File: //snap/google-cloud-cli/396/platform/gsutil/third_party/pyparsing/tests/test_pep8_converter.py
from pyparsing.tools.cvt_pyparsing_pep8_names import (
pep8_converter, pre_pep8_arg_names, pre_pep8_method_names, special_changes
)
import pytest
def test_conversion_composed():
orig = ("\n".join(
f"{method_name}()"
for method_name in sorted(pre_pep8_method_names) + list(special_changes)
) + "\n"
+ "\n".join(
f"fn(100, {arg_name}=True)"
for arg_name in sorted(pre_pep8_arg_names)
))
expected = """\
add_condition()
add_parse_action()
any_close_tag()
any_open_tag()
as_dict()
as_list()
c_style_comment()
can_parse_next()
condition_as_parse_action()
convert_to_date()
convert_to_datetime()
convert_to_float()
convert_to_integer()
counted_array()
cpp_style_comment()
dbl_quoted_string()
dbl_slash_comment()
default_name()
dict_of()
disable_memoization()
downcase_tokens()
enable_left_recursion()
enable_packrat()
get_name()
html_comment()
ignore_whitespace()
indented_block()
infix_notation()
inline_literals_using()
java_style_comment()
leave_whitespace()
line_end()
line_start()
located_expr()
match_only_at_col()
match_previous_expr()
match_previous_literal()
nested_expr()
null_debug_action()
one_of()
original_text_for()
parse_file()
parse_string()
parse_with_tabs()
python_style_comment()
quoted_string()
remove_quotes()
replace_with()
reset_cache()
rest_of_line()
run_tests()
scan_string()
search_string()
set_break()
set_debug()
set_debug_actions()
set_default_whitespace_chars()
set_fail_action()
set_name()
set_parse_action()
set_results_name()
set_whitespace_chars()
sgl_quoted_string()
string_end()
string_start()
token_map()
trace_parse_action()
transform_string()
try_parse()
unicode_string()
upcase_tokens()
with_attribute()
with_class()
OpAssoc()
DelimitedList()
DelimitedList()
replace_html_entity()
make_html_tags()
make_xml_tags()
common_html_entity()
strip_html_tags()
fn(100, as_group_list=True)
fn(100, as_keyword=True)
fn(100, as_match=True)
fn(100, as_string=True)
fn(100, body_chars=True)
fn(100, call_during_try=True)
fn(100, convert_whitespace_escapes=True)
fn(100, end_quote_char=True)
fn(100, esc_char=True)
fn(100, esc_quote=True)
fn(100, exclude_chars=True)
fn(100, fail_on=True)
fn(100, failure_tests=True)
fn(100, full_dump=True)
fn(100, ident_chars=True)
fn(100, ignore_expr=True)
fn(100, include_separators=True)
fn(100, init_chars=True)
fn(100, int_expr=True)
fn(100, join_string=True)
fn(100, list_all_matches=True)
fn(100, marker_string=True)
fn(100, match_string=True)
fn(100, max_matches=True)
fn(100, max_mismatches=True)
fn(100, not_chars=True)
fn(100, parse_all=True)
fn(100, post_parse=True)
fn(100, print_results=True)
fn(100, quote_char=True)
fn(100, stop_on=True)
fn(100, unquote_results=True)
fn(100, use_regex=True)
fn(100, word_chars=True)"""
converted = pep8_converter.transform_string(orig)
assert converted == expected
def test_conversion_examples():
orig = r"""
L = equation.parseString(input_string)
equation.runTests((t[1] for t in testcases), postParse=post_test)
L = pattern.parseString(input_string, parseAll=True)
itemRef = pp.OneOrMore(pp.Word(pp.alphas)).set_parse_action(self.validate_item_name).setName("item_ref")
doorsCommand = doorsVerb.setName("DOORS")
originalTextFor,
cStyleComment,
oneOf,
delimitedList,
oneOf(list(r"nrtbf\">" + "'")) | ("u" + Word(hexnums, exact=4)) | SGL_PRINTABLE
