| # pyshlex.py - PLY compatible lexer for pysh. |
| # |
| # Copyright 2007 Patrick Mezard |
| # |
| # This software may be used and distributed according to the terms |
| # of the GNU General Public License, incorporated herein by reference. |
| |
| # TODO: |
| # - review all "char in 'abc'" snippets: the empty string can be matched |
| # - test line continuations within quoted/expansion strings |
| # - eof is buggy wrt sublexers |
| # - the lexer cannot really work in pull mode as it would be required to run |
| # PLY in pull mode. It was designed to work incrementally and it would not be |
| # that hard to enable pull mode. |
| import re |
| try: |
| s = set() |
| del s |
| except NameError: |
| from Set import Set as set |
| |
| from ply import lex |
| from bb.pysh.sherrors import * |
| |
| class NeedMore(Exception): |
| pass |
| |
| def is_blank(c): |
| return c in (' ', '\t') |
| |
| _RE_DIGITS = re.compile(r'^\d+$') |
| |
| def are_digits(s): |
| return _RE_DIGITS.search(s) is not None |
| |
| _OPERATORS = dict([ |
| ('&&', 'AND_IF'), |
| ('||', 'OR_IF'), |
| (';;', 'DSEMI'), |
| ('<<', 'DLESS'), |
| ('>>', 'DGREAT'), |
| ('<&', 'LESSAND'), |
| ('>&', 'GREATAND'), |
| ('<>', 'LESSGREAT'), |
| ('<<-', 'DLESSDASH'), |
| ('>|', 'CLOBBER'), |
| ('&', 'AMP'), |
| (';', 'COMMA'), |
| ('<', 'LESS'), |
| ('>', 'GREATER'), |
| ('(', 'LPARENS'), |
| (')', 'RPARENS'), |
| ]) |
| |
| #Make a function to silence pychecker "Local variable shadows global" |
| def make_partial_ops(): |
| partials = {} |
| for k in _OPERATORS: |
| for i in range(1, len(k)+1): |
| partials[k[:i]] = None |
| return partials |
| |
| _PARTIAL_OPERATORS = make_partial_ops() |
| |
| def is_partial_op(s): |
| """Return True if s matches a non-empty subpart of an operator starting |
| at its first character. |
| """ |
| return s in _PARTIAL_OPERATORS |
| |
| def is_op(s): |
| """If s matches an operator, returns the operator identifier. Return None |
| otherwise. |
| """ |
| return _OPERATORS.get(s) |
| |
| _RESERVEDS = dict([ |
| ('if', 'If'), |
| ('then', 'Then'), |
| ('else', 'Else'), |
| ('elif', 'Elif'), |
| ('fi', 'Fi'), |
| ('do', 'Do'), |
| ('done', 'Done'), |
| ('case', 'Case'), |
| ('esac', 'Esac'), |
| ('while', 'While'), |
| ('until', 'Until'), |
| ('for', 'For'), |
| ('{', 'Lbrace'), |
| ('}', 'Rbrace'), |
| ('!', 'Bang'), |
| ('in', 'In'), |
| ('|', 'PIPE'), |
| ]) |
| |
| def get_reserved(s): |
| return _RESERVEDS.get(s) |
| |
| _RE_NAME = re.compile(r'^[0-9a-zA-Z_]+$') |
| |
| def is_name(s): |
| return _RE_NAME.search(s) is not None |
| |
| def find_chars(seq, chars): |
| for i,v in enumerate(seq): |
| if v in chars: |
| return i,v |
| return -1, None |
| |
| class WordLexer: |
| """WordLexer parse quoted or expansion expressions and return an expression |
| tree. The input string can be any well formed sequence beginning with quoting |
| or expansion character. Embedded expressions are handled recursively. The |
| resulting tree is made of lists and strings. Lists represent quoted or |
| expansion expressions. Each list first element is the opening separator, |
| the last one the closing separator. In-between can be any number of strings |
| or lists for sub-expressions. Non quoted/expansion expression can written as |
| strings or as lists with empty strings as starting and ending delimiters. |
| """ |
