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ttree_lex.py
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ttree_lex.py
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# -*- coding: iso-8859-1 -*-
### -*- coding: utf-8 -*-
# Authors: Eric S. Raymond, 21 Dec 1998
# Andrew Jewett (jewett.aij at g mail)
# LICENSE: The PSF license:
# https://docs.python.org/3/license.html
# The PSF license is compatible with the GPL license. It is not a copyleft
# license. It is apparently similar to the BSD and MIT licenses.
#
# Contributions:
# Module and documentation by Eric S. Raymond, 21 Dec 1998
# Input stacking and error message cleanup added by ESR, March 2000
# push_source() and pop_source() made explicit by ESR, January 2001.
# Posix compliance, split(), string arguments, and
# iterator interface by Gustavo Niemeyer, April 2003.
# Unicode support hack ("wordterminators") and numerous other hideous
# ttree-specific hacks added by Andrew Jewett September 2011.
"""A lexical analyzer class for simple shell-like syntaxes.
This version has been modified slightly to work better with unicode.
It was forked from the version of shlex that ships with python 3.2.2.
A few minor features and functions have been added. -Andrew Jewett 2011 """
import os.path
import sys
from collections import deque
import re
import fnmatch
import string
#import gc
try:
from cStringIO import StringIO
except ImportError:
try:
from StringIO import StringIO
except ImportError:
from io import StringIO
__all__ = ["TtreeShlex",
"split",
"LineLex",
"SplitQuotedString",
"ExtractVarName",
"GetVarName",
"EscCharStrToChar",
"SafelyEncodeString",
"RemoveOuterQuotes",
"MaxLenStr",
"VarNameToRegex",
"HasRE",
"HasWildcard",
"MatchesPattern",
"InputError",
"ErrorLeader",
"SrcLoc",
"OSrcLoc",
"TextBlock",
"VarRef",
"VarNPtr",
"VarBinding",
"SplitTemplate",
"SplitTemplateMulti",
"TableFromTemplate",
"ExtractCatName",
#"_TableFromTemplate",
#"_DeleteLineFromTemplate",
"DeleteLinesWithBadVars",
"TemplateLexer"]
class TtreeShlex(object):
""" A lexical analyzer class for simple shell-like syntaxes.
TtreeShlex is a backwards-compatible version of python's standard shlex
module. It has the additional member: "self.wordterminators", which
overrides the "self.wordchars" member. This enables better handling of
unicode characters by allowing a much larger variety of characters to
appear in words or tokens parsed by TtreeShlex.
"""
def __init__(self,
instream=None,
infile=None,
posix=False):
if isinstance(instream, str):
instream = StringIO(instream)
if instream is not None:
self.instream = instream
self.infile = infile
else:
self.instream = sys.stdin
self.infile = None
self.posix = posix
if posix:
self.eof = None
else:
self.eof = ''
self.commenters = '#'
self.wordchars = ('abcdfeghijklmnopqrstuvwxyz'
'ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789_')
#if self.posix:
# self.wordchars += ('ßàáâãäåæçèéêëìíîïðñòóôõöøùúûüýþÿ'
# 'ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖØÙÚÛÜÝÞ')
if self.posix:
self.wordchars += ('��������������������������������'
'������������������������������')
self.wordterminators = set([])
self.prev_space_terminator = ''
self.whitespace = ' \t\r\f\n'
self.whitespace_split = False
self.quotes = '\'"'
self.escape = '\\'
self.escapedquotes = '"'
self.operators = '=' #binary numeric operators like +-*/ might be added
self.state = ' '
self.pushback = deque()
self.lineno = 1
self.debug = 0
self.token = ''
self.filestack = deque()
# self.source_triggers
# are tokens which allow the seamless insertion of other
# files into the file being read.
self.source_triggers = set(['source'])
self.source_triggers_x = set([])
# self.source_triggers_x is a subset of self.source_triggers.
# In this case file inclusion is exclusive.
# In other words, the file is only included
# if it has not been included already. It does this
# by checking if one of these tokens has been encountered.
self.source_files_restricted = set([])
self.include_path = []
if 'TTREE_PATH' in os.environ:
include_path_list = os.environ['TTREE_PATH'].split(':')
self.include_path += [d for d in include_path_list if len(d) > 0]
if self.debug:
sys.stderr.write('TtreeShlex: reading from %s, line %d'
% (self.instream, self.lineno))
self.end_encountered = False
@staticmethod
def _belongs_to(char, include_chars, exclude_chars):
if ((not exclude_chars) or (len(exclude_chars)==0)):
return char in include_chars
else:
return char not in exclude_chars
def push_raw_text(self, text):
"""Push a block of text onto the stack popped by the ReadLine() method.