| (SCOPE_.suppress() + delimitedList(id) + SEMI)
| (SCOPE_.suppress() + ACTION + SCOPE_.suppress() + delimitedList(id) + SEMI)
(id("result_name") + oneOf("= +=")("labelOp") + atom("atom") + Optional(ebnfSuffix))
| (id("result_name") + oneOf("= +=")("labelOp") + block + Optional(ebnfSuffix))
antlrGrammarTree = grammar().parseString(text)
pyparsingTree = pyparsingRule.parseString("2 - 5 * 42 + 7 / 25")
antlr_grammar.optionsSpec.parseString(text) # @UndefinedVariable
antlr_grammar.tokensSpec.parseString(text) # @UndefinedVariable
antlr_grammar.block.parseString(text) # @UndefinedVariable
antlr_grammar.rule.parseString(text) # @UndefinedVariable
# antlr_grammar.rule.parseString(text) #@UndefinedVariable
antlrGrammarTree = antlr_grammar.grammarDef.parseString(
pyparsingTree = pyparsingRule.parseString("2 - 5 * 42 + 7 / 25")
pyparsingTreeList = pyparsingTree.asList()
api_scanner = apiRef.scanString(test)
api_scanner = apiRef.scanString(test)
BigQueryViewParser._get_parser().parseString(sql_stmt, parseAll=True)
ParserElement.enablePackrat()
ungrouped_select_stmt = Forward().setName("select statement")
QUOTED_BRACKETS = QuotedString("[", endQuoteChar="]")
expr = Forward().setName("expression")
bind_parameter = Word("?", nums) | Combine(oneOf(": @ $") + parameter_name)
type_name = oneOf(
date_part = oneOf(
+ delimitedList(function_arg)
partition_expression_list = delimitedList(grouping_term)(
+ Optional(ORDER + BY + delimitedList(ordering_term))
Optional(ARRAY + Optional(LT + delimitedList(type_name) + GT))
+ delimitedList(expr)
+ Optional(LT + delimitedList(type_name) + GT)
+ Optional(delimitedList(expr + Optional(AS + identifier)))
struct_term = LPAR + delimitedList(expr_term) + RPAR
expr <<= infixNotation(
(oneOf("- + ~") | NOT, UNARY, opAssoc.RIGHT),
(ISNULL | NOTNULL | NOT + NULL, UNARY, opAssoc.LEFT),
("||", BINARY, opAssoc.LEFT),
(oneOf("* / %"), BINARY, opAssoc.LEFT),
(oneOf("+ -"), BINARY, opAssoc.LEFT),
(oneOf("<< >> & |"), BINARY, opAssoc.LEFT),
(oneOf("= > < >= <= <> != !< !> =="), BINARY, opAssoc.LEFT),
opAssoc.LEFT,
((BETWEEN, AND), TERNARY, opAssoc.LEFT),
+ Group(ungrouped_select_stmt | delimitedList(expr))
(AND, BINARY, opAssoc.LEFT),
(OR, BINARY, opAssoc.LEFT),
| USING + LPAR + Group(delimitedList(qualified_column_name)) + RPAR
identifier_list = t.asList()
).setParseAction(record_table_identifier)
).setParseAction(record_quoted_table_identifier)
).setName("table_identifier")
over_partition = (PARTITION + BY + delimitedList(partition_expression_list))(
over_order = ORDER + BY + delimitedList(ordering_term)
EXCEPT + LPAR + delimitedList(column_name) + RPAR
with_stmt = Forward().setName("with statement")
delimitedList(
GROUP + BY + Group(delimitedList(grouping_term))("group_by_terms")
ORDER + BY + Group(delimitedList(ordering_term))("order_by_terms")
+ Optional(delimitedList(window_select_clause))
sql_comment = oneOf("-- #") + restOfLine | cStyleComment
identifier.setParseAction(record_with_alias)
with_stmt <<= WITH + delimitedList(with_clause)
return bibfile.parseString(str)
stmt.runTests('''\
(Literal("#").suppress() + Word(nums)).setParseAction(
+ Optional(Group(delimitedList(identifier | number_value | string_value)))
i.setParseAction(action)
retval[f] = object_definition.parseFile(f)
vert + pp.Word(pp.alphas) + vert + pp.delimitedList(number, "|") + vert
results = BNF().parseString(s, parseAll=True)
