compiler/front_end/glue_test.py - third_party/github.com/google/emboss - Git at Google

 # Copyright 2019 Google LLC
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #     https://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 """Tests for glue."""

 import pkgutil
 import unittest

 from compiler.front_end import glue
 from compiler.util import error
 from compiler.util import ir_pb2
 from compiler.util import parser_types
 from compiler.util import test_util

 _location = parser_types.make_location

 _ROOT_PACKAGE = "testdata.golden"
 _GOLDEN_PATH = ""

 _SPAN_SE_LOG_FILE_PATH = _GOLDEN_PATH + "span_se_log_file_status.emb"
 _SPAN_SE_LOG_FILE_EMB = pkgutil.get_data(
     _ROOT_PACKAGE, _SPAN_SE_LOG_FILE_PATH).decode(encoding="UTF-8")
 _SPAN_SE_LOG_FILE_READER = test_util.dict_file_reader(
     {_SPAN_SE_LOG_FILE_PATH: _SPAN_SE_LOG_FILE_EMB})
 _SPAN_SE_LOG_FILE_IR = ir_pb2.Module.from_json(
     pkgutil.get_data(
         _ROOT_PACKAGE,
         _GOLDEN_PATH + "span_se_log_file_status.ir.txt"
     ).decode(encoding="UTF-8"))
 _SPAN_SE_LOG_FILE_PARSE_TREE_TEXT = pkgutil.get_data(
     _ROOT_PACKAGE,
     _GOLDEN_PATH + "span_se_log_file_status.parse_tree.txt"
 ).decode(encoding="UTF-8")
 _SPAN_SE_LOG_FILE_TOKENIZATION_TEXT = pkgutil.get_data(
     _ROOT_PACKAGE,
     _GOLDEN_PATH + "span_se_log_file_status.tokens.txt"
 ).decode(encoding="UTF-8")


 class FrontEndGlueTest(unittest.TestCase):
   """Tests for front_end.glue."""

   def test_parse_module(self):
     # parse_module(file) should return the same thing as
     # parse_module_text(text), assuming file can be read.
     main_module, debug_info, errors = glue.parse_module(
         _SPAN_SE_LOG_FILE_PATH, _SPAN_SE_LOG_FILE_READER)
     main_module2, debug_info2, errors2 = glue.parse_module_text(
         _SPAN_SE_LOG_FILE_EMB, _SPAN_SE_LOG_FILE_PATH)
     self.assertEqual([], errors)
     self.assertEqual([], errors2)
     self.assertEqual(main_module, main_module2)
     self.assertEqual(debug_info, debug_info2)

   def test_parse_module_no_such_file(self):
     file_name = "nonexistent.emb"
     ir, debug_info, errors = glue.parse_emboss_file(
         file_name, test_util.dict_file_reader({}))
     self.assertEqual([[
         error.error("nonexistent.emb", _location((1, 1), (1, 1)),
                     "Unable to read file."),
         error.note("nonexistent.emb", _location((1, 1), (1, 1)),
                    "File 'nonexistent.emb' not found."),
     ]], errors)
     self.assertFalse(file_name in debug_info.modules)
     self.assertFalse(ir)

   def test_parse_module_tokenization_error(self):
     file_name = "tokens.emb"
     ir, debug_info, errors = glue.parse_emboss_file(
         file_name, test_util.dict_file_reader({file_name: "@"}))
     self.assertTrue(debug_info.modules[file_name].source_code)
     self.assertTrue(errors)
     self.assertEqual("Unrecognized token", errors[0][0].message)
     self.assertFalse(ir)

   def test_parse_module_indentation_error(self):
     file_name = "indent.emb"
     ir, debug_info, errors = glue.parse_emboss_file(
         file_name, test_util.dict_file_reader(
             {file_name: "struct Foo:\n"
                         "  1 [+1] Int x\n"
                         " 2 [+1] Int y\n"}))
     self.assertTrue(debug_info.modules[file_name].source_code)
     self.assertTrue(errors)
     self.assertEqual("Bad indentation", errors[0][0].message)
     self.assertFalse(ir)

   def test_parse_module_parse_error(self):
     file_name = "parse.emb"
     ir, debug_info, errors = glue.parse_emboss_file(
         file_name, test_util.dict_file_reader(
             {file_name: "struct foo:\n"
                         "  1 [+1] Int x\n"
                         "  3 [+1] Int y\n"}))
     self.assertTrue(debug_info.modules[file_name].source_code)
     self.assertEqual([[
         error.error(file_name, _location((1, 8), (1, 11)),
                     "A type name must be CamelCase.\n"
                     "Found 'foo' (SnakeWord), expected CamelWord.")
     ]], errors)
     self.assertFalse(ir)

