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Current Directory: /opt/gsutil/third_party/pyparsing/tests
/opt/gsutil/third_party/pyparsing/tests/
Viewing File: /opt/gsutil/third_party/pyparsing/tests/test_simple_unit.py
# # test_simple_unit.py # # While these unit tests *do* perform low-level unit testing of the classes in pyparsing, # this testing module should also serve an instructional purpose, to clearly show simple passing # and failing parse cases of some basic pyparsing expressions. # # Copyright (c) 2018 Paul T. McGuire # import unittest import pyparsing as pp from collections import namedtuple from datetime import datetime, timezone ppt = pp.pyparsing_test TestParseResultsAsserts = ppt.TestParseResultsAsserts # Test spec data class for specifying simple pyparsing test cases PyparsingTest = namedtuple( "PyparsingTest", "desc expr text parse_fn expected_list expected_dict expected_fail_locn", ) # fmt: off PyparsingTest.__new__.__defaults__ = ( "", pp.Empty(), "", "parse_string", None, None, None, ) # fmt: on NL = "\n" class PyparsingExpressionTestCase(ppt.TestParseResultsAsserts, unittest.TestCase): """ Base pyparsing testing class to parse various pyparsing expressions against given text strings. Subclasses must define a class attribute 'tests' which is a list of PyparsingTest instances. """ tests = [] def runTest(self): if self.__class__ is PyparsingExpressionTestCase: return for test_spec in self.tests: # for each spec in the class's tests list, create a subtest # that will either: # - parse the string with expected success, display the # results, and validate the returned ParseResults # - or parse the string with expected failure, display the # error message and mark the error location, and validate # the location against an expected value with self.subTest(test_spec=test_spec): test_spec.expr.streamline() print( f"{NL}{test_spec.desc} - {type(test_spec.expr).__name__}({test_spec.expr})" ) parse_function = getattr(test_spec.expr, test_spec.parse_fn) if test_spec.expected_fail_locn is None: # expect success subtest_result = parse_function(test_spec.text) if test_spec.parse_fn == "parse_string": print(subtest_result.dump()) # compare results against given list and/or dict self.assertParseResultsEquals( subtest_result, expected_list=test_spec.expected_list, expected_dict=test_spec.expected_dict, ) elif test_spec.parse_fn == "transformString": print(subtest_result) # compare results against given list and/or dict if test_spec.expected_list is not None: self.assertEqual([subtest_result], test_spec.expected_list) elif test_spec.parse_fn == "searchString": print(subtest_result) # compare results against given list and/or dict if test_spec.expected_list is not None: self.assertEqual([subtest_result], test_spec.expected_list) else: # expect fail with self.assertRaisesParseException(): try: parse_function(test_spec.text) except pp.ParseBaseException as exc: print(pp.ParseException.explain(exc)) self.assertEqual(exc.loc, test_spec.expected_fail_locn) raise # =========== TEST DEFINITIONS START HERE ============== class TestLiteral(PyparsingExpressionTestCase): tests = [ PyparsingTest( desc="Simple match", expr=pp.Literal("xyz"), text="xyz", expected_list=["xyz"], ), PyparsingTest( desc="Simple match after skipping whitespace", expr=pp.Literal("xyz"), text=" xyz", expected_list=["xyz"], ), PyparsingTest( desc="Simple fail - parse an empty string", expr=pp.Literal("xyz"), text="", expected_fail_locn=0, ), PyparsingTest( desc="Simple fail - parse a mismatching string", expr=pp.Literal("xyz"), text="xyu", expected_fail_locn=0, ), PyparsingTest( desc="Simple fail - parse a partially matching string", expr=pp.Literal("xyz"), text="xy", expected_fail_locn=0, ), PyparsingTest( desc="Fail - parse a partially matching string