Mercurial > repos > guerler > hhblits
diff lib/python3.8/site-packages/setuptools/_vendor/pyparsing.py @ 1:64071f2a4cf0 draft default tip
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| author | guerler |
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| date | Mon, 27 Jul 2020 03:55:49 -0400 |
| parents | 9e54283cc701 |
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--- a/lib/python3.8/site-packages/setuptools/_vendor/pyparsing.py Mon Jul 27 03:47:31 2020 -0400 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,5742 +0,0 @@ -# module pyparsing.py -# -# Copyright (c) 2003-2018 Paul T. McGuire -# -# Permission is hereby granted, free of charge, to any person obtaining -# a copy of this software and associated documentation files (the -# "Software"), to deal in the Software without restriction, including -# without limitation the rights to use, copy, modify, merge, publish, -# distribute, sublicense, and/or sell copies of the Software, and to -# permit persons to whom the Software is furnished to do so, subject to -# the following conditions: -# -# The above copyright notice and this permission notice shall be -# included in all copies or substantial portions of the Software. -# -# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, -# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF -# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. -# IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY -# CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, -# TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE -# SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. -# - -__doc__ = \ -""" -pyparsing module - Classes and methods to define and execute parsing grammars -============================================================================= - -The pyparsing module is an alternative approach to creating and executing simple grammars, -vs. the traditional lex/yacc approach, or the use of regular expressions. With pyparsing, you -don't need to learn a new syntax for defining grammars or matching expressions - the parsing module -provides a library of classes that you use to construct the grammar directly in Python. - -Here is a program to parse "Hello, World!" (or any greeting of the form -C{"<salutation>, <addressee>!"}), built up using L{Word}, L{Literal}, and L{And} elements -(L{'+'<ParserElement.__add__>} operator gives L{And} expressions, strings are auto-converted to -L{Literal} expressions):: - - from pyparsing import Word, alphas - - # define grammar of a greeting - greet = Word(alphas) + "," + Word(alphas) + "!" - - hello = "Hello, World!" - print (hello, "->", greet.parseString(hello)) - -The program outputs the following:: - - Hello, World! -> ['Hello', ',', 'World', '!'] - -The Python representation of the grammar is quite readable, owing to the self-explanatory -class names, and the use of '+', '|' and '^' operators. - -The L{ParseResults} object returned from L{ParserElement.parseString<ParserElement.parseString>} can be accessed as a nested list, a dictionary, or an -object with named attributes. - -The pyparsing module handles some of the problems that are typically vexing when writing text parsers: - - extra or missing whitespace (the above program will also handle "Hello,World!", "Hello , World !", etc.) - - quoted strings - - embedded comments - - -Getting Started - ------------------ -Visit the classes L{ParserElement} and L{ParseResults} to see the base classes that most other pyparsing -classes inherit from. Use the docstrings for examples of how to: - - construct literal match expressions from L{Literal} and L{CaselessLiteral} classes - - construct character word-group expressions using the L{Word} class - - see how to create repetitive expressions using L{ZeroOrMore} and L{OneOrMore} classes - - use L{'+'<And>}, L{'|'<MatchFirst>}, L{'^'<Or>}, and L{'&'<Each>} operators to combine simple expressions into more complex ones - - associate names with your parsed results using L{ParserElement.setResultsName} - - find some helpful expression short-cuts like L{delimitedList} and L{oneOf} - - find more useful common expressions in the L{pyparsing_common} namespace class -""" - -__version__ = "2.2.1" -__versionTime__ = "18 Sep 2018 00:49 UTC" -__author__ = "Paul McGuire <ptmcg@users.sourceforge.net>" - -import string -from weakref import ref as wkref -import copy -import sys -import warnings -import re -import sre_constants -import collections -import pprint -import traceback -import types -from datetime import datetime - -try: - from _thread import RLock -except ImportError: - from threading import RLock - -try: - # Python 3 - from collections.abc import Iterable - from collections.abc import MutableMapping -except ImportError: - # Python 2.7 - from collections import Iterable - from collections import MutableMapping - -try: - from collections import OrderedDict as _OrderedDict -except ImportError: - try: - from ordereddict import OrderedDict as _OrderedDict - except ImportError: - _OrderedDict = None - -#~ sys.stderr.write( "testing pyparsing module, version %s, %s\n" % (__version__,__versionTime__ ) ) - -__all__ = [ -'And', 'CaselessKeyword', 'CaselessLiteral', 'CharsNotIn', 'Combine', 'Dict', 'Each', 'Empty', -'FollowedBy', 'Forward', 'GoToColumn', 'Group', 'Keyword', 'LineEnd', 'LineStart', 'Literal', -'MatchFirst', 'NoMatch', 'NotAny', 'OneOrMore', 'OnlyOnce', 'Optional', 'Or', -'ParseBaseException', 'ParseElementEnhance', 'ParseException', 'ParseExpression', 'ParseFatalException', -'ParseResults', 'ParseSyntaxException', 'ParserElement', 'QuotedString', 'RecursiveGrammarException', -'Regex', 'SkipTo', 'StringEnd', 'StringStart', 'Suppress', 'Token', 'TokenConverter', -'White', 'Word', 'WordEnd', 'WordStart', 'ZeroOrMore', -'alphanums', 'alphas', 'alphas8bit', 'anyCloseTag', 'anyOpenTag', 'cStyleComment', 'col', -'commaSeparatedList', 'commonHTMLEntity', 'countedArray', 'cppStyleComment', 'dblQuotedString', -'dblSlashComment', 'delimitedList', 'dictOf', 'downcaseTokens', 'empty', 'hexnums', -'htmlComment', 'javaStyleComment', 'line', 'lineEnd', 'lineStart', 'lineno', -'makeHTMLTags', 'makeXMLTags', 'matchOnlyAtCol', 'matchPreviousExpr', 'matchPreviousLiteral', -'nestedExpr', 'nullDebugAction', 'nums', 'oneOf', 'opAssoc', 'operatorPrecedence', 'printables', -'punc8bit', 'pythonStyleComment', 'quotedString', 'removeQuotes', 'replaceHTMLEntity', -'replaceWith', 'restOfLine', 'sglQuotedString', 'srange', 'stringEnd', -'stringStart', 'traceParseAction', 'unicodeString', 'upcaseTokens', 'withAttribute', -'indentedBlock', 'originalTextFor', 'ungroup', 'infixNotation','locatedExpr', 'withClass', -'CloseMatch', 'tokenMap', 'pyparsing_common', -] - -system_version = tuple(sys.version_info)[:3] -PY_3 = system_version[0] == 3 -if PY_3: - _MAX_INT = sys.maxsize - basestring = str - unichr = chr - _ustr = str - - # build list of single arg builtins, that can be used as parse actions - singleArgBuiltins = [sum, len, sorted, reversed, list, tuple, set, any, all, min, max] - -else: - _MAX_INT = sys.maxint - range = xrange - - def _ustr(obj): - """Drop-in replacement for str(obj) that tries to be Unicode friendly. It first tries - str(obj). If that fails with a UnicodeEncodeError, then it tries unicode(obj). It - then < returns the unicode object | encodes it with the default encoding | ... >. - """ - if isinstance(obj,unicode): - return obj - - try: - # If this works, then _ustr(obj) has the same behaviour as str(obj), so - # it won't break any existing code. - return str(obj) - - except UnicodeEncodeError: - # Else encode it - ret = unicode(obj).encode(sys.getdefaultencoding(), 'xmlcharrefreplace') - xmlcharref = Regex(r'&#\d+;') - xmlcharref.setParseAction(lambda t: '\\u' + hex(int(t[0][2:-1]))[2:]) - return xmlcharref.transformString(ret) - - # build list of single arg builtins, tolerant of Python version, that can be used as parse actions - singleArgBuiltins = [] - import __builtin__ - for fname in "sum len sorted reversed list tuple set any all min max".split(): - try: - singleArgBuiltins.append(getattr(__builtin__,fname)) - except AttributeError: - continue - -_generatorType = type((y for y in range(1))) - -def _xml_escape(data): - """Escape &, <, >, ", ', etc. in a string of data.""" - - # ampersand must be replaced first - from_symbols = '&><"\'' - to_symbols = ('&'+s+';' for s in "amp gt lt quot apos".split()) - for from_,to_ in zip(from_symbols, to_symbols): - data = data.replace(from_, to_) - return data - -class _Constants(object): - pass - -alphas = string.ascii_uppercase + string.ascii_lowercase -nums = "0123456789" -hexnums = nums + "ABCDEFabcdef" -alphanums = alphas + nums -_bslash = chr(92) -printables = "".join(c for c in string.printable if c not in string.whitespace) - -class ParseBaseException(Exception): - """base exception class for all parsing runtime exceptions""" - # Performance tuning: we construct a *lot* of these, so keep this - # constructor as small and fast as possible - def __init__( self, pstr, loc=0, msg=None, elem=None ): - self.loc = loc - if msg is None: - self.msg = pstr - self.pstr = "" - else: - self.msg = msg - self.pstr = pstr - self.parserElement = elem - self.args = (pstr, loc, msg) - - @classmethod - def _from_exception(cls, pe): - """ - internal factory method to simplify creating one type of ParseException - from another - avoids having __init__ signature conflicts among subclasses - """ - return cls(pe.pstr, pe.loc, pe.msg, pe.parserElement) - - def __getattr__( self, aname ): - """supported attributes by name are: - - lineno - returns the line number of the exception text - - col - returns the column number of the exception text - - line - returns the line containing the exception text - """ - if( aname == "lineno" ): - return lineno( self.loc, self.pstr ) - elif( aname in ("col", "column") ): - return col( self.loc, self.pstr ) - elif( aname == "line" ): - return line( self.loc, self.pstr ) - else: - raise AttributeError(aname) - - def __str__( self ): - return "%s (at char %d), (line:%d, col:%d)" % \ - ( self.msg, self.loc, self.lineno, self.column ) - def __repr__( self ): - return _ustr(self) - def markInputline( self, markerString = ">!<" ): - """Extracts the exception line from the input string, and marks - the location of the exception with a special symbol. - """ - line_str = self.line - line_column = self.column - 1 - if markerString: - line_str = "".join((line_str[:line_column], - markerString, line_str[line_column:])) - return line_str.strip() - def __dir__(self): - return "lineno col line".split() + dir(type(self)) - -class ParseException(ParseBaseException): - """ - Exception thrown when parse expressions don't match class; - supported attributes by name are: - - lineno - returns the line number of the exception text - - col - returns the column number of the exception text - - line - returns the line containing the exception text - - Example:: - try: - Word(nums).setName("integer").parseString("ABC") - except ParseException as pe: - print(pe) - print("column: {}".format(pe.col)) - - prints:: - Expected integer (at char 0), (line:1, col:1) - column: 1 - """ - pass - -class ParseFatalException(ParseBaseException): - """user-throwable exception thrown when inconsistent parse content - is found; stops all parsing immediately""" - pass - -class ParseSyntaxException(ParseFatalException): - """just like L{ParseFatalException}, but thrown internally when an - L{ErrorStop<And._ErrorStop>} ('-' operator) indicates that parsing is to stop - immediately because an unbacktrackable syntax error has been found""" - pass - -#~ class ReparseException(ParseBaseException): - #~ """Experimental class - parse actions can raise this exception to cause - #~ pyparsing to reparse the input string: - #~ - with a modified input string, and/or - #~ - with a modified start location - #~ Set the values of the ReparseException in the constructor, and raise the - #~ exception in a parse action to cause pyparsing to use the new string/location. - #~ Setting the values as None causes no change to be made. - #~ """ - #~ def __init_( self, newstring, restartLoc ): - #~ self.newParseText = newstring - #~ self.reparseLoc = restartLoc - -class RecursiveGrammarException(Exception): - """exception thrown by L{ParserElement.validate} if the grammar could be improperly recursive""" - def __init__( self, parseElementList ): - self.parseElementTrace = parseElementList - - def __str__( self ): - return "RecursiveGrammarException: %s" % self.parseElementTrace - -class _ParseResultsWithOffset(object): - def __init__(self,p1,p2): - self.tup = (p1,p2) - def __getitem__(self,i): - return self.tup[i] - def __repr__(self): - return repr(self.tup[0]) - def setOffset(self,i): - self.tup = (self.tup[0],i) - -class ParseResults(object): - """ - Structured parse results, to provide multiple means of access to the parsed data: - - as a list (C{len(results)}) - - by list index (C{results[0], results[1]}, etc.) - - by attribute (C{results.<resultsName>} - see L{ParserElement.setResultsName}) - - Example:: - integer = Word(nums) - date_str = (integer.setResultsName("year") + '/' - + integer.setResultsName("month") + '/' - + integer.setResultsName("day")) - # equivalent form: - # date_str = integer("year") + '/' + integer("month") + '/' + integer("day") - - # parseString returns a ParseResults object - result = date_str.parseString("1999/12/31") - - def test(s, fn=repr): - print("%s -> %s" % (s, fn(eval(s)))) - test("list(result)") - test("result[0]") - test("result['month']") - test("result.day") - test("'month' in result") - test("'minutes' in result") - test("result.dump()", str) - prints:: - list(result) -> ['1999', '/', '12', '/', '31'] - result[0] -> '1999' - result['month'] -> '12' - result.day -> '31' - 'month' in result -> True - 'minutes' in result -> False - result.dump() -> ['1999', '/', '12', '/', '31'] - - day: 31 - - month: 12 - - year: 1999 - """ - def __new__(cls, toklist=None, name=None, asList=True, modal=True ): - if isinstance(toklist, cls): - return toklist - retobj = object.__new__(cls) - retobj.__doinit = True - return retobj - - # Performance tuning: we construct a *lot* of these, so keep this - # constructor as small and fast as possible - def __init__( self, toklist=None, name=None, asList=True, modal=True, isinstance=isinstance ): - if self.__doinit: - self.__doinit = False - self.__name = None - self.__parent = None - self.__accumNames = {} - self.__asList = asList - self.__modal = modal - if toklist is None: - toklist = [] - if isinstance(toklist, list): - self.__toklist = toklist[:] - elif isinstance(toklist, _generatorType): - self.__toklist = list(toklist) - else: - self.__toklist = [toklist] - self.__tokdict = dict() - - if name is not None and name: - if not modal: - self.__accumNames[name] = 0 - if isinstance(name,int): - name = _ustr(name) # will always return a str, but use _ustr for consistency - self.__name = name - if not (isinstance(toklist, (type(None), basestring, list)) and toklist in (None,'',[])): - if isinstance(toklist,basestring): - toklist = [ toklist ] - if asList: - if isinstance(toklist,ParseResults): - self[name] = _ParseResultsWithOffset(toklist.copy(),0) - else: - self[name] = _ParseResultsWithOffset(ParseResults(toklist[0]),0) - self[name].__name = name - else: - try: - self[name] = toklist[0] - except (KeyError,TypeError,IndexError): - self[name] = toklist - - def __getitem__( self, i ): - if isinstance( i, (int,slice) ): - return self.__toklist[i] - else: - if i not in self.__accumNames: - return self.__tokdict[i][-1][0] - else: - return ParseResults([ v[0] for v in self.__tokdict[i] ]) - - def __setitem__( self, k, v, isinstance=isinstance ): - if isinstance(v,_ParseResultsWithOffset): - self.__tokdict[k] = self.__tokdict.get(k,list()) + [v] - sub = v[0] - elif isinstance(k,(int,slice)): - self.__toklist[k] = v - sub = v - else: - self.__tokdict[k] = self.__tokdict.get(k,list()) + [_ParseResultsWithOffset(v,0)] - sub = v - if isinstance(sub,ParseResults): - sub.__parent = wkref(self) - - def __delitem__( self, i ): - if isinstance(i,(int,slice)): - mylen = len( self.__toklist ) - del self.__toklist[i] - - # convert int to slice - if isinstance(i, int): - if i < 0: - i += mylen - i = slice(i, i+1) - # get removed indices - removed = list(range(*i.indices(mylen))) - removed.reverse() - # fixup indices in token dictionary - for name,occurrences in self.__tokdict.items(): - for j in removed: - for k, (value, position) in enumerate(occurrences): - occurrences[k] = _ParseResultsWithOffset(value, position - (position > j)) - else: - del self.__tokdict[i] - - def __contains__( self, k ): - return k in self.__tokdict - - def __len__( self ): return len( self.__toklist ) - def __bool__(self): return ( not not self.__toklist ) - __nonzero__ = __bool__ - def __iter__( self ): return iter( self.__toklist ) - def __reversed__( self ): return iter( self.__toklist[::-1] ) - def _iterkeys( self ): - if hasattr(self.__tokdict, "iterkeys"): - return self.__tokdict.iterkeys() - else: - return iter(self.__tokdict) - - def _itervalues( self ): - return (self[k] for k in self._iterkeys()) - - def _iteritems( self ): - return ((k, self[k]) for k in self._iterkeys()) - - if PY_3: - keys = _iterkeys - """Returns an iterator of all named result keys (Python 3.x only).""" - - values = _itervalues - """Returns an iterator of all named result values (Python 3.x only).""" - - items = _iteritems - """Returns an iterator of all named result key-value tuples (Python 3.x only).""" - - else: - iterkeys = _iterkeys - """Returns an iterator of all named result keys (Python 2.x only).""" - - itervalues = _itervalues - """Returns an iterator of all named result values (Python 2.x only).""" - - iteritems = _iteritems - """Returns an iterator of all named result key-value tuples (Python 2.x only).""" - - def keys( self ): - """Returns all named result keys (as a list in Python 2.x, as an iterator in Python 3.x).""" - return list(self.iterkeys()) - - def values( self ): - """Returns all named result values (as a list in Python 2.x, as an iterator in Python 3.x).""" - return list(self.itervalues()) - - def items( self ): - """Returns all named result key-values (as a list of tuples in Python 2.x, as an iterator in Python 3.x).""" - return list(self.iteritems()) - - def haskeys( self ): - """Since keys() returns an iterator, this method is helpful in bypassing - code that looks for the existence of any defined results names.""" - return bool(self.__tokdict) - - def pop( self, *args, **kwargs): - """ - Removes and returns item at specified index (default=C{last}). - Supports both C{list} and C{dict} semantics for C{pop()}. If passed no - argument or an integer argument, it will use C{list} semantics - and pop tokens from the list of parsed tokens. If passed a - non-integer argument (most likely a string), it will use C{dict} - semantics and pop the corresponding value from any defined - results names. A second default return value argument is - supported, just as in C{dict.pop()}. - - Example:: - def remove_first(tokens): - tokens.pop(0) - print(OneOrMore(Word(nums)).parseString("0 123 321")) # -> ['0', '123', '321'] - print(OneOrMore(Word(nums)).addParseAction(remove_first).parseString("0 123 321")) # -> ['123', '321'] - - label = Word(alphas) - patt = label("LABEL") + OneOrMore(Word(nums)) - print(patt.parseString("AAB 123 321").dump()) - - # Use pop() in a parse action to remove named result (note that corresponding value is not - # removed from list form of results) - def remove_LABEL(tokens): - tokens.pop("LABEL") - return tokens - patt.addParseAction(remove_LABEL) - print(patt.parseString("AAB 123 321").dump()) - prints:: - ['AAB', '123', '321'] - - LABEL: AAB - - ['AAB', '123', '321'] - """ - if not args: - args = [-1] - for k,v in kwargs.items(): - if k == 'default': - args = (args[0], v) - else: - raise TypeError("pop() got an unexpected keyword argument '%s'" % k) - if (isinstance(args[0], int) or - len(args) == 1 or - args[0] in self): - index = args[0] - ret = self[index] - del self[index] - return ret - else: - defaultvalue = args[1] - return defaultvalue - - def get(self, key, defaultValue=None): - """ - Returns named result matching the given key, or if there is no - such name, then returns the given C{defaultValue} or C{None} if no - C{defaultValue} is specified. - - Similar to C{dict.get()}. - - Example:: - integer = Word(nums) - date_str = integer("year") + '/' + integer("month") + '/' + integer("day") - - result = date_str.parseString("1999/12/31") - print(result.get("year")) # -> '1999' - print(result.get("hour", "not specified")) # -> 'not specified' - print(result.get("hour")) # -> None - """ - if key in self: - return self[key] - else: - return defaultValue - - def insert( self, index, insStr ): - """ - Inserts new element at location index in the list of parsed tokens. - - Similar to C{list.insert()}. - - Example:: - print(OneOrMore(Word(nums)).parseString("0 123 321")) # -> ['0', '123', '321'] - - # use a parse action to insert the parse location in the front of the parsed results - def insert_locn(locn, tokens): - tokens.insert(0, locn) - print(OneOrMore(Word(nums)).addParseAction(insert_locn).parseString("0 123 321")) # -> [0, '0', '123', '321'] - """ - self.__toklist.insert(index, insStr) - # fixup indices in token dictionary - for name,occurrences in self.__tokdict.items(): - for k, (value, position) in enumerate(occurrences): - occurrences[k] = _ParseResultsWithOffset(value, position + (position > index)) - - def append( self, item ): - """ - Add single element to end of ParseResults list of elements. - - Example:: - print(OneOrMore(Word(nums)).parseString("0 123 321")) # -> ['0', '123', '321'] - - # use a parse action to compute the sum of the parsed integers, and add it to the end - def append_sum(tokens): - tokens.append(sum(map(int, tokens))) - print(OneOrMore(Word(nums)).addParseAction(append_sum).parseString("0 123 321")) # -> ['0', '123', '321', 444] - """ - self.__toklist.append(item) - - def extend( self, itemseq ): - """ - Add sequence of elements to end of ParseResults list of elements. - - Example:: - patt = OneOrMore(Word(alphas)) - - # use a parse action to append the reverse of the matched strings, to make a palindrome - def make_palindrome(tokens): - tokens.extend(reversed([t[::-1] for t in tokens])) - return ''.join(tokens) - print(patt.addParseAction(make_palindrome).parseString("lskdj sdlkjf lksd")) # -> 'lskdjsdlkjflksddsklfjkldsjdksl' - """ - if isinstance(itemseq, ParseResults): - self += itemseq - else: - self.__toklist.extend(itemseq) - - def clear( self ): - """ - Clear all elements and results names. - """ - del self.__toklist[:] - self.__tokdict.clear() - - def __getattr__( self, name ): - try: - return self[name] - except KeyError: - return "" - - if name in self.__tokdict: - if name not in self.__accumNames: - return self.__tokdict[name][-1][0] - else: - return ParseResults([ v[0] for v in self.__tokdict[name] ]) - else: - return "" - - def __add__( self, other ): - ret = self.copy() - ret += other - return ret - - def __iadd__( self, other ): - if other.__tokdict: - offset = len(self.__toklist) - addoffset = lambda a: offset if a<0 else a+offset - otheritems = other.__tokdict.items() - otherdictitems = [(k, _ParseResultsWithOffset(v[0],addoffset(v[1])) ) - for (k,vlist) in otheritems for v in vlist] - for k,v in otherdictitems: - self[k] = v - if isinstance(v[0],ParseResults): - v[0].__parent = wkref(self) - - self.__toklist += other.__toklist - self.__accumNames.update( other.__accumNames ) - return self - - def __radd__(self, other): - if isinstance(other,int) and other == 0: - # useful for merging many ParseResults using sum() builtin - return self.copy() - else: - # this may raise a TypeError - so be it - return other + self - - def __repr__( self ): - return "(%s, %s)" % ( repr( self.