   def test_parse_error(self):
     file_name = "parse.emb"
     ir, debug_info, errors = glue.parse_emboss_file(
         file_name, test_util.dict_file_reader(
             {file_name: "struct foo:\n"
                         "  1 [+1]  Int  x\n"
                         "  2 [+1]  Int  y\n"}))
     self.assertTrue(debug_info.modules[file_name].source_code)
     self.assertEqual([[
         error.error(file_name, _location((1, 8), (1, 11)),
                     "A type name must be CamelCase.\n"
                     "Found 'foo' (SnakeWord), expected CamelWord.")
     ]], errors)
     self.assertFalse(ir)

   def test_circular_dependency_error(self):
     file_name = "cycle.emb"
     ir, debug_info, errors = glue.parse_emboss_file(
         file_name, test_util.dict_file_reader({
             file_name: "struct Foo:\n"
                        "  0 [+field1]  UInt  field1\n"
         }))
     self.assertTrue(debug_info.modules[file_name].source_code)
     self.assertTrue(errors)
     self.assertEqual("Dependency cycle\nfield1", errors[0][0].message)
     self.assertFalse(ir)

   def test_ir_from_parse_module(self):
     log_file_path_ir = ir_pb2.Module()
     log_file_path_ir.CopyFrom(_SPAN_SE_LOG_FILE_IR)
     log_file_path_ir.source_file_name = _SPAN_SE_LOG_FILE_PATH
     self.assertEqual(log_file_path_ir, glue.parse_module(
         _SPAN_SE_LOG_FILE_PATH, _SPAN_SE_LOG_FILE_READER).ir)

   def test_debug_info_from_parse_module(self):
     debug_info = glue.parse_module(_SPAN_SE_LOG_FILE_PATH,
                                    _SPAN_SE_LOG_FILE_READER).debug_info
     self.maxDiff = 200000  # pylint:disable=invalid-name
     self.assertEqual(_SPAN_SE_LOG_FILE_TOKENIZATION_TEXT.strip(),
                      debug_info.format_tokenization().strip())
     self.assertEqual(_SPAN_SE_LOG_FILE_PARSE_TREE_TEXT.strip(),
                      debug_info.format_parse_tree().strip())
     self.assertEqual(_SPAN_SE_LOG_FILE_IR, debug_info.ir)
     self.assertEqual(_SPAN_SE_LOG_FILE_IR.to_json(indent=2),
                      debug_info.format_module_ir())

   def test_parse_emboss_file(self):
     # parse_emboss_file calls parse_module, wraps its results, and calls
     # symbol_resolver.resolve_symbols() on the resulting IR.
     ir, debug_info, errors = glue.parse_emboss_file(_SPAN_SE_LOG_FILE_PATH,
                                                     _SPAN_SE_LOG_FILE_READER)
     module_ir, module_debug_info, module_errors = glue.parse_module(
         _SPAN_SE_LOG_FILE_PATH, _SPAN_SE_LOG_FILE_READER)
     self.assertEqual([], errors)
     self.assertEqual([], module_errors)
     self.assertTrue(test_util.proto_is_superset(ir.module[0], module_ir))
     self.assertEqual(module_debug_info,
                      debug_info.modules[_SPAN_SE_LOG_FILE_PATH])
     self.assertEqual(2, len(debug_info.modules))
     self.assertEqual(2, len(ir.module))
     self.assertEqual(_SPAN_SE_LOG_FILE_PATH, ir.module[0].source_file_name)
     self.assertEqual("", ir.module[1].source_file_name)

   def test_synthetic_error(self):
     file_name = "missing_byte_order_attribute.emb"
     ir, unused_debug_info, errors = glue.only_parse_emboss_file(
         file_name, test_util.dict_file_reader({
             file_name: "struct Foo:\n"
                        "  0 [+8]  UInt  field\n"
         }))
     self.assertFalse(errors)
     # Artificially mark the first field as is_synthetic.
     first_field = ir.module[0].type[0].structure.field[0]
     first_field.source_location.is_synthetic = True
     ir, errors = glue.process_ir(ir, None)
     self.assertTrue(errors)
     self.assertEqual("Attribute 'byte_order' required on field which is byte "
                      "order dependent.", errors[0][0].message)
     self.assertTrue(errors[0][0].location.is_synthetic)
     self.assertFalse(ir)