by matching individual letters", expr=pp.Literal("x") + pp.Literal("y") + pp.Literal("z"), text="xy", expected_fail_locn=2, ), ] class TestCaselessLiteral(PyparsingExpressionTestCase): tests = [ PyparsingTest( desc="Match colors, converting to consistent case", expr=( pp.CaselessLiteral("RED") | pp.CaselessLiteral("GREEN") | pp.CaselessLiteral("BLUE") )[...], text="red Green BluE blue GREEN green rEd", expected_list=["RED", "GREEN", "BLUE", "BLUE", "GREEN", "GREEN", "RED"], ), ] class TestWord(PyparsingExpressionTestCase): tests = [ PyparsingTest( desc="Simple Word match", expr=pp.Word("xy"), text="xxyxxyy", expected_list=["xxyxxyy"], ), PyparsingTest( desc="Simple Word match of two separate Words", expr=pp.Word("x") + pp.Word("y"), text="xxxxxyy", expected_list=["xxxxx", "yy"], ), PyparsingTest( desc="Simple Word match of two separate Words - implicitly skips whitespace", expr=pp.Word("x") + pp.Word("y"), text="xxxxx yy", expected_list=["xxxxx", "yy"], ), ] class TestCombine(PyparsingExpressionTestCase): tests = [ PyparsingTest( desc="Parsing real numbers - fail, parsed numbers are in pieces", expr=(pp.Word(pp.nums) + "." + pp.Word(pp.nums))[...], text="1.2 2.3 3.1416 98.6", # fmt: off expected_list=["1", ".", "2", "2", ".", "3", "3", ".", "1416", "98", ".", "6"], # fmt: on ), PyparsingTest( desc="Parsing real numbers - better, use Combine to combine multiple tokens into one", expr=pp.Combine(pp.Word(pp.nums) + "." + pp.Word(pp.nums))[...], text="1.2 2.3 3.1416 98.6", expected_list=["1.2", "2.3", "3.1416", "98.6"], ), ] class TestRepetition(PyparsingExpressionTestCase): tests = [ PyparsingTest( desc="Match several words", expr=(pp.Word("x") | pp.Word("y"))[...], text="xxyxxyyxxyxyxxxy", expected_list=["xx", "y", "xx", "yy", "xx", "y", "x", "y", "xxx", "y"], ), PyparsingTest( desc="Match several words, skipping whitespace", expr=(pp.Word("x") | pp.Word("y"))[...], text="x x y xxy yxx y xyx xxy", # fmt: off expected_list=["x", "x", "y", "xx", "y", "y", "xx", "y", "x", "y", "x", "xx", "y"], # fmt: on ), PyparsingTest( desc="Match several words, skipping whitespace (old style)", expr=pp.OneOrMore(pp.Word("x") | pp.Word("y")), text="x x y xxy yxx y xyx xxy", # fmt: off expected_list=["x", "x", "y", "xx", "y", "y", "xx", "y", "x", "y", "x", "xx", "y"], # fmt: on ), PyparsingTest( desc="Match words and numbers - show use of results names to collect types of tokens", expr=(pp.Word(pp.alphas)("alpha*") | pp.pyparsing_common.integer("int*"))[ ... ], text="sdlfj23084ksdfs08234kjsdlfkjd0934", expected_list=["sdlfj", 23084, "ksdfs", 8234, "kjsdlfkjd", 934], expected_dict={ "alpha": ["sdlfj", "ksdfs", "kjsdlfkjd"], "int": [23084, 8234, 934], }, ), PyparsingTest( desc="Using DelimitedList (comma is the default delimiter)", expr=pp.DelimitedList(pp.Word(pp.alphas)), text="xxyx,xy,y,xxyx,yxx, xy", expected_list=["xxyx", "xy", "y", "xxyx", "yxx", "xy"], ), PyparsingTest( desc="Using DelimitedList (comma is the default delimiter) with trailing delimiter", expr=pp.DelimitedList(pp.Word(pp.alphas), allow_trailing_delim=True), text="xxyx,xy,y,xxyx,yxx, xy,", expected_list=["xxyx", "xy", "y", "xxyx", "yxx", "xy"], ), PyparsingTest( desc="Using DelimitedList (comma is the default delimiter) with minimum size", expr=pp.DelimitedList(pp.Word(pp.alphas), min=3), text="xxyx,xy", expected_fail_locn=7, ), PyparsingTest( desc="Using DelimitedList (comma is the default delimiter) with maximum size", expr=pp.DelimitedList(pp.Word(pp.alphas), max=3), text="xxyx,xy,y,xxyx,yxx, xy,", expected_list=["xxyx", "xy", "y"], ), PyparsingTest( desc="Using DelimitedList, with ':' delimiter", expr=pp.DelimitedList( pp.Word(pp.hexnums, exact=2), delim=":", combine=True ), text="0A:4B:73:21:FE:76", expected_list=["0A:4B:73:21:FE:76"], ), PyparsingTest( desc="Using