| |
| NAME_CHARSET = 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789_' |
| NAME_CHARSET = dict(zip(NAME_CHARSET, NAME_CHARSET)) |
| |
| SPECIAL_CHARSET = '@*#?-$!0' |
| |
| #Characters which can be escaped depends on the current delimiters |
| ESCAPABLE = { |
| '`': set(['$', '\\', '`']), |
| '"': set(['$', '\\', '`', '"']), |
| "'": set(), |
| } |
| |
| def __init__(self, heredoc = False): |
| # _buffer is the unprocessed input characters buffer |
| self._buffer = [] |
| # _stack is empty or contains a quoted list being processed |
| # (this is the DFS path to the quoted expression being evaluated). |
| self._stack = [] |
| self._escapable = None |
| # True when parsing unquoted here documents |
| self._heredoc = heredoc |
| |
| def add(self, data, eof=False): |
| """Feed the lexer with more data. If the quoted expression can be |
| delimited, return a tuple (expr, remaining) containing the expression |
| tree and the unconsumed data. |
| Otherwise, raise NeedMore. |
| """ |
| self._buffer += list(data) |
| self._parse(eof) |
| |
| result = self._stack[0] |
| remaining = ''.join(self._buffer) |
| self._stack = [] |
| self._buffer = [] |
| return result, remaining |
| |
| def _is_escapable(self, c, delim=None): |
| if delim is None: |
| if self._heredoc: |
| # Backslashes works as if they were double quoted in unquoted |
| # here-documents |
| delim = '"' |
| else: |
| if len(self._stack)<=1: |
| return True |
| delim = self._stack[-2][0] |
| |
| escapables = self.ESCAPABLE.get(delim, None) |
| return escapables is None or c in escapables |
| |
| def _parse_squote(self, buf, result, eof): |
| if not buf: |
| raise NeedMore() |
| try: |
| pos = buf.index("'") |
| except ValueError: |
| raise NeedMore() |
| result[-1] += ''.join(buf[:pos]) |
| result += ["'"] |
| return pos+1, True |
| |
| def _parse_bquote(self, buf, result, eof): |
| if not buf: |
| raise NeedMore() |
| |
| if buf[0]=='\n': |
| #Remove line continuations |
| result[:] = ['', '', ''] |
| elif self._is_escapable(buf[0]): |
| result[-1] += buf[0] |
| result += [''] |
| else: |
| #Keep as such |
| result[:] = ['', '\\'+buf[0], ''] |
| |
| return 1, True |
| |
| def _parse_dquote(self, buf, result, eof): |
| if not buf: |
| raise NeedMore() |
| pos, sep = find_chars(buf, '$\\`"') |
| if pos==-1: |
| raise NeedMore() |
| |
| result[-1] += ''.join(buf[:pos]) |
| if sep=='"': |
| result += ['"'] |
| return pos+1, True |
| else: |
| #Keep everything until the separator and defer processing |
| return pos, False |
| |
| def _parse_command(self, buf, result, eof): |
| if not buf: |
| raise NeedMore() |
| |
| chars = '$\\`"\'' |
| if result[0] == '$(': |
| chars += ')' |
| pos, sep = find_chars(buf, chars) |
| if pos == -1: |
| raise NeedMore() |
| |
| result[-1] += ''.join(buf[:pos]) |
| if (result[0]=='$(' and sep==')') or (result[0]=='`' and sep=='`'): |
| result += [sep] |
| return pos+1, True |
| else: |
| return pos, False |
| |
| def _parse_parameter(self, buf, result, eof): |
| if not buf: |
| raise NeedMore() |
| |
| pos, sep = find_chars(buf, '$\\`"\'}') |
| if pos==-1: |
| raise NeedMore() |
| |
| result[-1] += ''.join(buf[:pos]) |
| if sep=='}': |
| result += [sep] |
| return pos+1, True |
| else: |
| return pos, False |
| |
| def _parse_dollar(self, buf, result, eof): |
| sep = result[0] |
| if sep=='$': |
