posonly_opt_keywords_opt_kwonly_opt(self): self.assertEqual(ac_tester.posonly_opt_keywords_opt_kwonly_opt(1), (1, None, None, None)) self.assertEqual(ac_tester.posonly_opt_keywords_opt_kwonly_opt(1, 2), (1, 2, None, None)) with self.assertRaises(TypeError): ac_tester.posonly_opt_keywords_opt_kwonly_opt(1, b=2) self.assertEqual(ac_tester.posonly_opt_keywords_opt_kwonly_opt(1, 2, 3), (1, 2, 3, None)) self.assertEqual(ac_tester.posonly_opt_keywords_opt_kwonly_opt(1, 2, c=3), (1, 2, 3, None)) self.assertEqual(ac_tester.posonly_opt_keywords_opt_kwonly_opt(1, 2, 3, d=4), (1, 2, 3, 4)) self.assertEqual(ac_tester.posonly_opt_keywords_opt_kwonly_opt(1, 2, c=3, d=4), (1, 2, 3, 4)) with self.assertRaises(TypeError): ac_tester.posonly_opt_keywords_opt_kwonly_opt(1, 2, 3, 4) def test_keyword_only_parameter(self): with self.assertRaises(TypeError): ac_tester.keyword_only_parameter() with self.assertRaises(TypeError): ac_tester.keyword_only_parameter(1) self.assertEqual(ac_tester.keyword_only_parameter(a=1), (1,)) def test_posonly_vararg(self): with self.assertRaises(TypeError): ac_tester.posonly_vararg() self.assertEqual(ac_tester.posonly_vararg(1, 2), (1, 2, ())) self.assertEqual(ac_tester.posonly_vararg(1, b=2), (1, 2, ())) self.assertEqual(ac_tester.posonly_vararg(1, 2, 3, 4), (1, 2, (3, 4))) def test_vararg_and_posonly(self): with self.assertRaises(TypeError): ac_tester.vararg_and_posonly() with self.assertRaises(TypeError): ac_tester.vararg_and_posonly(1, b=2) self.assertEqual(ac_tester.vararg_and_posonly(1, 2, 3, 4), (1, (2, 3, 4))) def test_vararg(self): with self.assertRaises(TypeError): ac_tester.vararg() with self.assertRaises(TypeError): ac_tester.vararg(1, b=2) self.assertEqual(ac_tester.vararg(1, 2, 3, 4), (1, (2, 3, 4))) def test_vararg_with_default(self): with self.assertRaises(TypeError): ac_tester.vararg_with_default() self.assertEqual(ac_tester.vararg_with_default(1, b=False), (1, (), False)) self.assertEqual(ac_tester.vararg_with_default(1, 2, 3, 4), (1, (2, 3, 4), False)) self.assertEqual(ac_tester.vararg_with_default(1, 2, 3, 4, b=True), (1, (2, 3, 4), True)) def test_vararg_with_only_defaults(self): self.assertEqual(ac_tester.vararg_with_only_defaults(), ((), None)) self.assertEqual(ac_tester.vararg_with_only_defaults(b=2), ((), 2)) self.assertEqual(ac_tester.vararg_with_only_defaults(1, b=2), ((1, ), 2)) self.assertEqual(ac_tester.vararg_with_only_defaults(1, 2, 3, 4), ((1, 2, 3, 4), None)) self.assertEqual(ac_tester.vararg_with_only_defaults(1, 2, 3, 4, b=5), ((1, 2, 3, 4), 5)) def test_gh_32092_oob(self): ac_tester.gh_32092_oob(1, 2, 3, 4, kw1=5, kw2=6) def test_gh_32092_kw_pass(self): ac_tester.gh_32092_kw_pass(1, 2, 3) def test_gh_99233_refcount(self): arg = '*A unique string is not referenced by anywhere else.*' arg_refcount_origin = sys.getrefcount(arg) ac_tester.gh_99233_refcount(arg) arg_refcount_after = sys.getrefcount(arg) self.assertEqual(arg_refcount_origin, arg_refcount_after) def test_gh_99240_double_free(self): err = re.escape( "gh_99240_double_free() argument 2 must be encoded string " "without null bytes, not str" ) with self.assertRaisesRegex(TypeError, err): ac_tester.gh_99240_double_free('a', '\0b') def test_cloned_func_exception_message(self): incorrect_arg = -1 # f1() and f2() accept a single str with self.assertRaisesRegex(TypeError, "clone_f1"): ac_tester.clone_f1(incorrect_arg) with self.assertRaisesRegex(TypeError, "clone_f2"): ac_tester.clone_f2(incorrect_arg) def test_cloned_func_with_converter_exception_message(self): for name in "clone_with_conv_f1", "clone_with_conv_f2": with self.subTest(name=name): func = getattr(ac_tester, name) self.assertEqual(func(), name) def test_depr_star_new(self): regex = re.escape( "Passing positional arguments to _testclinic.DeprStarNew() is " "deprecated. Parameter 'a' will become a keyword-only parameter " "in Python 3.14." ) with self.assertWarnsRegex(DeprecationWarning, regex) as cm: ac_tester.DeprStarNew(None) self.assertEqual(cm.filename, __file__) def test_depr_star_new_cloned(self): regex = re.escape( "Passing positional arguments to _testclinic.DeprStarNew.cloned() " "is deprecated. Parameter 'a' will become a keyword-only parameter " "in Python 3.14." ) obj = ac_tester.DeprStarNew(a=None) with self.assertWarnsRegex(DeprecationWarning, regex) as cm: obj.cloned(None) self.assertEqual(cm.filename, __file__) def test_depr_star_init(self): regex = re.escape( "Passing positional arguments to _testclinic.DeprStarInit() is " "deprecated. Parameter 'a' will become a keyword-only parameter " "in Python 3.14." ) with self.assertWarnsRegex(DeprecationWarning, regex) as cm: ac_tester.DeprStarInit(None) self.assertEqual(cm.filename, __file__) def test_depr_star_init_cloned(self): regex = re.escape( "Passing positional arguments to _testclinic.DeprStarInit.cloned() " "is deprecated. Parameter 'a' will become a keyword-only parameter " "in Python 3.14." ) obj = ac_tester.DeprStarInit(a=None) with self.assertWarnsRegex(DeprecationWarning, regex) as cm: obj.cloned(None) self.assertEqual(cm.filename, __file__) def test_depr_star_pos0_len1(self): fn = ac_tester.depr_star_pos0_len1 fn(a=None) self.check_depr_star("'a'", fn, "a") def test_depr_star_pos0_len2(self): fn = ac_tester.depr_star_pos0_len2 fn(a=0, b=0) check = partial(self.check_depr_star, "'a' and 'b'", fn) check("a", b=0) check("a", "b") def test_depr_star_pos0_len3_with_kwd(self): fn = ac_tester.depr_star_pos0_len3_with_kwd fn(a=0, b=0, c=0, d=0) check = partial(self.check_depr_star, "'a', 'b' and 'c'", fn) check("a", b=0, c=0, d=0) check("a", "b", c=0, d=0) check("a", "b", "c", d=0) def test_depr_star_pos1_len1_opt(self): fn = ac_tester.depr_star_pos1_len1_opt fn(a=0, b=0) fn("a", b=0) fn(a=0) # b is optional check = partial(self.check_depr_star, "'b'", fn) check("a", "b") def test_depr_star_pos1_len1(self): fn = ac_tester.depr_star_pos1_len1 fn(a=0, b=0) fn("a", b=0) check = partial(self.check_depr_star, "'b'", fn) check("a", "b") def test_depr_star_pos1_len2_with_kwd(self): fn = ac_tester.depr_star_pos1_len2_with_kwd fn(a=0, b=0, c=0, d=0), fn("a", b=0, c=0, d=0), check = partial(self.check_depr_star, "'b' and 'c'", fn) check("a", "b", c=0, d=0), check("a", "b", "c", d=0), def test_depr_star_pos2_len1(self): fn = ac_tester.depr_star_pos2_len1 fn(a=0, b=0, c=0) fn("a", b=0, c=0) fn("a", "b", c=0) check = partial(self.check_depr_star, "'c'", fn) check("a", "b", "c") def test_depr_star_pos2_len2(self): fn = ac_tester.depr_star_pos2_len2 fn(a=0, b=0, c=0, d=0) fn("a", b=0, c=0, d=0) fn("a", "b", c=0, d=0) check = partial(self.check_depr_star, "'c' and 'd'", fn) check("a", "b", "c", d=0) check("a", "b", "c", "d") def test_depr_star_pos2_len2_with_kwd(self): fn = ac_tester.depr_star_pos2_len2_with_kwd fn(a=0, b=0, c=0, d=0, e=0) fn("a", b=0, c=0, d=0, e=0) fn("a", "b", c=0, d=0, e=0) check = partial(self.check_depr_star, "'c' and 'd'", fn) check("a", "b", "c", d=0, e=0) check("a", "b", "c", "d", e=0) class PermutationTests(unittest.TestCase): """Test permutation support functions.""" def test_permute_left_option_groups(self): expected = ( (), (3,), (2, 3), (1, 