DelimitedList, with ':' delimiter", expr=pp.DelimitedList( pp.Word(pp.hexnums, exact=2), delim=":", combine=True, allow_trailing_delim=True, ), text="0A:4B:73:21:FE:76:", expected_list=["0A:4B:73:21:FE:76:"], ), ] class TestResultsName(PyparsingExpressionTestCase): tests = [ PyparsingTest( desc="Match with results name", expr=pp.Literal("xyz").set_results_name("value"), text="xyz", expected_dict={"value": "xyz"}, expected_list=["xyz"], ), PyparsingTest( desc="Match with results name - using naming short-cut", expr=pp.Literal("xyz")("value"), text="xyz", expected_dict={"value": "xyz"}, expected_list=["xyz"], ), PyparsingTest( desc="Define multiple results names", expr=pp.Word(pp.alphas, pp.alphanums)("key") + "=" + pp.pyparsing_common.integer("value"), text="range=5280", expected_dict={"key": "range", "value": 5280}, expected_list=["range", "=", 5280], ), ] class TestGroups(PyparsingExpressionTestCase): EQ = pp.Suppress("=") tests = [ PyparsingTest( desc="Define multiple results names in groups", expr=pp.Group( pp.Word(pp.alphas)("key") + EQ + pp.pyparsing_common.number("value") )[...], text="range=5280 long=-138.52 lat=46.91", expected_list=[["range", 5280], ["long", -138.52], ["lat", 46.91]], ), PyparsingTest( desc=( "Define multiple results names in groups" " - use Dict to define results names using parsed keys" ), expr=pp.Dict( pp.Group(pp.Word(pp.alphas) + EQ + pp.pyparsing_common.number)[...] ), text="range=5280 long=-138.52 lat=46.91", expected_list=[["range", 5280], ["long", -138.52], ["lat", 46.91]], expected_dict={"lat": 46.91, "long": -138.52, "range": 5280}, ), PyparsingTest( desc="Define multiple value types", expr=pp.Dict( pp.Group( pp.Word(pp.alphas) + EQ + ( pp.pyparsing_common.number | pp.oneOf("True False") | pp.QuotedString("'") ) )[...] ), text="long=-122.47 lat=37.82 public=True name='Golden Gate Bridge'", expected_list=[ ["long", -122.47], ["lat", 37.82], ["public", "True"], ["name", "Golden Gate Bridge"], ], expected_dict={ "long": -122.47, "lat": 37.82, "public": "True", "name": "Golden Gate Bridge", }, ), ] class TestParseAction(PyparsingExpressionTestCase): tests = [ PyparsingTest( desc="Parsing real numbers - use parse action to convert to float at parse time", expr=pp.Combine(pp.Word(pp.nums) + "." + pp.Word(pp.nums)).add_parse_action( lambda t: float(t[0]) )[...], text="1.2 2.3 3.1416 98.6", # note, these are now floats, not strs expected_list=[1.2, 2.3, 3.1416, 98.6], ), PyparsingTest( desc="Match with numeric string converted to int", expr=pp.Word("0123456789").addParseAction(lambda t: int(t[0])), text="12345", expected_list=[12345], # note - result is type int, not str ), PyparsingTest( desc="Use two parse actions to convert numeric string, then convert to datetime", expr=pp.Word(pp.nums).add_parse_action( lambda t: int(t[0]), lambda t: datetime.fromtimestamp(t[0], timezone.utc), ), text="1537415628", expected_list=[datetime(2018, 9, 20, 3, 53, 48, tzinfo=timezone.utc)], ), PyparsingTest( desc="Use tokenMap for parse actions that operate on a single-length token", expr=pp.Word(pp.nums).add_parse_action( pp.token_map(int), pp.token_map(lambda t: datetime.fromtimestamp(t, timezone.utc)), ), text="1537415628", expected_list=[datetime(2018, 9, 20, 3, 53, 48, tzinfo=timezone.utc)], ), PyparsingTest( desc="Using a built-in function that takes a sequence of strs as a parse action", expr=pp.Word(pp.hexnums, exact=2)[...].add_parse_action(":".join), text="0A4B7321FE76", expected_list=["0A:4B:73:21:FE:76"], ), PyparsingTest( desc="Using a built-in function that takes a sequence of strs as a parse action", expr=pp.Word(pp.hexnums, exact=2)[...].add_parse_action(sorted), text="0A4B7321FE76", expected_list=["0A", "21", "4B", "73", "76", "FE"], ), ] class TestResultsModifyingParseAction(PyparsingExpressionTestCase): # do