| if not buf: |
| #TODO: handle empty $ |
| raise NeedMore() |
| if buf[0]=='(': |
| if len(buf)==1: |
| raise NeedMore() |
| |
| if buf[1]=='(': |
| result[0] = '$((' |
| buf[:2] = [] |
| else: |
| result[0] = '$(' |
| buf[:1] = [] |
| |
| elif buf[0]=='{': |
| result[0] = '${' |
| buf[:1] = [] |
| else: |
| if buf[0] in self.SPECIAL_CHARSET: |
| result[-1] = buf[0] |
| read = 1 |
| else: |
| for read,c in enumerate(buf): |
| if c not in self.NAME_CHARSET: |
| break |
| else: |
| if not eof: |
| raise NeedMore() |
| read += 1 |
| |
| result[-1] += ''.join(buf[0:read]) |
| |
| if not result[-1]: |
| result[:] = ['', result[0], ''] |
| else: |
| result += [''] |
| return read,True |
| |
| sep = result[0] |
| if sep=='$(': |
| parsefunc = self._parse_command |
| elif sep=='${': |
| parsefunc = self._parse_parameter |
| else: |
| raise NotImplementedError(sep) |
| |
| pos, closed = parsefunc(buf, result, eof) |
| return pos, closed |
| |
| def _parse(self, eof): |
| buf = self._buffer |
| stack = self._stack |
| recurse = False |
| |
| while 1: |
| if not stack or recurse: |
| if not buf: |
| raise NeedMore() |
| if buf[0] not in ('"\\`$\''): |
| raise ShellSyntaxError('Invalid quoted string sequence') |
| stack.append([buf[0], '']) |
| buf[:1] = [] |
| recurse = False |
| |
| result = stack[-1] |
| if result[0]=="'": |
| parsefunc = self._parse_squote |
| elif result[0]=='\\': |
| parsefunc = self._parse_bquote |
| elif result[0]=='"': |
| parsefunc = self._parse_dquote |
| elif result[0]=='`': |
| parsefunc = self._parse_command |
| elif result[0][0]=='$': |
| parsefunc = self._parse_dollar |
| else: |
| raise NotImplementedError() |
| |
| read, closed = parsefunc(buf, result, eof) |
| |
| buf[:read] = [] |
| if closed: |
| if len(stack)>1: |
| #Merge in parent expression |
| parsed = stack.pop() |
| stack[-1] += [parsed] |
| stack[-1] += [''] |
| else: |
| break |
| else: |
| recurse = True |
| |
| def normalize_wordtree(wtree): |
| """Fold back every literal sequence (delimited with empty strings) into |
| parent sequence. |
| """ |
| def normalize(wtree): |
| result = [] |
| for part in wtree[1:-1]: |
| if isinstance(part, list): |
| part = normalize(part) |
| if part[0]=='': |
| #Move the part content back at current level |
| result += part[1:-1] |
| continue |
| elif not part: |
| #Remove empty strings |
| continue |
| result.append(part) |
| if not result: |
| result = [''] |
| return [wtree[0]] + result + [wtree[-1]] |
| |
| return normalize(wtree) |
| |
| |
| def make_wordtree(token, here_document=False): |
| """Parse a delimited token and return a tree similar to the ones returned by |
| WordLexer. token may contain any combinations of expansion/quoted fields and |
| non-ones. |
| """ |
| tree = [''] |
| remaining = token |
| delimiters = '\\$`' |
| if not here_document: |
| delimiters += '\'"' |
| |
| while 1: |
| pos, sep = find_chars(remaining, delimiters) |
| if pos==-1: |
| tree += [remaining, ''] |
| return normalize_wordtree(tree) |
| tree.append(remaining[:pos]) |
| remaining = remaining[pos:] |
| |
| try: |
| result, remaining = WordLexer(heredoc = here_document).add(remaining, True) |
| except NeedMore: |
| raise ShellSyntaxError('Invalid token "%s"') |
| tree.append(result) |
| |
| |
| def wordtree_as_string(wtree): |
| """Rewrite an expression tree generated by make_wordtree as string.""" |