__toklist ), repr( self.__tokdict ) ) - - def __str__( self ): - return '[' + ', '.join(_ustr(i) if isinstance(i, ParseResults) else repr(i) for i in self.__toklist) + ']' - - def _asStringList( self, sep='' ): - out = [] - for item in self.__toklist: - if out and sep: - out.append(sep) - if isinstance( item, ParseResults ): - out += item._asStringList() - else: - out.append( _ustr(item) ) - return out - - def asList( self ): - """ - Returns the parse results as a nested list of matching tokens, all converted to strings. - - Example:: - patt = OneOrMore(Word(alphas)) - result = patt.parseString("sldkj lsdkj sldkj") - # even though the result prints in string-like form, it is actually a pyparsing ParseResults - print(type(result), result) # -> <class 'pyparsing.ParseResults'> ['sldkj', 'lsdkj', 'sldkj'] - - # Use asList() to create an actual list - result_list = result.asList() - print(type(result_list), result_list) # -> <class 'list'> ['sldkj', 'lsdkj', 'sldkj'] - """ - return [res.asList() if isinstance(res,ParseResults) else res for res in self.__toklist] - - def asDict( self ): - """ - Returns the named parse results as a nested dictionary. - - Example:: - integer = Word(nums) - date_str = integer("year") + '/' + integer("month") + '/' + integer("day") - - result = date_str.parseString('12/31/1999') - print(type(result), repr(result)) # -> <class 'pyparsing.ParseResults'> (['12', '/', '31', '/', '1999'], {'day': [('1999', 4)], 'year': [('12', 0)], 'month': [('31', 2)]}) - - result_dict = result.asDict() - print(type(result_dict), repr(result_dict)) # -> <class 'dict'> {'day': '1999', 'year': '12', 'month': '31'} - - # even though a ParseResults supports dict-like access, sometime you just need to have a dict - import json - print(json.dumps(result)) # -> Exception: TypeError: ... is not JSON serializable - print(json.dumps(result.asDict())) # -> {"month": "31", "day": "1999", "year": "12"} - """ - if PY_3: - item_fn = self.items - else: - item_fn = self.iteritems - - def toItem(obj): - if isinstance(obj, ParseResults): - if obj.haskeys(): - return obj.asDict() - else: - return [toItem(v) for v in obj] - else: - return obj - - return dict((k,toItem(v)) for k,v in item_fn()) - - def copy( self ): - """ - Returns a new copy of a C{ParseResults} object. - """ - ret = ParseResults( self.__toklist ) - ret.__tokdict = self.__tokdict.copy() - ret.__parent = self.__parent - ret.__accumNames.update( self.__accumNames ) - ret.__name = self.__name - return ret - - def asXML( self, doctag=None, namedItemsOnly=False, indent="", formatted=True ): - """ - (Deprecated) Returns the parse results as XML. Tags are created for tokens and lists that have defined results names. - """ - nl = "\n" - out = [] - namedItems = dict((v[1],k) for (k,vlist) in self.__tokdict.items() - for v in vlist) - nextLevelIndent = indent + " " - - # collapse out indents if formatting is not desired - if not formatted: - indent = "" - nextLevelIndent = "" - nl = "" - - selfTag = None - if doctag is not None: - selfTag = doctag - else: - if self.__name: - selfTag = self.__name - - if not selfTag: - if namedItemsOnly: - return "" - else: - selfTag = "ITEM" - - out += [ nl, indent, "<", selfTag, ">" ] - - for i,res in enumerate(self.__toklist): - if isinstance(res,ParseResults): - if i in namedItems: - out += [ res.asXML(namedItems[i], - namedItemsOnly and doctag is None, - nextLevelIndent, - formatted)] - else: - out += [ res.asXML(None, - namedItemsOnly and doctag is None, - nextLevelIndent, - formatted)] - else: - # individual token, see if there is a name for it - resTag = None - if i in namedItems: - resTag = namedItems[i] - if not resTag: - if namedItemsOnly: - continue - else: - resTag = "ITEM" - xmlBodyText = _xml_escape(_ustr(res)) - out += [ nl, nextLevelIndent, "<", resTag, ">", - xmlBodyText, - "</", resTag, ">" ] - - out += [ nl, indent, "</", selfTag, ">" ] - return "".join(out) - - def __lookup(self,sub): - for k,vlist in self.__tokdict.items(): - for v,loc in vlist: - if sub is v: - return k - return None - - def getName(self): - r""" - Returns the results name for this token expression. Useful when several - different expressions might match at a particular location. - - Example:: - integer = Word(nums) - ssn_expr = Regex(r"\d\d\d-\d\d-\d\d\d\d") - house_number_expr = Suppress('#') + Word(nums, alphanums) - user_data = (Group(house_number_expr)("house_number") - | Group(ssn_expr)("ssn") - | Group(integer)("age")) - user_info = OneOrMore(user_data) - - result = user_info.parseString("22 111-22-3333 #221B") - for item in result: - print(item.getName(), ':', item[0]) - prints:: - age : 22 - ssn : 111-22-3333 - house_number : 221B - """ - if self.__name: - return self.__name - elif self.__parent: - par = self.__parent() - if par: - return par.__lookup(self) - else: - return None - elif (len(self) == 1 and - len(self.__tokdict) == 1 and - next(iter(self.__tokdict.values()))[0][1] in (0,-1)): - return next(iter(self.__tokdict.keys())) - else: - return None - - def dump(self, indent='', depth=0, full=True): - """ - Diagnostic method for listing out the contents of a C{ParseResults}. - Accepts an optional C{indent} argument so that this string can be embedded - in a nested display of other data. - - Example:: - integer = Word(nums) - date_str = integer("year") + '/' + integer("month") + '/' + integer("day") - - result = date_str.parseString('12/31/1999') - print(result.dump()) - prints:: - ['12', '/', '31', '/', '1999'] - - day: 1999 - - month: 31 - - year: 12 - """ - out = [] - NL = '\n' - out.append( indent+_ustr(self.asList()) ) - if full: - if self.haskeys(): - items = sorted((str(k), v) for k,v in self.items()) - for k,v in items: - if out: - out.append(NL) - out.append( "%s%s- %s: " % (indent,(' '*depth), k) ) - if isinstance(v,ParseResults): - if v: - out.append( v.dump(indent,depth+1) ) - else: - out.append(_ustr(v)) - else: - out.append(repr(v)) - elif any(isinstance(vv,ParseResults) for vv in self): - v = self - for i,vv in enumerate(v): - if isinstance(vv,ParseResults): - out.append("\n%s%s[%d]:\n%s%s%s" % (indent,(' '*(depth)),i,indent,(' '*(depth+1)),vv.dump(indent,depth+1) )) - else: - out.append("\n%s%s[%d]:\n%s%s%s" % (indent,(' '*(depth)),i,indent,(' '*(depth+1)),_ustr(vv))) - - return "".join(out) - - def pprint(self, *args, **kwargs): - """ - Pretty-printer for parsed results as a list, using the C{pprint} module. - Accepts additional positional or keyword args as defined for the - C{pprint.pprint} method. (U{http://docs.python.org/3/library/pprint.html#pprint.pprint}) - - Example:: - ident = Word(alphas, alphanums) - num = Word(nums) - func = Forward() - term = ident | num | Group('(' + func + ')') - func <<= ident + Group(Optional(delimitedList(term))) - result = func.parseString("fna a,b,(fnb c,d,200),100") - result.pprint(width=40) - prints:: - ['fna', - ['a', - 'b', - ['(', 'fnb', ['c', 'd', '200'], ')'], - '100']] - """ - pprint.pprint(self.asList(), *args, **kwargs) - - # add support for pickle protocol - def __getstate__(self): - return ( self.__toklist, - ( self.__tokdict.copy(), - self.__parent is not None and self.__parent() or None, - self.__accumNames, - self.__name ) ) - - def __setstate__(self,state): - self.__toklist = state[0] - (self.__tokdict, - par, - inAccumNames, - self.__name) = state[1] - self.__accumNames = {} - self.__accumNames.update(inAccumNames) - if par is not None: - self.__parent = wkref(par) - else: - self.__parent = None - - def __getnewargs__(self): - return self.__toklist, self.__name, self.__asList, self.__modal - - def __dir__(self): - return (dir(type(self)) + list(self.keys())) - -MutableMapping.register(ParseResults) - -def col (loc,strg): - """Returns current column within a string, counting newlines as line separators. - The first column is number 1. - - Note: the default parsing behavior is to expand tabs in the input string - before starting the parsing process. See L{I{ParserElement.parseString}<ParserElement.parseString>} for more information - on parsing strings containing C{<TAB>}s, and suggested methods to maintain a - consistent view of the parsed string, the parse location, and line and column - positions within the parsed string. - """ - s = strg - return 1 if 0<loc<len(s) and s[loc-1] == '\n' else loc - s.rfind("\n", 0, loc) - -def lineno(loc,strg): - """Returns current line number within a string, counting newlines as line separators. - The first line is number 1. - - Note: the default parsing behavior is to expand tabs in the input string - before starting the parsing process. See L{I{ParserElement.parseString}<ParserElement.parseString>} for more information - on parsing strings containing C{<TAB>}s, and suggested methods to maintain a - consistent view of the parsed string, the parse location, and line and column - positions within the parsed string. - """ - return strg.count("\n",0,loc) + 1 - -def line( loc, strg ): - """Returns the line of text containing loc within a string, counting newlines as line separators. - """ - lastCR = strg.rfind("\n", 0, loc) - nextCR = strg.find("\n", loc) - if nextCR >= 0: - return strg[lastCR+1:nextCR] - else: - return strg[lastCR+1:] - -def _defaultStartDebugAction( instring, loc, expr ): - print (("Match " + _ustr(expr) + " at loc " + _ustr(loc) + "(%d,%d)" % ( lineno(loc,instring), col(loc,instring) ))) - -def _defaultSuccessDebugAction( instring, startloc, endloc, expr, toks ): - print ("Matched " + _ustr(expr) + " -> " + str(toks.asList())) - -def _defaultExceptionDebugAction( instring, loc, expr, exc ): - print ("Exception raised:" + _ustr(exc)) - -def nullDebugAction(*args): - """'Do-nothing' debug action, to suppress debugging output during parsing.""" - pass - -# Only works on Python 3.x - nonlocal is toxic to Python 2 installs -#~ 'decorator to trim function calls to match the arity of the target' -#~ def _trim_arity(func, maxargs=3): - #~ if func in singleArgBuiltins: - #~ return lambda s,l,t: func(t) - #~ limit = 0 - #~ foundArity = False - #~ def wrapper(*args): - #~ nonlocal limit,foundArity - #~ while 1: - #~ try: - #~ ret = func(*args[limit:]) - #~ foundArity = True - #~ return ret - #~ except TypeError: - #~ if limit == maxargs or foundArity: - #~ raise - #~ limit += 1 - #~ continue - #~ return wrapper - -# this version is Python 2.x-3.x cross-compatible -'decorator to trim function calls to match the arity of the target' -def _trim_arity(func, maxargs=2): - if func in singleArgBuiltins: - return lambda s,l,t: func(t) - limit = [0] - foundArity = [False] - - # traceback return data structure changed in Py3.5 - normalize back to plain tuples - if system_version[:2] >= (3,5): - def extract_stack(limit=0): - # special handling for Python 3.5.0 - extra deep call stack by 1 - offset = -3 if system_version == (3,5,0) else -2 - frame_summary = traceback.extract_stack(limit=-offset+limit-1)[offset] - return [frame_summary[:2]] - def extract_tb(tb, limit=0): - frames = traceback.extract_tb(tb, limit=limit) - frame_summary = frames[-1] - return [frame_summary[:2]] - else: - extract_stack = traceback.extract_stack - extract_tb = traceback.extract_tb - - # synthesize what would be returned by traceback.extract_stack at the call to - # user's parse action 'func', so that we don't incur call penalty at parse time - - LINE_DIFF = 6 - # IF ANY CODE CHANGES, EVEN JUST COMMENTS OR BLANK LINES, BETWEEN THE NEXT LINE AND - # THE CALL TO FUNC INSIDE WRAPPER, LINE_DIFF MUST BE MODIFIED!!!! - this_line = extract_stack(limit=2)[-1] - pa_call_line_synth = (this_line[0], this_line[1]+LINE_DIFF) - - def wrapper(*args): - while 1: - try: - ret = func(*args[limit[0]:]) - foundArity[0] = True - return ret - except TypeError: - # re-raise TypeErrors if they did not come from our arity testing - if foundArity[0]: - raise - else: - try: - tb = sys.exc_info()[-1] - if not extract_tb(tb, limit=2)[-1][:2] == pa_call_line_synth: - raise - finally: - del tb - - if limit[0] <= maxargs: - limit[0] += 1 - continue - raise - - # copy func name to wrapper for sensible debug output - func_name = "<parse action>" - try: - func_name = getattr(func, '__name__', - getattr(func, '__class__').__name__) - except Exception: - func_name = str(func) - wrapper.__name__ = func_name - - return wrapper - -class ParserElement(object): - """Abstract base level parser element class.""" - DEFAULT_WHITE_CHARS = " \n\t\r" - verbose_stacktrace = False - - @staticmethod - def setDefaultWhitespaceChars( chars ): - r""" - Overrides the default whitespace chars - - Example:: - # default whitespace chars are space, <TAB> and newline - OneOrMore(Word(alphas)).parseString("abc def\nghi jkl") # -> ['abc', 'def', 'ghi', 'jkl'] - - # change to just treat newline as significant - ParserElement.setDefaultWhitespaceChars(" \t") - OneOrMore(Word(alphas)).parseString("abc def\nghi jkl") # -> ['abc', 'def'] - """ - ParserElement.DEFAULT_WHITE_CHARS = chars - - @staticmethod - def inlineLiteralsUsing(cls): - """ - Set class to be used for inclusion of string literals into a parser. - - Example:: - # default literal class used is Literal - integer = Word(nums) - date_str = integer("year") + '/' + integer("month") + '/' + integer("day") - - date_str.parseString("1999/12/31") # -> ['1999', '/', '12', '/', '31'] - - - # change to Suppress - ParserElement.inlineLiteralsUsing(Suppress) - date_str = integer("year") + '/' + integer("month") + '/' + integer("day") - - date_str.parseString("1999/12/31") # -> ['1999', '12', '31'] - """ - ParserElement._literalStringClass = cls - - def __init__( self, savelist=False ): - self.parseAction = list() - self.failAction = None - #~ self.name = "<unknown>" # don't define self.name, let subclasses try/except upcall - self.strRepr = None - self.resultsName = None - self.saveAsList = savelist - self.skipWhitespace = True - self.whiteChars = ParserElement.DEFAULT_WHITE_CHARS - self.copyDefaultWhiteChars = True - self.mayReturnEmpty = False # used when checking for left-recursion - self.keepTabs = False - self.ignoreExprs = list() - self.debug = False - self.streamlined = False - self.mayIndexError = True # used to optimize exception handling for subclasses that don't advance parse index - self.errmsg = "" - self.modalResults = True # used to mark results names as modal (report only last) or cumulative (list all) - self.debugActions = ( None, None, None ) #custom debug actions - self.re = None - self.callPreparse = True # used to avoid redundant calls to preParse - self.callDuringTry = False - - def copy( self ): - """ - Make a copy of this C{ParserElement}. Useful for defining different parse actions - for the same parsing pattern, using copies of the original parse element. - - Example:: - integer = Word(nums).setParseAction(lambda toks: int(toks[0])) - integerK = integer.copy().addParseAction(lambda toks: toks[0]*1024) + Suppress("K") - integerM = integer.copy().addParseAction(lambda toks: toks[0]*1024*1024) + Suppress("M") - - print(OneOrMore(integerK | integerM | integer).parseString("5K 100 640K 256M")) - prints:: - [5120, 100, 655360, 268435456] - Equivalent form of C{expr.copy()} is just C{expr()}:: - integerM = integer().addParseAction(lambda toks: toks[0]*1024*1024) + Suppress("M") - """ - cpy = copy.copy( self ) - cpy.parseAction = self.parseAction[:] - cpy.ignoreExprs = self.ignoreExprs[:] - if self.copyDefaultWhiteChars: - cpy.whiteChars = ParserElement.DEFAULT_WHITE_CHARS - return cpy - - def setName( self, name ): - """ - Define name for this expression, makes debugging and exception messages clearer. - - Example:: - Word(nums).parseString("ABC") # -> Exception: Expected W:(0123...) (at char 0), (line:1, col:1) - Word(nums).setName("integer").parseString("ABC") # -> Exception: Expected integer (at char 0), (line:1, col:1) - """ - self.name = name - self.errmsg = "Expected " + self.name - if hasattr(self,"exception"): - self.exception.msg = self.errmsg - return self - - def setResultsName( self, name, listAllMatches=False ): - """ - Define name for referencing matching tokens as a nested attribute - of the returned parse results. - NOTE: this returns a *copy* of the original C{ParserElement} object; - this is so that the client can define a basic element, such as an - integer, and reference it in multiple places with different names. - - You can also set results names using the abbreviated syntax, - C{expr("name")} in place of C{expr.setResultsName("name")} - - see L{I{__call__}<__call__>}. - - Example:: - date_str = (integer.setResultsName("year") + '/' - + integer.setResultsName("month") + '/' - + integer.setResultsName("day")) - - # equivalent form: - date_str = integer("year") + '/' + integer("month") + '/' + integer("day") - """ - newself = self.copy() - if name.endswith("*"): - name = name[:-1] - listAllMatches=True - newself.resultsName = name - newself.modalResults = not listAllMatches - return newself - - def setBreak(self,breakFlag = True): - """Method to invoke the Python pdb debugger when this element is - about to be parsed. Set C{breakFlag} to True to enable, False to - disable. - """ - if breakFlag: - _parseMethod = self._parse - def breaker(instring, loc, doActions=True, callPreParse=True): - import pdb - pdb.set_trace() - return _parseMethod( instring, loc, doActions, callPreParse ) - breaker._originalParseMethod = _parseMethod - self._parse = breaker - else: - if hasattr(self._parse,"_originalParseMethod"): - self._parse = self._parse._originalParseMethod - return self - - def setParseAction( self, *fns, **kwargs ): - """ - Define one or more actions to perform when successfully matching parse element definition. - Parse action fn is a callable method with 0-3 arguments, called as C{fn(s,loc,toks)}, - C{fn(loc,toks)}, C{fn(toks)}, or just C{fn()}, where: - - s = the original string being parsed (see note below) - - loc = the location of the matching substring - - toks = a list of the matched tokens, packaged as a C{L{ParseResults}} object - If the functions in fns modify the tokens, they can return them as the return - value from fn, and the modified list of tokens will replace the original. - Otherwise, fn does not need to return any value. - - Optional keyword arguments: - - callDuringTry = (default=C{False}) indicate if parse action should be run during lookaheads and alternate testing - - Note: the default parsing behavior is to expand tabs in the input string - before starting the parsing process. See L{I{parseString}<parseString>} for more information - on parsing strings containing C{<TAB>}s, and suggested methods to maintain a - consistent view of the parsed string, the parse location, and line and column - positions within the parsed string. - - Example:: - integer = Word(nums) - date_str = integer + '/' + integer + '/' + integer - - date_str.parseString("1999/12/31") # -> ['1999', '/', '12', '/', '31'] - - # use parse action to convert to ints at parse time - integer = Word(nums).setParseAction(lambda toks: int(toks[0])) - date_str = integer + '/' + integer + '/' + integer - - # note that integer fields are now ints, not strings - date_str.parseString("1999/12/31") # -> [1999, '/', 12, '/', 31] - """ - self.parseAction = list(map(_trim_arity, list(fns))) - self.callDuringTry = kwargs.get("callDuringTry", False) - return self - - def addParseAction( self, *fns, **kwargs ): - """ - Add one or more parse actions to expression's list of parse actions. See L{I{setParseAction}<setParseAction>}. - - See examples in L{I{copy}<copy>}. - """ - self.parseAction += list(map(_trim_arity, list(fns))) - self.callDuringTry = self.callDuringTry or kwargs.get("callDuringTry", False) - return self - - def addCondition(self, *fns, **kwargs): - """Add a boolean predicate function to expression's list of parse actions. See - L{I{setParseAction}<setParseAction>} for function call signatures. Unlike C{setParseAction}, - functions passed to C{addCondition} need to return boolean success/fail of the condition. - - Optional keyword arguments: - - message = define a custom message to be used in the raised exception - - fatal = if True, will raise ParseFatalException to stop parsing immediately; otherwise will raise ParseException - - Example:: - integer = Word(nums).setParseAction(lambda toks: int(toks[0])) - year_int = integer.copy() - year_int.addCondition(lambda toks: toks[0] >= 2000, message="Only support years 2000 and later") - date_str = year_int + '/' + integer + '/' + integer - - result = date_str.parseString("1999/12/31") # -> Exception: Only support years 2000 and later (at char 0), (line:1, col:1) - """ - msg = kwargs.get("message", "failed user-defined condition") - exc_type = ParseFatalException if kwargs.get("fatal", False) else ParseException - for fn in fns: - def pa(s,l,t): - if not bool(_trim_arity(fn)(s,l,t)): - raise exc_type(s,l,msg) - self.parseAction.append(pa) - self.callDuringTry = self.callDuringTry or kwargs.get("callDuringTry", False) - return self - - def setFailAction( self, fn ): - """Define action to perform if parsing fails at this expression. - Fail acton fn is a callable function that takes the arguments - C{fn(s,loc,expr,err)} where: - - s = string being parsed - - loc = location where expression match was attempted and failed - - expr = the parse expression that failed - - err = the exception thrown - The function returns no value. It may throw C{L{ParseFatalException}} - if it is desired to stop parsing immediately.""" - self.failAction = fn - return self - - def _skipIgnorables( self, instring, loc ): - exprsFound = True - while exprsFound: - exprsFound = False - for e in self.ignoreExprs: - try: - while 1: - loc,dummy = e._parse( instring, loc ) - exprsFound = True - except ParseException: - pass - return loc - - def preParse( self, instring, loc ): - if self.ignoreExprs: - loc = self._skipIgnorables( instring, loc ) - - if self.skipWhitespace: - wt = self.whiteChars - instrlen = len(instring) - while loc < instrlen and instring[loc] in wt: - loc += 1 - - return loc - - def parseImpl( self, instring, loc, doActions=True ): - return loc, [] - - def postParse( self, instring, loc, tokenlist ): - return tokenlist - - #~ @profile - def _parseNoCache( self, instring, loc, doActions=True, callPreParse=True ): - debugging = ( self.debug ) #and doActions ) - - if debugging or self.failAction: - #~ print ("Match",self,"at loc",loc,"(%d,%d)" % ( lineno(loc,instring), col(loc,instring) )) - if (self.debugActions[0] ): - self.debugActions[0]( instring, loc, self ) - if callPreParse and self.callPreparse: - preloc = self.preParse( instring, loc ) - else: - preloc = loc - tokensStart = preloc - try: - try: - loc,tokens = self.parseImpl( instring, preloc, doActions ) - except IndexError: - raise ParseException( instring, len(instring), self.errmsg, self ) - except ParseBaseException as err: - #~ print ("Exception raised:", err) - if self.debugActions[2]: - self.debugActions[2]( instring, tokensStart, self, err ) - if self.failAction: - self.failAction( instring, tokensStart, self, err ) - raise - else: - if callPreParse and self.callPreparse: - preloc = self.preParse( instring, loc ) - else: - preloc = loc - tokensStart = preloc - if self.mayIndexError or preloc >= len(instring): - try: - loc,tokens = self.parseImpl( instring, preloc, doActions ) - except IndexError: - raise ParseException( instring, len(instring), self.errmsg, self ) - else: - loc,tokens = self.parseImpl( instring, preloc, doActions ) - - tokens = self.postParse( instring, loc, tokens ) - - retTokens = ParseResults( tokens, self.resultsName, asList=self.saveAsList, modal=self.modalResults ) - if self.parseAction and (doActions or self.callDuringTry): - if debugging: - try: - for fn in self.parseAction: - tokens = fn( instring, tokensStart, retTokens ) - if tokens is not None: - retTokens = ParseResults( tokens, - self.resultsName, - asList=self.saveAsList and isinstance(tokens,(ParseResults,list)), - modal=self.modalResults ) - except ParseBaseException as err: - #~ print "Exception raised in user parse action:", err - if (self.debugActions[2] ): - self.debugActions[2]( instring, tokensStart, self, err ) - raise - else: - for fn in self.parseAction: - tokens = fn( instring, tokensStart, retTokens ) - if tokens is not None: - retTokens = ParseResults( tokens, - self.resultsName, - asList=self.saveAsList and isinstance(tokens,(ParseResults,list)), - modal=self.modalResults ) - if debugging: - #~ print ("Matched",self,"->",retTokens.asList()) - if (self.debugActions[1] ): - self.debugActions[1]( instring, tokensStart, loc, self, retTokens ) - - return loc, retTokens - - def tryParse( self, instring, loc ): - try: - return self._parse( instring, loc, doActions=False )[0] - except ParseFatalException: - raise ParseException( instring, loc, self.errmsg, self) - - def canParseNext(self, instring, loc): - try: - self.tryParse(instring, loc) - except (ParseException, IndexError): - return False - else: - return True - - class _UnboundedCache(object): - def __init__(self): - cache = {} - self.not_in_cache = not_in_cache = object() - - def get(self, key): - return cache.get(key, not_in_cache) - - def set(self, key, value): - cache[key] = value - - def clear(self): - cache.clear() - - def cache_len(self): - return len(cache) - - self.get = types.MethodType(get, self) - self.set = types.MethodType(set, self) - self.clear = types.MethodType(clear, self) - self.