not make staticmethod # @staticmethod def compute_stats_parse_action(t): # by the time this parse action is called, parsed numeric words # have been converted to ints by a previous parse action, so # they can be treated as ints t["sum"] = sum(t) t["ave"] = sum(t) / len(t) t["min"] = min(t) t["max"] = max(t) tests = [ PyparsingTest( desc="A parse action that adds new key-values", expr=pp.pyparsing_common.integer[...].addParseAction( compute_stats_parse_action ), text="27 1 14 22 89", expected_list=[27, 1, 14, 22, 89], expected_dict={"ave": 30.6, "max": 89, "min": 1, "sum": 153}, ), ] class TestRegex(PyparsingExpressionTestCase): tests = [ PyparsingTest( desc="Parsing real numbers - using Regex instead of Combine", expr=pp.Regex(r"\d+\.\d+").add_parse_action(lambda t: float(t[0]))[...], text="1.2 2.3 3.1416 98.6", # note, these are now floats, not strs expected_list=[1.2, 2.3, 3.1416, 98.6], ), ] class TestParseCondition(PyparsingExpressionTestCase): tests = [ PyparsingTest( desc="Define a condition to only match numeric values that are multiples of 7", expr=pp.Word(pp.nums).addCondition(lambda t: int(t[0]) % 7 == 0)[...], text="14 35 77 12 28", expected_list=["14", "35", "77"], ), PyparsingTest( desc="Separate conversion to int and condition into separate parse action/conditions", expr=pp.Word(pp.nums) .add_parse_action(lambda t: int(t[0])) .add_condition(lambda t: t[0] % 7 == 0)[...], text="14 35 77 12 28", expected_list=[14, 35, 77], ), ] class TestTransformStringUsingParseActions(PyparsingExpressionTestCase): markup_convert_map = { "*": "B", "_": "U", "/": "I", } # do not make staticmethod # @staticmethod def markup_convert(t): htmltag = TestTransformStringUsingParseActions.markup_convert_map[ t.markup_symbol ] return f"<{htmltag}>{t.body}</{htmltag}>" tests = [ PyparsingTest( desc="Use transformString to convert simple markup to HTML", expr=( pp.one_of(markup_convert_map)("markup_symbol") + "(" + pp.CharsNotIn(")")("body") + ")" ).add_parse_action(markup_convert), text="Show in *(bold), _(underscore), or /(italic) type", expected_list=[ "Show in <B>bold</B>, <U>underscore</U>, or <I>italic</I> type" ], parse_fn="transformString", ), ] class TestCommonHelperExpressions(PyparsingExpressionTestCase): tests = [ PyparsingTest( desc="A comma-delimited list of words", expr=pp.DelimitedList(pp.Word(pp.alphas)), text="this, that, blah,foo, bar", expected_list=["this", "that", "blah", "foo", "bar"], ), PyparsingTest( desc="A counted array of words", expr=pp.Group(pp.counted_array(pp.Word("ab")))[...], text="2 aaa bbb 0 3 abab bbaa abbab", expected_list=[["aaa", "bbb"], [], ["abab", "bbaa", "abbab"]], ), PyparsingTest( desc="skipping comments with ignore", expr=( pp.pyparsing_common.identifier("lhs") + "=" + pp.pyparsing_common.fnumber("rhs") ).ignore(pp.cpp_style_comment), text="abc_100 = /* value to be tested */ 3.1416", expected_list=["abc_100", "=", 3.1416], expected_dict={"lhs": "abc_100", "rhs": 3.1416}, ), PyparsingTest( desc=( "some pre-defined expressions in pyparsing_common, and" " building a dotted identifier with DelimitedList" ), expr=( pp.pyparsing_common.number("id_num") + pp.DelimitedList(pp.pyparsing_common.identifier, ".", combine=True)( "name" ) + pp.pyparsing_common.ipv4_address("ip_address") ), text="1001 www.google.com 192.168.10.199", expected_list=[1001, "www.google.com", "192.168.10.199"], expected_dict={ "id_num": 1001, "name": "www.google.com", "ip_address": "192.168.10.199", }, ), PyparsingTest( desc="using one_of (shortcut for Literal('a') | Literal('b') | Literal('c'))", expr=pp.one_of("a b c")[...], text="a b a b b a c c a b b", expected_list=["a", "b", "a", "b", "b", "a", "c", "c", "a", "b", "b"], ), PyparsingTest( desc="parsing nested parentheses", expr=pp.nested_expr(), text="(a b (c) d (e f g ()))", expected_list=[["a", "b", ["c"], "d", ["e", "f", "g", []]]], ), PyparsingTest( desc="parsing nested braces", expr=( pp.Keyword("if") + pp.nested_expr()("condition") + pp.nested_expr("{", "}")("body") ), text='if ((x == y) || !z) {printf("{}");}', expected_list=[ "if", [["x", "==", "y"], "||", "!z"], ["printf(", '"{}"', ");"], ], expected_dict={ "condition": [[["x", "==", "y"], "||", "!z"]], "body": [["printf(", '"{}"', ");"]], }, ), ] class TestWhitespaceMethods(PyparsingExpressionTestCase): tests = [ # These test the single-element versions PyparsingTest( desc="The word foo", expr=pp.Literal("foo").ignore_whitespace(), text=" foo ", expected_list=["foo"], ), PyparsingTest( desc="The word foo", expr=pp.Literal("foo").leave_whitespace(), text=" foo ", expected_fail_locn=0, ), PyparsingTest( desc="The word foo", expr=pp.Literal("foo").ignore_whitespace(), text="foo", expected_list=["foo"], ), PyparsingTest( desc="The word foo", expr=pp.Literal("foo").leave_whitespace(), text="foo", expected_list=["foo"], ), # These test the composite elements PyparsingTest( desc=( "If we recursively leave whitespace on the parent, this" " whitespace-dependent grammar will succeed, even if the" " children themselves skip whitespace" ), expr=pp.And( [ pp.Literal(" foo").ignore_whitespace(), pp.Literal(" bar").ignore_whitespace(), ] ).leave_whitespace(recursive=True), text=" foo bar", expected_list=[" foo", " bar"], ), # PyparsingTest( desc=( "If we recursively ignore whitespace in our parsing, this" " whitespace-dependent grammar will fail, even if the children" " themselves keep whitespace" ), expr=pp.And( [ pp.Literal(" foo").leave_whitespace(), pp.Literal(" bar").leave_whitespace(), ] ).ignore_whitespace(recursive=True), text=" foo bar", expected_fail_locn=1, ), PyparsingTest( desc=( "If we leave whitespace on the parent, but it isn't recursive," " this whitespace-dependent grammar will fail" ), expr=pp.And( [ pp.Literal(" foo").ignore_whitespace(), pp.Literal(" bar").ignore_whitespace(), ] ).leave_whitespace(recursive=False), text=" foo bar", expected_fail_locn=5, ), # These test the Enhance classes PyparsingTest( desc=( "If we recursively leave whitespace on the parent," " this whitespace-dependent grammar will succeed, even" " if the children themselves skip whitespace" ), expr=pp.Optional(pp.Literal(" foo").ignore_whitespace()).leave_whitespace( recursive=True ), text=" foo", expected_list=[" foo"], ), # PyparsingTest( desc=( "If we ignore whitespace on the parent, but it isn't recursive," " parsing will fail because we skip to the first character" " 'f' before the internal expr can see it" ), expr=pp.Optional(pp.Literal(" foo").leave_whitespace()).ignore_whitespace( recursive=True ), text=" foo", expected_list=[], ), # PyparsingTest( # desc=( # "If we leave whitespace on the parent, this whitespace-dependent" # " grammar will succeed, even if the children themselves skip whitespace" # ), # expr=pp.Optional(pp.Literal(" foo").ignoreWhitespace()).leaveWhitespace( # recursive=False # ), # text=" foo", # expected_list=[] # ), ] def _get_decl_line_no(cls): import inspect return inspect.getsourcelines(cls)[1] # get all test case classes defined in this module and sort them by decl line no test_case_classes = list(PyparsingExpressionTestCase.__subclasses__()) test_case_classes.sort(key=_get_decl_line_no) # make into a suite and run it - this will run the tests in the same order # they are declared in this module # # runnable from setup.py using "python setup.py test -s simple_unit_tests.suite" # suite = unittest.TestSuite(cls() for cls in test_case_classes) # ============ MAIN ================ if __name__ == "__main__": result = unittest.TextTestRunner().run(suite) exit(0 if result.wasSuccessful() else 1)
webs 1.0 - Enhanced UI