| def visit(node, output): |
| for child in node: |
| if isinstance(child, list): |
| visit(child, output) |
| else: |
| output.append(child) |
| |
| output = [] |
| visit(wtree, output) |
| return ''.join(output) |
| |
| |
| def unquote_wordtree(wtree): |
| """Fold the word tree while removing quotes everywhere. Other expansion |
| sequences are joined as such. |
| """ |
| def unquote(wtree): |
| unquoted = [] |
| if wtree[0] in ('', "'", '"', '\\'): |
| wtree = wtree[1:-1] |
| |
| for part in wtree: |
| if isinstance(part, list): |
| part = unquote(part) |
| unquoted.append(part) |
| return ''.join(unquoted) |
| |
| return unquote(wtree) |
| |
| |
| class HereDocLexer: |
| """HereDocLexer delimits whatever comes from the here-document starting newline |
| not included to the closing delimiter line included. |
| """ |
| def __init__(self, op, delim): |
| assert op in ('<<', '<<-') |
| if not delim: |
| raise ShellSyntaxError('invalid here document delimiter %s' % str(delim)) |
| |
| self._op = op |
| self._delim = delim |
| self._buffer = [] |
| self._token = [] |
| |
| def add(self, data, eof): |
| """If the here-document was delimited, return a tuple (content, remaining). |
| Raise NeedMore() otherwise. |
| """ |
| self._buffer += list(data) |
| self._parse(eof) |
| token = ''.join(self._token) |
| remaining = ''.join(self._buffer) |
| self._token, self._remaining = [], [] |
| return token, remaining |
| |
| def _parse(self, eof): |
| while 1: |
| #Look for first unescaped newline. Quotes may be ignored |
| escaped = False |
| for i,c in enumerate(self._buffer): |
| if escaped: |
| escaped = False |
| elif c=='\\': |
| escaped = True |
| elif c=='\n': |
| break |
| else: |
| i = -1 |
| |
| if i==-1 or self._buffer[i]!='\n': |
| if not eof: |
| raise NeedMore() |
| #No more data, maybe the last line is closing delimiter |
| line = ''.join(self._buffer) |
| eol = '' |
| self._buffer[:] = [] |
| else: |
| line = ''.join(self._buffer[:i]) |
| eol = self._buffer[i] |
| self._buffer[:i+1] = [] |
| |
| if self._op=='<<-': |
| line = line.lstrip('\t') |
| |
| if line==self._delim: |
| break |
| |
| self._token += [line, eol] |
| if i==-1: |
| break |
| |
| class Token: |
| #TODO: check this is still in use |
| OPERATOR = 'OPERATOR' |
| WORD = 'WORD' |
| |
| def __init__(self): |
| self.value = '' |
| self.type = None |
| |
| def __getitem__(self, key): |
| #Behave like a two elements tuple |
| if key==0: |
| return self.type |
| if key==1: |
| return self.value |
| raise IndexError(key) |
| |
| |
| class HereDoc: |
| def __init__(self, op, name=None): |
| self.op = op |
| self.name = name |
| self.pendings = [] |
| |
| TK_COMMA = 'COMMA' |
| TK_AMPERSAND = 'AMP' |
| TK_OP = 'OP' |
| TK_TOKEN = 'TOKEN' |
| TK_COMMENT = 'COMMENT' |
| TK_NEWLINE = 'NEWLINE' |
| TK_IONUMBER = 'IO_NUMBER' |
| TK_ASSIGNMENT = 'ASSIGNMENT_WORD' |
| TK_HERENAME = 'HERENAME' |
| |
| class Lexer: |
| """Main lexer. |
| |
| Call add() until the script AST is returned. |
| """ |
| # Here-document handling makes the whole thing more complex because they basically |
| # force tokens to be reordered: here-content must come right after the operator |
| # and the here-document name, while some other tokens might be following the |
| # here-document expression on the same line. |
| # |
| # So, here-doc states are basically: |