(If multiple lines are present in the text, (which is determined by
self.line_terminators), then the text is split into multiple lines
and each one of them is pushed onto this stack individually.
The "self.lineno" counter is also adjusted, depending on the number
of newline characters in "line".
Do not strip off the newline, or other line terminators
at the end of the text block before using push_raw_text()!
"""
if self.debug >= 1:
sys.stderr.write("TtreeShlex: pushing token " + repr(text))
for c in reversed(text):
self.pushback.appendleft(c)
if c == '\n':
self.lineno -= 1
if len(text) > 0:
self.end_encountered = False
def push_token(self, text):
"Push a token onto the stack popped by the get_token method"
self.push_raw_text(text + self.prev_space_terminator)
def push_source(self, newstream, newfile=None):
"Push an input source onto the lexer's input source stack."
if isinstance(newstream, str):
newstream = StringIO(newstream)
self.filestack.appendleft((self.infile, self.instream, self.lineno))
self.infile = newfile
self.instream = newstream
self.lineno = 1
if self.debug:
if newfile is not None:
sys.stderr.write('TtreeShlex: pushing to file %s' % (self.infile,))
else:
sys.stderr.write('TtreeShlex: pushing to stream %s' % (self.instream,))
def pop_source(self):
"Pop the input source stack."
self.instream.close()
(self.infile, self.instream, self.lineno) = self.filestack.popleft()
if self.debug:
sys.stderr.write('TtreeShlex: popping to %s, line %d'
% (self.instream, self.lineno))
self.state = ' '
def get_token(self):
"Get a token from the input stream (or from stack if it's nonempty)"
#### #CHANGING: self.pushback is now a stack of characters, not tokens
#### if self.pushback:
#### tok = self.pushback.popleft()
#### if self.debug >= 1:
#### sys.stderr.write("TtreeShlex: popping token " + repr(tok))
#### return tok
#### No pushback. Get a token.
raw = self.read_token()
# Handle inclusions
if self.source_triggers is not None:
while raw in self.source_triggers:
fname = self.read_token()
spec = self.sourcehook(fname)
if spec:
(newfile, newstream) = spec
if ((raw not in self.source_triggers_x) or
(newfile not in self.source_files_restricted)):
self.push_source(newstream, newfile)
if raw in self.source_triggers_x:
self.source_files_restricted.add(newfile)
else:
if self.debug >= 1:
sys.stderr.write(
'\ndebug warning: duplicate attempt to import file:\n \"' + newfile + '\"\n')
raw = self.get_token()
# Maybe we got EOF instead?
while raw == self.eof:
if not self.filestack:
return self.eof
else:
self.pop_source()
raw = self.get_token()
# Neither inclusion nor EOF
if self.debug >= 1:
if raw != self.eof:
sys.stderr.write("TtreeShlex: token=" + repr(raw))
else:
sys.stderr.write("TtreeShlex: token=EOF")
if raw == self.eof:
self.end_encountered = True
return raw
def read_char(self):
if self.pushback:
nextchar = self.pushback.popleft()
assert((type(nextchar) is str) and (len(nextchar)==1))
else:
nextchar = self.instream.read(1)
return nextchar
def read_token(self):
self.prev_space_terminator = ''
quoted = False
escapedstate = ' '
while True:
#### self.pushback is now a stack of characters, not tokens
nextchar = self.read_char()
if nextchar == '\n':
self.lineno = self.lineno + 1
if self.debug >= 3:
sys.stderr.write("TtreeShlex: in state", repr(self.state),
"I see character:", repr(nextchar))
if self.state is None:
self.token = '' # past end of file
break
elif self.state == ' ':
if not nextchar:
self.state = None # end of file
break
elif nextchar in self.whitespace:
if self.debug >= 2:
sys.stderr.write("TtreeShlex: I see whitespace in whitespace state")
if self.token or (self.posix and quoted):