   def test_suppressed_synthetic_error(self):
     file_name = "triplicate_symbol.emb"
     ir, unused_debug_info, errors = glue.only_parse_emboss_file(
         file_name, test_util.dict_file_reader({
             file_name: "struct Foo:\n"
                        "  0 [+1]  UInt  field\n"
                        "  1 [+1]  UInt  field\n"
                        "  2 [+1]  UInt  field\n"
         }))
     self.assertFalse(errors)
     # Artificially mark the name of the second field as is_synthetic.
     second_field = ir.module[0].type[0].structure.field[1]
     second_field.name.source_location.is_synthetic = True
     second_field.name.name.source_location.is_synthetic = True
     ir, errors = glue.process_ir(ir, None)
     self.assertEqual(1, len(errors))
     self.assertEqual("Duplicate name 'field'", errors[0][0].message)
     self.assertFalse(errors[0][0].location.is_synthetic)
     self.assertFalse(errors[0][1].location.is_synthetic)
     self.assertFalse(ir)


 class DebugInfoTest(unittest.TestCase):
   """Tests for DebugInfo and ModuleDebugInfo classes."""

   def test_debug_info_initialization(self):
     debug_info = glue.DebugInfo()
     self.assertEqual({}, debug_info.modules)

   def test_debug_info_invalid_attribute_set(self):
     debug_info = glue.DebugInfo()
     with self.assertRaises(AttributeError):
       debug_info.foo = "foo"

   def test_debug_info_equality(self):
     debug_info = glue.DebugInfo()
     debug_info2 = glue.DebugInfo()
     self.assertEqual(debug_info, debug_info2)
     debug_info.modules["foo"] = glue.ModuleDebugInfo("foo")
     self.assertNotEqual(debug_info, debug_info2)
     debug_info2.modules["foo"] = glue.ModuleDebugInfo("foo")
     self.assertEqual(debug_info, debug_info2)

   def test_module_debug_info_initialization(self):
     module_info = glue.ModuleDebugInfo("bar.emb")
     self.assertEqual("bar.emb", module_info.file_name)
     self.assertEqual(None, module_info.tokens)
     self.assertEqual(None, module_info.parse_tree)
     self.assertEqual(None, module_info.ir)
     self.assertEqual(None, module_info.used_productions)

   def test_module_debug_info_attribute_set(self):
     module_info = glue.ModuleDebugInfo("bar.emb")
     module_info.tokens = "a"
     module_info.parse_tree = "b"
     module_info.ir = "c"
     module_info.used_productions = "d"
     module_info.source_code = "e"
     self.assertEqual("a", module_info.tokens)
     self.assertEqual("b", module_info.parse_tree)
     self.assertEqual("c", module_info.ir)
     self.assertEqual("d", module_info.used_productions)
     self.assertEqual("e", module_info.source_code)

   def test_module_debug_info_bad_attribute_set(self):
     module_info = glue.ModuleDebugInfo("bar.emb")
     with self.assertRaises(AttributeError):
       module_info.foo = "foo"

   def test_module_debug_info_equality(self):
     module_info = glue.ModuleDebugInfo("foo")
     module_info2 = glue.ModuleDebugInfo("foo")
     module_info_bar = glue.ModuleDebugInfo("bar")
     self.assertEqual(module_info, module_info2)
     module_info_bar = glue.ModuleDebugInfo("bar")
     self.assertNotEqual(module_info, module_info_bar)
     module_info.tokens = []
     self.assertNotEqual(module_info, module_info2)
     module_info2.tokens = []
     self.assertEqual(module_info, module_info2)
     module_info.parse_tree = []
     self.assertNotEqual(module_info, module_info2)
     module_info2.parse_tree = []
     self.assertEqual(module_info, module_info2)
     module_info.ir = []
     self.assertNotEqual(module_info, module_info2)
     module_info2.ir = []
     self.assertEqual(module_info, module_info2)
     module_info.used_productions = []
     self.assertNotEqual(module_info, module_info2)
     module_info2.used_productions = []
     self.assertEqual(module_info, module_info2)


 class TestFormatProductionSet(unittest.TestCase):
   """Tests for format_production_set."""

   def test_format_production_set(self):
     production_texts = ["A -> B", "B -> C", "A -> C", "C -> A"]
     productions = [parser_types.Production.parse(p) for p in production_texts]
     self.assertEqual("\n".join(sorted(production_texts)),
                      glue.format_production_set(set(productions)))


 if __name__ == "__main__":
   unittest.main()
	# Copyright 2019 Google LLC
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# https://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	"""Tests for glue."""