__len__ = types.MethodType(cache_len, self) - - if _OrderedDict is not None: - class _FifoCache(object): - def __init__(self, size): - self.not_in_cache = not_in_cache = object() - - cache = _OrderedDict() - - def get(self, key): - return cache.get(key, not_in_cache) - - def set(self, key, value): - cache[key] = value - while len(cache) > size: - try: - cache.popitem(False) - except KeyError: - pass - - def clear(self): - cache.clear() - - def cache_len(self): - return len(cache) - - self.get = types.MethodType(get, self) - self.set = types.MethodType(set, self) - self.clear = types.MethodType(clear, self) - self.__len__ = types.MethodType(cache_len, self) - - else: - class _FifoCache(object): - def __init__(self, size): - self.not_in_cache = not_in_cache = object() - - cache = {} - key_fifo = collections.deque([], size) - - def get(self, key): - return cache.get(key, not_in_cache) - - def set(self, key, value): - cache[key] = value - while len(key_fifo) > size: - cache.pop(key_fifo.popleft(), None) - key_fifo.append(key) - - def clear(self): - cache.clear() - key_fifo.clear() - - def cache_len(self): - return len(cache) - - self.get = types.MethodType(get, self) - self.set = types.MethodType(set, self) - self.clear = types.MethodType(clear, self) - self.__len__ = types.MethodType(cache_len, self) - - # argument cache for optimizing repeated calls when backtracking through recursive expressions - packrat_cache = {} # this is set later by enabledPackrat(); this is here so that resetCache() doesn't fail - packrat_cache_lock = RLock() - packrat_cache_stats = [0, 0] - - # this method gets repeatedly called during backtracking with the same arguments - - # we can cache these arguments and save ourselves the trouble of re-parsing the contained expression - def _parseCache( self, instring, loc, doActions=True, callPreParse=True ): - HIT, MISS = 0, 1 - lookup = (self, instring, loc, callPreParse, doActions) - with ParserElement.packrat_cache_lock: - cache = ParserElement.packrat_cache - value = cache.get(lookup) - if value is cache.not_in_cache: - ParserElement.packrat_cache_stats[MISS] += 1 - try: - value = self._parseNoCache(instring, loc, doActions, callPreParse) - except ParseBaseException as pe: - # cache a copy of the exception, without the traceback - cache.set(lookup, pe.__class__(*pe.args)) - raise - else: - cache.set(lookup, (value[0], value[1].copy())) - return value - else: - ParserElement.packrat_cache_stats[HIT] += 1 - if isinstance(value, Exception): - raise value - return (value[0], value[1].copy()) - - _parse = _parseNoCache - - @staticmethod - def resetCache(): - ParserElement.packrat_cache.clear() - ParserElement.packrat_cache_stats[:] = [0] * len(ParserElement.packrat_cache_stats) - - _packratEnabled = False - @staticmethod - def enablePackrat(cache_size_limit=128): - """Enables "packrat" parsing, which adds memoizing to the parsing logic. - Repeated parse attempts at the same string location (which happens - often in many complex grammars) can immediately return a cached value, - instead of re-executing parsing/validating code. Memoizing is done of - both valid results and parsing exceptions. - - Parameters: - - cache_size_limit - (default=C{128}) - if an integer value is provided - will limit the size of the packrat cache; if None is passed, then - the cache size will be unbounded; if 0 is passed, the cache will - be effectively disabled. - - This speedup may break existing programs that use parse actions that - have side-effects. For this reason, packrat parsing is disabled when - you first import pyparsing. To activate the packrat feature, your - program must call the class method C{ParserElement.enablePackrat()}. If - your program uses C{psyco} to "compile as you go", you must call - C{enablePackrat} before calling C{psyco.full()}. If you do not do this, - Python will crash. For best results, call C{enablePackrat()} immediately - after importing pyparsing. - - Example:: - import pyparsing - pyparsing.ParserElement.enablePackrat() - """ - if not ParserElement._packratEnabled: - ParserElement._packratEnabled = True - if cache_size_limit is None: - ParserElement.packrat_cache = ParserElement._UnboundedCache() - else: - ParserElement.packrat_cache = ParserElement._FifoCache(cache_size_limit) - ParserElement._parse = ParserElement._parseCache - - def parseString( self, instring, parseAll=False ): - """ - Execute the parse expression with the given string. - This is the main interface to the client code, once the complete - expression has been built. - - If you want the grammar to require that the entire input string be - successfully parsed, then set C{parseAll} to True (equivalent to ending - the grammar with C{L{StringEnd()}}). - - Note: C{parseString} implicitly calls C{expandtabs()} on the input string, - in order to report proper column numbers in parse actions. - If the input string contains tabs and - the grammar uses parse actions that use the C{loc} argument to index into the - string being parsed, you can ensure you have a consistent view of the input - string by: - - calling C{parseWithTabs} on your grammar before calling C{parseString} - (see L{I{parseWithTabs}<parseWithTabs>}) - - define your parse action using the full C{(s,loc,toks)} signature, and - reference the input string using the parse action's C{s} argument - - explictly expand the tabs in your input string before calling - C{parseString} - - Example:: - Word('a').parseString('aaaaabaaa') # -> ['aaaaa'] - Word('a').parseString('aaaaabaaa', parseAll=True) # -> Exception: Expected end of text - """ - ParserElement.resetCache() - if not self.streamlined: - self.streamline() - #~ self.saveAsList = True - for e in self.ignoreExprs: - e.streamline() - if not self.keepTabs: - instring = instring.expandtabs() - try: - loc, tokens = self._parse( instring, 0 ) - if parseAll: - loc = self.preParse( instring, loc ) - se = Empty() + StringEnd() - se._parse( instring, loc ) - except ParseBaseException as exc: - if ParserElement.verbose_stacktrace: - raise - else: - # catch and re-raise exception from here, clears out pyparsing internal stack trace - raise exc - else: - return tokens - - def scanString( self, instring, maxMatches=_MAX_INT, overlap=False ): - """ - Scan the input string for expression matches. Each match will return the - matching tokens, start location, and end location. May be called with optional - C{maxMatches} argument, to clip scanning after 'n' matches are found. If - C{overlap} is specified, then overlapping matches will be reported. - - Note that the start and end locations are reported relative to the string - being parsed. See L{I{parseString}<parseString>} for more information on parsing - strings with embedded tabs. - - Example:: - source = "sldjf123lsdjjkf345sldkjf879lkjsfd987" - print(source) - for tokens,start,end in Word(alphas).scanString(source): - print(' '*start + '^'*(end-start)) - print(' '*start + tokens[0]) - - prints:: - - sldjf123lsdjjkf345sldkjf879lkjsfd987 - ^^^^^ - sldjf - ^^^^^^^ - lsdjjkf - ^^^^^^ - sldkjf - ^^^^^^ - lkjsfd - """ - if not self.streamlined: - self.streamline() - for e in self.ignoreExprs: - e.streamline() - - if not self.keepTabs: - instring = _ustr(instring).expandtabs() - instrlen = len(instring) - loc = 0 - preparseFn = self.preParse - parseFn = self._parse - ParserElement.resetCache() - matches = 0 - try: - while loc <= instrlen and matches < maxMatches: - try: - preloc = preparseFn( instring, loc ) - nextLoc,tokens = parseFn( instring, preloc, callPreParse=False ) - except ParseException: - loc = preloc+1 - else: - if nextLoc > loc: - matches += 1 - yield tokens, preloc, nextLoc - if overlap: - nextloc = preparseFn( instring, loc ) - if nextloc > loc: - loc = nextLoc - else: - loc += 1 - else: - loc = nextLoc - else: - loc = preloc+1 - except ParseBaseException as exc: - if ParserElement.verbose_stacktrace: - raise - else: - # catch and re-raise exception from here, clears out pyparsing internal stack trace - raise exc - - def transformString( self, instring ): - """ - Extension to C{L{scanString}}, to modify matching text with modified tokens that may - be returned from a parse action. To use C{transformString}, define a grammar and - attach a parse action to it that modifies the returned token list. - Invoking C{transformString()} on a target string will then scan for matches, - and replace the matched text patterns according to the logic in the parse - action. C{transformString()} returns the resulting transformed string. - - Example:: - wd = Word(alphas) - wd.setParseAction(lambda toks: toks[0].title()) - - print(wd.transformString("now is the winter of our discontent made glorious summer by this sun of york.")) - Prints:: - Now Is The Winter Of Our Discontent Made Glorious Summer By This Sun Of York. - """ - out = [] - lastE = 0 - # force preservation of <TAB>s, to minimize unwanted transformation of string, and to - # keep string locs straight between transformString and scanString - self.keepTabs = True - try: - for t,s,e in self.scanString( instring ): - out.append( instring[lastE:s] ) - if t: - if isinstance(t,ParseResults): - out += t.asList() - elif isinstance(t,list): - out += t - else: - out.append(t) - lastE = e - out.append(instring[lastE:]) - out = [o for o in out if o] - return "".join(map(_ustr,_flatten(out))) - except ParseBaseException as exc: - if ParserElement.verbose_stacktrace: - raise - else: - # catch and re-raise exception from here, clears out pyparsing internal stack trace - raise exc - - def searchString( self, instring, maxMatches=_MAX_INT ): - """ - Another extension to C{L{scanString}}, simplifying the access to the tokens found - to match the given parse expression. May be called with optional - C{maxMatches} argument, to clip searching after 'n' matches are found. - - Example:: - # a capitalized word starts with an uppercase letter, followed by zero or more lowercase letters - cap_word = Word(alphas.upper(), alphas.lower()) - - print(cap_word.searchString("More than Iron, more than Lead, more than Gold I need Electricity")) - - # the sum() builtin can be used to merge results into a single ParseResults object - print(sum(cap_word.searchString("More than Iron, more than Lead, more than Gold I need Electricity"))) - prints:: - [['More'], ['Iron'], ['Lead'], ['Gold'], ['I'], ['Electricity']] - ['More', 'Iron', 'Lead', 'Gold', 'I', 'Electricity'] - """ - try: - return ParseResults([ t for t,s,e in self.scanString( instring, maxMatches ) ]) - except ParseBaseException as exc: - if ParserElement.verbose_stacktrace: - raise - else: - # catch and re-raise exception from here, clears out pyparsing internal stack trace - raise exc - - def split(self, instring, maxsplit=_MAX_INT, includeSeparators=False): - """ - Generator method to split a string using the given expression as a separator. - May be called with optional C{maxsplit} argument, to limit the number of splits; - and the optional C{includeSeparators} argument (default=C{False}), if the separating - matching text should be included in the split results. - - Example:: - punc = oneOf(list(".,;:/-!?")) - print(list(punc.split("This, this?, this sentence, is badly punctuated!"))) - prints:: - ['This', ' this', '', ' this sentence', ' is badly punctuated', ''] - """ - splits = 0 - last = 0 - for t,s,e in self.scanString(instring, maxMatches=maxsplit): - yield instring[last:s] - if includeSeparators: - yield t[0] - last = e - yield instring[last:] - - def __add__(self, other ): - """ - Implementation of + operator - returns C{L{And}}. Adding strings to a ParserElement - converts them to L{Literal}s by default. - - Example:: - greet = Word(alphas) + "," + Word(alphas) + "!" - hello = "Hello, World!" - print (hello, "->", greet.parseString(hello)) - Prints:: - Hello, World! -> ['Hello', ',', 'World', '!'] - """ - if isinstance( other, basestring ): - other = ParserElement._literalStringClass( other ) - if not isinstance( other, ParserElement ): - warnings.warn("Cannot combine element of type %s with ParserElement" % type(other), - SyntaxWarning, stacklevel=2) - return None - return And( [ self, other ] ) - - def __radd__(self, other ): - """ - Implementation of + operator when left operand is not a C{L{ParserElement}} - """ - if isinstance( other, basestring ): - other = ParserElement._literalStringClass( other ) - if not isinstance( other, ParserElement ): - warnings.warn("Cannot combine element of type %s with ParserElement" % type(other), - SyntaxWarning, stacklevel=2) - return None - return other + self - - def __sub__(self, other): - """ - Implementation of - operator, returns C{L{And}} with error stop - """ - if isinstance( other, basestring ): - other = ParserElement._literalStringClass( other ) - if not isinstance( other, ParserElement ): - warnings.warn("Cannot combine element of type %s with ParserElement" % type(other), - SyntaxWarning, stacklevel=2) - return None - return self + And._ErrorStop() + other - - def __rsub__(self, other ): - """ - Implementation of - operator when left operand is not a C{L{ParserElement}} - """ - if isinstance( other, basestring ): - other = ParserElement._literalStringClass( other ) - if not isinstance( other, ParserElement ): - warnings.warn("Cannot combine element of type %s with ParserElement" % type(other), - SyntaxWarning, stacklevel=2) - return None - return other - self - - def __mul__(self,other): - """ - Implementation of * operator, allows use of C{expr * 3} in place of - C{expr + expr + expr}. Expressions may also me multiplied by a 2-integer - tuple, similar to C{{min,max}} multipliers in regular expressions. Tuples - may also include C{None} as in: - - C{expr*(n,None)} or C{expr*(n,)} is equivalent - to C{expr*n + L{ZeroOrMore}(expr)} - (read as "at least n instances of C{expr}") - - C{expr*(None,n)} is equivalent to C{expr*(0,n)} - (read as "0 to n instances of C{expr}") - - C{expr*(None,None)} is equivalent to C{L{ZeroOrMore}(expr)} - - C{expr*(1,None)} is equivalent to C{L{OneOrMore}(expr)} - - Note that C{expr*(None,n)} does not raise an exception if - more than n exprs exist in the input stream; that is, - C{expr*(None,n)} does not enforce a maximum number of expr - occurrences. If this behavior is desired, then write - C{expr*(None,n) + ~expr} - """ - if isinstance(other,int): - minElements, optElements = other,0 - elif isinstance(other,tuple): - other = (other + (None, None))[:2] - if other[0] is None: - other = (0, other[1]) - if isinstance(other[0],int) and other[1] is None: - if other[0] == 0: - return ZeroOrMore(self) - if other[0] == 1: - return OneOrMore(self) - else: - return self*other[0] + ZeroOrMore(self) - elif isinstance(other[0],int) and isinstance(other[1],int): - minElements, optElements = other - optElements -= minElements - else: - raise TypeError("cannot multiply 'ParserElement' and ('%s','%s') objects", type(other[0]),type(other[1])) - else: - raise TypeError("cannot multiply 'ParserElement' and '%s' objects", type(other)) - - if minElements < 0: - raise ValueError("cannot multiply ParserElement by negative value") - if optElements < 0: - raise ValueError("second tuple value must be greater or equal to first tuple value") - if minElements == optElements == 0: - raise ValueError("cannot multiply ParserElement by 0 or (0,0)") - - if (optElements): - def makeOptionalList(n): - if n>1: - return Optional(self + makeOptionalList(n-1)) - else: - return Optional(self) - if minElements: - if minElements == 1: - ret = self + makeOptionalList(optElements) - else: - ret = And([self]*minElements) + makeOptionalList(optElements) - else: - ret = makeOptionalList(optElements) - else: - if minElements == 1: - ret = self - else: - ret = And([self]*minElements) - return ret - - def __rmul__(self, other): - return self.__mul__(other) - - def __or__(self, other ): - """ - Implementation of | operator - returns C{L{MatchFirst}} - """ - if isinstance( other, basestring ): - other = ParserElement._literalStringClass( other ) - if not isinstance( other, ParserElement ): - warnings.warn("Cannot combine element of type %s with ParserElement" % type(other), - SyntaxWarning, stacklevel=2) - return None - return MatchFirst( [ self, other ] ) - - def __ror__(self, other ): - """ - Implementation of | operator when left operand is not a C{L{ParserElement}} - """ - if isinstance( other, basestring ): - other = ParserElement._literalStringClass( other ) - if not isinstance( other, ParserElement ): - warnings.warn("Cannot combine element of type %s with ParserElement" % type(other), - SyntaxWarning, stacklevel=2) - return None - return other | self - - def __xor__(self, other ): - """ - Implementation of ^ operator - returns C{L{Or}} - """ - if isinstance( other, basestring ): - other = ParserElement._literalStringClass( other ) - if not isinstance( other, ParserElement ): - warnings.warn("Cannot combine element of type %s with ParserElement" % type(other), - SyntaxWarning, stacklevel=2) - return None - return Or( [ self, other ] ) - - def __rxor__(self, other ): - """ - Implementation of ^ operator when left operand is not a C{L{ParserElement}} - """ - if isinstance( other, basestring ): - other = ParserElement._literalStringClass( other ) - if not isinstance( other, ParserElement ): - warnings.warn("Cannot combine element of type %s with ParserElement" % type(other), - SyntaxWarning, stacklevel=2) - return None - return other ^ self - - def __and__(self, other ): - """ - Implementation of & operator - returns C{L{Each}} - """ - if isinstance( other, basestring ): - other = ParserElement._literalStringClass( other ) - if not isinstance( other, ParserElement ): - warnings.warn("Cannot combine element of type %s with ParserElement" % type(other), - SyntaxWarning, stacklevel=2) - return None - return Each( [ self, other ] ) - - def __rand__(self, other ): - """ - Implementation of & operator when left operand is not a C{L{ParserElement}} - """ - if isinstance( other, basestring ): - other = ParserElement._literalStringClass( other ) - if not isinstance( other, ParserElement ): - warnings.warn("Cannot combine element of type %s with ParserElement" % type(other), - SyntaxWarning, stacklevel=2) - return None - return other & self - - def __invert__( self ): - """ - Implementation of ~ operator - returns C{L{NotAny}} - """ - return NotAny( self ) - - def __call__(self, name=None): - """ - Shortcut for C{L{setResultsName}}, with C{listAllMatches=False}. - - If C{name} is given with a trailing C{'*'} character, then C{listAllMatches} will be - passed as C{True}. - - If C{name} is omitted, same as calling C{L{copy}}. - - Example:: - # these are equivalent - userdata = Word(alphas).setResultsName("name") + Word(nums+"-").setResultsName("socsecno") - userdata = Word(alphas)("name") + Word(nums+"-")("socsecno") - """ - if name is not None: - return self.setResultsName(name) - else: - return self.copy() - - def suppress( self ): - """ - Suppresses the output of this C{ParserElement}; useful to keep punctuation from - cluttering up returned output. - """ - return Suppress( self ) - - def leaveWhitespace( self ): - """ - Disables the skipping of whitespace before matching the characters in the - C{ParserElement}'s defined pattern. This is normally only used internally by - the pyparsing module, but may be needed in some whitespace-sensitive grammars. - """ - self.skipWhitespace = False - return self - - def setWhitespaceChars( self, chars ): - """ - Overrides the default whitespace chars - """ - self.skipWhitespace = True - self.whiteChars = chars - self.copyDefaultWhiteChars = False - return self - - def parseWithTabs( self ): - """ - Overrides default behavior to expand C{<TAB>}s to spaces before parsing the input string. - Must be called before C{parseString} when the input grammar contains elements that - match C{<TAB>} characters. - """ - self.keepTabs = True - return self - - def ignore( self, other ): - """ - Define expression to be ignored (e.g., comments) while doing pattern - matching; may be called repeatedly, to define multiple comment or other - ignorable patterns. - - Example:: - patt = OneOrMore(Word(alphas)) - patt.parseString('ablaj /* comment */ lskjd') # -> ['ablaj'] - - patt.ignore(cStyleComment) - patt.parseString('ablaj /* comment */ lskjd') # -> ['ablaj', 'lskjd'] - """ - if isinstance(other, basestring): - other = Suppress(other) - - if isinstance( other, Suppress ): - if other not in self.ignoreExprs: - self.ignoreExprs.append(other) - else: - self.ignoreExprs.append( Suppress( other.copy() ) ) - return self - - def setDebugActions( self, startAction, successAction, exceptionAction ): - """ - Enable display of debugging messages while doing pattern matching. - """ - self.debugActions = (startAction or _defaultStartDebugAction, - successAction or _defaultSuccessDebugAction, - exceptionAction or _defaultExceptionDebugAction) - self.debug = True - return self - - def setDebug( self, flag=True ): - """ - Enable display of debugging messages while doing pattern matching. - Set C{flag} to True to enable, False to disable. - - Example:: - wd = Word(alphas).setName("alphaword") - integer = Word(nums).setName("numword") - term = wd | integer - - # turn on debugging for wd - wd.setDebug() - - OneOrMore(term).parseString("abc 123 xyz 890") - - prints:: - Match alphaword at loc 0(1,1) - Matched alphaword -> ['abc'] - Match alphaword at loc 3(1,4) - Exception raised:Expected alphaword (at char 4), (line:1, col:5) - Match alphaword at loc 7(1,8) - Matched alphaword -> ['xyz'] - Match alphaword at loc 11(1,12) - Exception raised:Expected alphaword (at char 12), (line:1, col:13) - Match alphaword at loc 15(1,16) - Exception raised:Expected alphaword (at char 15), (line:1, col:16) - - The output shown is that produced by the default debug actions - custom debug actions can be - specified using L{setDebugActions}. Prior to attempting - to match the C{wd} expression, the debugging message C{"Match <exprname> at loc <n>(<line>,<col>)"} - is shown. Then if the parse succeeds, a C{"Matched"} message is shown, or an C{"Exception raised"} - message is shown. Also note the use of L{setName} to assign a human-readable name to the expression, - which makes debugging and exception messages easier to understand - for instance, the default - name created for the C{Word} expression without calling C{setName} is C{"W:(ABCD...)"