# Keep track of which whitespace
# character terminated the token.
self.prev_space_terminator = nextchar
break # emit current token
else:
continue
elif nextchar in self.commenters:
self.instream.readline()
self.lineno = self.lineno + 1
elif self.posix and nextchar in self.escape:
escapedstate = 'a'
self.state = nextchar
elif TtreeShlex._belongs_to(nextchar,
self.wordchars,
self.wordterminators):
self.token = nextchar
self.state = 'a'
elif nextchar in self.quotes:
if not self.posix:
self.token = nextchar
self.state = nextchar
elif self.whitespace_split:
self.token = nextchar
self.state = 'a'
else:
self.token = nextchar
if self.token or (self.posix and quoted):
break # emit current token
else:
continue
elif self.state in self.quotes:
quoted = True
if not nextchar: # end of file
if self.debug >= 2:
sys.stderr.write("TtreeShlex: I see EOF in quotes state")
# XXX what error should be raised here?
raise ValueError("Error at or before " + self.error_leader() + "\n"
" No closing quotation.")
if nextchar == self.state:
if not self.posix:
self.token = self.token + nextchar
self.state = ' '
break
else:
self.state = 'a'
elif self.posix and nextchar in self.escape and \
self.state in self.escapedquotes:
escapedstate = self.state
self.state = nextchar
else:
self.token = self.token + nextchar
elif self.state in self.escape:
if not nextchar: # end of file
if self.debug >= 2:
sys.stderr.write("TtreeShlex: I see EOF in escape state")
# What error should be raised here?
raise InputError('File terminated immediately following an escape character.')
# In posix shells, only the quote itself or the escape
# character may be escaped within quotes.
if escapedstate in self.quotes and \
nextchar != self.state and nextchar != escapedstate:
self.token = self.token + self.state
self.token = self.token + nextchar
self.state = escapedstate
elif self.state == 'a':
if not nextchar:
self.state = None # end of file
break
elif nextchar in self.whitespace:
if self.debug >= 2:
sys.stderr.write("TtreeShlex: I see whitespace in word state")
self.state = ' '
if self.token or (self.posix and quoted):
# Keep track of which whitespace
# character terminated the token.
self.prev_space_terminator = nextchar
break # emit current token
else:
continue
elif nextchar in self.commenters:
comment_contents = self.instream.readline()
self.lineno = self.lineno + 1
if self.posix:
self.state = ' '
if self.token or (self.posix and quoted):
# Keep track of which character(s) terminated
# the token (including whitespace and comments).
self.prev_space_terminator = nextchar + comment_contents
break # emit current token
else:
continue
elif self.posix and nextchar in self.quotes:
self.state = nextchar
elif self.posix and nextchar in self.escape:
escapedstate = 'a'
self.state = nextchar
elif (TtreeShlex._belongs_to(nextchar,
self.wordchars,
self.wordterminators)
or (nextchar in self.quotes)
or (self.whitespace_split)):
self.token = self.token + nextchar
else:
self.pushback.appendleft(nextchar)
if self.debug >= 2:
sys.stderr.write("TtreeShlex: I see punctuation in word state")
self.state = ' '
if self.token:
break # emit current token
else:
continue
result = self.token
self.token = ''
if self.posix and not quoted and result == '':
result = None
if self.debug > 1:
if result:
sys.stderr.write("TtreeShlex: raw token=" + repr(result))
else:
sys.stderr.write("TtreeShlex: raw token=EOF")
return result
def sourcehook(self, newfile):
"Hook called on a filename to be sourced."