	import pkgutil
	import unittest

	from compiler.front_end import glue
	from compiler.util import error
	from compiler.util import ir_pb2
	from compiler.util import parser_types
	from compiler.util import test_util

	_location = parser_types.make_location

	_ROOT_PACKAGE = "testdata.golden"
	_GOLDEN_PATH = ""

	_SPAN_SE_LOG_FILE_PATH = _GOLDEN_PATH + "span_se_log_file_status.emb"
	_SPAN_SE_LOG_FILE_EMB = pkgutil.get_data(
	_ROOT_PACKAGE, _SPAN_SE_LOG_FILE_PATH).decode(encoding="UTF-8")
	_SPAN_SE_LOG_FILE_READER = test_util.dict_file_reader(
	{_SPAN_SE_LOG_FILE_PATH: _SPAN_SE_LOG_FILE_EMB})
	_SPAN_SE_LOG_FILE_IR = ir_pb2.Module.from_json(
	pkgutil.get_data(
	_ROOT_PACKAGE,
	_GOLDEN_PATH + "span_se_log_file_status.ir.txt"
	).decode(encoding="UTF-8"))
	_SPAN_SE_LOG_FILE_PARSE_TREE_TEXT = pkgutil.get_data(
	_ROOT_PACKAGE,
	_GOLDEN_PATH + "span_se_log_file_status.parse_tree.txt"
	).decode(encoding="UTF-8")
	_SPAN_SE_LOG_FILE_TOKENIZATION_TEXT = pkgutil.get_data(
	_ROOT_PACKAGE,
	_GOLDEN_PATH + "span_se_log_file_status.tokens.txt"
	).decode(encoding="UTF-8")


	class FrontEndGlueTest(unittest.TestCase):
	"""Tests for front_end.glue."""

	def test_parse_module(self):
	# parse_module(file) should return the same thing as
	# parse_module_text(text), assuming file can be read.
	main_module, debug_info, errors = glue.parse_module(
	_SPAN_SE_LOG_FILE_PATH, _SPAN_SE_LOG_FILE_READER)
	main_module2, debug_info2, errors2 = glue.parse_module_text(
	_SPAN_SE_LOG_FILE_EMB, _SPAN_SE_LOG_FILE_PATH)
	self.assertEqual([], errors)
	self.assertEqual([], errors2)
	self.assertEqual(main_module, main_module2)
	self.assertEqual(debug_info, debug_info2)

	def test_parse_module_no_such_file(self):
	file_name = "nonexistent.emb"
	ir, debug_info, errors = glue.parse_emboss_file(
	file_name, test_util.dict_file_reader({}))
	self.assertEqual([[
	error.error("nonexistent.emb", _location((1, 1), (1, 1)),
	"Unable to read file."),
	error.note("nonexistent.emb", _location((1, 1), (1, 1)),
	"File 'nonexistent.emb' not found."),
	]], errors)
	self.assertFalse(file_name in debug_info.modules)
	self.assertFalse(ir)

	def test_parse_module_tokenization_error(self):
	file_name = "tokens.emb"
	ir, debug_info, errors = glue.parse_emboss_file(
	file_name, test_util.dict_file_reader({file_name: "@"}))
	self.assertTrue(debug_info.modules[file_name].source_code)
	self.assertTrue(errors)
	self.assertEqual("Unrecognized token", errors[0][0].message)
	self.assertFalse(ir)

	def test_parse_module_indentation_error(self):
	file_name = "indent.emb"
	ir, debug_info, errors = glue.parse_emboss_file(
	file_name, test_util.dict_file_reader(
	{file_name: "struct Foo:\n"
	" 1 [+1] Int x\n"
	" 2 [+1] Int y\n"}))
	self.assertTrue(debug_info.modules[file_name].source_code)
	self.assertTrue(errors)
	self.assertEqual("Bad indentation", errors[0][0].message)
	self.assertFalse(ir)

	def test_parse_module_parse_error(self):
	file_name = "parse.emb"
	ir, debug_info, errors = glue.parse_emboss_file(
	file_name, test_util.dict_file_reader(
	{file_name: "struct foo:\n"
	" 1 [+1] Int x\n"
	" 3 [+1] Int y\n"}))
	self.assertTrue(debug_info.modules[file_name].source_code)
	self.assertEqual([[
	error.error(file_name, _location((1, 8), (1, 11)),
	"A type name must be CamelCase.\n"
	"Found 'foo' (SnakeWord), expected CamelWord.")
	]], errors)
	self.assertFalse(ir)

