from pypy.interpreter.pyparser import automata from pypy.interpreter.pyparser.parser import Token from pypy.interpreter.pyparser.pygram import tokens from pypy.interpreter.pyparser.pytoken import python_opmap from pypy.interpreter.pyparser.error import TokenError, TokenIndentationError, TabError from pypy.interpreter.pyparser.pytokenize import tabsize, alttabsize, whiteSpaceDFA, \ triple_quoted, endDFAs, single_quoted, pseudoDFA from pypy.interpreter.astcompiler import consts NAMECHARS = 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ_' NUMCHARS = '0123456789' ALNUMCHARS = NAMECHARS + NUMCHARS EXTENDED_ALNUMCHARS = ALNUMCHARS + '-.' WHITESPACES = ' \t\n\r\v\f' def match_encoding_declaration(comment): """returns the declared encoding or None This function is a replacement for : >>> py_encoding = re.compile(r"coding[:=]\s*([-\w.]+)") >>> py_encoding.search(comment) """ index = comment.find('coding') if index < 0: return None next_char = comment[index + 6] if next_char not in ':=': return None end_of_decl = comment[index + 7:] index = 0 for char in end_of_decl: if char not in WHITESPACES: break index += 1 else: return None encoding = '' for char in end_of_decl[index:]: if char in EXTENDED_ALNUMCHARS: encoding += char else: break if encoding != '': return encoding return None def verify_utf8(token): for c in token: if ord(c) >= 0x80: break else: return True try: u = token.decode('utf-8') except UnicodeDecodeError: return False return True def bad_utf8(location_msg, line, lnum, pos, token_list, flags): msg = 'Non-UTF-8 code in %s' % location_msg if not (flags & consts.PyCF_FOUND_ENCODING): # this extra part of the message is added only if we found no # explicit encoding msg += (' but no encoding declared; see ' 'http://python.org/dev/peps/pep-0263/ for details') return TokenError(msg, line, lnum, pos, token_list) def verify_identifier(token): # 1=ok; 0=not an identifier; -1=bad utf-8 for c in token: if ord(c) >= 0x80: break else: return 1 try: u = token.decode('utf-8') except UnicodeDecodeError: return -1 from pypy.objspace.std.unicodeobject import _isidentifier return _isidentifier(u) DUMMY_DFA = automata.DFA([], []) def generate_tokens(lines, flags): """ This is a rewrite of pypy.module.parser.pytokenize.generate_tokens since the original function is not RPYTHON (uses yield) It was also slightly modified to generate Token instances instead of the original 5-tuples -- it's now a 4-tuple of * the Token instance * the whole line as a string * the line number (the real one, counting continuation lines) * the position on the line of the end of the token. Original docstring :: The generate_tokens() generator requires one argment, readline, which must be a callable object which provides the same interface as the readline() method of built-in file objects. Each call to the function should return one line of input as a string. The generator produces 5-tuples with these members: the token type; the token string; a 2-tuple (srow, scol) of ints specifying the row and column where the token begins in the source; a 2-tuple (erow, ecol) of ints specifying the row and column where the token ends in the source; and the line on which the token was found. The line passed is the logical line; continuation lines are included. """ token_list = [] lnum = continued = 0 namechars = NAMECHARS numchars = NUMCHARS contstr, needcont = '', 0 contline = None indents = [0] altindents = [0] last_comment = '' parenstack = [] async_def = False async_def_nl = False async_def_indent = 0 # make the annotator happy endDFA = DUMMY_DFA # make the annotator happy line = '' pos = 0 lines.append("") strstart = (0, 0, "") for line in lines: lnum = lnum + 1 line = universal_newline(line) pos, max = 0, len(line) if contstr: if not line: raise TokenError( "end of file (EOF) while scanning triple-quoted string literal", strstart[2], strstart[0], strstart[1]+1, token_list, lnum-1) endmatch = endDFA.recognize(line) if endmatch >= 0: pos = end = endmatch tok = Token(tokens.STRING, contstr + line[:end], strstart[0], strstart[1], line) token_list.append(tok) last_comment = '' contstr, needcont = '', 0 contline = None elif (needcont and not line.endswith('\\\n') and not line.endswith('\\\r\n')): tok = Token(tokens.ERRORTOKEN, contstr + line, strstart[0], strstart[1], line) token_list.append(tok) last_comment = '' contstr = '' contline = None continue else: contstr = contstr + line contline = contline + line continue elif not parenstack and not continued: # new statement if not line: break column = 0 altcolumn = 0 while pos < max: # measure leading whitespace if line[pos] == ' ': column = column + 1 altcolumn = altcolumn + 1 elif line[pos] == '\t': column = (column/tabsize + 1)*tabsize altcolumn = (altcolumn/alttabsize + 1)*alttabsize elif line[pos] == '\f': column = 0 else: break pos = pos + 1 if pos == max: break if line[pos] in '\r\n': # skip blank lines continue if line[pos] == '#': # skip full-line comment, but still check that it is valid utf-8 if not verify_utf8(line): raise bad_utf8("comment", line, lnum, pos, token_list, flags) continue if column == indents[-1]: if altcolumn != altindents[-1]: raise TabError(lnum, pos, line) elif