newfile = RemoveOuterQuotes(newfile)
# This implements cpp-like semantics for relative-path inclusion.
newfile_full = newfile
if isinstance(self.infile, str) and not os.path.isabs(newfile):
newfile_full = os.path.join(os.path.dirname(self.infile), newfile)
try:
f = open(newfile_full, "r")
except IOError:
# If not found,
err = True
# ...then check to see if the file is in one of the
# directories in the self.include_path list.
for d in self.include_path:
newfile_full = os.path.join(d, newfile)
try:
f = open(newfile_full, "r")
err = False
break
except IOError:
err = True
if err:
raise InputError('Error at ' + self.error_leader() + '\n'
' unable to open file \"' + newfile + '\"\n'
' for reading.\n')
return (newfile, f)
def error_leader(self, infile=None, lineno=None):
"Emit a C-compiler-like, Emacs-friendly error-message leader."
if infile is None:
infile = self.infile
if lineno is None:
lineno = self.lineno
return "\"%s\", line %d: " % (infile, lineno)
def __iter__(self):
return self
def __next__(self):
token = self.get_token()
if token == self.eof:
raise StopIteration
return token
def __bool__(self):
return not self.end_encountered
# For compatibility with python 2.x, I must also define:
def __nonzero__(self):
return self.__bool__()
# The split() function was originally from shlex
# It is included for backwards compatibility.
def split(s, comments=False, posix=True):
lex = TtreeShlex(s, posix=posix)
lex.whitespace_split = True
if not comments:
lex.commenters = ''
return list(lex)
##################### NEW ADDITIONS (may be removed later) #################
#"""
# -- linelex.py --
# linelex.py defines the LineLex class, which inherits from, and further
# augments the capabilities of TtreeShlex by making it easier to parse
# individual lines one at a time. (The original shlex's "source" inclusion
# ability still works when reading entire lines, and lines are still counted.)
#
#"""
#import sys
class InputError(Exception):
""" A generic exception object containing a string for error reporting.
(Raising this exception implies that the caller has provided
a faulty input file or argument.)
"""
def __init__(self, err_msg):
self.err_msg = err_msg
def __str__(self):
return self.err_msg
def __repr__(self):
return str(self)
def ErrorLeader(infile, lineno):
return '\"' + infile + '\", line ' + str(lineno)
class SrcLoc(object):
""" SrcLoc is essentially nothing more than a 2-tuple containing the name
of a file (str) and a particular line number inside that file (an integer).
"""
__slots__ = ["infile", "lineno"]
def __init__(self, infile='', lineno=-1):
self.infile = infile
self.lineno = lineno
def SplitQuotedString(string,
quotes='\'\"',
delimiters=' \t\r\f\n',
escape='\\',
comment_char='#',
endquote=None):
tokens = []
token = ''
reading_token = True
escaped_state = False
quote_state = None
for c in string:
if (c in comment_char) and (not escaped_state) and (quote_state == None):
tokens.append(token)
return tokens
elif (c in delimiters) and (not escaped_state) and (quote_state == None):
if reading_token:
tokens.append(token)
token = ''
reading_token = False
elif c in escape:
if escaped_state:
token += c
reading_token = True
escaped_state = False
else:
escaped_state = True
# and leave c (the '\' character) out of token
elif (c == quote_state) and (not escaped_state) and (quote_state != None):
quote_state = None
if include_endquote:
token += c
elif (c in quotes) and (not escaped_state):
if quote_state == None:
if endquote != None:
quote_state = endquote
else:
quote_state = c
# Now deal with strings like
# a "b" "c d" efg"h i j"
# Assuming quotes='"', then we want this to be split into:
# ['a', 'b', 'c d', 'efg"h i j"']
# ...in other words, include the end quote if the token did
# not begin with a quote
include_endquote = False
if token != '':
# if this is not the first character in the token
include_endquote = True
token += c
reading_token = True
else:
if (c == 'n') and (escaped_state == True):
c = '\n'
elif (c == 't') and (escaped_state == True):
c = '\t'
elif (c == 'r') and (escaped_state == True):
c = '\r'
elif (c == 'f') and (escaped_state == True):
c = '\f'
token += c
reading_token = True
escaped_state = False
# Remove any empty strings from the front or back of the list,
# just in case SplitQuotedString() fails to remove them.
# (Possible bug in SplitQuotedString(), but too lazy to investigate.)
if (len(tokens) > 0) and (tokens[0] == ''):
del tokens[0]
if (len(tokens) > 0) and (tokens[-1] == ''):
del tokens[-1]
if (len(string) > 0) and (token != ''):
tokens.append(token)
return tokens
def GetVarName(lex):
""" Read a string like 'atom:A ' or '{/atom:A B/C/../D }ABC '
and return ('','atom:A',' ') or ('{','/atom:A B/C/../D ','}ABC')
These are 3-tuples containing the portion of the text containing
only the variable's name (assumed to be within the text),
...in addition to the text on either side of the variable name.