cStyleComment.suppress() | fn_typedef.suppress() | func_def
if fn.fn_args.asList() != [["void"]]:
fullDump=False,
dblQuotedString,
removeQuotes,
ipAddress = delimitedList(integer, ".", combine=True)
ipAddress.setResultsName("ipAddr")
+ ("-" | Word(alphas + nums + "@._")).setResultsName("auth")
+ serverDateTime.setResultsName("timestamp")
+ dblQuotedString.setResultsName("cmd").setParseAction(getCmdFields)
+ (integer | "-").setResultsName("statusCode")
+ (integer | "-").setResultsName("numBytesSent")
+ dblQuotedString.setResultsName("referrer").setParseAction(removeQuotes)
+ dblQuotedString.setResultsName("clientSfw").setParseAction(removeQuotes)
fields = getLogLineBNF().parseString(line)
+ include_directive.transformString(included_file_contents)
# use include_directive.transformString to perform includes
expanded_source = include_directive.transformString(initial_file)
"def" + identifier + Group("(" + Optional(delimitedList(identifier)) + ")") + ":"
invre = GroupEmitter(parser().parseString(regex)).make_generator()
(pp.one_of("! -"), 1, pp.opAssoc.RIGHT),
(pp.one_of("/ *"), 2, pp.opAssoc.LEFT),
(pp.one_of("- +"), 2, pp.opAssoc.LEFT),
(pp.one_of("> >= < <="), 2, pp.opAssoc.LEFT),
(pp.one_of("!= =="), 2, pp.opAssoc.LEFT),
(AND, 2, pp.opAssoc.LEFT),
(OR, 2, pp.opAssoc.LEFT),
("^", 2, pp.opAssoc.LEFT),
((NOT | pp.oneOf("# - ~")).set_name("not op"), 1, pp.opAssoc.RIGHT),
(pp.oneOf("* / // %"), 2, pp.opAssoc.LEFT),
(pp.oneOf("+ -"), 2, pp.opAssoc.LEFT),
("..", 2, pp.opAssoc.LEFT),
(pp.oneOf("<< >>"), 2, pp.opAssoc.LEFT),
("&", 2, pp.opAssoc.LEFT),
("~", 2, pp.opAssoc.LEFT),
("|", 2, pp.opAssoc.LEFT),
(pp.oneOf("< > <= >= ~= =="), 2, pp.opAssoc.LEFT),
result = lua_script.parseString(sample)
success2, _ = expression.run_tests(failtests, failureTests=True)
UID DTSTAMP LAST-MODIFIED X RRULE EXDATE''', asKeyword=True
return opening + wiki_markup.transformString(t[1][1:-1]) + closing
t["link_text"] = wiki_markup.transformString(link_text)
postParse=lambda _, s: "{:,}".format(s[0]),
ast = program.parse_string(test, parseAll=True)
expr.copy().addCondition(
print(row.parseString(line).dump())
+ pp.Word("ACGTN")[1, ...].addParseAction("".join)("gene")
for t, startLoc, endLoc in searchseq.scanString(g.gene, overlap=True):
return Empty().setParseAction(lambda s, l, t: t.__setitem__(name, l))
quotedString,
OPTION_ - ident("optionName") + EQ + quotedString("optionValue") + SEMI
return cls(t[0].asList())
(bnfToken | quotedString | optionalTerm | (LPAREN + bnfExpr + RPAREN))
).setName("street_address")
).setName("header with various elements")("header")
(plus_minus().setName("pos_neg"), 1, pp.opAssoc.RIGHT),
(mult_div, 2, pp.opAssoc.LEFT),
(plus_minus, 2, pp.opAssoc.LEFT),
]).setName("simple_arithmetic")
).setName("grammar")
restOfLine,
replaceWith,
+ ident.setResultsName("name")
+ restOfLine.setResultsName("value")
operatorWord = Group(Combine(Word(alphanums) + Suppress("*"))).setResultsName(
) | Group(Word(alphanums)).setResultsName("word")
Group(Suppress('"') + operatorQuotesContent + Suppress('"')).setResultsName(
Group(Suppress("(") + operatorOr + Suppress(")")).setResultsName(
Group(Suppress(Keyword("not", caseless=True)) + operatorNot).setResultsName(
).setResultsName("and")
operatorNot + OneOrMore(~oneOf("and or") + operatorAnd)
).setResultsName("or")
return operatorOr.parseString
return self._methods[argument.getName()](argument)