}. - """ - if flag: - self.setDebugActions( _defaultStartDebugAction, _defaultSuccessDebugAction, _defaultExceptionDebugAction ) - else: - self.debug = False - return self - - def __str__( self ): - return self.name - - def __repr__( self ): - return _ustr(self) - - def streamline( self ): - self.streamlined = True - self.strRepr = None - return self - - def checkRecursion( self, parseElementList ): - pass - - def validate( self, validateTrace=[] ): - """ - Check defined expressions for valid structure, check for infinite recursive definitions. - """ - self.checkRecursion( [] ) - - def parseFile( self, file_or_filename, parseAll=False ): - """ - Execute the parse expression on the given file or filename. - If a filename is specified (instead of a file object), - the entire file is opened, read, and closed before parsing. - """ - try: - file_contents = file_or_filename.read() - except AttributeError: - with open(file_or_filename, "r") as f: - file_contents = f.read() - try: - return self.parseString(file_contents, parseAll) - except ParseBaseException as exc: - if ParserElement.verbose_stacktrace: - raise - else: - # catch and re-raise exception from here, clears out pyparsing internal stack trace - raise exc - - def __eq__(self,other): - if isinstance(other, ParserElement): - return self is other or vars(self) == vars(other) - elif isinstance(other, basestring): - return self.matches(other) - else: - return super(ParserElement,self)==other - - def __ne__(self,other): - return not (self == other) - - def __hash__(self): - return hash(id(self)) - - def __req__(self,other): - return self == other - - def __rne__(self,other): - return not (self == other) - - def matches(self, testString, parseAll=True): - """ - Method for quick testing of a parser against a test string. Good for simple - inline microtests of sub expressions while building up larger parser. - - Parameters: - - testString - to test against this expression for a match - - parseAll - (default=C{True}) - flag to pass to C{L{parseString}} when running tests - - Example:: - expr = Word(nums) - assert expr.matches("100") - """ - try: - self.parseString(_ustr(testString), parseAll=parseAll) - return True - except ParseBaseException: - return False - - def runTests(self, tests, parseAll=True, comment='#', fullDump=True, printResults=True, failureTests=False): - """ - Execute the parse expression on a series of test strings, showing each - test, the parsed results or where the parse failed. Quick and easy way to - run a parse expression against a list of sample strings. - - Parameters: - - tests - a list of separate test strings, or a multiline string of test strings - - parseAll - (default=C{True}) - flag to pass to C{L{parseString}} when running tests - - comment - (default=C{'#'}) - expression for indicating embedded comments in the test - string; pass None to disable comment filtering - - fullDump - (default=C{True}) - dump results as list followed by results names in nested outline; - if False, only dump nested list - - printResults - (default=C{True}) prints test output to stdout - - failureTests - (default=C{False}) indicates if these tests are expected to fail parsing - - Returns: a (success, results) tuple, where success indicates that all tests succeeded - (or failed if C{failureTests} is True), and the results contain a list of lines of each - test's output - - Example:: - number_expr = pyparsing_common.number.copy() - - result = number_expr.runTests(''' - # unsigned integer - 100 - # negative integer - -100 - # float with scientific notation - 6.02e23 - # integer with scientific notation - 1e-12 - ''') - print("Success" if result[0] else "Failed!") - - result = number_expr.runTests(''' - # stray character - 100Z - # missing leading digit before '.' - -.100 - # too many '.' - 3.14.159 - ''', failureTests=True) - print("Success" if result[0] else "Failed!") - prints:: - # unsigned integer - 100 - [100] - - # negative integer - -100 - [-100] - - # float with scientific notation - 6.02e23 - [6.02e+23] - - # integer with scientific notation - 1e-12 - [1e-12] - - Success - - # stray character - 100Z - ^ - FAIL: Expected end of text (at char 3), (line:1, col:4) - - # missing leading digit before '.' - -.100 - ^ - FAIL: Expected {real number with scientific notation | real number | signed integer} (at char 0), (line:1, col:1) - - # too many '.' - 3.14.159 - ^ - FAIL: Expected end of text (at char 4), (line:1, col:5) - - Success - - Each test string must be on a single line. If you want to test a string that spans multiple - lines, create a test like this:: - - expr.runTest(r"this is a test\\n of strings that spans \\n 3 lines") - - (Note that this is a raw string literal, you must include the leading 'r'.) - """ - if isinstance(tests, basestring): - tests = list(map(str.strip, tests.rstrip().splitlines())) - if isinstance(comment, basestring): - comment = Literal(comment) - allResults = [] - comments = [] - success = True - for t in tests: - if comment is not None and comment.matches(t, False) or comments and not t: - comments.append(t) - continue - if not t: - continue - out = ['\n'.join(comments), t] - comments = [] - try: - t = t.replace(r'\n','\n') - result = self.parseString(t, parseAll=parseAll) - out.append(result.dump(full=fullDump)) - success = success and not failureTests - except ParseBaseException as pe: - fatal = "(FATAL)" if isinstance(pe, ParseFatalException) else "" - if '\n' in t: - out.append(line(pe.loc, t)) - out.append(' '*(col(pe.loc,t)-1) + '^' + fatal) - else: - out.append(' '*pe.loc + '^' + fatal) - out.append("FAIL: " + str(pe)) - success = success and failureTests - result = pe - except Exception as exc: - out.append("FAIL-EXCEPTION: " + str(exc)) - success = success and failureTests - result = exc - - if printResults: - if fullDump: - out.append('') - print('\n'.join(out)) - - allResults.append((t, result)) - - return success, allResults - - -class Token(ParserElement): - """ - Abstract C{ParserElement} subclass, for defining atomic matching patterns. - """ - def __init__( self ): - super(Token,self).__init__( savelist=False ) - - -class Empty(Token): - """ - An empty token, will always match. - """ - def __init__( self ): - super(Empty,self).__init__() - self.name = "Empty" - self.mayReturnEmpty = True - self.mayIndexError = False - - -class NoMatch(Token): - """ - A token that will never match. - """ - def __init__( self ): - super(NoMatch,self).__init__() - self.name = "NoMatch" - self.mayReturnEmpty = True - self.mayIndexError = False - self.errmsg = "Unmatchable token" - - def parseImpl( self, instring, loc, doActions=True ): - raise ParseException(instring, loc, self.errmsg, self) - - -class Literal(Token): - """ - Token to exactly match a specified string. - - Example:: - Literal('blah').parseString('blah') # -> ['blah'] - Literal('blah').parseString('blahfooblah') # -> ['blah'] - Literal('blah').parseString('bla') # -> Exception: Expected "blah" - - For case-insensitive matching, use L{CaselessLiteral}. - - For keyword matching (force word break before and after the matched string), - use L{Keyword} or L{CaselessKeyword}. - """ - def __init__( self, matchString ): - super(Literal,self).__init__() - self.match = matchString - self.matchLen = len(matchString) - try: - self.firstMatchChar = matchString[0] - except IndexError: - warnings.warn("null string passed to Literal; use Empty() instead", - SyntaxWarning, stacklevel=2) - self.__class__ = Empty - self.name = '"%s"' % _ustr(self.match) - self.errmsg = "Expected " + self.name - self.mayReturnEmpty = False - self.mayIndexError = False - - # Performance tuning: this routine gets called a *lot* - # if this is a single character match string and the first character matches, - # short-circuit as quickly as possible, and avoid calling startswith - #~ @profile - def parseImpl( self, instring, loc, doActions=True ): - if (instring[loc] == self.firstMatchChar and - (self.matchLen==1 or instring.startswith(self.match,loc)) ): - return loc+self.matchLen, self.match - raise ParseException(instring, loc, self.errmsg, self) -_L = Literal -ParserElement._literalStringClass = Literal - -class Keyword(Token): - """ - Token to exactly match a specified string as a keyword, that is, it must be - immediately followed by a non-keyword character. Compare with C{L{Literal}}: - - C{Literal("if")} will match the leading C{'if'} in C{'ifAndOnlyIf'}. - - C{Keyword("if")} will not; it will only match the leading C{'if'} in C{'if x=1'}, or C{'if(y==2)'} - Accepts two optional constructor arguments in addition to the keyword string: - - C{identChars} is a string of characters that would be valid identifier characters, - defaulting to all alphanumerics + "_" and "$" - - C{caseless} allows case-insensitive matching, default is C{False}. - - Example:: - Keyword("start").parseString("start") # -> ['start'] - Keyword("start").parseString("starting") # -> Exception - - For case-insensitive matching, use L{CaselessKeyword}. - """ - DEFAULT_KEYWORD_CHARS = alphanums+"_$" - - def __init__( self, matchString, identChars=None, caseless=False ): - super(Keyword,self).__init__() - if identChars is None: - identChars = Keyword.DEFAULT_KEYWORD_CHARS - self.match = matchString - self.matchLen = len(matchString) - try: - self.firstMatchChar = matchString[0] - except IndexError: - warnings.warn("null string passed to Keyword; use Empty() instead", - SyntaxWarning, stacklevel=2) - self.name = '"%s"' % self.match - self.errmsg = "Expected " + self.name - self.mayReturnEmpty = False - self.mayIndexError = False - self.caseless = caseless - if caseless: - self.caselessmatch = matchString.upper() - identChars = identChars.upper() - self.identChars = set(identChars) - - def parseImpl( self, instring, loc, doActions=True ): - if self.caseless: - if ( (instring[ loc:loc+self.matchLen ].upper() == self.caselessmatch) and - (loc >= len(instring)-self.matchLen or instring[loc+self.matchLen].upper() not in self.identChars) and - (loc == 0 or instring[loc-1].upper() not in self.identChars) ): - return loc+self.matchLen, self.match - else: - if (instring[loc] == self.firstMatchChar and - (self.matchLen==1 or instring.startswith(self.match,loc)) and - (loc >= len(instring)-self.matchLen or instring[loc+self.matchLen] not in self.identChars) and - (loc == 0 or instring[loc-1] not in self.identChars) ): - return loc+self.matchLen, self.match - raise ParseException(instring, loc, self.errmsg, self) - - def copy(self): - c = super(Keyword,self).copy() - c.identChars = Keyword.DEFAULT_KEYWORD_CHARS - return c - - @staticmethod - def setDefaultKeywordChars( chars ): - """Overrides the default Keyword chars - """ - Keyword.DEFAULT_KEYWORD_CHARS = chars - -class CaselessLiteral(Literal): - """ - Token to match a specified string, ignoring case of letters. - Note: the matched results will always be in the case of the given - match string, NOT the case of the input text. - - Example:: - OneOrMore(CaselessLiteral("CMD")).parseString("cmd CMD Cmd10") # -> ['CMD', 'CMD', 'CMD'] - - (Contrast with example for L{CaselessKeyword}.) - """ - def __init__( self, matchString ): - super(CaselessLiteral,self).__init__( matchString.upper() ) - # Preserve the defining literal. - self.returnString = matchString - self.name = "'%s'" % self.returnString - self.errmsg = "Expected " + self.name - - def parseImpl( self, instring, loc, doActions=True ): - if instring[ loc:loc+self.matchLen ].upper() == self.match: - return loc+self.matchLen, self.returnString - raise ParseException(instring, loc, self.errmsg, self) - -class CaselessKeyword(Keyword): - """ - Caseless version of L{Keyword}. - - Example:: - OneOrMore(CaselessKeyword("CMD")).parseString("cmd CMD Cmd10") # -> ['CMD', 'CMD'] - - (Contrast with example for L{CaselessLiteral}.) - """ - def __init__( self, matchString, identChars=None ): - super(CaselessKeyword,self).__init__( matchString, identChars, caseless=True ) - - def parseImpl( self, instring, loc, doActions=True ): - if ( (instring[ loc:loc+self.matchLen ].upper() == self.caselessmatch) and - (loc >= len(instring)-self.matchLen or instring[loc+self.matchLen].upper() not in self.identChars) ): - return loc+self.matchLen, self.match - raise ParseException(instring, loc, self.errmsg, self) - -class CloseMatch(Token): - """ - A variation on L{Literal} which matches "close" matches, that is, - strings with at most 'n' mismatching characters. C{CloseMatch} takes parameters: - - C{match_string} - string to be matched - - C{maxMismatches} - (C{default=1}) maximum number of mismatches allowed to count as a match - - The results from a successful parse will contain the matched text from the input string and the following named results: - - C{mismatches} - a list of the positions within the match_string where mismatches were found - - C{original} - the original match_string used to compare against the input string - - If C{mismatches} is an empty list, then the match was an exact match. - - Example:: - patt = CloseMatch("ATCATCGAATGGA") - patt.parseString("ATCATCGAAXGGA") # -> (['ATCATCGAAXGGA'], {'mismatches': [[9]], 'original': ['ATCATCGAATGGA']}) - patt.parseString("ATCAXCGAAXGGA") # -> Exception: Expected 'ATCATCGAATGGA' (with up to 1 mismatches) (at char 0), (line:1, col:1) - - # exact match - patt.parseString("ATCATCGAATGGA") # -> (['ATCATCGAATGGA'], {'mismatches': [[]], 'original': ['ATCATCGAATGGA']}) - - # close match allowing up to 2 mismatches - patt = CloseMatch("ATCATCGAATGGA", maxMismatches=2) - patt.parseString("ATCAXCGAAXGGA") # -> (['ATCAXCGAAXGGA'], {'mismatches': [[4, 9]], 'original': ['ATCATCGAATGGA']}) - """ - def __init__(self, match_string, maxMismatches=1): - super(CloseMatch,self).__init__() - self.name = match_string - self.match_string = match_string - self.maxMismatches = maxMismatches - self.errmsg = "Expected %r (with up to %d mismatches)" % (self.match_string, self.maxMismatches) - self.mayIndexError = False - self.mayReturnEmpty = False - - def parseImpl( self, instring, loc, doActions=True ): - start = loc - instrlen = len(instring) - maxloc = start + len(self.match_string) - - if maxloc <= instrlen: - match_string = self.match_string - match_stringloc = 0 - mismatches = [] - maxMismatches = self.maxMismatches - - for match_stringloc,s_m in enumerate(zip(instring[loc:maxloc], self.match_string)): - src,mat = s_m - if src != mat: - mismatches.append(match_stringloc) - if len(mismatches) > maxMismatches: - break - else: - loc = match_stringloc + 1 - results = ParseResults([instring[start:loc]]) - results['original'] = self.match_string - results['mismatches'] = mismatches - return loc, results - - raise ParseException(instring, loc, self.errmsg, self) - - -class Word(Token): - """ - Token for matching words composed of allowed character sets. - Defined with string containing all allowed initial characters, - an optional string containing allowed body characters (if omitted, - defaults to the initial character set), and an optional minimum, - maximum, and/or exact length. The default value for C{min} is 1 (a - minimum value < 1 is not valid); the default values for C{max} and C{exact} - are 0, meaning no maximum or exact length restriction. An optional - C{excludeChars} parameter can list characters that might be found in - the input C{bodyChars} string; useful to define a word of all printables - except for one or two characters, for instance. - - L{srange} is useful for defining custom character set strings for defining - C{Word} expressions, using range notation from regular expression character sets. - - A common mistake is to use C{Word} to match a specific literal string, as in - C{Word("Address")}. Remember that C{Word} uses the string argument to define - I{sets} of matchable characters. This expression would match "Add", "AAA", - "dAred", or any other word made up of the characters 'A', 'd', 'r', 'e', and 's'. - To match an exact literal string, use L{Literal} or L{Keyword}. - - pyparsing includes helper strings for building Words: - - L{alphas} - - L{nums} - - L{alphanums} - - L{hexnums} - - L{alphas8bit} (alphabetic characters in ASCII range 128-255 - accented, tilded, umlauted, etc.) - - L{punc8bit} (non-alphabetic characters in ASCII range 128-255 - currency, symbols, superscripts, diacriticals, etc.) - - L{printables} (any non-whitespace character) - - Example:: - # a word composed of digits - integer = Word(nums) # equivalent to Word("0123456789") or Word(srange("0-9")) - - # a word with a leading capital, and zero or more lowercase - capital_word = Word(alphas.upper(), alphas.lower()) - - # hostnames are alphanumeric, with leading alpha, and '-' - hostname = Word(alphas, alphanums+'-') - - # roman numeral (not a strict parser, accepts invalid mix of characters) - roman = Word("IVXLCDM") - - # any string of non-whitespace characters, except for ',' - csv_value = Word(printables, excludeChars=",") - """ - def __init__( self, initChars, bodyChars=None, min=1, max=0, exact=0, asKeyword=False, excludeChars=None ): - super(Word,self).__init__() - if excludeChars: - initChars = ''.join(c for c in initChars if c not in excludeChars) - if bodyChars: - bodyChars = ''.join(c for c in bodyChars if c not in excludeChars) - self.initCharsOrig = initChars - self.initChars = set(initChars) - if bodyChars : - self.bodyCharsOrig = bodyChars - self.bodyChars = set(bodyChars) - else: - self.bodyCharsOrig = initChars - self.bodyChars = set(initChars) - - self.maxSpecified = max > 0 - - if min < 1: - raise ValueError("cannot specify a minimum length < 1; use Optional(Word()) if zero-length word is permitted") - - self.minLen = min - - if max > 0: - self.maxLen = max - else: - self.maxLen = _MAX_INT - - if exact > 0: - self.maxLen = exact - self.minLen = exact - - self.name = _ustr(self) - self.errmsg = "Expected " + self.name - self.mayIndexError = False - self.asKeyword = asKeyword - - if ' ' not in self.initCharsOrig+self.bodyCharsOrig and (min==1 and max==0 and exact==0): - if self.bodyCharsOrig == self.initCharsOrig: - self.reString = "[%s]+" % _escapeRegexRangeChars(self.initCharsOrig) - elif len(self.initCharsOrig) == 1: - self.reString = "%s[%s]*" % \ - (re.escape(self.initCharsOrig), - _escapeRegexRangeChars(self.bodyCharsOrig),) - else: - self.reString = "[%s][%s]*" % \ - (_escapeRegexRangeChars(self.initCharsOrig), - _escapeRegexRangeChars(self.bodyCharsOrig),) - if self.asKeyword: - self.reString = r"\b"+self.reString+r"\b" - try: - self.re = re.compile( self.reString ) - except Exception: - self.re = None - - def parseImpl( self, instring, loc, doActions=True ): - if self.re: - result = self.re.match(instring,loc) - if not result: - raise ParseException(instring, loc, self.errmsg, self) - - loc = result.end() - return loc, result.group() - - if not(instring[ loc ] in self.initChars): - raise ParseException(instring, loc, self.errmsg, self) - - start = loc - loc += 1 - instrlen = len(instring) - bodychars = self.bodyChars - maxloc = start + self.maxLen - maxloc = min( maxloc, instrlen ) - while loc < maxloc and instring[loc] in bodychars: - loc += 1 - - throwException = False - if loc - start < self.minLen: - throwException = True - if self.maxSpecified and loc < instrlen and instring[loc] in bodychars: - throwException = True - if self.asKeyword: - if (start>0 and instring[start-1] in bodychars) or (loc<instrlen and instring[loc] in bodychars): - throwException = True - - if throwException: - raise ParseException(instring, loc, self.errmsg, self) - - return loc, instring[start:loc] - - def __str__( self ): - try: - return super(Word,self).__str__() - except Exception: - pass - - - if self.strRepr is None: - - def charsAsStr(s): - if len(s)>4: - return s[:4]+"..." - else: - return s - - if ( self.initCharsOrig != self.bodyCharsOrig ): - self.strRepr = "W:(%s,%s)" % ( charsAsStr(self.initCharsOrig), charsAsStr(self.bodyCharsOrig) ) - else: - self.strRepr = "W:(%s)" % charsAsStr(self.initCharsOrig) - - return self.strRepr - - -class Regex(Token): - r""" - Token for matching strings that match a given regular expression. - Defined with string specifying the regular expression in a form recognized by the inbuilt Python re module. - If the given regex contains named groups (defined using C{(?P<name>...)}), these will be preserved as - named parse results. - - Example:: - realnum = Regex(r"[+-]?\d+\.\d*") - date = Regex(r'(?P<year>\d{4})-(?P<month>\d\d?)-(?P<day>\d\d?)') - # ref: http://stackoverflow.com/questions/267399/how-do-you-match-only-valid-roman-numerals-with-a-regular-expression - roman = Regex(r"M{0,4}(CM|CD|D?C{0,3})(XC|XL|L?X{0,3})(IX|IV|V?I{0,3})") - """ - compiledREtype = type(re.compile("[A-Z]")) - def __init__( self, pattern, flags=0): - """The parameters C{pattern} and C{flags} are passed to the C{re.compile()} function as-is. See the Python C{re} module for an explanation of the acceptable patterns and flags.""" - super(Regex,self).__init__() - - if isinstance(pattern, basestring): - if not pattern: - warnings.warn("null string passed to Regex; use Empty() instead", - SyntaxWarning, stacklevel=2) - - self.pattern = pattern - self.flags = flags - - try: - self.re = re.compile(self.pattern, self.flags) - self.reString = self.pattern - except sre_constants.error: - warnings.warn("invalid pattern (%s) passed to Regex" % pattern, - SyntaxWarning, stacklevel=2) - raise - - elif isinstance(pattern, Regex.compiledREtype): - self.re = pattern - self.pattern = \ - self.reString = str(pattern) - self.flags = flags - - else: - raise ValueError("Regex may only be constructed with a string or a compiled RE object") - - self.name = _ustr(self) - self.errmsg = "Expected " + self.name - self.mayIndexError = False - self.mayReturnEmpty = True - - def parseImpl( self, instring, loc, doActions=True ): - result = self.re.match(instring,loc) - if not result: - raise ParseException(instring, loc, self.errmsg, self) - - loc = result.end() - d = result.groupdict() - ret = ParseResults(result.group()) - if d: - for k in d: - ret[k] = d[k] - return loc,ret - - def __str__( self ): - try: - return super(Regex,self).__str__() - except Exception: - pass - - if self.strRepr is None: - self.strRepr = "Re:(%s)" % repr(self.pattern) - - return self.strRepr - - -class QuotedString(Token): - r""" - Token for matching strings that are delimited by quoting characters. - - Defined with the following parameters: - - quoteChar - string of one or more characters defining the quote delimiting string - - escChar - character to escape quotes, typically backslash (default=C{None}) - - escQuote - special quote sequence to escape an embedded quote string (such as SQL's "" to escape an embedded ") (default=C{None}) - - multiline - boolean indicating whether quotes can span multiple lines (default=C{False}) - - unquoteResults - boolean indicating whether the matched text should be unquoted (default=C{True}) - - endQuoteChar - string of one or more characters defining the end of the quote delimited string (default=C{None} => same as quoteChar) - - convertWhitespaceEscapes - convert escaped whitespace (C{'\t'}, C{'\n'}, etc.) to actual whitespace (default=C{True}) - - Example:: - qs = QuotedString('"') - print(qs.searchString('lsjdf "This is the quote" sldjf')) - complex_qs = QuotedString('{{', endQuoteChar='}}') - print(complex_qs.searchString('lsjdf {{This is the "quote"}} sldjf')) - sql_qs = QuotedString('"', escQuote='""') - print(sql_qs.searchString('lsjdf "This is the quote with ""embedded"" quotes" sldjf')) - prints:: - [['This is the quote']] - [['This is the "quote"']] - [['This is the quote with "embedded" quotes']] - """ - def __init__( self, quoteChar, escChar=None, escQuote=None, multiline=False, unquoteResults=True, endQuoteChar=None, convertWhitespaceEscapes=True): - super(QuotedString,self).