"""
escape = '\''
lparen = '{'
rparen = '}'
if hasattr(lex, 'escape'):
escape = lex.escape
if hasattr(lex, 'var_open_paren'):
lparen = lex.var_open_paren
if hasattr(lex, 'var_close_paren'):
rparen = lex.var_close_paren
nextchar = lex.read_char()
# Skip past the left-hand side paren '{'
paren_depth = 0
escaped = False
if nextchar == lparen:
paren_depth = 1
elif nextchar in lex.escape:
escaped = True
elif (hasattr(lex, 'wordterminators') and
(nextchar in lex.wordterminators)):
lex.push_raw_text(nextchar)
return ''
else:
lex.push_raw_text(nextchar)
# Now read the variable name:
var_name_l = []
while lex:
nextchar=lex.read_char()
if nextchar == '':
break
elif nextchar == '\n':
lex.lineno += 1
if paren_depth > 0:
var_name_l.append(nextchar)
else:
lex.push_raw_text(nextchar)
break
elif escaped:
var_name_l.append(nextchar)
escaped = False
elif nextchar in lex.escape:
escaped = True
elif nextchar == lparen:
paren_depth += 1
if (hasattr(lex, 'wordterminators') and
(nextchar in lex.wordterminators)):
lex.push_raw_text(nextchar)
break
else:
var_name_l.append(nextchar)
elif nextchar == rparen:
paren_depth -= 1
if paren_depth == 0:
break
elif (hasattr(lex, 'wordterminators') and
(nextchar in lex.wordterminators)):
lex.push_raw_text(nextchar)
break
else:
var_name_l.append(nextchar)
elif paren_depth > 0:
var_name_l.append(nextchar)
escaped = False
elif nextchar in lex.whitespace:
lex.push_raw_text(nextchar)
break
elif (hasattr(lex, 'wordterminators') and
(nextchar in lex.wordterminators) and
(paren_depth == 0)):
lex.push_raw_text(nextchar)
break
elif nextchar in lex.commenters:
lex.instream.readline()
lex.lineno += 1
break
else:
var_name_l.append(nextchar)
escaped = False
var_name = ''.join(var_name_l)
return var_name
def ExtractVarName(text,
commenters = '#',
whitespace = ' \t\r\f\n'):
""" Read a string like 'atom:A ' or '{/atom:A B/C/../D }ABC '
and return ('','atom:A',' ') or ('{','/atom:A B/C/../D ','}ABC')
These are 3-tuples containing the portion of the text containing
only the variable's name (assumed to be within the text),
...in addition to the text on either side of the variable name.
"""
ibegin = 0
left_paren = ''
if text[0] == '{':
ibegin = 1
left_paren = text[0] #(GetVarName() strips the leading '{' character)
# The best way to insure consistency with other code is to use
# lex.GetVarName() to figure out where the variable name ends.
lex = TtreeShlex(StringIO(text))
var_name = GetVarName(lex)
# Any text following the end of the variable name should be returned as well
text_after_list = []
if left_paren:
text_after_list.append('}') #(GetVarName() strips the trailing '}' char)
while lex:
c = lex.read_char()
if c == '':
break
text_after_list.append(c)
text_after = ''.join(text_after_list)
return (left_paren, var_name, text_after)
def EscCharStrToChar(s_in, escape='\\'):
"""
EscCharStrToChar() replaces any escape sequences
in a string with their 1-character equivalents.