sexp.run_tests(alltests, fullDump=False)
self.__dict__.update(tokens.asDict())
shape = shapeExpr.parseString(t)[0]
(factop, 1, opAssoc.LEFT),
(expop, 2, opAssoc.RIGHT),
(signop, 1, opAssoc.RIGHT),
(multop, 2, opAssoc.LEFT),
(plusop, 2, opAssoc.LEFT),
print(expr.parseString(t))
+ Word(alphas, alphanums + "_").setResultsName("tablename")
+ field_list_def.setResultsName("columns")
+ Word(alphanums + "_").setResultsName("fromtable")
+ Word(alphanums + "_").setResultsName("fromcolumn")
+ Word(alphanums + "_").setResultsName("totable")
+ Word(alphanums + "_").setResultsName("tocolumn")
self.assertEqual("2t", name_type.parseString("2t")[0])
self.assertRaises(ParseException, name_type.parseString, "2t")
self.assertRaises(ParseException, name_type.parseString, char)
self.assertEqual("simple_test", name_type.parseString("simple_test")[0])
self.assertRaises(ParseException, mr.parseString, "2t")
self.assertRaises(ParseException, mr.parseString, char)
self.assertEqual("simple_test", mr.parseString("simple_test")[0].name)
self.assertEqual("1066", bp.number.parseString("1066")[0])
self.assertEqual("0", bp.number.parseString("0")[0])
self.assertRaises(ParseException, bp.number.parseString, "-4")
self.assertRaises(ParseException, bp.number.parseString, "+4")
self.assertRaises(ParseException, bp.number.parseString, ".4")
self.assertEqual("0", bp.number.parseString("0.4")[0])
self.assertEqual(bp.chars_no_quotecurly.parseString("x")[0], "x")
self.assertEqual(bp.chars_no_quotecurly.parseString("a string")[0], "a string")
self.assertEqual(bp.chars_no_quotecurly.parseString('a "string')[0], "a ")
self.assertEqual(bp.chars_no_curly.parseString("x")[0], "x")
self.assertEqual(bp.chars_no_curly.parseString("a string")[0], "a string")
self.assertEqual(bp.chars_no_curly.parseString("a {string")[0], "a ")
self.assertEqual(bp.chars_no_curly.parseString("a }string")[0], "a ")
self.assertEqual(obj.parseString("{}").asList(), [])
self.assertEqual(obj.parseString('{a "string}')[0], 'a "string')
obj.parseString("{a {nested} string}").asList(),
obj.parseString("{a {double {nested}} string}").asList(),
self.assertEqual([], obj.parseString('""').asList())
self.assertEqual("a string", obj.parseString('"a string"')[0])
obj.parseString('"a {nested} string"').asList(),
obj.parseString('"a {double {nested}} string"').asList(),
self.assertEqual(Macro("someascii"), bp.string.parseString("someascii")[0])
self.assertRaises(ParseException, bp.string.parseString, "%#= validstring")
self.assertEqual(bp.string.parseString("1994")[0], "1994")
self.assertEqual(Macro("aname"), fv.parseString("aname")[0])
self.assertEqual(Macro("aname"), fv.parseString("ANAME")[0])
fv.parseString('aname # "some string"').asList(),
fv.parseString("aname # {some {string}}").asList(),
["a string", "1994"], fv.parseString('"a string" # 1994').asList()
fv.parseString('"a string" # 1994 # a_macro').asList(),
res = bp.comment.parseString("@Comment{about something}")
self.assertEqual(res.asList(), ["comment", "{about something}"])
bp.comment.parseString("@COMMENT{about something").asList(),
bp.comment.parseString("@comment(about something").asList(),
bp.comment.parseString("@COMment about something").asList(),
ParseException, bp.comment.parseString, "@commentabout something"
ParseException, bp.comment.parseString, "@comment+about something"