| # *self._state==ST_NORMAL |
| # - self._heredoc.op is None: no here-document |
| # - self._heredoc.op is not None but name is: here-document operator matched, |
| # waiting for the document name/delimiter |
| # - self._heredoc.op and name are not None: here-document is ready, following |
| # tokens are being stored and will be pushed again when the document is |
| # completely parsed. |
| # *self._state==ST_HEREDOC |
| # - The here-document is being delimited by self._herelexer. Once it is done |
| # the content is pushed in front of the pending token list then all these |
| # tokens are pushed once again. |
| ST_NORMAL = 'ST_NORMAL' |
| ST_OP = 'ST_OP' |
| ST_BACKSLASH = 'ST_BACKSLASH' |
| ST_QUOTED = 'ST_QUOTED' |
| ST_COMMENT = 'ST_COMMENT' |
| ST_HEREDOC = 'ST_HEREDOC' |
| |
| #Match end of backquote strings |
| RE_BACKQUOTE_END = re.compile(r'(?<!\\)(`)') |
| |
| def __init__(self, parent_state = None): |
| self._input = [] |
| self._pos = 0 |
| |
| self._token = '' |
| self._type = TK_TOKEN |
| |
| self._state = self.ST_NORMAL |
| self._parent_state = parent_state |
| self._wordlexer = None |
| |
| self._heredoc = HereDoc(None) |
| self._herelexer = None |
| |
| ### Following attributes are not used for delimiting token and can safely |
| ### be changed after here-document detection (see _push_toke) |
| |
| # Count the number of tokens following a 'For' reserved word. Needed to |
| # return an 'In' reserved word if it comes in third place. |
| self._for_count = None |
| |
| def add(self, data, eof=False): |
| """Feed the lexer with data. |
| |
| When eof is set to True, returns unconsumed data or raise if the lexer |
| is in the middle of a delimiting operation. |
| Raise NeedMore otherwise. |
| """ |
| self._input += list(data) |
| self._parse(eof) |
| self._input[:self._pos] = [] |
| return ''.join(self._input) |
| |
| def _parse(self, eof): |
| while self._state: |
| if self._pos>=len(self._input): |
| if not eof: |
| raise NeedMore() |
| elif self._state not in (self.ST_OP, self.ST_QUOTED, self.ST_HEREDOC): |
| #Delimit the current token and leave cleanly |
| self._push_token('') |
| break |
| else: |
| #Let the sublexer handle the eof themselves |
| pass |
| |
| if self._state==self.ST_NORMAL: |
| self._parse_normal() |
| elif self._state==self.ST_COMMENT: |
| self._parse_comment() |
| elif self._state==self.ST_OP: |
| self._parse_op(eof) |
| elif self._state==self.ST_QUOTED: |
| self._parse_quoted(eof) |
| elif self._state==self.ST_HEREDOC: |
| self._parse_heredoc(eof) |
| else: |
| assert False, "Unknown state " + str(self._state) |
| |
| if self._heredoc.op is not None: |
| raise ShellSyntaxError('missing here-document delimiter') |
| |
| def _parse_normal(self): |
| c = self._input[self._pos] |
| if c=='\n': |
| self._push_token(c) |
| self._token = c |
| self._type = TK_NEWLINE |
| self._push_token('') |
| self._pos += 1 |
| elif c in ('\\', '\'', '"', '`', '$'): |
| self._state = self.ST_QUOTED |
| elif is_partial_op(c): |
| self._push_token(c) |
| |
| self._type = TK_OP |
| self._token += c |
| self._pos += 1 |
| self._state = self.ST_OP |
| elif is_blank(c): |
| self._push_token(c) |
| |
| #Discard blanks |
| self._pos += 1 |
| elif self._token: |
| self._token += c |
| self._pos += 1 |
| elif c=='#': |
| self._state = self.ST_COMMENT |
| self._type = TK_COMMENT |