column > indents[-1]: # count indents or dedents if altcolumn <= altindents[-1]: raise TabError(lnum, pos, line) indents.append(column) altindents.append(altcolumn) token_list.append(Token(tokens.INDENT, line[:pos], lnum, 0, line)) last_comment = '' else: while column < indents[-1]: indents.pop() altindents.pop() token_list.append(Token(tokens.DEDENT, '', lnum, pos, line)) last_comment = '' if column != indents[-1]: err = "unindent does not match any outer indentation level" raise TokenIndentationError(err, line, lnum, column+1, token_list) if altcolumn != altindents[-1]: raise TabError(lnum, pos, line) if async_def_nl and async_def_indent >= indents[-1]: async_def = False async_def_nl = False async_def_indent = 0 else: # continued statement if not line: if parenstack: _, lnum1, start1, line1 = parenstack[0] raise TokenError("parenthesis is never closed", line1, lnum1, start1 + 1, token_list, lnum) raise TokenError("end of file (EOF) in multi-line statement", line, lnum, 0, token_list) # XXX why is the offset 0 here? continued = 0 while pos < max: pseudomatch = pseudoDFA.recognize(line, pos) if pseudomatch >= 0: # scan for tokens # JDR: Modified start = whiteSpaceDFA.recognize(line, pos) if start < 0: start = pos end = pseudomatch if start == end: raise TokenError("Unknown character", line, lnum, start + 1, token_list) pos = end token, initial = line[start:end], line[start] if (initial in numchars or \ (initial == '.' and token != '.' and token != '...')): # ordinary number token_list.append(Token(tokens.NUMBER, token, lnum, start, line)) last_comment = '' elif initial in '\r\n': if not parenstack: if async_def: async_def_nl = True tok = Token(tokens.NEWLINE, last_comment, lnum, start, line) token_list.append(tok) last_comment = '' elif initial == '#': # skip comment, but still check that it is valid utf-8 if not verify_utf8(token): raise bad_utf8("comment", line, lnum, start, token_list, flags) last_comment = token elif token in triple_quoted: endDFA = endDFAs[token] endmatch = endDFA.recognize(line, pos) if endmatch >= 0: # all on one line pos = endmatch token = line[start:pos] tok = Token(tokens.STRING, token, lnum, start, line) token_list.append(tok) last_comment = '' else: strstart = (lnum, start, line) contstr = line[start:] contline = line break elif initial in single_quoted or \ token[:2] in single_quoted or \ token[:3] in single_quoted: if token[-1] == '\n': # continued string strstart = (lnum, start, line) endDFA = (endDFAs[initial] or endDFAs[token[1]] or endDFAs[token[2]]) contstr, needcont = line[start:], 1 contline = line break else: # ordinary string tok = Token(tokens.STRING, token, lnum, start, line) token_list.append(tok) last_comment = '' elif (initial in namechars or # ordinary name ord(initial) >= 0x80): # unicode identifier valid = verify_identifier(token) if valid <= 0: if valid == -1: raise bad_utf8("identifier", line, lnum, start + 1, token_list, flags) # valid utf-8, but it gives a unicode char that cannot # be used in identifiers raise TokenError("invalid character in identifier", line, lnum, start + 1, token_list) if async_def: # inside 'async def' function if token == 'async': token_list.append(Token(tokens.ASYNC, token, lnum, start, line)) elif token == 'await': token_list.append(Token(tokens.AWAIT, token, lnum, start, line)) else: token_list.append(Token(tokens.NAME, token, lnum, start, line)) elif token == 'async': # async token, look ahead #ahead token if pos < max: async_end = pseudoDFA.recognize(line, pos) assert async_end >= 3 async_start = async_end - 3 assert async_start >= 0 ahead_token = line[async_start:async_end] if ahead_token == 'def': async_def = True async_def_indent = indents[-1] token_list.append(Token(tokens.ASYNC, token, lnum, start, line)) else: token_list.append(Token(tokens.NAME, token, lnum, start, line)) else: token_list.append(Token(tokens.NAME, token, lnum, start, line)) else: token_list.append(Token(tokens.NAME, token, lnum, start, line)) last_comment = '' elif initial == '\\': # continued stmt continued = 1 elif initial == '$': token_list.append(Token(tokens.REVDBMETAVAR, token, lnum, start, line)) last_comment = '' else: if initial in '([{': parenstack.append((initial, lnum, start, line)) elif initial in ')]}': if not parenstack: raise TokenError("unmatched '%s'" % initial, line, lnum, start + 1, token_list) opening, lnum1, start1, line1 = parenstack.pop() if not ((opening == "(" and initial == ")") or (opening == "[" and initial == "]") or (opening == "{" and initial == "}")): msg = "closing parenthesis '%s' does not match opening parenthesis '%s'" % ( initial, opening) if lnum1 != lnum: msg += " on line " + str(lnum1) raise TokenError( msg, line, lnum, start + 1, token_list) if token in python_opmap: punct = python_opmap[token] else: punct = tokens.OP token_list.append(Token(punct, token, lnum, start, line)) last_comment = '' else: start = whiteSpaceDFA.recognize(line, pos) if start < 0: start = pos if start= 0 and line[-2] == '\r' and line[-1] == '\n': return line[:line_len_m2] + '\n' line_len_m1 = len(line) - 1 if line_len_m1 >= 0 and line[-1] == '\r': return line[:line_len_m1] + '\n' return line