ParseException, bp.comment.parseString, '@comment"about something'
res = bp.preamble.parseString('@preamble{"about something"}')
self.assertEqual(res.asList(), ["preamble", "about something"])
bp.preamble.parseString("@PREamble{{about something}}").asList(),
bp.preamble.parseString(
).asList(),
res = bp.macro.parseString('@string{ANAME = "about something"}')
self.assertEqual(res.asList(), ["string", "aname", "about something"])
bp.macro.parseString("@string{aname = {about something}}").asList(),
res = bp.entry.parseString(txt)
res.asList(),
res = bp.bibfile.parseString(txt)
self.assertEqual(res.asList(), res2.asList())
res3 = [r.asList()[0] for r, start, end in bp.definitions.scanString(txt)]
self.assertEqual(res.asList(), res3)
print(toks.asList())
parsed = ppc.url.parseString(url)
cppStyleComment,
+ restOfLine
Regex(r"\\\S+").setParseAction(lambda t: t[0][1:]).set_name("escapedIdent")
) # .setDebug()
joinString=" ",
| (LPAR + Group(expr) + RPAR).set_name("nestedExpr")
delay = Group("#" + delayArg).set_name("delay") # .setDebug()
stmt = Forward().set_name("stmt") # .setDebug()
verilogbnf.ignore(cppStyleComment)
return ret.set_parse_action(pp.replaceWith(val))
"""
expected = r"""
L = equation.parse_string(input_string)
equation.run_tests((t[1] for t in testcases), post_parse=post_test)
L = pattern.parse_string(input_string, parse_all=True)
itemRef = pp.OneOrMore(pp.Word(pp.alphas)).set_parse_action(self.validate_item_name).set_name("item_ref")
doorsCommand = doorsVerb.set_name("DOORS")
original_text_for,
c_style_comment,
one_of,
DelimitedList,
one_of(list(r"nrtbf\">" + "'")) | ("u" + Word(hexnums, exact=4)) | SGL_PRINTABLE
| (SCOPE_.suppress() + DelimitedList(id) + SEMI)
| (SCOPE_.suppress() + ACTION + SCOPE_.suppress() + DelimitedList(id) + SEMI)
(id("result_name") + one_of("= +=")("labelOp") + atom("atom") + Optional(ebnfSuffix))
| (id("result_name") + one_of("= +=")("labelOp") + block + Optional(ebnfSuffix))
antlrGrammarTree = grammar().parse_string(text)
pyparsingTree = pyparsingRule.parse_string("2 - 5 * 42 + 7 / 25")
antlr_grammar.optionsSpec.parse_string(text) # @UndefinedVariable
antlr_grammar.tokensSpec.parse_string(text) # @UndefinedVariable
antlr_grammar.block.parse_string(text) # @UndefinedVariable
antlr_grammar.rule.parse_string(text) # @UndefinedVariable
# antlr_grammar.rule.parse_string(text) #@UndefinedVariable
antlrGrammarTree = antlr_grammar.grammarDef.parse_string(
pyparsingTree = pyparsingRule.parse_string("2 - 5 * 42 + 7 / 25")
pyparsingTreeList = pyparsingTree.as_list()
api_scanner = apiRef.scan_string(test)
api_scanner = apiRef.scan_string(test)
BigQueryViewParser._get_parser().parse_string(sql_stmt, parse_all=True)
ParserElement.enable_packrat()
ungrouped_select_stmt = Forward().set_name("select statement")
QUOTED_BRACKETS = QuotedString("[", end_quote_char="]")
expr = Forward().set_name("expression")
bind_parameter = Word("?", nums) | Combine(one_of(": @ $") + parameter_name)
type_name = one_of(
date_part = one_of(
+ DelimitedList(function_arg)
partition_expression_list = DelimitedList(grouping_term)(
+ Optional(ORDER + BY + DelimitedList(ordering_term))
Optional(ARRAY + Optional(LT + DelimitedList(type_name) + GT))
+ DelimitedList(expr)
+ Optional(LT + DelimitedList(type_name) + GT)
+ Optional(DelimitedList(expr + Optional(AS + identifier)))
struct_term = LPAR + DelimitedList(expr_term) + RPAR
expr <<= infix_notation(