__init__() - - # remove white space from quote chars - wont work anyway - quoteChar = quoteChar.strip() - if not quoteChar: - warnings.warn("quoteChar cannot be the empty string",SyntaxWarning,stacklevel=2) - raise SyntaxError() - - if endQuoteChar is None: - endQuoteChar = quoteChar - else: - endQuoteChar = endQuoteChar.strip() - if not endQuoteChar: - warnings.warn("endQuoteChar cannot be the empty string",SyntaxWarning,stacklevel=2) - raise SyntaxError() - - self.quoteChar = quoteChar - self.quoteCharLen = len(quoteChar) - self.firstQuoteChar = quoteChar[0] - self.endQuoteChar = endQuoteChar - self.endQuoteCharLen = len(endQuoteChar) - self.escChar = escChar - self.escQuote = escQuote - self.unquoteResults = unquoteResults - self.convertWhitespaceEscapes = convertWhitespaceEscapes - - if multiline: - self.flags = re.MULTILINE | re.DOTALL - self.pattern = r'%s(?:[^%s%s]' % \ - ( re.escape(self.quoteChar), - _escapeRegexRangeChars(self.endQuoteChar[0]), - (escChar is not None and _escapeRegexRangeChars(escChar) or '') ) - else: - self.flags = 0 - self.pattern = r'%s(?:[^%s\n\r%s]' % \ - ( re.escape(self.quoteChar), - _escapeRegexRangeChars(self.endQuoteChar[0]), - (escChar is not None and _escapeRegexRangeChars(escChar) or '') ) - if len(self.endQuoteChar) > 1: - self.pattern += ( - '|(?:' + ')|(?:'.join("%s[^%s]" % (re.escape(self.endQuoteChar[:i]), - _escapeRegexRangeChars(self.endQuoteChar[i])) - for i in range(len(self.endQuoteChar)-1,0,-1)) + ')' - ) - if escQuote: - self.pattern += (r'|(?:%s)' % re.escape(escQuote)) - if escChar: - self.pattern += (r'|(?:%s.)' % re.escape(escChar)) - self.escCharReplacePattern = re.escape(self.escChar)+"(.)" - self.pattern += (r')*%s' % re.escape(self.endQuoteChar)) - - try: - self.re = re.compile(self.pattern, self.flags) - self.reString = self.pattern - except sre_constants.error: - warnings.warn("invalid pattern (%s) passed to Regex" % self.pattern, - SyntaxWarning, stacklevel=2) - raise - - self.name = _ustr(self) - self.errmsg = "Expected " + self.name - self.mayIndexError = False - self.mayReturnEmpty = True - - def parseImpl( self, instring, loc, doActions=True ): - result = instring[loc] == self.firstQuoteChar and self.re.match(instring,loc) or None - if not result: - raise ParseException(instring, loc, self.errmsg, self) - - loc = result.end() - ret = result.group() - - if self.unquoteResults: - - # strip off quotes - ret = ret[self.quoteCharLen:-self.endQuoteCharLen] - - if isinstance(ret,basestring): - # replace escaped whitespace - if '\\' in ret and self.convertWhitespaceEscapes: - ws_map = { - r'\t' : '\t', - r'\n' : '\n', - r'\f' : '\f', - r'\r' : '\r', - } - for wslit,wschar in ws_map.items(): - ret = ret.replace(wslit, wschar) - - # replace escaped characters - if self.escChar: - ret = re.sub(self.escCharReplacePattern, r"\g<1>", ret) - - # replace escaped quotes - if self.escQuote: - ret = ret.replace(self.escQuote, self.endQuoteChar) - - return loc, ret - - def __str__( self ): - try: - return super(QuotedString,self).__str__() - except Exception: - pass - - if self.strRepr is None: - self.strRepr = "quoted string, starting with %s ending with %s" % (self.quoteChar, self.endQuoteChar) - - return self.strRepr - - -class CharsNotIn(Token): - """ - Token for matching words composed of characters I{not} in a given set (will - include whitespace in matched characters if not listed in the provided exclusion set - see example). - Defined with string containing all disallowed characters, and an optional - minimum, maximum, and/or exact length. The default value for C{min} is 1 (a - minimum value < 1 is not valid); the default values for C{max} and C{exact} - are 0, meaning no maximum or exact length restriction. - - Example:: - # define a comma-separated-value as anything that is not a ',' - csv_value = CharsNotIn(',') - print(delimitedList(csv_value).parseString("dkls,lsdkjf,s12 34,@!#,213")) - prints:: - ['dkls', 'lsdkjf', 's12 34', '@!#', '213'] - """ - def __init__( self, notChars, min=1, max=0, exact=0 ): - super(CharsNotIn,self).__init__() - self.skipWhitespace = False - self.notChars = notChars - - if min < 1: - raise ValueError("cannot specify a minimum length < 1; use Optional(CharsNotIn()) if zero-length char group is permitted") - - self.minLen = min - - if max > 0: - self.maxLen = max - else: - self.maxLen = _MAX_INT - - if exact > 0: - self.maxLen = exact - self.minLen = exact - - self.name = _ustr(self) - self.errmsg = "Expected " + self.name - self.mayReturnEmpty = ( self.minLen == 0 ) - self.mayIndexError = False - - def parseImpl( self, instring, loc, doActions=True ): - if instring[loc] in self.notChars: - raise ParseException(instring, loc, self.errmsg, self) - - start = loc - loc += 1 - notchars = self.notChars - maxlen = min( start+self.maxLen, len(instring) ) - while loc < maxlen and \ - (instring[loc] not in notchars): - loc += 1 - - if loc - start < self.minLen: - raise ParseException(instring, loc, self.errmsg, self) - - return loc, instring[start:loc] - - def __str__( self ): - try: - return super(CharsNotIn, self).__str__() - except Exception: - pass - - if self.strRepr is None: - if len(self.notChars) > 4: - self.strRepr = "!W:(%s...)" % self.notChars[:4] - else: - self.strRepr = "!W:(%s)" % self.notChars - - return self.strRepr - -class White(Token): - """ - Special matching class for matching whitespace. Normally, whitespace is ignored - by pyparsing grammars. This class is included when some whitespace structures - are significant. Define with a string containing the whitespace characters to be - matched; default is C{" \\t\\r\\n"}. Also takes optional C{min}, C{max}, and C{exact} arguments, - as defined for the C{L{Word}} class. - """ - whiteStrs = { - " " : "<SPC>", - "\t": "<TAB>", - "\n": "<LF>", - "\r": "<CR>", - "\f": "<FF>", - } - def __init__(self, ws=" \t\r\n", min=1, max=0, exact=0): - super(White,self).__init__() - self.matchWhite = ws - self.setWhitespaceChars( "".join(c for c in self.whiteChars if c not in self.matchWhite) ) - #~ self.leaveWhitespace() - self.name = ("".join(White.whiteStrs[c] for c in self.matchWhite)) - self.mayReturnEmpty = True - self.errmsg = "Expected " + self.name - - self.minLen = min - - if max > 0: - self.maxLen = max - else: - self.maxLen = _MAX_INT - - if exact > 0: - self.maxLen = exact - self.minLen = exact - - def parseImpl( self, instring, loc, doActions=True ): - if not(instring[ loc ] in self.matchWhite): - raise ParseException(instring, loc, self.errmsg, self) - start = loc - loc += 1 - maxloc = start + self.maxLen - maxloc = min( maxloc, len(instring) ) - while loc < maxloc and instring[loc] in self.matchWhite: - loc += 1 - - if loc - start < self.minLen: - raise ParseException(instring, loc, self.errmsg, self) - - return loc, instring[start:loc] - - -class _PositionToken(Token): - def __init__( self ): - super(_PositionToken,self).__init__() - self.name=self.__class__.__name__ - self.mayReturnEmpty = True - self.mayIndexError = False - -class GoToColumn(_PositionToken): - """ - Token to advance to a specific column of input text; useful for tabular report scraping. - """ - def __init__( self, colno ): - super(GoToColumn,self).__init__() - self.col = colno - - def preParse( self, instring, loc ): - if col(loc,instring) != self.col: - instrlen = len(instring) - if self.ignoreExprs: - loc = self._skipIgnorables( instring, loc ) - while loc < instrlen and instring[loc].isspace() and col( loc, instring ) != self.col : - loc += 1 - return loc - - def parseImpl( self, instring, loc, doActions=True ): - thiscol = col( loc, instring ) - if thiscol > self.col: - raise ParseException( instring, loc, "Text not in expected column", self ) - newloc = loc + self.col - thiscol - ret = instring[ loc: newloc ] - return newloc, ret - - -class LineStart(_PositionToken): - """ - Matches if current position is at the beginning of a line within the parse string - - Example:: - - test = '''\ - AAA this line - AAA and this line - AAA but not this one - B AAA and definitely not this one - ''' - - for t in (LineStart() + 'AAA' + restOfLine).searchString(test): - print(t) - - Prints:: - ['AAA', ' this line'] - ['AAA', ' and this line'] - - """ - def __init__( self ): - super(LineStart,self).__init__() - self.errmsg = "Expected start of line" - - def parseImpl( self, instring, loc, doActions=True ): - if col(loc, instring) == 1: - return loc, [] - raise ParseException(instring, loc, self.errmsg, self) - -class LineEnd(_PositionToken): - """ - Matches if current position is at the end of a line within the parse string - """ - def __init__( self ): - super(LineEnd,self).__init__() - self.setWhitespaceChars( ParserElement.DEFAULT_WHITE_CHARS.replace("\n","") ) - self.errmsg = "Expected end of line" - - def parseImpl( self, instring, loc, doActions=True ): - if loc<len(instring): - if instring[loc] == "\n": - return loc+1, "\n" - else: - raise ParseException(instring, loc, self.errmsg, self) - elif loc == len(instring): - return loc+1, [] - else: - raise ParseException(instring, loc, self.errmsg, self) - -class StringStart(_PositionToken): - """ - Matches if current position is at the beginning of the parse string - """ - def __init__( self ): - super(StringStart,self).__init__() - self.errmsg = "Expected start of text" - - def parseImpl( self, instring, loc, doActions=True ): - if loc != 0: - # see if entire string up to here is just whitespace and ignoreables - if loc != self.preParse( instring, 0 ): - raise ParseException(instring, loc, self.errmsg, self) - return loc, [] - -class StringEnd(_PositionToken): - """ - Matches if current position is at the end of the parse string - """ - def __init__( self ): - super(StringEnd,self).__init__() - self.errmsg = "Expected end of text" - - def parseImpl( self, instring, loc, doActions=True ): - if loc < len(instring): - raise ParseException(instring, loc, self.errmsg, self) - elif loc == len(instring): - return loc+1, [] - elif loc > len(instring): - return loc, [] - else: - raise ParseException(instring, loc, self.errmsg, self) - -class WordStart(_PositionToken): - """ - Matches if the current position is at the beginning of a Word, and - is not preceded by any character in a given set of C{wordChars} - (default=C{printables}). To emulate the C{\b} behavior of regular expressions, - use C{WordStart(alphanums)}. C{WordStart} will also match at the beginning of - the string being parsed, or at the beginning of a line. - """ - def __init__(self, wordChars = printables): - super(WordStart,self).__init__() - self.wordChars = set(wordChars) - self.errmsg = "Not at the start of a word" - - def parseImpl(self, instring, loc, doActions=True ): - if loc != 0: - if (instring[loc-1] in self.wordChars or - instring[loc] not in self.wordChars): - raise ParseException(instring, loc, self.errmsg, self) - return loc, [] - -class WordEnd(_PositionToken): - """ - Matches if the current position is at the end of a Word, and - is not followed by any character in a given set of C{wordChars} - (default=C{printables}). To emulate the C{\b} behavior of regular expressions, - use C{WordEnd(alphanums)}. C{WordEnd} will also match at the end of - the string being parsed, or at the end of a line. - """ - def __init__(self, wordChars = printables): - super(WordEnd,self).__init__() - self.wordChars = set(wordChars) - self.skipWhitespace = False - self.errmsg = "Not at the end of a word" - - def parseImpl(self, instring, loc, doActions=True ): - instrlen = len(instring) - if instrlen>0 and loc<instrlen: - if (instring[loc] in self.wordChars or - instring[loc-1] not in self.wordChars): - raise ParseException(instring, loc, self.errmsg, self) - return loc, [] - - -class ParseExpression(ParserElement): - """ - Abstract subclass of ParserElement, for combining and post-processing parsed tokens. - """ - def __init__( self, exprs, savelist = False ): - super(ParseExpression,self).__init__(savelist) - if isinstance( exprs, _generatorType ): - exprs = list(exprs) - - if isinstance( exprs, basestring ): - self.exprs = [ ParserElement._literalStringClass( exprs ) ] - elif isinstance( exprs, Iterable ): - exprs = list(exprs) - # if sequence of strings provided, wrap with Literal - if all(isinstance(expr, basestring) for expr in exprs): - exprs = map(ParserElement._literalStringClass, exprs) - self.exprs = list(exprs) - else: - try: - self.exprs = list( exprs ) - except TypeError: - self.exprs = [ exprs ] - self.callPreparse = False - - def __getitem__( self, i ): - return self.exprs[i] - - def append( self, other ): - self.exprs.append( other ) - self.strRepr = None - return self - - def leaveWhitespace( self ): - """Extends C{leaveWhitespace} defined in base class, and also invokes C{leaveWhitespace} on - all contained expressions.""" - self.skipWhitespace = False - self.exprs = [ e.copy() for e in self.exprs ] - for e in self.exprs: - e.leaveWhitespace() - return self - - def ignore( self, other ): - if isinstance( other, Suppress ): - if other not in self.ignoreExprs: - super( ParseExpression, self).ignore( other ) - for e in self.exprs: - e.ignore( self.ignoreExprs[-1] ) - else: - super( ParseExpression, self).ignore( other ) - for e in self.exprs: - e.ignore( self.ignoreExprs[-1] ) - return self - - def __str__( self ): - try: - return super(ParseExpression,self).__str__() - except Exception: - pass - - if self.strRepr is None: - self.strRepr = "%s:(%s)" % ( self.__class__.__name__, _ustr(self.exprs) ) - return self.strRepr - - def streamline( self ): - super(ParseExpression,self).streamline() - - for e in self.exprs: - e.streamline() - - # collapse nested And's of the form And( And( And( a,b), c), d) to And( a,b,c,d ) - # but only if there are no parse actions or resultsNames on the nested And's - # (likewise for Or's and MatchFirst's) - if ( len(self.exprs) == 2 ): - other = self.exprs[0] - if ( isinstance( other, self.__class__ ) and - not(other.parseAction) and - other.resultsName is None and - not other.debug ): - self.exprs = other.exprs[:] + [ self.exprs[1] ] - self.strRepr = None - self.mayReturnEmpty |= other.mayReturnEmpty - self.mayIndexError |= other.mayIndexError - - other = self.exprs[-1] - if ( isinstance( other, self.__class__ ) and - not(other.parseAction) and - other.resultsName is None and - not other.debug ): - self.exprs = self.exprs[:-1] + other.exprs[:] - self.strRepr = None - self.mayReturnEmpty |= other.mayReturnEmpty - self.mayIndexError |= other.mayIndexError - - self.errmsg = "Expected " + _ustr(self) - - return self - - def setResultsName( self, name, listAllMatches=False ): - ret = super(ParseExpression,self).setResultsName(name,listAllMatches) - return ret - - def validate( self, validateTrace=[] ): - tmp = validateTrace[:]+[self] - for e in self.exprs: - e.validate(tmp) - self.checkRecursion( [] ) - - def copy(self): - ret = super(ParseExpression,self).copy() - ret.exprs = [e.copy() for e in self.exprs] - return ret - -class And(ParseExpression): - """ - Requires all given C{ParseExpression}s to be found in the given order. - Expressions may be separated by whitespace. - May be constructed using the C{'+'} operator. - May also be constructed using the C{'-'} operator, which will suppress backtracking. - - Example:: - integer = Word(nums) - name_expr = OneOrMore(Word(alphas)) - - expr = And([integer("id"),name_expr("name"),integer("age")]) - # more easily written as: - expr = integer("id") + name_expr("name") + integer("age") - """ - - class _ErrorStop(Empty): - def __init__(self, *args, **kwargs): - super(And._ErrorStop,self).__init__(*args, **kwargs) - self.name = '-' - self.leaveWhitespace() - - def __init__( self, exprs, savelist = True ): - super(And,self).__init__(exprs, savelist) - self.mayReturnEmpty = all(e.mayReturnEmpty for e in self.exprs) - self.setWhitespaceChars( self.exprs[0].whiteChars ) - self.skipWhitespace = self.exprs[0].skipWhitespace - self.callPreparse = True - - def parseImpl( self, instring, loc, doActions=True ): - # pass False as last arg to _parse for first element, since we already - # pre-parsed the string as part of our And pre-parsing - loc, resultlist = self.exprs[0]._parse( instring, loc, doActions, callPreParse=False ) - errorStop = False - for e in self.exprs[1:]: - if isinstance(e, And._ErrorStop): - errorStop = True - continue - if errorStop: - try: - loc, exprtokens = e._parse( instring, loc, doActions ) - except ParseSyntaxException: - raise - except ParseBaseException as pe: - pe.__traceback__ = None - raise ParseSyntaxException._from_exception(pe) - except IndexError: - raise ParseSyntaxException(instring, len(instring), self.errmsg, self) - else: - loc, exprtokens = e._parse( instring, loc, doActions ) - if exprtokens or exprtokens.haskeys(): - resultlist += exprtokens - return loc, resultlist - - def __iadd__(self, other ): - if isinstance( other, basestring ): - other = ParserElement._literalStringClass( other ) - return self.append( other ) #And( [ self, other ] ) - - def checkRecursion( self, parseElementList ): - subRecCheckList = parseElementList[:] + [ self ] - for e in self.exprs: - e.checkRecursion( subRecCheckList ) - if not e.mayReturnEmpty: - break - - def __str__( self ): - if hasattr(self,"name"): - return self.name - - if self.strRepr is None: - self.strRepr = "{" + " ".join(_ustr(e) for e in self.exprs) + "}" - - return self.strRepr - - -class Or(ParseExpression): - """ - Requires that at least one C{ParseExpression} is found. - If two expressions match, the expression that matches the longest string will be used. - May be constructed using the C{'^'} operator. - - Example:: - # construct Or using '^' operator - - number = Word(nums) ^ Combine(Word(nums) + '.' + Word(nums)) - print(number.searchString("123 3.1416 789")) - prints:: - [['123'], ['3.1416'], ['789']] - """ - def __init__( self, exprs, savelist = False ): - super(Or,self).__init__(exprs, savelist) - if self.exprs: - self.mayReturnEmpty = any(e.mayReturnEmpty for e in self.exprs) - else: - self.mayReturnEmpty = True - - def parseImpl( self, instring, loc, doActions=True ): - maxExcLoc = -1 - maxException = None - matches = [] - for e in self.exprs: - try: - loc2 = e.tryParse( instring, loc ) - except ParseException as err: - err.__traceback__ = None - if err.loc > maxExcLoc: - maxException = err - maxExcLoc = err.loc - except IndexError: - if len(instring) > maxExcLoc: - maxException = ParseException(instring,len(instring),e.errmsg,self) - maxExcLoc = len(instring) - else: - # save match among all matches, to retry longest to shortest - matches.append((loc2, e)) - - if matches: - matches.sort(key=lambda x: -x[0]) - for _,e in matches: - try: - return e._parse( instring, loc, doActions ) - except ParseException as err: - err.__traceback__ = None - if err.loc > maxExcLoc: - maxException = err - maxExcLoc = err.loc - - if maxException is not None: - maxException.msg = self.errmsg - raise maxException - else: - raise ParseException(instring, loc, "no defined alternatives to match", self) - - - def __ixor__(self, other ): - if isinstance( other, basestring ): - other = ParserElement._literalStringClass( other ) - return self.append( other ) #Or( [ self, other ] ) - - def __str__( self ): - if hasattr(self,"name"): - return self.name - - if self.strRepr is None: - self.strRepr = "{" + " ^ ".join(_ustr(e) for e in self.exprs) + "}" - - return self.strRepr - - def checkRecursion( self, parseElementList ): - subRecCheckList = parseElementList[:] + [ self ] - for e in self.exprs: - e.checkRecursion( subRecCheckList ) - - -class MatchFirst(ParseExpression): - """ - Requires that at least one C{ParseExpression} is found. - If two expressions match, the first one listed is the one that will match. - May be constructed using the C{'|'} operator. - - Example:: - # construct MatchFirst using '|' operator - - # watch the order of expressions to match - number = Word(nums) | Combine(Word(nums) + '.' + Word(nums)) - print(number.searchString("123 3.1416 789")) # Fail! -> [['123'], ['3'], ['1416'], ['789']] - - # put more selective expression first - number = Combine(Word(nums) + '.' + Word(nums)) | Word(nums) - print(number.searchString("123 3.1416 789")) # Better -> [['123'], ['3.1416'], ['789']] - """ - def __init__( self, exprs, savelist = False ): - super(MatchFirst,self).__init__(exprs, savelist) - if self.exprs: - self.mayReturnEmpty = any(e.mayReturnEmpty for e in self.exprs) - else: - self.mayReturnEmpty = True - - def parseImpl( self, instring, loc, doActions=True ): - maxExcLoc = -1 - maxException = None - for e in self.exprs: - try: - ret = e._parse( instring, loc, doActions ) - return ret - except ParseException as err: - if err.loc > maxExcLoc: - maxException = err - maxExcLoc = err.loc - except IndexError: - if len(instring) > maxExcLoc: - maxException = ParseException(instring,len(instring),e.errmsg,self) - maxExcLoc = len(instring) - - # only got here if no expression matched, raise exception for match that made it the furthest - else: - if maxException is not None: - maxException.msg = self.errmsg - raise maxException - else: - raise ParseException(instring, loc, "no defined alternatives to match", self) - - def __ior__(self, other ): - if isinstance( other, basestring ): - other = ParserElement._literalStringClass( other ) - return self.append( other ) #MatchFirst( [ self, other ] ) - - def __str__( self ): - if hasattr(self,"name"): - return self.name - - if self.strRepr is None: - self.strRepr = "{" + " | ".join(_ustr(e) for e in self.exprs) + "}" - - return self.strRepr - - def checkRecursion( self, parseElementList ): - subRecCheckList = parseElementList[:] + [ self ] - for e in self.exprs: - e.checkRecursion( subRecCheckList ) - - -class Each(ParseExpression): - """ - Requires all given C{ParseExpression}s to be found, but in any order. - Expressions may be separated by whitespace. - May be constructed using the C{'&'} operator. - - Example:: - color = oneOf("RED ORANGE YELLOW GREEN BLUE PURPLE BLACK WHITE BROWN") - shape_type = oneOf("SQUARE CIRCLE TRIANGLE STAR HEXAGON OCTAGON") - integer = Word(nums) - shape_attr = "shape:" + shape_type("shape") - posn_attr = "posn:" + Group(integer("x") + ',' + integer("y"))("posn") - color_attr = "color:" + color("color") - size_attr = "size:" + integer("size") - - # use Each (using operator '&') to accept attributes in any order - # (shape and posn are required, color and size are optional) - shape_spec = shape_attr & posn_attr & Optional(color_attr) & Optional(size_attr) - - shape_spec.runTests(''' - shape: SQUARE color: BLACK posn: 100, 120 - shape: CIRCLE size: 50 color: BLUE posn: 50,80 - color:GREEN size:20 shape:TRIANGLE posn:20,40 - ''' - ) - prints:: - shape: SQUARE color: BLACK posn: 100, 120 - ['shape:', 'SQUARE', 'color:', 'BLACK', 'posn:', ['100', ',', '120']] - - color: BLACK - - posn: ['100', ',', '120'] - - x: 100 - - y: 120 - - shape: SQUARE - - - shape: CIRCLE size: 50 color: BLUE posn: 50,80 - ['shape:', 'CIRCLE', 'size:', '50', 'color:', 'BLUE', 'posn:', ['50', ',', '80']] - - color: BLUE - - posn: ['50', ',', '80'] - - x: 50 - - y: 80 - - shape: CIRCLE - - size: 50 - - - color: GREEN size: 20 shape: TRIANGLE posn: 20,40 - ['color:', 'GREEN', 'size:', '20', 'shape:', 'TRIANGLE', 'posn:', ['20', ',', '40']] - - color: GREEN - - posn: ['20', ',', '40'] - - x: 20 - - y: 40 - - shape: TRIANGLE - - size: 20 - """ - def __init__( self, exprs, savelist = True ): - super(Each,self).