"""
assert(len(escape) > 0)
out_lstr = []
escaped_state = False
for c in s_in:
if escaped_state:
if (c == 'n'):
out_lstr.append('\n')
elif (c == 't'):
out_lstr.append('\t')
elif (c == 'r'):
out_lstr.append('\r')
elif (c == 'f'):
out_lstr.append('\f')
elif (c == '\''):
out_lstr.append('\'')
elif (c == '\"'):
out_lstr.append('\"')
elif c in escape:
out_lstr.append(c)
else:
out_lstr.append(escape + c) # <- keep both characters
escaped_state = False
else:
if c in escape:
escaped_state = True
else:
out_lstr.append(c)
return ''.join(out_lstr)
def SafelyEncodeString(in_str,
quotes='\'\"',
delimiters=' \t\r\f\n',
escape='\\',
comment_char='#'):
"""
SafelyEncodeString(in_str) scans through the input string (in_str),
and returns a new string in which probletic characters
(like newlines, tabs, quotes, etc), are replaced by their two-character
backslashed equivalents (like '\n', '\t', '\'', '\"', etc).
The escape character is the backslash by default, but it too can be
overridden to create custom escape sequences
(but this does not effect the encoding for characters like '\n', '\t').
"""
assert(len(escape) > 0)
out_lstr = []
use_outer_quotes = False
for c in in_str:
if (c == '\n'):
c = '\\n'
elif (c == '\t'):
c = '\\t'
elif (c == '\r'):
c = '\\r'
elif (c == '\f'):
c = '\\f'
elif c in quotes:
c = escape[0] + c
elif c in escape:
c = c + c
elif c in delimiters:
use_outer_quotes = True
# hmm... that's all that comes to mind. Did I leave anything out?
out_lstr.append(c)
if use_outer_quotes:
out_lstr = ['\"'] + out_lstr + ['\"']
return ''.join(out_lstr)
def RemoveOuterQuotes(text, quotes='\"\''):
if ((len(text) >= 2) and (text[0] in quotes) and (text[-1] == text[0])):
return text[1:-1]
else:
return text
def MaxLenStr(s1, s2):
if len(s2) > len(s1):
return s2
else:
return s1
def VarNameToRegex(s):
"""
Returns the portion of a TTREE-style variable name (eg "@atom:re.C[1-5]")
that corresponds to a regular expression (eg "C[1-5]"). A variable name
is assumed to encode a regular expression if it begins with "re.", OR if
the a ':' character is followed by "re.".
If so, the text in s (excluding "re.") is assumed to be a regular expresion
and is returned to the caller.
If not, the empty string ('') is returned.
If the first or second character is a '{', and if the final character
is '}', they will be deleted. Consequently:
VarNameToRegex('@atom:C') returns ''
VarNameToRegex('@atom:re.C[1-5]') returns '@atom:C[1-5]'
VarNameToRegex('@{/atom:re.C[1-5]}') returns '@/atom:C[1-5]'
VarNameToRegex('@bond:AB') returns ''
VarNameToRegex('@bond:re.A*B') returns '@bond:a*b'
VarNameToRegex('bond:re.A*B') returns 'bond:a*b'
VarNameToRegex('{bond:re.A*B}') returns 'bond:a*b'
VarNameToRegex('@{bond:re.A*B}') returns '@bond:a*b'
"""
# First, deal with parenthesis {}
iparen_L = s.find('{')
iparen_R = s.rfind('}')
if (((iparen_L == 0) or (iparen_L == 1)) and (iparen_R == len(s)-1)):
optional_char = ''
if iparen_L == 1:
optional_char = s[0]
s = optional_char + s[iparen_L+1:iparen_R]
# Now check to see if the remaining string contains 're.' or ':re.'
icolon = s.find(':')
# If 're.' is not found immediately after the first ':' character
# or following a '/' character
# (or if it is not found at the beginning when no ':' is present)
# then there is no regular expression. In that case, return ''
ire = s.find('re.')
if ((ire == -1) or
(not ((ire > 0) and ((s[ire-1] == ':') or (s[ire-1] == '/'))))):
return ''
return s[0:ire] + s[ire+3:]
def HasRE(pat):
"""
Returns true if a string (pat) begins with 're.'
"""
return len(VarNameToRegex(pat)) > 0
def HasWildcard(pat):
"""
Returns true if a string (pat) contains a '*' or '?' character.