(one_of("- + ~") | NOT, UNARY, OpAssoc.RIGHT),
(ISNULL | NOTNULL | NOT + NULL, UNARY, OpAssoc.LEFT),
("||", BINARY, OpAssoc.LEFT),
(one_of("* / %"), BINARY, OpAssoc.LEFT),
(one_of("+ -"), BINARY, OpAssoc.LEFT),
(one_of("<< >> & |"), BINARY, OpAssoc.LEFT),
(one_of("= > < >= <= <> != !< !> =="), BINARY, OpAssoc.LEFT),
OpAssoc.LEFT,
((BETWEEN, AND), TERNARY, OpAssoc.LEFT),
+ Group(ungrouped_select_stmt | DelimitedList(expr))
(AND, BINARY, OpAssoc.LEFT),
(OR, BINARY, OpAssoc.LEFT),
| USING + LPAR + Group(DelimitedList(qualified_column_name)) + RPAR
identifier_list = t.as_list()
).set_parse_action(record_table_identifier)
).set_parse_action(record_quoted_table_identifier)
).set_name("table_identifier")
over_partition = (PARTITION + BY + DelimitedList(partition_expression_list))(
over_order = ORDER + BY + DelimitedList(ordering_term)
EXCEPT + LPAR + DelimitedList(column_name) + RPAR
with_stmt = Forward().set_name("with statement")
DelimitedList(
GROUP + BY + Group(DelimitedList(grouping_term))("group_by_terms")
ORDER + BY + Group(DelimitedList(ordering_term))("order_by_terms")
+ Optional(DelimitedList(window_select_clause))
sql_comment = one_of("-- #") + rest_of_line | c_style_comment
identifier.set_parse_action(record_with_alias)
with_stmt <<= WITH + DelimitedList(with_clause)
return bibfile.parse_string(str)
stmt.run_tests('''\
(Literal("#").suppress() + Word(nums)).set_parse_action(
+ Optional(Group(DelimitedList(identifier | number_value | string_value)))
i.set_parse_action(action)
retval[f] = object_definition.parse_file(f)
vert + pp.Word(pp.alphas) + vert + pp.DelimitedList(number, "|") + vert
results = BNF().parse_string(s, parse_all=True)
c_style_comment.suppress() | fn_typedef.suppress() | func_def
if fn.fn_args.as_list() != [["void"]]:
full_dump=False,
dbl_quoted_string,
remove_quotes,
ipAddress = DelimitedList(integer, ".", combine=True)
ipAddress.set_results_name("ipAddr")
+ ("-" | Word(alphas + nums + "@._")).set_results_name("auth")
+ serverDateTime.set_results_name("timestamp")
+ dbl_quoted_string.set_results_name("cmd").set_parse_action(getCmdFields)
+ (integer | "-").set_results_name("statusCode")
+ (integer | "-").set_results_name("numBytesSent")
+ dbl_quoted_string.set_results_name("referrer").set_parse_action(remove_quotes)
+ dbl_quoted_string.set_results_name("clientSfw").set_parse_action(remove_quotes)
fields = getLogLineBNF().parse_string(line)
+ include_directive.transform_string(included_file_contents)
# use include_directive.transform_string to perform includes
expanded_source = include_directive.transform_string(initial_file)
"def" + identifier + Group("(" + Optional(DelimitedList(identifier)) + ")") + ":"
invre = GroupEmitter(parser().parse_string(regex)).make_generator()
(pp.one_of("! -"), 1, pp.OpAssoc.RIGHT),
(pp.one_of("/ *"), 2, pp.OpAssoc.LEFT),
(pp.one_of("- +"), 2, pp.OpAssoc.LEFT),
(pp.one_of("> >= < <="), 2, pp.OpAssoc.LEFT),
(pp.one_of("!= =="), 2, pp.OpAssoc.LEFT),
(AND, 2, pp.OpAssoc.LEFT),
(OR, 2, pp.OpAssoc.LEFT),
("^", 2, pp.OpAssoc.LEFT),
((NOT | pp.one_of("# - ~")).set_name("not op"), 1, pp.OpAssoc.RIGHT),
(pp.one_of("* / // %"), 2, pp.OpAssoc.LEFT),
(pp.one_of("+ -"), 2, pp.OpAssoc.LEFT),
("..", 2, pp.OpAssoc.LEFT),
(pp.one_of("<< >>"), 2, pp.OpAssoc.LEFT),
("&", 2, pp.OpAssoc.LEFT),
("~", 2, pp.OpAssoc.LEFT),
("|", 2, pp.OpAssoc.LEFT),