2, 3), ) data = list(zip([1, 2, 3])) # Generate a list of 1-tuples. actual = tuple(clinic.permute_left_option_groups(data)) self.assertEqual(actual, expected) def test_permute_right_option_groups(self): expected = ( (), (1,), (1, 2), (1, 2, 3), ) data = list(zip([1, 2, 3])) # Generate a list of 1-tuples. actual = tuple(clinic.permute_right_option_groups(data)) self.assertEqual(actual, expected) def test_permute_optional_groups(self): empty = { "left": (), "required": (), "right": (), "expected": ((),), } noleft1 = { "left": (), "required": ("b",), "right": ("c",), "expected": ( ("b",), ("b", "c"), ), } noleft2 = { "left": (), "required": ("b", "c",), "right": ("d",), "expected": ( ("b", "c"), ("b", "c", "d"), ), } noleft3 = { "left": (), "required": ("b", "c",), "right": ("d", "e"), "expected": ( ("b", "c"), ("b", "c", "d"), ("b", "c", "d", "e"), ), } noright1 = { "left": ("a",), "required": ("b",), "right": (), "expected": ( ("b",), ("a", "b"), ), } noright2 = { "left": ("a",), "required": ("b", "c"), "right": (), "expected": ( ("b", "c"), ("a", "b", "c"), ), } noright3 = { "left": ("a", "b"), "required": ("c",), "right": (), "expected": ( ("c",), ("b", "c"), ("a", "b", "c"), ), } leftandright1 = { "left": ("a",), "required": ("b",), "right": ("c",), "expected": ( ("b",), ("a", "b"), # Prefer left. ("a", "b", "c"), ), } leftandright2 = { "left": ("a", "b"), "required": ("c", "d"), "right": ("e", "f"), "expected": ( ("c", "d"), ("b", "c", "d"), # Prefer left. ("a", "b", "c", "d"), # Prefer left. ("a", "b", "c", "d", "e"), ("a", "b", "c", "d", "e", "f"), ), } dataset = ( empty, noleft1, noleft2, noleft3, noright1, noright2, noright3, leftandright1, leftandright2, ) for params in dataset: with self.subTest(**params): left, required, right, expected = params.values() permutations = clinic.permute_optional_groups(left, required, right) actual = tuple(permutations) self.assertEqual(actual, expected) class FormatHelperTests(unittest.TestCase): def test_strip_leading_and_trailing_blank_lines(self): dataset = ( # Input lines, expected output. ("a\nb", "a\nb"), ("a\nb\n", "a\nb"), ("a\nb ", "a\nb"), ("\na\nb\n\n", "a\nb"), ("\n\na\nb\n\n", "a\nb"), ("\n\na\n\nb\n\n", "a\n\nb"), # Note, leading whitespace is preserved: (" a\nb", " a\nb"), (" a\nb ", " a\nb"), (" \n \n a\nb \n \n ", " a\nb"), ) for lines, expected in dataset: with self.subTest(lines=lines, expected=expected): out = clinic.strip_leading_and_trailing_blank_lines(lines) self.assertEqual(out, expected) def test_normalize_snippet(self): snippet = """ one two three """ # Expected outputs: zero_indent = ( "one\n" "two\n" "three" ) four_indent = ( " one\n" " two\n" " three" ) eight_indent = ( " one\n" " two\n" " three" ) expected_outputs = {0: zero_indent, 4: four_indent, 8: eight_indent} for indent, expected in expected_outputs.items(): with self.subTest(indent=indent): actual = clinic.normalize_snippet(snippet, indent=indent) self.assertEqual(actual, expected) def test_accumulator(self): acc = clinic.text_accumulator() self.assertEqual(acc.output(), "") acc.append("a") self.assertEqual(acc.output(), "a") self.assertEqual(acc.output(), "") acc.append("b") self.assertEqual(acc.output(), "b") self.assertEqual(acc.output(), "") acc.append("c") acc.append("d") self.assertEqual(acc.output(), "cd") self.assertEqual(acc.output(), "") def test_quoted_for_c_string(self): dataset = ( # input, expected (r"abc", r"abc"), (r"\abc", r"\\abc"), (r"\a\bc", r"\\a\\bc"), (r"\a\\bc", r"\\a\\\\bc"), (r'"abc"', r'\"abc\"'), (r"'a'", r"\'a\'"), ) for line, expected