	def test_parse_error(self):
	file_name = "parse.emb"
	ir, debug_info, errors = glue.parse_emboss_file(
	file_name, test_util.dict_file_reader(
	{file_name: "struct foo:\n"
	" 1 [+1] Int x\n"
	" 2 [+1] Int y\n"}))
	self.assertTrue(debug_info.modules[file_name].source_code)
	self.assertEqual([[
	error.error(file_name, _location((1, 8), (1, 11)),
	"A type name must be CamelCase.\n"
	"Found 'foo' (SnakeWord), expected CamelWord.")
	]], errors)
	self.assertFalse(ir)

	def test_circular_dependency_error(self):
	file_name = "cycle.emb"
	ir, debug_info, errors = glue.parse_emboss_file(
	file_name, test_util.dict_file_reader({
	file_name: "struct Foo:\n"
	" 0 [+field1] UInt field1\n"
	}))
	self.assertTrue(debug_info.modules[file_name].source_code)
	self.assertTrue(errors)
	self.assertEqual("Dependency cycle\nfield1", errors[0][0].message)
	self.assertFalse(ir)

	def test_ir_from_parse_module(self):
	log_file_path_ir = ir_pb2.Module()
	log_file_path_ir.CopyFrom(_SPAN_SE_LOG_FILE_IR)
	log_file_path_ir.source_file_name = _SPAN_SE_LOG_FILE_PATH
	self.assertEqual(log_file_path_ir, glue.parse_module(
	_SPAN_SE_LOG_FILE_PATH, _SPAN_SE_LOG_FILE_READER).ir)

	def test_debug_info_from_parse_module(self):
	debug_info = glue.parse_module(_SPAN_SE_LOG_FILE_PATH,
	_SPAN_SE_LOG_FILE_READER).debug_info
	self.maxDiff = 200000 # pylint:disable=invalid-name
	self.assertEqual(_SPAN_SE_LOG_FILE_TOKENIZATION_TEXT.strip(),
	debug_info.format_tokenization().strip())
	self.assertEqual(_SPAN_SE_LOG_FILE_PARSE_TREE_TEXT.strip(),
	debug_info.format_parse_tree().strip())
	self.assertEqual(_SPAN_SE_LOG_FILE_IR, debug_info.ir)
	self.assertEqual(_SPAN_SE_LOG_FILE_IR.to_json(indent=2),
	debug_info.format_module_ir())

	def test_parse_emboss_file(self):
	# parse_emboss_file calls parse_module, wraps its results, and calls
	# symbol_resolver.resolve_symbols() on the resulting IR.
	ir, debug_info, errors = glue.parse_emboss_file(_SPAN_SE_LOG_FILE_PATH,
	_SPAN_SE_LOG_FILE_READER)
	module_ir, module_debug_info, module_errors = glue.parse_module(
	_SPAN_SE_LOG_FILE_PATH, _SPAN_SE_LOG_FILE_READER)
	self.assertEqual([], errors)
	self.assertEqual([], module_errors)
	self.assertTrue(test_util.proto_is_superset(ir.module[0], module_ir))
	self.assertEqual(module_debug_info,
	debug_info.modules[_SPAN_SE_LOG_FILE_PATH])
	self.assertEqual(2, len(debug_info.modules))
	self.assertEqual(2, len(ir.module))
	self.assertEqual(_SPAN_SE_LOG_FILE_PATH, ir.module[0].source_file_name)
	self.assertEqual("", ir.module[1].source_file_name)

	def test_synthetic_error(self):
	file_name = "missing_byte_order_attribute.emb"
	ir, unused_debug_info, errors = glue.only_parse_emboss_file(
	file_name, test_util.dict_file_reader({
	file_name: "struct Foo:\n"
	" 0 [+8] UInt field\n"
	}))
	self.assertFalse(errors)
	# Artificially mark the first field as is_synthetic.
	first_field = ir.module[0].type[0].structure.field[0]
	first_field.source_location.is_synthetic = True
	ir, errors = glue.process_ir(ir, None)
	self.assertTrue(errors)
	self.assertEqual("Attribute 'byte_order' required on field which is byte "
	"order dependent.", errors[0][0].message)
	self.assertTrue(errors[0][0].location.is_synthetic)
	self.assertFalse(ir)