"""
return (pat.find('*') != -1) or (pat.find('?') != -1)
# def HasWildcard(pat):
# """
# Returns true if a string (pat) contains a non-backslash-protected
# * or ? character.
#
# """
# N=len(pat)
# i=0
# while i < N:
# i = pat.find('*', i, N)
# if i == -1:
# break
# elif (i==0) or (pat[i-1] != '\\'):
# return True
# i += 1
# i=0
# while i < N:
# i = pat.find('?', i, N)
# if i == -1:
# break
# elif (i==0) or (pat[i-1] != '\\'):
# return True
# i += 1
# return False
def MatchesPattern(s, pattern):
if type(pattern) is str:
# old code:
# if ((len(s) > 1) and (s[0] == '/') and (s[-1] == '/'):
# re_string = p[1:-1] # strip off the slashes '/' and '/'
# if not re.search(re_string, s):
# return False
# new code:
# uses precompiled regular expressions (See "pattern.search" below)
if HasWildcard(pattern):
if not fnmatch.fnmatchcase(s, pattern):
return False
elif s != pattern:
return False
else:
#assert(type(p) is _sre.SRE_Match)
# I assume pattern = re.compile(some_reg_expr)
if not pattern.search(s):
return False
return True
def MatchesAll(multi_string, pattern):
assert(len(multi_string) == len(pattern))
for i in range(0, len(pattern)):
if not MatchesPattern(multi_string[i], pattern[i]):
return False
return True
class LineLex(TtreeShlex):
""" This class extends the TtreeShlex module (a slightly modified
version of the python 3.2.2 version of shlex). LineLex has the
ability to read one line at a time (in addition to one token at a time).
(Many files and scripts must be parsed one line at a time instead of one
token at a time. In these cases, the whitespace position also matters.)
Arguably, this class might not be necessary.
I could get rid of this class completely. That would be nice. To do that
we would need to augment and generalize shlex's get_token() member function
to make it read lines, not just tokens. Of course, you can always
change the wordchars (or wordterminators). Even so, there are two other
difficulties using the current version of shlex.get_token() to read lines:
1) File inclusion happen whenever the beginning of a line/token matches one
of the "source_triggers" (not the whole line as required by get_token()).
2) Lines ending in a special character (by default the backslash character)
continue on to the next line.
This code seems to work on our test files, but I'm sure there are bugs.
Andrew 2012-3-25
"""
def __init__(self,
instream=None,
infile=None,
posix=False):
TtreeShlex.__init__(self, instream, infile, posix)
self.line_terminators = '\n'
self.line_extend_chars = '\\'
self.skip_comments_during_readline = True
def _StripComments(self, line):
if self.skip_comments_during_readline:
for i in range(0, len(line)):
if ((line[i] in self.commenters) and
((i == 0) or (line[i - 1] not in self.escape))):
return line[:i]
return line
def _ReadLine(self,
recur_level=0):
"""
This function retrieves a block of text, halting at a
terminal character. Escape sequences are respected.
The self.lineno (newline counter) is also maintained.
The main difference between Readline and get_token()
is the way they handle the "self.source_triggers" member.
Both Readline() and get_token() insert text from other files when they
encounter a string in "self.source_triggers" in the text they read.
However ReadLine() ONLY inserts text from other files if the token which
matches with self.source_triggers appears at the beginning of the line.
get_token() inserts text only if lex.source matches the entire token.
comment-to-self:
At some point, once I'm sure this code is working, I should replace
shlex.get_token() with the code from ReadLine() which is more general.
It would be nice to get rid of "class LineLex" entirely. ReadLine()
is the only new feature that LineLex which was lacking in shlex.
To do this I would need to add a couple optional arguments to
"get_token()", allowing it to mimic ReadLine(), such as:
"override_wordterms" argument (which we can pass a '\n'), and
"token_extender" argument (like '\' for extending lines)
"""
first_token = ''
line = ''
escaped_state = False
found_space = False
while True:
nextchar = self.read_char()
# sys.stderr.write('nextchar=\"'+nextchar+'\"\n')
while nextchar == '':
if not self.filestack:
return self._StripComments(line), '', first_token, found_space
else:
self.pop_source()
nextchar = self.read_char()
if nextchar == '\n':
self.lineno += 1