(pp.one_of("< > <= >= ~= =="), 2, pp.OpAssoc.LEFT),
result = lua_script.parse_string(sample)
success2, _ = expression.run_tests(failtests, failure_tests=True)
UID DTSTAMP LAST-MODIFIED X RRULE EXDATE''', as_keyword=True
return opening + wiki_markup.transform_string(t[1][1:-1]) + closing
t["link_text"] = wiki_markup.transform_string(link_text)
post_parse=lambda _, s: "{:,}".format(s[0]),
ast = program.parse_string(test, parse_all=True)
expr.copy().add_condition(
print(row.parse_string(line).dump())
+ pp.Word("ACGTN")[1, ...].add_parse_action("".join)("gene")
for t, startLoc, endLoc in searchseq.scan_string(g.gene, overlap=True):
return Empty().set_parse_action(lambda s, l, t: t.__setitem__(name, l))
quoted_string,
OPTION_ - ident("optionName") + EQ + quoted_string("optionValue") + SEMI
return cls(t[0].as_list())
(bnfToken | quoted_string | optionalTerm | (LPAREN + bnfExpr + RPAREN))
).set_name("street_address")
).set_name("header with various elements")("header")
(plus_minus().set_name("pos_neg"), 1, pp.OpAssoc.RIGHT),
(mult_div, 2, pp.OpAssoc.LEFT),
(plus_minus, 2, pp.OpAssoc.LEFT),
]).set_name("simple_arithmetic")
).set_name("grammar")
rest_of_line,
replace_with,
+ ident.set_results_name("name")
+ rest_of_line.set_results_name("value")
operatorWord = Group(Combine(Word(alphanums) + Suppress("*"))).set_results_name(
) | Group(Word(alphanums)).set_results_name("word")
Group(Suppress('"') + operatorQuotesContent + Suppress('"')).set_results_name(
Group(Suppress("(") + operatorOr + Suppress(")")).set_results_name(
Group(Suppress(Keyword("not", caseless=True)) + operatorNot).set_results_name(
).set_results_name("and")
operatorNot + OneOrMore(~one_of("and or") + operatorAnd)
).set_results_name("or")
return operatorOr.parse_string
return self._methods[argument.get_name()](argument)
sexp.run_tests(alltests, full_dump=False)
self.__dict__.update(tokens.as_dict())
shape = shapeExpr.parse_string(t)[0]
(factop, 1, OpAssoc.LEFT),
(expop, 2, OpAssoc.RIGHT),
(signop, 1, OpAssoc.RIGHT),
(multop, 2, OpAssoc.LEFT),
(plusop, 2, OpAssoc.LEFT),
print(expr.parse_string(t))
+ Word(alphas, alphanums + "_").set_results_name("tablename")
+ field_list_def.set_results_name("columns")
+ Word(alphanums + "_").set_results_name("fromtable")
+ Word(alphanums + "_").set_results_name("fromcolumn")
+ Word(alphanums + "_").set_results_name("totable")
+ Word(alphanums + "_").set_results_name("tocolumn")
self.assertEqual("2t", name_type.parse_string("2t")[0])
self.assertRaises(ParseException, name_type.parse_string, "2t")
self.assertRaises(ParseException, name_type.parse_string, char)
self.assertEqual("simple_test", name_type.parse_string("simple_test")[0])
self.assertRaises(ParseException, mr.parse_string, "2t")
self.assertRaises(ParseException, mr.parse_string, char)
self.assertEqual("simple_test", mr.parse_string("simple_test")[0].name)
self.assertEqual("1066", bp.number.parse_string("1066")[0])
self.assertEqual("0", bp.number.parse_string("0")[0])
self.assertRaises(ParseException, bp.number.parse_string, "-4")
self.assertRaises(ParseException, bp.number.parse_string, "+4")
self.assertRaises(ParseException, bp.number.parse_string, ".4")
self.assertEqual("0", bp.number.parse_string("0.4")[0])
self.assertEqual(bp.chars_no_quotecurly.parse_string("x")[0], "x")
self.assertEqual(bp.chars_no_quotecurly.parse_string("a string")[0], "a string")