in dataset: with self.subTest(line=line, expected=expected): out = clinic.quoted_for_c_string(line) self.assertEqual(out, expected) def test_rstrip_lines(self): lines = ( "a \n" "b\n" " c\n" " d \n" ) expected = ( "a\n" "b\n" " c\n" " d\n" ) out = clinic.rstrip_lines(lines) self.assertEqual(out, expected) def test_format_escape(self): line = "{}, {a}" expected = "{{}}, {{a}}" out = clinic.format_escape(line) self.assertEqual(out, expected) def test_indent_all_lines(self): # Blank lines are expected to be unchanged. self.assertEqual(clinic.indent_all_lines("", prefix="bar"), "") lines = ( "one\n" "two" # The missing newline is deliberate. ) expected = ( "barone\n" "bartwo" ) out = clinic.indent_all_lines(lines, prefix="bar") self.assertEqual(out, expected) # If last line is empty, expect it to be unchanged. lines = ( "\n" "one\n" "two\n" "" ) expected = ( "bar\n" "barone\n" "bartwo\n" "" ) out = clinic.indent_all_lines(lines, prefix="bar") self.assertEqual(out, expected) def test_suffix_all_lines(self): # Blank lines are expected to be unchanged. self.assertEqual(clinic.suffix_all_lines("", suffix="foo"), "") lines = ( "one\n" "two" # The missing newline is deliberate. ) expected = ( "onefoo\n" "twofoo" ) out = clinic.suffix_all_lines(lines, suffix="foo") self.assertEqual(out, expected) # If last line is empty, expect it to be unchanged. lines = ( "\n" "one\n" "two\n" "" ) expected = ( "foo\n" "onefoo\n" "twofoo\n" "" ) out = clinic.suffix_all_lines(lines, suffix="foo") self.assertEqual(out, expected) class ClinicReprTests(unittest.TestCase): def test_Block_repr(self): block = clinic.Block("foo") expected_repr = "" self.assertEqual(repr(block), expected_repr) block2 = clinic.Block("bar", "baz", [], "eggs", "spam") expected_repr_2 = "" self.assertEqual(repr(block2), expected_repr_2) block3 = clinic.Block( input="longboi_" * 100, dsl_name="wow_so_long", signatures=[], output="very_long_" * 100, indent="" ) expected_repr_3 = ( "" ) self.assertEqual(repr(block3), expected_repr_3) def test_Destination_repr(self): c = _make_clinic() destination = clinic.Destination( "foo", type="file", clinic=c, args=("eggs",) ) self.assertEqual( repr(destination), "" ) destination2 = clinic.Destination("bar", type="buffer", clinic=c) self.assertEqual(repr(destination2), "") def test_Module_repr(self): module = clinic.Module("foo", _make_clinic()) self.assertRegex(repr(module), r"") def test_Class_repr(self): cls = clinic.Class("foo", _make_clinic(), None, 'some_typedef', 'some_type_object') self.assertRegex(repr(cls), r"") def test_FunctionKind_repr(self): self.assertEqual( repr(clinic.FunctionKind.INVALID), "" ) self.assertEqual( repr(clinic.FunctionKind.CLASS_METHOD), "" ) def test_Function_and_Parameter_reprs(self): function = clinic.Function( name='foo', module=_make_clinic(), cls=None, c_basename=None, full_name='foofoo', return_converter=clinic.init_return_converter(), kind=clinic.FunctionKind.METHOD_INIT, coexist=False ) self.assertEqual(repr(function), "") converter = clinic.self_converter('bar', 'bar', function) parameter = clinic.Parameter( "bar", kind=inspect.Parameter.POSITIONAL_OR_KEYWORD, function=function, converter=converter ) self.assertEqual(repr(parameter), "") def test_Monitor_repr(self): monitor = clinic.cpp.Monitor() self.assertRegex(repr(monitor), r"") monitor.line_number = 42 monitor.stack.append(("token1", "condition1")) self.assertRegex( repr(monitor), r"" ) monitor.stack.append(("token2", "condition2")) self.assertRegex( repr(monitor), r"" ) if __name__ == "__main__": unittest.main()