__init__(exprs, savelist) - self.mayReturnEmpty = all(e.mayReturnEmpty for e in self.exprs) - self.skipWhitespace = True - self.initExprGroups = True - - def parseImpl( self, instring, loc, doActions=True ): - if self.initExprGroups: - self.opt1map = dict((id(e.expr),e) for e in self.exprs if isinstance(e,Optional)) - opt1 = [ e.expr for e in self.exprs if isinstance(e,Optional) ] - opt2 = [ e for e in self.exprs if e.mayReturnEmpty and not isinstance(e,Optional)] - self.optionals = opt1 + opt2 - self.multioptionals = [ e.expr for e in self.exprs if isinstance(e,ZeroOrMore) ] - self.multirequired = [ e.expr for e in self.exprs if isinstance(e,OneOrMore) ] - self.required = [ e for e in self.exprs if not isinstance(e,(Optional,ZeroOrMore,OneOrMore)) ] - self.required += self.multirequired - self.initExprGroups = False - tmpLoc = loc - tmpReqd = self.required[:] - tmpOpt = self.optionals[:] - matchOrder = [] - - keepMatching = True - while keepMatching: - tmpExprs = tmpReqd + tmpOpt + self.multioptionals + self.multirequired - failed = [] - for e in tmpExprs: - try: - tmpLoc = e.tryParse( instring, tmpLoc ) - except ParseException: - failed.append(e) - else: - matchOrder.append(self.opt1map.get(id(e),e)) - if e in tmpReqd: - tmpReqd.remove(e) - elif e in tmpOpt: - tmpOpt.remove(e) - if len(failed) == len(tmpExprs): - keepMatching = False - - if tmpReqd: - missing = ", ".join(_ustr(e) for e in tmpReqd) - raise ParseException(instring,loc,"Missing one or more required elements (%s)" % missing ) - - # add any unmatched Optionals, in case they have default values defined - matchOrder += [e for e in self.exprs if isinstance(e,Optional) and e.expr in tmpOpt] - - resultlist = [] - for e in matchOrder: - loc,results = e._parse(instring,loc,doActions) - resultlist.append(results) - - finalResults = sum(resultlist, ParseResults([])) - return loc, finalResults - - def __str__( self ): - if hasattr(self,"name"): - return self.name - - if self.strRepr is None: - self.strRepr = "{" + " & ".join(_ustr(e) for e in self.exprs) + "}" - - return self.strRepr - - def checkRecursion( self, parseElementList ): - subRecCheckList = parseElementList[:] + [ self ] - for e in self.exprs: - e.checkRecursion( subRecCheckList ) - - -class ParseElementEnhance(ParserElement): - """ - Abstract subclass of C{ParserElement}, for combining and post-processing parsed tokens. - """ - def __init__( self, expr, savelist=False ): - super(ParseElementEnhance,self).__init__(savelist) - if isinstance( expr, basestring ): - if issubclass(ParserElement._literalStringClass, Token): - expr = ParserElement._literalStringClass(expr) - else: - expr = ParserElement._literalStringClass(Literal(expr)) - self.expr = expr - self.strRepr = None - if expr is not None: - self.mayIndexError = expr.mayIndexError - self.mayReturnEmpty = expr.mayReturnEmpty - self.setWhitespaceChars( expr.whiteChars ) - self.skipWhitespace = expr.skipWhitespace - self.saveAsList = expr.saveAsList - self.callPreparse = expr.callPreparse - self.ignoreExprs.extend(expr.ignoreExprs) - - def parseImpl( self, instring, loc, doActions=True ): - if self.expr is not None: - return self.expr._parse( instring, loc, doActions, callPreParse=False ) - else: - raise ParseException("",loc,self.errmsg,self) - - def leaveWhitespace( self ): - self.skipWhitespace = False - self.expr = self.expr.copy() - if self.expr is not None: - self.expr.leaveWhitespace() - return self - - def ignore( self, other ): - if isinstance( other, Suppress ): - if other not in self.ignoreExprs: - super( ParseElementEnhance, self).ignore( other ) - if self.expr is not None: - self.expr.ignore( self.ignoreExprs[-1] ) - else: - super( ParseElementEnhance, self).ignore( other ) - if self.expr is not None: - self.expr.ignore( self.ignoreExprs[-1] ) - return self - - def streamline( self ): - super(ParseElementEnhance,self).streamline() - if self.expr is not None: - self.expr.streamline() - return self - - def checkRecursion( self, parseElementList ): - if self in parseElementList: - raise RecursiveGrammarException( parseElementList+[self] ) - subRecCheckList = parseElementList[:] + [ self ] - if self.expr is not None: - self.expr.checkRecursion( subRecCheckList ) - - def validate( self, validateTrace=[] ): - tmp = validateTrace[:]+[self] - if self.expr is not None: - self.expr.validate(tmp) - self.checkRecursion( [] ) - - def __str__( self ): - try: - return super(ParseElementEnhance,self).__str__() - except Exception: - pass - - if self.strRepr is None and self.expr is not None: - self.strRepr = "%s:(%s)" % ( self.__class__.__name__, _ustr(self.expr) ) - return self.strRepr - - -class FollowedBy(ParseElementEnhance): - """ - Lookahead matching of the given parse expression. C{FollowedBy} - does I{not} advance the parsing position within the input string, it only - verifies that the specified parse expression matches at the current - position. C{FollowedBy} always returns a null token list. - - Example:: - # use FollowedBy to match a label only if it is followed by a ':' - data_word = Word(alphas) - label = data_word + FollowedBy(':') - attr_expr = Group(label + Suppress(':') + OneOrMore(data_word, stopOn=label).setParseAction(' '.join)) - - OneOrMore(attr_expr).parseString("shape: SQUARE color: BLACK posn: upper left").pprint() - prints:: - [['shape', 'SQUARE'], ['color', 'BLACK'], ['posn', 'upper left']] - """ - def __init__( self, expr ): - super(FollowedBy,self).__init__(expr) - self.mayReturnEmpty = True - - def parseImpl( self, instring, loc, doActions=True ): - self.expr.tryParse( instring, loc ) - return loc, [] - - -class NotAny(ParseElementEnhance): - """ - Lookahead to disallow matching with the given parse expression. C{NotAny} - does I{not} advance the parsing position within the input string, it only - verifies that the specified parse expression does I{not} match at the current - position. Also, C{NotAny} does I{not} skip over leading whitespace. C{NotAny} - always returns a null token list. May be constructed using the '~' operator. - - Example:: - - """ - def __init__( self, expr ): - super(NotAny,self).__init__(expr) - #~ self.leaveWhitespace() - self.skipWhitespace = False # do NOT use self.leaveWhitespace(), don't want to propagate to exprs - self.mayReturnEmpty = True - self.errmsg = "Found unwanted token, "+_ustr(self.expr) - - def parseImpl( self, instring, loc, doActions=True ): - if self.expr.canParseNext(instring, loc): - raise ParseException(instring, loc, self.errmsg, self) - return loc, [] - - def __str__( self ): - if hasattr(self,"name"): - return self.name - - if self.strRepr is None: - self.strRepr = "~{" + _ustr(self.expr) + "}" - - return self.strRepr - -class _MultipleMatch(ParseElementEnhance): - def __init__( self, expr, stopOn=None): - super(_MultipleMatch, self).__init__(expr) - self.saveAsList = True - ender = stopOn - if isinstance(ender, basestring): - ender = ParserElement._literalStringClass(ender) - self.not_ender = ~ender if ender is not None else None - - def parseImpl( self, instring, loc, doActions=True ): - self_expr_parse = self.expr._parse - self_skip_ignorables = self._skipIgnorables - check_ender = self.not_ender is not None - if check_ender: - try_not_ender = self.not_ender.tryParse - - # must be at least one (but first see if we are the stopOn sentinel; - # if so, fail) - if check_ender: - try_not_ender(instring, loc) - loc, tokens = self_expr_parse( instring, loc, doActions, callPreParse=False ) - try: - hasIgnoreExprs = (not not self.ignoreExprs) - while 1: - if check_ender: - try_not_ender(instring, loc) - if hasIgnoreExprs: - preloc = self_skip_ignorables( instring, loc ) - else: - preloc = loc - loc, tmptokens = self_expr_parse( instring, preloc, doActions ) - if tmptokens or tmptokens.haskeys(): - tokens += tmptokens - except (ParseException,IndexError): - pass - - return loc, tokens - -class OneOrMore(_MultipleMatch): - """ - Repetition of one or more of the given expression. - - Parameters: - - expr - expression that must match one or more times - - stopOn - (default=C{None}) - expression for a terminating sentinel - (only required if the sentinel would ordinarily match the repetition - expression) - - Example:: - data_word = Word(alphas) - label = data_word + FollowedBy(':') - attr_expr = Group(label + Suppress(':') + OneOrMore(data_word).setParseAction(' '.join)) - - text = "shape: SQUARE posn: upper left color: BLACK" - OneOrMore(attr_expr).parseString(text).pprint() # Fail! read 'color' as data instead of next label -> [['shape', 'SQUARE color']] - - # use stopOn attribute for OneOrMore to avoid reading label string as part of the data - attr_expr = Group(label + Suppress(':') + OneOrMore(data_word, stopOn=label).setParseAction(' '.join)) - OneOrMore(attr_expr).parseString(text).pprint() # Better -> [['shape', 'SQUARE'], ['posn', 'upper left'], ['color', 'BLACK']] - - # could also be written as - (attr_expr * (1,)).parseString(text).pprint() - """ - - def __str__( self ): - if hasattr(self,"name"): - return self.name - - if self.strRepr is None: - self.strRepr = "{" + _ustr(self.expr) + "}..." - - return self.strRepr - -class ZeroOrMore(_MultipleMatch): - """ - Optional repetition of zero or more of the given expression. - - Parameters: - - expr - expression that must match zero or more times - - stopOn - (default=C{None}) - expression for a terminating sentinel - (only required if the sentinel would ordinarily match the repetition - expression) - - Example: similar to L{OneOrMore} - """ - def __init__( self, expr, stopOn=None): - super(ZeroOrMore,self).__init__(expr, stopOn=stopOn) - self.mayReturnEmpty = True - - def parseImpl( self, instring, loc, doActions=True ): - try: - return super(ZeroOrMore, self).parseImpl(instring, loc, doActions) - except (ParseException,IndexError): - return loc, [] - - def __str__( self ): - if hasattr(self,"name"): - return self.name - - if self.strRepr is None: - self.strRepr = "[" + _ustr(self.expr) + "]..." - - return self.strRepr - -class _NullToken(object): - def __bool__(self): - return False - __nonzero__ = __bool__ - def __str__(self): - return "" - -_optionalNotMatched = _NullToken() -class Optional(ParseElementEnhance): - """ - Optional matching of the given expression. - - Parameters: - - expr - expression that must match zero or more times - - default (optional) - value to be returned if the optional expression is not found. - - Example:: - # US postal code can be a 5-digit zip, plus optional 4-digit qualifier - zip = Combine(Word(nums, exact=5) + Optional('-' + Word(nums, exact=4))) - zip.runTests(''' - # traditional ZIP code - 12345 - - # ZIP+4 form - 12101-0001 - - # invalid ZIP - 98765- - ''') - prints:: - # traditional ZIP code - 12345 - ['12345'] - - # ZIP+4 form - 12101-0001 - ['12101-0001'] - - # invalid ZIP - 98765- - ^ - FAIL: Expected end of text (at char 5), (line:1, col:6) - """ - def __init__( self, expr, default=_optionalNotMatched ): - super(Optional,self).__init__( expr, savelist=False ) - self.saveAsList = self.expr.saveAsList - self.defaultValue = default - self.mayReturnEmpty = True - - def parseImpl( self, instring, loc, doActions=True ): - try: - loc, tokens = self.expr._parse( instring, loc, doActions, callPreParse=False ) - except (ParseException,IndexError): - if self.defaultValue is not _optionalNotMatched: - if self.expr.resultsName: - tokens = ParseResults([ self.defaultValue ]) - tokens[self.expr.resultsName] = self.defaultValue - else: - tokens = [ self.defaultValue ] - else: - tokens = [] - return loc, tokens - - def __str__( self ): - if hasattr(self,"name"): - return self.name - - if self.strRepr is None: - self.strRepr = "[" + _ustr(self.expr) + "]" - - return self.strRepr - -class SkipTo(ParseElementEnhance): - """ - Token for skipping over all undefined text until the matched expression is found. - - Parameters: - - expr - target expression marking the end of the data to be skipped - - include - (default=C{False}) if True, the target expression is also parsed - (the skipped text and target expression are returned as a 2-element list). - - ignore - (default=C{None}) used to define grammars (typically quoted strings and - comments) that might contain false matches to the target expression - - failOn - (default=C{None}) define expressions that are not allowed to be - included in the skipped test; if found before the target expression is found, - the SkipTo is not a match - - Example:: - report = ''' - Outstanding Issues Report - 1 Jan 2000 - - # | Severity | Description | Days Open - -----+----------+-------------------------------------------+----------- - 101 | Critical | Intermittent system crash | 6 - 94 | Cosmetic | Spelling error on Login ('log|n') | 14 - 79 | Minor | System slow when running too many reports | 47 - ''' - integer = Word(nums) - SEP = Suppress('|') - # use SkipTo to simply match everything up until the next SEP - # - ignore quoted strings, so that a '|' character inside a quoted string does not match - # - parse action will call token.strip() for each matched token, i.e., the description body - string_data = SkipTo(SEP, ignore=quotedString) - string_data.setParseAction(tokenMap(str.strip)) - ticket_expr = (integer("issue_num") + SEP - + string_data("sev") + SEP - + string_data("desc") + SEP - + integer("days_open")) - - for tkt in ticket_expr.searchString(report): - print tkt.dump() - prints:: - ['101', 'Critical', 'Intermittent system crash', '6'] - - days_open: 6 - - desc: Intermittent system crash - - issue_num: 101 - - sev: Critical - ['94', 'Cosmetic', "Spelling error on Login ('log|n')", '14'] - - days_open: 14 - - desc: Spelling error on Login ('log|n') - - issue_num: 94 - - sev: Cosmetic - ['79', 'Minor', 'System slow when running too many reports', '47'] - - days_open: 47 - - desc: System slow when running too many reports - - issue_num: 79 - - sev: Minor - """ - def __init__( self, other, include=False, ignore=None, failOn=None ): - super( SkipTo, self ).__init__( other ) - self.ignoreExpr = ignore - self.mayReturnEmpty = True - self.mayIndexError = False - self.includeMatch = include - self.asList = False - if isinstance(failOn, basestring): - self.failOn = ParserElement._literalStringClass(failOn) - else: - self.failOn = failOn - self.errmsg = "No match found for "+_ustr(self.expr) - - def parseImpl( self, instring, loc, doActions=True ): - startloc = loc - instrlen = len(instring) - expr = self.expr - expr_parse = self.expr._parse - self_failOn_canParseNext = self.failOn.canParseNext if self.failOn is not None else None - self_ignoreExpr_tryParse = self.ignoreExpr.tryParse if self.ignoreExpr is not None else None - - tmploc = loc - while tmploc <= instrlen: - if self_failOn_canParseNext is not None: - # break if failOn expression matches - if self_failOn_canParseNext(instring, tmploc): - break - - if self_ignoreExpr_tryParse is not None: - # advance past ignore expressions - while 1: - try: - tmploc = self_ignoreExpr_tryParse(instring, tmploc) - except ParseBaseException: - break - - try: - expr_parse(instring, tmploc, doActions=False, callPreParse=False) - except (ParseException, IndexError): - # no match, advance loc in string - tmploc += 1 - else: - # matched skipto expr, done - break - - else: - # ran off the end of the input string without matching skipto expr, fail - raise ParseException(instring, loc, self.errmsg, self) - - # build up return values - loc = tmploc - skiptext = instring[startloc:loc] - skipresult = ParseResults(skiptext) - - if self.includeMatch: - loc, mat = expr_parse(instring,loc,doActions,callPreParse=False) - skipresult += mat - - return loc, skipresult - -class Forward(ParseElementEnhance): - """ - Forward declaration of an expression to be defined later - - used for recursive grammars, such as algebraic infix notation. - When the expression is known, it is assigned to the C{Forward} variable using the '<<' operator. - - Note: take care when assigning to C{Forward} not to overlook precedence of operators. - Specifically, '|' has a lower precedence than '<<', so that:: - fwdExpr << a | b | c - will actually be evaluated as:: - (fwdExpr << a) | b | c - thereby leaving b and c out as parseable alternatives. It is recommended that you - explicitly group the values inserted into the C{Forward}:: - fwdExpr << (a | b | c) - Converting to use the '<<=' operator instead will avoid this problem. - - See L{ParseResults.pprint} for an example of a recursive parser created using - C{Forward}. - """ - def __init__( self, other=None ): - super(Forward,self).__init__( other, savelist=False ) - - def __lshift__( self, other ): - if isinstance( other, basestring ): - other = ParserElement._literalStringClass(other) - self.expr = other - self.strRepr = None - self.mayIndexError = self.expr.mayIndexError - self.mayReturnEmpty = self.expr.mayReturnEmpty - self.setWhitespaceChars( self.expr.whiteChars ) - self.skipWhitespace = self.expr.skipWhitespace - self.saveAsList = self.expr.saveAsList - self.ignoreExprs.extend(self.expr.ignoreExprs) - return self - - def __ilshift__(self, other): - return self << other - - def leaveWhitespace( self ): - self.skipWhitespace = False - return self - - def streamline( self ): - if not self.streamlined: - self.streamlined = True - if self.expr is not None: - self.expr.streamline() - return self - - def validate( self, validateTrace=[] ): - if self not in validateTrace: - tmp = validateTrace[:]+[self] - if self.expr is not None: - self.expr.validate(tmp) - self.checkRecursion([]) - - def __str__( self ): - if hasattr(self,"name"): - return self.name - return self.__class__.__name__ + ": ..." - - # stubbed out for now - creates awful memory and perf issues - self._revertClass = self.__class__ - self.__class__ = _ForwardNoRecurse - try: - if self.expr is not None: - retString = _ustr(self.expr) - else: - retString = "None" - finally: - self.__class__ = self._revertClass - return self.__class__.__name__ + ": " + retString - - def copy(self): - if self.expr is not None: - return super(Forward,self).copy() - else: - ret = Forward() - ret <<= self - return ret - -class _ForwardNoRecurse(Forward): - def __str__( self ): - return "..." - -class TokenConverter(ParseElementEnhance): - """ - Abstract subclass of C{ParseExpression}, for converting parsed results. - """ - def __init__( self, expr, savelist=False ): - super(TokenConverter,self).__init__( expr )#, savelist ) - self.saveAsList = False - -class Combine(TokenConverter): - """ - Converter to concatenate all matching tokens to a single string. - By default, the matching patterns must also be contiguous in the input string; - this can be disabled by specifying C{'adjacent=False'} in the constructor. - - Example:: - real = Word(nums) + '.' + Word(nums) - print(real.parseString('3.1416')) # -> ['3', '.', '1416'] - # will also erroneously match the following - print(real.parseString('3. 1416')) # -> ['3', '.', '1416'] - - real = Combine(Word(nums) + '.' + Word(nums)) - print(real.parseString('3.1416')) # -> ['3.1416'] - # no match when there are internal spaces - print(real.parseString('3. 1416')) # -> Exception: Expected W:(0123...) - """ - def __init__( self, expr, joinString="", adjacent=True ): - super(Combine,self).__init__( expr ) - # suppress whitespace-stripping in contained parse expressions, but re-enable it on the Combine itself - if adjacent: - self.leaveWhitespace() - self.adjacent = adjacent - self.skipWhitespace = True - self.joinString = joinString - self.callPreparse = True - - def ignore( self, other ): - if self.adjacent: - ParserElement.ignore(self, other) - else: - super( Combine, self).ignore( other ) - return self - - def postParse( self, instring, loc, tokenlist ): - retToks = tokenlist.copy() - del retToks[:] - retToks += ParseResults([ "".join(tokenlist._asStringList(self.joinString)) ], modal=self.modalResults) - - if self.resultsName and retToks.haskeys(): - return [ retToks ] - else: - return retToks - -class Group(TokenConverter): - """ - Converter to return the matched tokens as a list - useful for returning tokens of C{L{ZeroOrMore}} and C{L{OneOrMore}} expressions. - - Example:: - ident = Word(alphas) - num = Word(nums) - term = ident | num - func = ident + Optional(delimitedList(term)) - print(func.parseString("fn a,b,100")) # -> ['fn', 'a', 'b', '100'] - - func = ident + Group(Optional(delimitedList(term))) - print(func.parseString("fn a,b,100")) # -> ['fn', ['a', 'b', '100']] - """ - def __init__( self, expr ): - super(Group,self).__init__( expr ) - self.saveAsList = True - - def postParse( self, instring, loc, tokenlist ): - return [ tokenlist ] - -class Dict(TokenConverter): - """ - Converter to return a repetitive expression as a list, but also as a dictionary. - Each element can also be referenced using the first token in the expression as its key. - Useful for tabular report scraping when the first column can be used as a item key. - - Example:: - data_word = Word(alphas) - label = data_word + FollowedBy(':') - attr_expr = Group(label + Suppress(':') + OneOrMore(data_word).setParseAction(' '.join)) - - text = "shape: SQUARE posn: upper left color: light blue texture: burlap" - attr_expr = (label + Suppress(':') + OneOrMore(data_word, stopOn=label).setParseAction(' '.join)) - - # print attributes as plain groups - print(OneOrMore(attr_expr).parseString(text).dump()) - - # instead of OneOrMore(expr), parse using Dict(OneOrMore(Group(expr))) - Dict will auto-assign names - result = Dict(OneOrMore(Group(attr_expr))).parseString(text) - print(result.dump()) - - # access named fields as dict entries, or output as dict - print(result['shape']) - print(result.asDict()) - prints:: - ['shape', 'SQUARE', 'posn', 'upper left', 'color', 'light blue', 'texture', 'burlap'] - - [['shape', 'SQUARE'], ['posn', 'upper left'], ['color', 'light blue'], ['texture', 'burlap']] - - color: light blue - - posn: upper left - - shape: SQUARE - - texture: burlap - SQUARE - {'color': 'light blue', 'posn': 'upper left', 'texture': 'burlap', 'shape': 'SQUARE'} - See more examples at L{ParseResults} of accessing fields by results name. - """ - def __init__( self, expr ): - super(Dict,self).__init__( expr ) - self.saveAsList = True - - def postParse( self, instring, loc, tokenlist ): - for i,tok in enumerate(tokenlist): - if len(tok) == 0: - continue - ikey = tok[0] - if isinstance(ikey,int): - ikey = _ustr(tok[0]).strip() - if len(tok)==1: - tokenlist[ikey] = _ParseResultsWithOffset("",i) - elif len(tok)==2 and not isinstance(tok[1],ParseResults): - tokenlist[ikey] = _ParseResultsWithOffset(tok[1],i) - else: - dictvalue = tok.copy() #ParseResults(i) - del dictvalue[0] - if len(dictvalue)!= 1 or (isinstance(dictvalue,ParseResults) and dictvalue.haskeys()): - tokenlist[ikey] = _ParseResultsWithOffset(dictvalue,i) - else: - tokenlist[ikey] = _ParseResultsWithOffset(dictvalue[0],i) - - if self.resultsName: - return [ tokenlist ] - else: - return tokenlist - - -class Suppress(TokenConverter): - """ - Converter for ignoring the results of a parsed expression. - - Example:: - source = "a, b, c,d" - wd = Word(alphas) - wd_list1 = wd + ZeroOrMore(',' + wd) - print(wd_list1.parseString(source)) - - # often, delimiters that are useful during parsing are just in the - # way afterward - use Suppress to keep them out of the parsed output - wd_list2 = wd + ZeroOrMore(Suppress(',') + wd) - print(wd_list2.parseString(source)) - prints:: - ['a', ',', 'b', ',', 'c', ',', 'd'] - ['a', 'b', 'c', 'd'] - (See also L{delimitedList}.) - """ - def postParse( self, instring, loc, tokenlist ): - return [] - - def suppress( self ): - return self - - -class OnlyOnce(object): - """ - Wrapper for parse actions, to ensure they are only called once. - """ - def __init__(self, methodCall): - self.callable = _trim_arity(methodCall) - self.called = False - def __call__(self,s,l,t): - if not self.called: - results = self.callable(s,l,t) - self.called = True - return results - raise ParseException(s,l,"") - def reset(self): - self.called = False - -def traceParseAction(f): - """ - Decorator for debugging parse actions. - - When the parse action is called, this decorator will print C{">> entering I{method-name}(line:I{current_source_line}, I{parse_location}, I{matched_tokens})".