self.assertEqual(bp.chars_no_quotecurly.parse_string('a "string')[0], "a ")
self.assertEqual(bp.chars_no_curly.parse_string("x")[0], "x")
self.assertEqual(bp.chars_no_curly.parse_string("a string")[0], "a string")
self.assertEqual(bp.chars_no_curly.parse_string("a {string")[0], "a ")
self.assertEqual(bp.chars_no_curly.parse_string("a }string")[0], "a ")
self.assertEqual(obj.parse_string("{}").as_list(), [])
self.assertEqual(obj.parse_string('{a "string}')[0], 'a "string')
obj.parse_string("{a {nested} string}").as_list(),
obj.parse_string("{a {double {nested}} string}").as_list(),
self.assertEqual([], obj.parse_string('""').as_list())
self.assertEqual("a string", obj.parse_string('"a string"')[0])
obj.parse_string('"a {nested} string"').as_list(),
obj.parse_string('"a {double {nested}} string"').as_list(),
self.assertEqual(Macro("someascii"), bp.string.parse_string("someascii")[0])
self.assertRaises(ParseException, bp.string.parse_string, "%#= validstring")
self.assertEqual(bp.string.parse_string("1994")[0], "1994")
self.assertEqual(Macro("aname"), fv.parse_string("aname")[0])
self.assertEqual(Macro("aname"), fv.parse_string("ANAME")[0])
fv.parse_string('aname # "some string"').as_list(),
fv.parse_string("aname # {some {string}}").as_list(),
["a string", "1994"], fv.parse_string('"a string" # 1994').as_list()
fv.parse_string('"a string" # 1994 # a_macro').as_list(),
res = bp.comment.parse_string("@Comment{about something}")
self.assertEqual(res.as_list(), ["comment", "{about something}"])
bp.comment.parse_string("@COMMENT{about something").as_list(),
bp.comment.parse_string("@comment(about something").as_list(),
bp.comment.parse_string("@COMment about something").as_list(),
ParseException, bp.comment.parse_string, "@commentabout something"
ParseException, bp.comment.parse_string, "@comment+about something"
ParseException, bp.comment.parse_string, '@comment"about something'
res = bp.preamble.parse_string('@preamble{"about something"}')
self.assertEqual(res.as_list(), ["preamble", "about something"])
bp.preamble.parse_string("@PREamble{{about something}}").as_list(),
bp.preamble.parse_string(
).as_list(),
res = bp.macro.parse_string('@string{ANAME = "about something"}')
self.assertEqual(res.as_list(), ["string", "aname", "about something"])
bp.macro.parse_string("@string{aname = {about something}}").as_list(),
res = bp.entry.parse_string(txt)
res.as_list(),
res = bp.bibfile.parse_string(txt)
self.assertEqual(res.as_list(), res2.as_list())
res3 = [r.as_list()[0] for r, start, end in bp.definitions.scan_string(txt)]
self.assertEqual(res.as_list(), res3)
print(toks.as_list())
parsed = ppc.url.parse_string(url)
cpp_style_comment,
+ rest_of_line
Regex(r"\\\S+").set_parse_action(lambda t: t[0][1:]).set_name("escapedIdent")
) # .set_debug()
join_string=" ",
| (LPAR + Group(expr) + RPAR).set_name("nested_expr")
delay = Group("#" + delayArg).set_name("delay") # .set_debug()
stmt = Forward().set_name("stmt") # .set_debug()
verilogbnf.ignore(cpp_style_comment)
return ret.set_parse_action(pp.replace_with(val))
"""
failed = 0
for o, e in zip(orig.splitlines(), expected.splitlines()):
converted = pep8_converter.transform_string(o)
try:
assert converted == e
except AssertionError:
print()
print(f"Expected: {e!r}\n"
f"Observed: {converted!r}")
failed += 1
if failed:
raise AssertionError(f"Failed to convert some original code ({failed} lines)")