	def test_suppressed_synthetic_error(self):
	file_name = "triplicate_symbol.emb"
	ir, unused_debug_info, errors = glue.only_parse_emboss_file(
	file_name, test_util.dict_file_reader({
	file_name: "struct Foo:\n"
	" 0 [+1] UInt field\n"
	" 1 [+1] UInt field\n"
	" 2 [+1] UInt field\n"
	}))
	self.assertFalse(errors)
	# Artificially mark the name of the second field as is_synthetic.
	second_field = ir.module[0].type[0].structure.field[1]
	second_field.name.source_location.is_synthetic = True
	second_field.name.name.source_location.is_synthetic = True
	ir, errors = glue.process_ir(ir, None)
	self.assertEqual(1, len(errors))
	self.assertEqual("Duplicate name 'field'", errors[0][0].message)
	self.assertFalse(errors[0][0].location.is_synthetic)
	self.assertFalse(errors[0][1].location.is_synthetic)
	self.assertFalse(ir)


	class DebugInfoTest(unittest.TestCase):
	"""Tests for DebugInfo and ModuleDebugInfo classes."""

	def test_debug_info_initialization(self):
	debug_info = glue.DebugInfo()
	self.assertEqual({}, debug_info.modules)

	def test_debug_info_invalid_attribute_set(self):
	debug_info = glue.DebugInfo()
	with self.assertRaises(AttributeError):
	debug_info.foo = "foo"

	def test_debug_info_equality(self):
	debug_info = glue.DebugInfo()
	debug_info2 = glue.DebugInfo()
	self.assertEqual(debug_info, debug_info2)
	debug_info.modules["foo"] = glue.ModuleDebugInfo("foo")
	self.assertNotEqual(debug_info, debug_info2)
	debug_info2.modules["foo"] = glue.ModuleDebugInfo("foo")
	self.assertEqual(debug_info, debug_info2)

	def test_module_debug_info_initialization(self):
	module_info = glue.ModuleDebugInfo("bar.emb")
	self.assertEqual("bar.emb", module_info.file_name)
	self.assertEqual(None, module_info.tokens)
	self.assertEqual(None, module_info.parse_tree)
	self.assertEqual(None, module_info.ir)
	self.assertEqual(None, module_info.used_productions)

	def test_module_debug_info_attribute_set(self):
	module_info = glue.ModuleDebugInfo("bar.emb")
	module_info.tokens = "a"
	module_info.parse_tree = "b"
	module_info.ir = "c"
	module_info.used_productions = "d"
	module_info.source_code = "e"
	self.assertEqual("a", module_info.tokens)
	self.assertEqual("b", module_info.parse_tree)
	self.assertEqual("c", module_info.ir)
	self.assertEqual("d", module_info.used_productions)
	self.assertEqual("e", module_info.source_code)

	def test_module_debug_info_bad_attribute_set(self):
	module_info = glue.ModuleDebugInfo("bar.emb")
	with self.assertRaises(AttributeError):
	module_info.foo = "foo"

	def test_module_debug_info_equality(self):
	module_info = glue.ModuleDebugInfo("foo")
	module_info2 = glue.ModuleDebugInfo("foo")
	module_info_bar = glue.ModuleDebugInfo("bar")
	self.assertEqual(module_info, module_info2)
	module_info_bar = glue.ModuleDebugInfo("bar")
	self.assertNotEqual(module_info, module_info_bar)
	module_info.tokens = []
	self.assertNotEqual(module_info, module_info2)
	module_info2.tokens = []
	self.assertEqual(module_info, module_info2)
	module_info.parse_tree = []
	self.assertNotEqual(module_info, module_info2)
	module_info2.parse_tree = []
	self.assertEqual(module_info, module_info2)
	module_info.ir = []
	self.assertNotEqual(module_info, module_info2)
	module_info2.ir = []
	self.assertEqual(module_info, module_info2)
	module_info.used_productions = []
	self.assertNotEqual(module_info, module_info2)
	module_info2.used_productions = []
	self.assertEqual(module_info, module_info2)


	class TestFormatProductionSet(unittest.TestCase):
	"""Tests for format_production_set."""

	def test_format_production_set(self):
	production_texts = ["A -> B", "B -> C", "A -> C", "C -> A"]
	productions = [parser_types.Production.parse(p) for p in production_texts]
	self.assertEqual("\n".join(sorted(production_texts)),
	glue.format_production_set(set(productions)))


	if __name__ == "__main__":
	unittest.main()