| self._pos += 1 |
| else: |
| self._pos += 1 |
| self._token += c |
| |
| def _parse_op(self, eof): |
| assert self._token |
| |
| while 1: |
| if self._pos>=len(self._input): |
| if not eof: |
| raise NeedMore() |
| c = '' |
| else: |
| c = self._input[self._pos] |
| |
| op = self._token + c |
| if c and is_partial_op(op): |
| #Still parsing an operator |
| self._token = op |
| self._pos += 1 |
| else: |
| #End of operator |
| self._push_token(c) |
| self._state = self.ST_NORMAL |
| break |
| |
| def _parse_comment(self): |
| while 1: |
| if self._pos>=len(self._input): |
| raise NeedMore() |
| |
| c = self._input[self._pos] |
| if c=='\n': |
| #End of comment, do not consume the end of line |
| self._state = self.ST_NORMAL |
| break |
| else: |
| self._token += c |
| self._pos += 1 |
| |
| def _parse_quoted(self, eof): |
| """Precondition: the starting backquote/dollar is still in the input queue.""" |
| if not self._wordlexer: |
| self._wordlexer = WordLexer() |
| |
| if self._pos<len(self._input): |
| #Transfer input queue character into the subparser |
| input = self._input[self._pos:] |
| self._pos += len(input) |
| |
| wtree, remaining = self._wordlexer.add(input, eof) |
| self._wordlexer = None |
| self._token += wordtree_as_string(wtree) |
| |
| #Put unparsed character back in the input queue |
| if remaining: |
| self._input[self._pos:self._pos] = list(remaining) |
| self._state = self.ST_NORMAL |
| |
| def _parse_heredoc(self, eof): |
| assert not self._token |
| |
| if self._herelexer is None: |
| self._herelexer = HereDocLexer(self._heredoc.op, self._heredoc.name) |
| |
| if self._pos<len(self._input): |
| #Transfer input queue character into the subparser |
| input = self._input[self._pos:] |
| self._pos += len(input) |
| |
| self._token, remaining = self._herelexer.add(input, eof) |
| |
| #Reset here-document state |
| self._herelexer = None |
| heredoc, self._heredoc = self._heredoc, HereDoc(None) |
| if remaining: |
| self._input[self._pos:self._pos] = list(remaining) |
| self._state = self.ST_NORMAL |
| |
| #Push pending tokens |
| heredoc.pendings[:0] = [(self._token, self._type, heredoc.name)] |
| for token, type, delim in heredoc.pendings: |
| self._token = token |
| self._type = type |
| self._push_token(delim) |
| |
| def _push_token(self, delim): |
| if not self._token: |
| return 0 |
| |
| if self._heredoc.op is not None: |
| if self._heredoc.name is None: |
| #Here-document name |
| if self._type!=TK_TOKEN: |
| raise ShellSyntaxError("expecting here-document name, got '%s'" % self._token) |
| self._heredoc.name = unquote_wordtree(make_wordtree(self._token)) |
| self._type = TK_HERENAME |
| else: |
| #Capture all tokens until the newline starting the here-document |
| if self._type==TK_NEWLINE: |
| assert self._state==self.ST_NORMAL |
| self._state = self.ST_HEREDOC |
| |
| self._heredoc.pendings.append((self._token, self._type, delim)) |
| self._token = '' |
| self._type = TK_TOKEN |
| return 1 |
| |
| # BEWARE: do not change parser state from here to the end of the function: |
| # when parsing between an here-document operator to the end of the line |
| # tokens are stored in self._heredoc.pendings. Therefore, they will not |
| # reach the section below. |
| |
| #Check operators |
| if self._type==TK_OP: |
| #False positive because of partial op matching |