} - When the parse action completes, the decorator will print C{"<<"} followed by the returned value, or any exception that the parse action raised. - - Example:: - wd = Word(alphas) - - @traceParseAction - def remove_duplicate_chars(tokens): - return ''.join(sorted(set(''.join(tokens)))) - - wds = OneOrMore(wd).setParseAction(remove_duplicate_chars) - print(wds.parseString("slkdjs sld sldd sdlf sdljf")) - prints:: - >>entering remove_duplicate_chars(line: 'slkdjs sld sldd sdlf sdljf', 0, (['slkdjs', 'sld', 'sldd', 'sdlf', 'sdljf'], {})) - <<leaving remove_duplicate_chars (ret: 'dfjkls') - ['dfjkls'] - """ - f = _trim_arity(f) - def z(*paArgs): - thisFunc = f.__name__ - s,l,t = paArgs[-3:] - if len(paArgs)>3: - thisFunc = paArgs[0].__class__.__name__ + '.' + thisFunc - sys.stderr.write( ">>entering %s(line: '%s', %d, %r)\n" % (thisFunc,line(l,s),l,t) ) - try: - ret = f(*paArgs) - except Exception as exc: - sys.stderr.write( "<<leaving %s (exception: %s)\n" % (thisFunc,exc) ) - raise - sys.stderr.write( "<<leaving %s (ret: %r)\n" % (thisFunc,ret) ) - return ret - try: - z.__name__ = f.__name__ - except AttributeError: - pass - return z - -# -# global helpers -# -def delimitedList( expr, delim=",", combine=False ): - """ - Helper to define a delimited list of expressions - the delimiter defaults to ','. - By default, the list elements and delimiters can have intervening whitespace, and - comments, but this can be overridden by passing C{combine=True} in the constructor. - If C{combine} is set to C{True}, the matching tokens are returned as a single token - string, with the delimiters included; otherwise, the matching tokens are returned - as a list of tokens, with the delimiters suppressed. - - Example:: - delimitedList(Word(alphas)).parseString("aa,bb,cc") # -> ['aa', 'bb', 'cc'] - delimitedList(Word(hexnums), delim=':', combine=True).parseString("AA:BB:CC:DD:EE") # -> ['AA:BB:CC:DD:EE'] - """ - dlName = _ustr(expr)+" ["+_ustr(delim)+" "+_ustr(expr)+"]..." - if combine: - return Combine( expr + ZeroOrMore( delim + expr ) ).setName(dlName) - else: - return ( expr + ZeroOrMore( Suppress( delim ) + expr ) ).setName(dlName) - -def countedArray( expr, intExpr=None ): - """ - Helper to define a counted list of expressions. - This helper defines a pattern of the form:: - integer expr expr expr... - where the leading integer tells how many expr expressions follow. - The matched tokens returns the array of expr tokens as a list - the leading count token is suppressed. - - If C{intExpr} is specified, it should be a pyparsing expression that produces an integer value. - - Example:: - countedArray(Word(alphas)).parseString('2 ab cd ef') # -> ['ab', 'cd'] - - # in this parser, the leading integer value is given in binary, - # '10' indicating that 2 values are in the array - binaryConstant = Word('01').setParseAction(lambda t: int(t[0], 2)) - countedArray(Word(alphas), intExpr=binaryConstant).parseString('10 ab cd ef') # -> ['ab', 'cd'] - """ - arrayExpr = Forward() - def countFieldParseAction(s,l,t): - n = t[0] - arrayExpr << (n and Group(And([expr]*n)) or Group(empty)) - return [] - if intExpr is None: - intExpr = Word(nums).setParseAction(lambda t:int(t[0])) - else: - intExpr = intExpr.copy() - intExpr.setName("arrayLen") - intExpr.addParseAction(countFieldParseAction, callDuringTry=True) - return ( intExpr + arrayExpr ).setName('(len) ' + _ustr(expr) + '...') - -def _flatten(L): - ret = [] - for i in L: - if isinstance(i,list): - ret.extend(_flatten(i)) - else: - ret.append(i) - return ret - -def matchPreviousLiteral(expr): - """ - Helper to define an expression that is indirectly defined from - the tokens matched in a previous expression, that is, it looks - for a 'repeat' of a previous expression. For example:: - first = Word(nums) - second = matchPreviousLiteral(first) - matchExpr = first + ":" + second - will match C{"1:1"}, but not C{"1:2"}. Because this matches a - previous literal, will also match the leading C{"1:1"} in C{"1:10"}. - If this is not desired, use C{matchPreviousExpr}. - Do I{not} use with packrat parsing enabled. - """ - rep = Forward() - def copyTokenToRepeater(s,l,t): - if t: - if len(t) == 1: - rep << t[0] - else: - # flatten t tokens - tflat = _flatten(t.asList()) - rep << And(Literal(tt) for tt in tflat) - else: - rep << Empty() - expr.addParseAction(copyTokenToRepeater, callDuringTry=True) - rep.setName('(prev) ' + _ustr(expr)) - return rep - -def matchPreviousExpr(expr): - """ - Helper to define an expression that is indirectly defined from - the tokens matched in a previous expression, that is, it looks - for a 'repeat' of a previous expression. For example:: - first = Word(nums) - second = matchPreviousExpr(first) - matchExpr = first + ":" + second - will match C{"1:1"}, but not C{"1:2"}. Because this matches by - expressions, will I{not} match the leading C{"1:1"} in C{"1:10"}; - the expressions are evaluated first, and then compared, so - C{"1"} is compared with C{"10"}. - Do I{not} use with packrat parsing enabled. - """ - rep = Forward() - e2 = expr.copy() - rep <<= e2 - def copyTokenToRepeater(s,l,t): - matchTokens = _flatten(t.asList()) - def mustMatchTheseTokens(s,l,t): - theseTokens = _flatten(t.asList()) - if theseTokens != matchTokens: - raise ParseException("",0,"") - rep.setParseAction( mustMatchTheseTokens, callDuringTry=True ) - expr.addParseAction(copyTokenToRepeater, callDuringTry=True) - rep.setName('(prev) ' + _ustr(expr)) - return rep - -def _escapeRegexRangeChars(s): - #~ escape these chars: ^-] - for c in r"\^-]": - s = s.replace(c,_bslash+c) - s = s.replace("\n",r"\n") - s = s.replace("\t",r"\t") - return _ustr(s) - -def oneOf( strs, caseless=False, useRegex=True ): - """ - Helper to quickly define a set of alternative Literals, and makes sure to do - longest-first testing when there is a conflict, regardless of the input order, - but returns a C{L{MatchFirst}} for best performance. - - Parameters: - - strs - a string of space-delimited literals, or a collection of string literals - - caseless - (default=C{False}) - treat all literals as caseless - - useRegex - (default=C{True}) - as an optimization, will generate a Regex - object; otherwise, will generate a C{MatchFirst} object (if C{caseless=True}, or - if creating a C{Regex} raises an exception) - - Example:: - comp_oper = oneOf("< = > <= >= !=") - var = Word(alphas) - number = Word(nums) - term = var | number - comparison_expr = term + comp_oper + term - print(comparison_expr.searchString("B = 12 AA=23 B<=AA AA>12")) - prints:: - [['B', '=', '12'], ['AA', '=', '23'], ['B', '<=', 'AA'], ['AA', '>', '12']] - """ - if caseless: - isequal = ( lambda a,b: a.upper() == b.upper() ) - masks = ( lambda a,b: b.upper().startswith(a.upper()) ) - parseElementClass = CaselessLiteral - else: - isequal = ( lambda a,b: a == b ) - masks = ( lambda a,b: b.startswith(a) ) - parseElementClass = Literal - - symbols = [] - if isinstance(strs,basestring): - symbols = strs.split() - elif isinstance(strs, Iterable): - symbols = list(strs) - else: - warnings.warn("Invalid argument to oneOf, expected string or iterable", - SyntaxWarning, stacklevel=2) - if not symbols: - return NoMatch() - - i = 0 - while i < len(symbols)-1: - cur = symbols[i] - for j,other in enumerate(symbols[i+1:]): - if ( isequal(other, cur) ): - del symbols[i+j+1] - break - elif ( masks(cur, other) ): - del symbols[i+j+1] - symbols.insert(i,other) - cur = other - break - else: - i += 1 - - if not caseless and useRegex: - #~ print (strs,"->", "|".join( [ _escapeRegexChars(sym) for sym in symbols] )) - try: - if len(symbols)==len("".join(symbols)): - return Regex( "[%s]" % "".join(_escapeRegexRangeChars(sym) for sym in symbols) ).setName(' | '.join(symbols)) - else: - return Regex( "|".join(re.escape(sym) for sym in symbols) ).setName(' | '.join(symbols)) - except Exception: - warnings.warn("Exception creating Regex for oneOf, building MatchFirst", - SyntaxWarning, stacklevel=2) - - - # last resort, just use MatchFirst - return MatchFirst(parseElementClass(sym) for sym in symbols).setName(' | '.join(symbols)) - -def dictOf( key, value ): - """ - Helper to easily and clearly define a dictionary by specifying the respective patterns - for the key and value. Takes care of defining the C{L{Dict}}, C{L{ZeroOrMore}}, and C{L{Group}} tokens - in the proper order. The key pattern can include delimiting markers or punctuation, - as long as they are suppressed, thereby leaving the significant key text. The value - pattern can include named results, so that the C{Dict} results can include named token - fields. - - Example:: - text = "shape: SQUARE posn: upper left color: light blue texture: burlap" - attr_expr = (label + Suppress(':') + OneOrMore(data_word, stopOn=label).setParseAction(' '.join)) - print(OneOrMore(attr_expr).parseString(text).dump()) - - attr_label = label - attr_value = Suppress(':') + OneOrMore(data_word, stopOn=label).setParseAction(' '.join) - - # similar to Dict, but simpler call format - result = dictOf(attr_label, attr_value).parseString(text) - print(result.dump()) - print(result['shape']) - print(result.shape) # object attribute access works too - print(result.asDict()) - prints:: - [['shape', 'SQUARE'], ['posn', 'upper left'], ['color', 'light blue'], ['texture', 'burlap']] - - color: light blue - - posn: upper left - - shape: SQUARE - - texture: burlap - SQUARE - SQUARE - {'color': 'light blue', 'shape': 'SQUARE', 'posn': 'upper left', 'texture': 'burlap'} - """ - return Dict( ZeroOrMore( Group ( key + value ) ) ) - -def originalTextFor(expr, asString=True): - """ - Helper to return the original, untokenized text for a given expression. Useful to - restore the parsed fields of an HTML start tag into the raw tag text itself, or to - revert separate tokens with intervening whitespace back to the original matching - input text. By default, returns astring containing the original parsed text. - - If the optional C{asString} argument is passed as C{False}, then the return value is a - C{L{ParseResults}} containing any results names that were originally matched, and a - single token containing the original matched text from the input string. So if - the expression passed to C{L{originalTextFor}} contains expressions with defined - results names, you must set C{asString} to C{False} if you want to preserve those - results name values. - - Example:: - src = "this is test <b> bold <i>text</i> </b> normal text " - for tag in ("b","i"): - opener,closer = makeHTMLTags(tag) - patt = originalTextFor(opener + SkipTo(closer) + closer) - print(patt.searchString(src)[0]) - prints:: - ['<b> bold <i>text</i> </b>'] - ['<i>text</i>'] - """ - locMarker = Empty().setParseAction(lambda s,loc,t: loc) - endlocMarker = locMarker.copy() - endlocMarker.callPreparse = False - matchExpr = locMarker("_original_start") + expr + endlocMarker("_original_end") - if asString: - extractText = lambda s,l,t: s[t._original_start:t._original_end] - else: - def extractText(s,l,t): - t[:] = [s[t.pop('_original_start'):t.pop('_original_end')]] - matchExpr.setParseAction(extractText) - matchExpr.ignoreExprs = expr.ignoreExprs - return matchExpr - -def ungroup(expr): - """ - Helper to undo pyparsing's default grouping of And expressions, even - if all but one are non-empty. - """ - return TokenConverter(expr).setParseAction(lambda t:t[0]) - -def locatedExpr(expr): - """ - Helper to decorate a returned token with its starting and ending locations in the input string. - This helper adds the following results names: - - locn_start = location where matched expression begins - - locn_end = location where matched expression ends - - value = the actual parsed results - - Be careful if the input text contains C{<TAB>} characters, you may want to call - C{L{ParserElement.parseWithTabs}} - - Example:: - wd = Word(alphas) - for match in locatedExpr(wd).searchString("ljsdf123lksdjjf123lkkjj1222"): - print(match) - prints:: - [[0, 'ljsdf', 5]] - [[8, 'lksdjjf', 15]] - [[18, 'lkkjj', 23]] - """ - locator = Empty().setParseAction(lambda s,l,t: l) - return Group(locator("locn_start") + expr("value") + locator.copy().leaveWhitespace()("locn_end")) - - -# convenience constants for positional expressions -empty = Empty().setName("empty") -lineStart = LineStart().setName("lineStart") -lineEnd = LineEnd().setName("lineEnd") -stringStart = StringStart().setName("stringStart") -stringEnd = StringEnd().setName("stringEnd") - -_escapedPunc = Word( _bslash, r"\[]-*.$+^?()~ ", exact=2 ).setParseAction(lambda s,l,t:t[0][1]) -_escapedHexChar = Regex(r"\\0?[xX][0-9a-fA-F]+").setParseAction(lambda s,l,t:unichr(int(t[0].lstrip(r'\0x'),16))) -_escapedOctChar = Regex(r"\\0[0-7]+").setParseAction(lambda s,l,t:unichr(int(t[0][1:],8))) -_singleChar = _escapedPunc | _escapedHexChar | _escapedOctChar | CharsNotIn(r'\]', exact=1) -_charRange = Group(_singleChar + Suppress("-") + _singleChar) -_reBracketExpr = Literal("[") + Optional("^").setResultsName("negate") + Group( OneOrMore( _charRange | _singleChar ) ).setResultsName("body") + "]" - -def srange(s): - r""" - Helper to easily define string ranges for use in Word construction. Borrows - syntax from regexp '[]' string range definitions:: - srange("[0-9]") -> "0123456789" - srange("[a-z]") -> "abcdefghijklmnopqrstuvwxyz" - srange("[a-z$_]") -> "abcdefghijklmnopqrstuvwxyz$_" - The input string must be enclosed in []'s, and the returned string is the expanded - character set joined into a single string. - The values enclosed in the []'s may be: - - a single character - - an escaped character with a leading backslash (such as C{\-} or C{\]}) - - an escaped hex character with a leading C{'\x'} (C{\x21}, which is a C{'!'} character) - (C{\0x##} is also supported for backwards compatibility) - - an escaped octal character with a leading C{'\0'} (C{\041}, which is a C{'!'} character) - - a range of any of the above, separated by a dash (C{'a-z'}, etc.) - - any combination of the above (C{'aeiouy'}, C{'a-zA-Z0-9_$'}, etc.) - """ - _expanded = lambda p: p if not isinstance(p,ParseResults) else ''.join(unichr(c) for c in range(ord(p[0]),ord(p[1])+1)) - try: - return "".join(_expanded(part) for part in _reBracketExpr.parseString(s).body) - except Exception: - return "" - -def matchOnlyAtCol(n): - """ - Helper method for defining parse actions that require matching at a specific - column in the input text. - """ - def verifyCol(strg,locn,toks): - if col(locn,strg) != n: - raise ParseException(strg,locn,"matched token not at column %d" % n) - return verifyCol - -def replaceWith(replStr): - """ - Helper method for common parse actions that simply return a literal value. Especially - useful when used with C{L{transformString<ParserElement.transformString>}()}. - - Example:: - num = Word(nums).setParseAction(lambda toks: int(toks[0])) - na = oneOf("N/A NA").setParseAction(replaceWith(math.nan)) - term = na | num - - OneOrMore(term).parseString("324 234 N/A 234") # -> [324, 234, nan, 234] - """ - return lambda s,l,t: [replStr] - -def removeQuotes(s,l,t): - """ - Helper parse action for removing quotation marks from parsed quoted strings. - - Example:: - # by default, quotation marks are included in parsed results - quotedString.parseString("'Now is the Winter of our Discontent'") # -> ["'Now is the Winter of our Discontent'"] - - # use removeQuotes to strip quotation marks from parsed results - quotedString.setParseAction(removeQuotes) - quotedString.parseString("'Now is the Winter of our Discontent'") # -> ["Now is the Winter of our Discontent"] - """ - return t[0][1:-1] - -def tokenMap(func, *args): - """ - Helper to define a parse action by mapping a function to all elements of a ParseResults list.If any additional - args are passed, they are forwarded to the given function as additional arguments after - the token, as in C{hex_integer = Word(hexnums).setParseAction(tokenMap(int, 16))}, which will convert the - parsed data to an integer using base 16. - - Example (compare the last to example in L{ParserElement.transformString}:: - hex_ints = OneOrMore(Word(hexnums)).setParseAction(tokenMap(int, 16)) - hex_ints.runTests(''' - 00 11 22 aa FF 0a 0d 1a - ''') - - upperword = Word(alphas).setParseAction(tokenMap(str.upper)) - OneOrMore(upperword).runTests(''' - my kingdom for a horse - ''') - - wd = Word(alphas).setParseAction(tokenMap(str.title)) - OneOrMore(wd).setParseAction(' '.join).runTests(''' - now is the winter of our discontent made glorious summer by this sun of york - ''') - prints:: - 00 11 22 aa FF 0a 0d 1a - [0, 17, 34, 170, 255, 10, 13, 26] - - my kingdom for a horse - ['MY', 'KINGDOM', 'FOR', 'A', 'HORSE'] - - now is the winter of our discontent made glorious summer by this sun of york - ['Now Is The Winter Of Our Discontent Made Glorious Summer By This Sun Of York'] - """ - def pa(s,l,t): - return [func(tokn, *args) for tokn in t] - - try: - func_name = getattr(func, '__name__', - getattr(func, '__class__').__name__) - except Exception: - func_name = str(func) - pa.__name__ = func_name - - return pa - -upcaseTokens = tokenMap(lambda t: _ustr(t).upper()) -"""(Deprecated) Helper parse action to convert tokens to upper case. Deprecated in favor of L{pyparsing_common.upcaseTokens}""" - -downcaseTokens = tokenMap(lambda t: _ustr(t).lower()) -"""(Deprecated) Helper parse action to convert tokens to lower case. Deprecated in favor of L{pyparsing_common.downcaseTokens}""" - -def _makeTags(tagStr, xml): - """Internal helper to construct opening and closing tag expressions, given a tag name""" - if isinstance(tagStr,basestring): - resname = tagStr - tagStr = Keyword(tagStr, caseless=not xml) - else: - resname = tagStr.name - - tagAttrName = Word(alphas,alphanums+"_-:") - if (xml): - tagAttrValue = dblQuotedString.copy().setParseAction( removeQuotes ) - openTag = Suppress("<") + tagStr("tag") + \ - Dict(ZeroOrMore(Group( tagAttrName + Suppress("=") + tagAttrValue ))) + \ - Optional("/",default=[False]).setResultsName("empty").setParseAction(lambda s,l,t:t[0]=='/') + Suppress(">") - else: - printablesLessRAbrack = "".join(c for c in printables if c not in ">") - tagAttrValue = quotedString.copy().setParseAction( removeQuotes ) | Word(printablesLessRAbrack) - openTag = Suppress("<") + tagStr("tag") + \ - Dict(ZeroOrMore(Group( tagAttrName.setParseAction(downcaseTokens) + \ - Optional( Suppress("=") + tagAttrValue ) ))) + \ - Optional("/",default=[False]).setResultsName("empty").setParseAction(lambda s,l,t:t[0]=='/') + Suppress(">") - closeTag = Combine(_L("</") + tagStr + ">") - - openTag = openTag.setResultsName("start"+"".join(resname.replace(":"," ").title().split())).setName("<%s>" % resname) - closeTag = closeTag.setResultsName("end"+"".join(resname.replace(":"," ").title().split())).setName("</%s>" % resname) - openTag.tag = resname - closeTag.tag = resname - return openTag, closeTag - -def makeHTMLTags(tagStr): - """ - Helper to construct opening and closing tag expressions for HTML, given a tag name. Matches - tags in either upper or lower case, attributes with namespaces and with quoted or unquoted values. - - Example:: - text = '<td>More info at the <a href="http://pyparsing.wikispaces.com">pyparsing</a> wiki page</td>' - # makeHTMLTags returns pyparsing expressions for the opening and closing tags as a 2-tuple - a,a_end = makeHTMLTags("A") - link_expr = a + SkipTo(a_end)("link_text") + a_end - - for link in link_expr.searchString(text): - # attributes in the <A> tag (like "href" shown here) are also accessible as named results - print(link.link_text, '->', link.href) - prints:: - pyparsing -> http://pyparsing.wikispaces.com - """ - return _makeTags( tagStr, False ) - -def makeXMLTags(tagStr): - """ - Helper to construct opening and closing tag expressions for XML, given a tag name. Matches - tags only in the given upper/lower case. - - Example: similar to L{makeHTMLTags} - """ - return _makeTags( tagStr, True ) - -def withAttribute(*args,**attrDict): - """ - Helper to create a validating parse action to be used with start tags created - with C{L{makeXMLTags}} or C{L{makeHTMLTags}}. Use C{withAttribute} to qualify a starting tag - with a required attribute value, to avoid false matches on common tags such as - C{<TD>} or C{<DIV>}. - - Call C{withAttribute} with a series of attribute names and values. Specify the list - of filter attributes names and values as: - - keyword arguments, as in C{(align="right")}, or - - as an explicit dict with C{**} operator, when an attribute name is also a Python - reserved word, as in C{**{"class":"Customer", "align":"right"}} - - a list of name-value tuples, as in ( ("ns1:class", "Customer"), ("ns2:align","right") ) - For attribute names with a namespace prefix, you must use the second form. Attribute - names are matched insensitive to upper/lower case. - - If just testing for C{class} (with or without a namespace), use C{L{withClass}}. - - To verify that the attribute exists, but without specifying a value, pass - C{withAttribute.ANY_VALUE} as the value. - - Example:: - html = ''' - <div> - Some text - <div type="grid">1 4 0 1 0</div> - <div type="graph">1,3 2,3 1,1</div> - <div>this has no type</div> - </div> - - ''' - div,div_end = makeHTMLTags("div") - - # only match div tag having a type attribute with value "grid" - div_grid = div().setParseAction(withAttribute(type="grid")) - grid_expr = div_grid + SkipTo(div | div_end)("body") - for grid_header in grid_expr.searchString(html): - print(grid_header.body) - - # construct a match with any div tag having a type attribute, regardless of the value - div_any_type = div().setParseAction(withAttribute(type=withAttribute.ANY_VALUE)) - div_expr = div_any_type + SkipTo(div | div_end)("body") - for div_header in div_expr.searchString(html): - print(div_header.body) - prints:: - 1 4 0 1 0 - - 1 4 0 1 0 - 1,3 2,3 1,1 - """ - if args: - attrs = args[:] - else: - attrs = attrDict.items() - attrs = [(k,v) for k,v in attrs] - def pa(s,l,tokens): - for attrName,attrValue in attrs: - if attrName not in tokens: - raise ParseException(s,l,"no matching attribute " + attrName) - if attrValue != withAttribute.ANY_VALUE and tokens[attrName] != attrValue: - raise ParseException(s,l,"attribute '%s' has value '%s', must be '%s'" % - (attrName, tokens[attrName], attrValue)) - return pa -withAttribute.ANY_VALUE = object() - -def withClass(classname, namespace=''): - """ - Simplified version of C{L{withAttribute}} when matching on a div class - made - difficult because C{class} is a reserved word in Python. - - Example:: - html = ''' - <div> - Some text - <div class="grid">1 4 0 1 0</div> - <div class="graph">1,3 2,3 1,1</div> - <div>this <div> has no class</div> - </div> - - ''' - div,div_end = makeHTMLTags("div") - div_grid = div().setParseAction(withClass("grid")) - - grid_expr = div_grid + SkipTo(div | div_end)("body") - for grid_header in grid_expr.searchString(html): - print(grid_header.body) - - div_any_type = div().setParseAction(withClass(withAttribute.ANY_VALUE)) - div_expr = div_any_type + SkipTo(div | div_end)("body") - for div_header in div_expr.searchString(html): - print(div_header.body) - prints:: - 1 4 0 1 0 - - 1 4 0 1 0 - 1,3 2,3 1,1 - """ - classattr = "%s:class" % namespace if namespace else "class" - return withAttribute(**{classattr : classname}) - -opAssoc = _Constants() -opAssoc.LEFT = object() -opAssoc.RIGHT = object() - -def infixNotation( baseExpr, opList, lpar=Suppress('('), rpar=Suppress(')') ): - """ - Helper method for constructing grammars of expressions made up of - operators working in a precedence hierarchy. Operators may be unary or - binary, left- or right-associative. Parse actions can also be attached - to operator expressions. The generated parser will also recognize the use - of parentheses to override operator precedences (see example below). - - Note: if you define a deep operator list, you may see performance issues - when using infixNotation. See L{ParserElement.enablePackrat} for a - mechanism to potentially improve your parser performance. - - Parameters: - - baseExpr - expression representing the most basic element for the nested - - opList - list of tuples, one for each operator precedence level in the - expression grammar; each tuple is of the form - (opExpr, numTerms, rightLeftAssoc, parseAction), where: - - opExpr is the pyparsing expression for the operator; - may also be a string, which will be converted to a Literal; - if numTerms is 3, opExpr is a tuple of two expressions, for the - two operators separating the 3 terms - - numTerms is the number of terms for this operator (must - be 1, 2, or 3) - - rightLeftAssoc is the indicator whether the operator is - right or left associative, using the pyparsing-defined - constants C{opAssoc.RIGHT} and C{opAssoc.LEFT}. - - parseAction is the parse action to be associated with - expressions matching this operator expression (the - parse action tuple member may be omitted); if the parse action - is passed a tuple or list of functions, this is equivalent to - calling C{setParseAction(*fn)} (L{ParserElement.setParseAction}) - - lpar - expression for matching left-parentheses (default=C{Suppress('(')}) - - rpar - expression for matching right-parentheses (default=C{Suppress(')')}) - - Example:: - # simple example of four-function arithmetic with ints and variable names - integer = pyparsing_common.signed_integer - varname = pyparsing_common.identifier - - arith_expr = infixNotation(integer | varname, - [ - ('-', 1, opAssoc.RIGHT), - (oneOf('* /'), 2, opAssoc.LEFT), - (oneOf('+ -'), 2, opAssoc.LEFT), - ]) - - arith_expr.runTests(''' - 5+3*6 - (5+3)*6 - -2--11 - ''', fullDump=False) - prints:: - 5+3*6 - [[5, '+', [3, '*', 6]]] - - (5+3)*6 - [[[5, '+', 3], '*', 6]] - - -2--11 - [[['-', 2], '-', ['-', 11]]] - """ - ret = Forward() - lastExpr = baseExpr | ( lpar + ret + rpar ) - for i,operDef in enumerate(opList): - opExpr,arity,rightLeftAssoc,pa = (operDef + (None,))[:4] - termName = "%s term" % opExpr if arity < 3 else "%s%s term" % opExpr - if arity == 3: - if opExpr is None or len(opExpr) != 2: - raise ValueError("if numterms=3, opExpr must be a tuple or list of two expressions") - opExpr1, opExpr2 = opExpr - thisExpr = Forward().setName(termName) - if rightLeftAssoc == opAssoc.LEFT: - if arity == 1: - matchExpr = FollowedBy(lastExpr + opExpr) + Group( lastExpr + OneOrMore( opExpr ) ) - elif arity == 2: - if opExpr is not None: - matchExpr = FollowedBy(lastExpr + opExpr + lastExpr) + Group( lastExpr + OneOrMore( opExpr + lastExpr ) ) - else: - matchExpr = FollowedBy(lastExpr+lastExpr) + Group( lastExpr + OneOrMore(lastExpr) ) - elif arity == 3: - matchExpr = FollowedBy(lastExpr + opExpr1 + lastExpr + opExpr2 + lastExpr) + \ - Group( lastExpr + opExpr1 + lastExpr + opExpr2 + lastExpr ) - else: - raise ValueError("operator must be unary (1), binary (2), or ternary (3)") - elif rightLeftAssoc == opAssoc.RIGHT: - if arity == 1: - # try to avoid LR with this extra test - if not isinstance(opExpr, Optional): - opExpr = Optional(opExpr) - matchExpr = FollowedBy(opExpr.expr + thisExpr) + Group( opExpr + thisExpr ) - elif arity == 2: - if opExpr is not None: - matchExpr = FollowedBy(lastExpr + opExpr + thisExpr) + Group( lastExpr + OneOrMore( opExpr + thisExpr ) ) - else: - matchExpr = FollowedBy(lastExpr + thisExpr) + Group( lastExpr + OneOrMore( thisExpr ) ) - elif arity == 3: - matchExpr = FollowedBy(lastExpr + opExpr1 + thisExpr + opExpr2 + thisExpr) + \ - Group( lastExpr + opExpr1 + thisExpr + opExpr2 + thisExpr ) - else: - raise ValueError("operator must be unary (1), binary (2), or ternary (3)") - else: - raise ValueError("operator must indicate right or left associativity") - if pa: - if isinstance(pa, (tuple, list)): - matchExpr.setParseAction(*pa) - else: - matchExpr.setParseAction(pa) - thisExpr <<= ( matchExpr.setName(termName) | lastExpr ) - lastExpr = thisExpr - ret <<= lastExpr - return ret - -operatorPrecedence = infixNotation -"""(Deprecated) Former name of C{L{infixNotation}}, will be dropped in a future release.""" - -dblQuotedString = Combine(Regex(r'"(?:[^"\n\r\\]|(?:"")|(?:\\(?:[^x]|x[0-9a-fA-F]+)))*')+'"').setName("string enclosed in double quotes") -sglQuotedString = Combine(Regex(r"'(?:[^'\n\r\\]|(?:'')|(?:\\(?:[^x]|x[0-9a-fA-F]+)))*")+"'").setName("string enclosed in single quotes") -quotedString = Combine(Regex(r'"(?:[^"\n\r\\]|(?:"")|(?:\\(?:[^x]|x[0-9a-fA-F]+)))*')+'"'| - Regex(r"'(?:[^'\n\r\\]|(?:'')|(?:\\(?:[^x]|x[0-9a-fA-F]+)))*")+"'").setName("quotedString using single or double quotes") -unicodeString = Combine(_L('u') + quotedString.copy()).setName("unicode string literal") - -def nestedExpr(opener="(", closer=")", content=None, ignoreExpr=quotedString.copy()): - """ - Helper method for defining nested lists enclosed in opening and closing - delimiters ("(" and ")" are the default). - - Parameters: - - opener - opening character for a nested list (default=C{"("}); can also be a pyparsing expression - - closer - closing character for a nested list (default=C{")"}); can also be a pyparsing expression - - content - expression for items within the nested lists (default=C{None}) - - ignoreExpr - expression for ignoring opening and closing delimiters (default=C{quotedString}) - - If an expression is not provided for the content argument, the nested - expression will capture all whitespace-delimited content between delimiters - as a list of separate values. - - Use the C{ignoreExpr} argument to define expressions that may contain - opening or closing characters that should not be treated as opening - or closing characters for nesting, such as quotedString or a comment - expression. Specify multiple expressions using an C{L{Or}} or C{L{MatchFirst}}. - The default is L{quotedString}, but if no expressions are to be ignored, - then pass C{None} for this argument. - - Example:: - data_type = oneOf("void int short long char float double") - decl_data_type = Combine(data_type + Optional(Word('*'))) - ident = Word(alphas+'_', alphanums+'_') - number = pyparsing_common.number - arg = Group(decl_data_type + ident) - LPAR,RPAR = map(Suppress, "()") - - code_body = nestedExpr('{', '}', ignoreExpr=(quotedString | cStyleComment)) - - c_function = (decl_data_type("type") - + ident("name") - + LPAR + Optional(delimitedList(arg), [])("args") + RPAR - + code_body("body")) - c_function.ignore(cStyleComment) - - source_code = ''' - int is_odd(int x) { - return (x%2); - } - - int dec_to_hex(char hchar) { - if (hchar >= '0' && hchar <= '9') { - return (ord(hchar)-ord('0')); - } else { - return (10+ord(hchar)-ord('A')); - } - } - ''' - for func in c_function.searchString(source_code): - print("%(name)s (%(type)s) args: %(args)s" % func) - - prints:: - is_odd (int) args: [['int', 'x']] - dec_to_hex (int) args: [['char', 'hchar']] - """ - if opener == closer: - raise ValueError("opening and closing strings cannot be the same") - if content is None: - if isinstance(opener,basestring) and isinstance(closer,basestring): - if len(opener) == 1 and len(closer)==1: - if ignoreExpr is not None: - content = (Combine(OneOrMore(~ignoreExpr + - CharsNotIn(opener+closer+ParserElement.DEFAULT_WHITE_CHARS,exact=1)) - ).setParseAction(lambda t:t[0].strip())) - else: - content = (empty.copy()+CharsNotIn(opener+closer+ParserElement.DEFAULT_WHITE_CHARS - ).setParseAction(lambda t:t[0].strip())) - else: - if ignoreExpr is not None: - content = (Combine(OneOrMore(~ignoreExpr + - ~Literal(opener) + ~Literal(closer) + - CharsNotIn(ParserElement.DEFAULT_WHITE_CHARS,exact=1)) - ).setParseAction(lambda t:t[0].strip())) - else: - content = (Combine(OneOrMore(~Literal(opener) + ~Literal(closer) + - CharsNotIn(ParserElement.DEFAULT_WHITE_CHARS,exact=1)) - ).setParseAction(lambda t:t[0].strip())) - else: - raise ValueError("opening and closing arguments must be strings if no content expression is given") - ret = Forward() - if ignoreExpr is not None: - ret <<= Group( Suppress(opener) + ZeroOrMore( ignoreExpr | ret | content ) + Suppress(closer) ) - else: - ret <<= Group( Suppress(opener) + ZeroOrMore( ret | content ) + Suppress(closer) ) - ret.setName('nested %s%s expression' % (opener,closer)) - return ret - -def indentedBlock(blockStatementExpr, indentStack, indent=True): - """ - Helper method for defining space-delimited indentation blocks, such as - those used to define block statements in Python source code. - - Parameters: - - blockStatementExpr - expression defining syntax of statement that - is repeated within the indented block - - indentStack - list created by caller to manage indentation stack - (multiple statementWithIndentedBlock expressions within a single grammar - should share a common indentStack) - - indent - boolean indicating whether block must be indented beyond the - the current level; set to False for block of left-most statements - (default=C{True}) - - A valid block must contain at least one C{blockStatement}. - - Example:: - data = ''' - def A(z): - A1 - B = 100 - G = A2 - A2 - A3 - B - def BB(a,b,c): - BB1 - def BBA(): - bba1 - bba2 - bba3 - C - D - def spam(x,y): - def eggs(z): - pass - ''' - - - indentStack = [1] - stmt = Forward() - - identifier = Word(alphas, alphanums) - funcDecl = ("def" + identifier + Group( "(" + Optional( delimitedList(identifier) ) + ")" ) + ":") - func_body = indentedBlock(stmt, indentStack) - funcDef = Group( funcDecl + func_body ) - - rvalue = Forward() - funcCall = Group(identifier + "(" + Optional(delimitedList(rvalue)) + ")") - rvalue << (funcCall | identifier | Word(nums)) - assignment = Group(identifier + "=" + rvalue) - stmt << ( funcDef | assignment | identifier ) - - module_body = OneOrMore(stmt) - - parseTree = module_body.parseString(data) - parseTree.pprint() - prints:: - [['def', - 'A', - ['(', 'z', ')'], - ':', - [['A1'], [['B', '=', '100']], [['G', '=', 'A2']], ['A2'], ['A3']]], - 'B', - ['def', - 'BB', - ['(', 'a', 'b', 'c', ')'], - ':', - [['BB1'], [['def', 'BBA', ['(', ')'], ':', [['bba1'], ['bba2'], ['bba3']]]]]], - 'C', - 'D', - ['def', - 'spam', - ['(', 'x', 'y', ')'], - ':', - [[['def', 'eggs', ['(', 'z', ')'], ':', [['pass']]]]]]] - """ - def checkPeerIndent(s,l,t): - if l >= len(s): return - curCol = col(l,s) - if curCol != indentStack[-1]: - if curCol > indentStack[-1]: - raise ParseFatalException(s,l,"illegal nesting") - raise ParseException(s,l,"not a peer entry") - - def checkSubIndent(s,l,t): - curCol = col(l,s) - if curCol > indentStack[-1]: - indentStack.append( curCol ) - else: - raise ParseException(s,l,"not a subentry") - - def checkUnindent(s,l,t): - if l >= len(s): return - curCol = col(l,s) - if not(indentStack and curCol < indentStack[-1] and curCol <= indentStack[-2]): - raise ParseException(s,l,"not an unindent") - indentStack.pop() - - NL = OneOrMore(LineEnd().setWhitespaceChars("\t ").suppress()) - INDENT = (Empty() + Empty().setParseAction(checkSubIndent)).setName('INDENT') - PEER = Empty().setParseAction(checkPeerIndent).setName('') - UNDENT = Empty().setParseAction(checkUnindent).setName('UNINDENT') - if indent: - smExpr = Group( Optional(NL) + - #~ FollowedBy(blockStatementExpr) + - INDENT + (OneOrMore( PEER + Group(blockStatementExpr) + Optional(NL) )) + UNDENT) - else: - smExpr = Group( Optional(NL) + - (OneOrMore( PEER + Group(blockStatementExpr) + Optional(NL) )) ) - blockStatementExpr.ignore(_bslash + LineEnd()) - return smExpr.setName('indented block') - -alphas8bit = srange(r"[\0xc0-\0xd6\0xd8-\0xf6\0xf8-\0xff]") -punc8bit = srange(r"[\0xa1-\0xbf\0xd7\0xf7]") - -anyOpenTag,anyCloseTag = makeHTMLTags(Word(alphas,alphanums+"_:").setName('any tag')) -_htmlEntityMap = dict(zip("gt lt amp nbsp quot apos".split(),'><& "\'')) -commonHTMLEntity = Regex('&(?P<entity>' + '|'.join(_htmlEntityMap.keys()) +");").setName("common HTML entity") -def replaceHTMLEntity(t): - """Helper parser action to replace common HTML entities with their special characters""" - return _htmlEntityMap.get(t.entity) - -# it's easy to get these comment structures wrong - they're very common, so may as well make them available -cStyleComment = Combine(Regex(r"/\*(?:[^*]|\*(?!/))*") + '*/').setName("C style comment") -"Comment of the form C{/* ... */}" - -htmlComment = Regex(r"<!--[\s\S]*?-->").setName("HTML comment") -"Comment of the form C{<!-- ... -->}" - -restOfLine = Regex(r".*").leaveWhitespace().setName("rest of line") -dblSlashComment = Regex(r"//(?:\\\n|[^\n])*").setName("// comment") -"Comment of the form C{// ... (to end of line)}" - -cppStyleComment = Combine(Regex(r"/\*(?:[^*]|\*(?!/))*") + '*/'| dblSlashComment).setName("C++ style comment") -"Comment of either form C{L{cStyleComment}} or C{L{dblSlashComment}}" - -javaStyleComment = cppStyleComment -"Same as C{L{cppStyleComment}}" - -pythonStyleComment = Regex(r"#.*").setName("Python style comment") -"Comment of the form C{# ... (to end of line)}" - -_commasepitem = Combine(OneOrMore(Word(printables, excludeChars=',') + - Optional( Word(" \t") + - ~Literal(",") + ~LineEnd() ) ) ).streamline().setName("commaItem") -commaSeparatedList = delimitedList( Optional( quotedString.copy() | _commasepitem, default="") ).setName("commaSeparatedList") -"""(Deprecated) Predefined expression of 1 or more printable words or quoted strings, separated by commas. - This expression is deprecated in favor of L{pyparsing_common.comma_separated_list}.""" - -# some other useful expressions - using lower-case class name since we are really using this as a namespace -class pyparsing_common: - """ - Here are some common low-level expressions that may be useful in jump-starting parser development: - - numeric forms (L{integers<integer>}, L{reals<real>}, L{scientific notation<sci_real>}) - - common L{programming identifiers<identifier>} - - network addresses (L{MAC<mac_address>}, L{IPv4<ipv4_address>}, L{IPv6<ipv6_address>}) - - ISO8601 L{dates<iso8601_date>} and L{datetime<iso8601_datetime>} - - L{UUID<uuid>} - - L{comma-separated list<comma_separated_list>} - Parse actions: - - C{L{convertToInteger}} - - C{L{convertToFloat}} - - C{L{convertToDate}} - - C{L{convertToDatetime}} - - C{L{stripHTMLTags}} - - C{L{upcaseTokens}} - - C{L{downcaseTokens}} - - Example:: - pyparsing_common.number.runTests(''' - # any int or real number, returned as the appropriate type - 100 - -100 - +100 - 3.14159 - 6.02e23 - 1e-12 - ''') - - pyparsing_common.fnumber.runTests(''' - # any int or real number, returned as float - 100 - -100 - +100 - 3.14159 - 6.02e23 - 1e-12 - ''') - - pyparsing_common.hex_integer.runTests(''' - # hex numbers - 100 - FF - ''') - - pyparsing_common.fraction.runTests(''' - # fractions - 1/2 - -3/4 - ''') - - pyparsing_common.mixed_integer.runTests(''' - # mixed fractions - 1 - 1/2 - -3/4 - 1-3/4 - ''') - - import uuid - pyparsing_common.uuid.setParseAction(tokenMap(uuid.UUID)) - pyparsing_common.uuid.runTests(''' - # uuid - 12345678-1234-5678-1234-567812345678 - ''') - prints:: - # any int or real number, returned as the appropriate type - 100 - [100] - - -100 - [-100] - - +100 - [100] - - 3.14159 - [3.14159] - - 6.02e23 - [6.02e+23] - - 1e-12 - [1e-12] - - # any int or real number, returned as float - 100 - [100.0] - - -100 - [-100.0] - - +100 - [100.0] - - 3.14159 - [3.14159] - - 6.02e23 - [6.02e+23] - - 1e-12 - [1e-12] - - # hex numbers - 100 - [256] - - FF - [255] - - # fractions - 1/2 - [0.5] - - -3/4 - [-0.75] - - # mixed fractions - 1 - [1] - - 1/2 - [0.5] - - -3/4 - [-0.75] - - 1-3/4 - [1.75] - - # uuid - 12345678-1234-5678-1234-567812345678 - [UUID('12345678-1234-5678-1234-567812345678')] - """ - - convertToInteger = tokenMap(int) - """ - Parse action for converting parsed integers to Python int - """ - - convertToFloat = tokenMap(float) - """ - Parse action for converting parsed numbers to Python float - """ - - integer = Word(nums).setName("integer").setParseAction(convertToInteger) - """expression that parses an unsigned integer, returns an int""" - - hex_integer = Word(hexnums).setName("hex integer").setParseAction(tokenMap(int,16)) - """expression that parses a hexadecimal integer, returns an int""" - - signed_integer = Regex(r'[+-]?\d+').setName("signed integer").setParseAction(convertToInteger) - """expression that parses an integer with optional leading sign, returns an int""" - - fraction = (signed_integer().setParseAction(convertToFloat) + '/' + signed_integer().setParseAction(convertToFloat)).setName("fraction") - """fractional expression of an integer divided by an integer, returns a float""" - fraction.addParseAction(lambda t: t[0]/t[-1]) - - mixed_integer = (fraction | signed_integer + Optional(Optional('-').suppress() + fraction)).setName("fraction or mixed integer-fraction") - """mixed integer of the form 'integer - fraction', with optional leading integer, returns float""" - mixed_integer.addParseAction(sum) - - real = Regex(r'[+-]?\d+\.\d*').setName("real number").setParseAction(convertToFloat) - """expression that parses a floating point number and returns a float""" - - sci_real = Regex(r'[+-]?\d+([eE][+-]?\d+|\.\d*([eE][+-]?\d+)?)').setName("real number with scientific notation").setParseAction(convertToFloat) - """expression that parses a floating point number with optional scientific notation and returns a float""" - - # streamlining this expression makes the docs nicer-looking - number = (sci_real | real | signed_integer).streamline() - """any numeric expression, returns the corresponding Python type""" - - fnumber = Regex(r'[+-]?\d+\.?\d*([eE][+-]?\d+)?').setName("fnumber").setParseAction(convertToFloat) - """any int or real number, returned as float""" - - identifier = Word(alphas+'_', alphanums+'_').setName("identifier") - """typical code identifier (leading alpha or '_', followed by 0 or more alphas, nums, or '_')""" - - ipv4_address = Regex(r'(25[0-5]|2[0-4][0-9]|1?[0-9]{1,2})(\.(25[0-5]|2[0-4][0-9]|1?[0-9]{1,2})){3}').setName("IPv4 address") - "IPv4 address (C{0.0.0.0 - 255.255.255.255})" - - _ipv6_part = Regex(r'[0-9a-fA-F]{1,4}').setName("hex_integer") - _full_ipv6_address = (_ipv6_part + (':' + _ipv6_part)*7).setName("full IPv6 address") - _short_ipv6_address = (Optional(_ipv6_part + (':' + _ipv6_part)*(0,6)) + "::" + Optional(_ipv6_part + (':' + _ipv6_part)*(0,6))).setName("short IPv6 address") - _short_ipv6_address.addCondition(lambda t: sum(1 for tt in t if pyparsing_common._ipv6_part.matches(tt)) < 8) - _mixed_ipv6_address = ("::ffff:" + ipv4_address).setName("mixed IPv6 address") - ipv6_address = Combine((_full_ipv6_address | _mixed_ipv6_address | _short_ipv6_address).setName("IPv6 address")).setName("IPv6 address") - "IPv6 address (long, short, or mixed form)" - - mac_address = Regex(r'[0-9a-fA-F]{2}([:.-])[0-9a-fA-F]{2}(?:\1[0-9a-fA-F]{2}){4}').setName("MAC address") - "MAC address xx:xx:xx:xx:xx (may also have '-' or '.' delimiters)" - - @staticmethod - def convertToDate(fmt="%Y-%m-%d"): - """ - Helper to create a parse action for converting parsed date string to Python datetime.date - - Params - - - fmt - format to be passed to datetime.strptime (default=C{"%Y-%m-%d"}) - - Example:: - date_expr = pyparsing_common.iso8601_date.copy() - date_expr.setParseAction(pyparsing_common.convertToDate()) - print(date_expr.parseString("1999-12-31")) - prints:: - [datetime.date(1999, 12, 31)] - """ - def cvt_fn(s,l,t): - try: - return datetime.strptime(t[0], fmt).date() - except ValueError as ve: - raise ParseException(s, l, str(ve)) - return cvt_fn - - @staticmethod - def convertToDatetime(fmt="%Y-%m-%dT%H:%M:%S.%f"): - """ - Helper to create a parse action for converting parsed datetime string to Python datetime.datetime - - Params - - - fmt - format to be passed to datetime.strptime (default=C{"%Y-%m-%dT%H:%M:%S.%f"}) - - Example:: - dt_expr = pyparsing_common.iso8601_datetime.copy() - dt_expr.setParseAction(pyparsing_common.convertToDatetime()) - print(dt_expr.parseString("1999-12-31T23:59:59.999")) - prints:: - [datetime.datetime(1999, 12, 31, 23, 59, 59, 999000)] - """ - def cvt_fn(s,l,t): - try: - return datetime.strptime(t[0], fmt) - except ValueError as ve: - raise ParseException(s, l, str(ve)) - return cvt_fn - - iso8601_date = Regex(r'(?P<year>\d{4})(?:-(?P<month>\d\d)(?:-(?P<day>\d\d))?)?').setName("ISO8601 date") - "ISO8601 date (C{yyyy-mm-dd})" - - iso8601_datetime = Regex(r'(?P<year>\d{4})-(?P<month>\d\d)-(?P<day>\d\d)[T ](?P<hour>\d\d):(?P<minute>\d\d)(:(?P<second>\d\d(\.\d*)?)?)?(?P<tz>Z|[+-]\d\d:?\d\d)?').setName("ISO8601 datetime") - "ISO8601 datetime (C{yyyy-mm-ddThh:mm:ss.s(Z|+-00:00)}) - trailing seconds, milliseconds, and timezone optional; accepts separating C{'T'} or C{' '}" - - uuid = Regex(r'[0-9a-fA-F]{8}(-[0-9a-fA-F]{4}){3}-[0-9a-fA-F]{12}').setName("UUID") - "UUID (C{xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx})" - - _html_stripper = anyOpenTag.suppress() | anyCloseTag.suppress() - @staticmethod - def stripHTMLTags(s, l, tokens): - """ - Parse action to remove HTML tags from web page HTML source - - Example:: - # strip HTML links from normal text - text = '<td>More info at the <a href="http://pyparsing.wikispaces.com">pyparsing</a> wiki page</td>' - td,td_end = makeHTMLTags("TD") - table_text = td + SkipTo(td_end).setParseAction(pyparsing_common.stripHTMLTags)("body") + td_end - - print(table_text.parseString(text).body) # -> 'More info at the pyparsing wiki page' - """ - return pyparsing_common._html_stripper.transformString(tokens[0]) - - _commasepitem = Combine(OneOrMore(~Literal(",") + ~LineEnd() + Word(printables, excludeChars=',') - + Optional( White(" \t") ) ) ).streamline().setName("commaItem") - comma_separated_list = delimitedList( Optional( quotedString.copy() | _commasepitem, default="") ).setName("comma separated list") - """Predefined expression of 1 or more printable words or quoted strings, separated by commas.""" - - upcaseTokens = staticmethod(tokenMap(lambda t: _ustr(t).upper())) - """Parse action to convert tokens to upper case.""" - - downcaseTokens = staticmethod(tokenMap(lambda t: _ustr(t).lower())) - """Parse action to convert tokens to lower case.""" - - -if __name__ == "__main__": - - selectToken = CaselessLiteral("select") - fromToken = CaselessLiteral("from") - - ident = Word(alphas, alphanums + "_$") - - columnName = delimitedList(ident, ".", combine=True).setParseAction(upcaseTokens) - columnNameList = Group(delimitedList(columnName)).setName("columns") - columnSpec = ('*' | columnNameList) - - tableName = delimitedList(ident, ".", combine=True).setParseAction(upcaseTokens) - tableNameList = Group(delimitedList(tableName)).setName("tables") - - simpleSQL = selectToken("command") + columnSpec("columns") + fromToken + tableNameList("tables") - - # demo runTests method, including embedded comments in test string - simpleSQL.runTests(""" - # '*' as column list and dotted table name - select * from SYS.XYZZY - - # caseless match on "SELECT", and casts back to "select" - SELECT * from XYZZY, ABC - - # list of column names, and mixed case SELECT keyword - Select AA,BB,CC from Sys.dual - - # multiple tables - Select A, B, C from Sys.dual, Table2 - - # invalid SELECT keyword - should fail - Xelect A, B, C from Sys.dual - - # incomplete command - should fail - Select - - # invalid column name - should fail - Select ^^^ frox Sys.dual - - """) - - pyparsing_common.number.runTests(""" - 100 - -100 - +100 - 3.14159 - 6.02e23 - 1e-12 - """) - - # any int or real number, returned as float - pyparsing_common.fnumber.runTests(""" - 100 - -100 - +100 - 3.14159 - 6.02e23 - 1e-12 - """) - - pyparsing_common.hex_integer.runTests(""" - 100 - FF - """) - - import uuid - pyparsing_common.uuid.setParseAction(tokenMap(uuid.UUID)) - pyparsing_common.uuid.runTests(""" - 12345678-1234-5678-1234-567812345678 - """)