| op = is_op(self._token) |
| if not op: |
| self._type = TK_TOKEN |
| else: |
| #Map to the specific operator |
| self._type = op |
| if self._token in ('<<', '<<-'): |
| #Done here rather than in _parse_op because there is no need |
| #to change the parser state since we are still waiting for |
| #the here-document name |
| if self._heredoc.op is not None: |
| raise ShellSyntaxError("syntax error near token '%s'" % self._token) |
| assert self._heredoc.op is None |
| self._heredoc.op = self._token |
| |
| if self._type==TK_TOKEN: |
| if '=' in self._token and not delim: |
| if self._token.startswith('='): |
| #Token is a WORD... a TOKEN that is. |
| pass |
| else: |
| prev = self._token[:self._token.find('=')] |
| if is_name(prev): |
| self._type = TK_ASSIGNMENT |
| else: |
| #Just a token (unspecified) |
| pass |
| else: |
| reserved = get_reserved(self._token) |
| if reserved is not None: |
| if reserved=='In' and self._for_count!=2: |
| #Sorry, not a reserved word after all |
| pass |
| else: |
| self._type = reserved |
| if reserved in ('For', 'Case'): |
| self._for_count = 0 |
| elif are_digits(self._token) and delim in ('<', '>'): |
| #Detect IO_NUMBER |
| self._type = TK_IONUMBER |
| elif self._token==';': |
| self._type = TK_COMMA |
| elif self._token=='&': |
| self._type = TK_AMPERSAND |
| elif self._type==TK_COMMENT: |
| #Comments are not part of sh grammar, ignore them |
| self._token = '' |
| self._type = TK_TOKEN |
| return 0 |
| |
| if self._for_count is not None: |
| #Track token count in 'For' expression to detect 'In' reserved words. |
| #Can only be in third position, no need to go beyond |
| self._for_count += 1 |
| if self._for_count==3: |
| self._for_count = None |
| |
| self.on_token((self._token, self._type)) |
| self._token = '' |
| self._type = TK_TOKEN |
| return 1 |
| |
| def on_token(self, token): |
| raise NotImplementedError |
| |
| |
| tokens = [ |
| TK_TOKEN, |
| # To silence yacc unused token warnings |
| # TK_COMMENT, |
| TK_NEWLINE, |
| TK_IONUMBER, |
| TK_ASSIGNMENT, |
| TK_HERENAME, |
| ] |
| |
| #Add specific operators |
| tokens += _OPERATORS.values() |
| #Add reserved words |
| tokens += _RESERVEDS.values() |
| |
| class PLYLexer(Lexer): |
| """Bridge Lexer and PLY lexer interface.""" |
| def __init__(self): |
| Lexer.__init__(self) |
| self._tokens = [] |
| self._current = 0 |
| self.lineno = 0 |
| |
| def on_token(self, token): |
| value, type = token |
| |
| self.lineno = 0 |
| t = lex.LexToken() |
| t.value = value |
| t.type = type |
| t.lexer = self |
| t.lexpos = 0 |
| t.lineno = 0 |
| |
| self._tokens.append(t) |
| |
| def is_empty(self): |
| return not bool(self._tokens) |
| |
| #PLY compliant interface |
| def token(self): |
| if self._current>=len(self._tokens): |
| return None |
| t = self._tokens[self._current] |
| self._current += 1 |
| return t |
| |
| |
| def get_tokens(s): |
| """Parse the input string and return a tuple (tokens, unprocessed) where |
| tokens is a list of parsed tokens and unprocessed is the part of the input |
| string left untouched by the lexer. |
| """ |
| lexer = PLYLexer() |
| untouched = lexer.add(s, True) |
| tokens = [] |
| while 1: |
| token = lexer.token() |
| if token is None: |
| break |
| tokens.append(token) |
| |
| tokens = [(t.value, t.type) for t in tokens] |
| return tokens, untouched |