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515 lines
16 KiB
Python
515 lines
16 KiB
Python
#------------------------------------------------------------------------------
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# pycparser: c_lexer.py
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#
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# CLexer class: lexer for the C language
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#
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# Eli Bendersky [https://eli.thegreenplace.net/]
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# License: BSD
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#------------------------------------------------------------------------------
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import re
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import sys
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from .ply import lex
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from .ply.lex import TOKEN
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class CLexer(object):
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""" A lexer for the C language. After building it, set the
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input text with input(), and call token() to get new
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tokens.
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The public attribute filename can be set to an initial
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filename, but the lexer will update it upon #line
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directives.
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"""
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def __init__(self, error_func, on_lbrace_func, on_rbrace_func,
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type_lookup_func):
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""" Create a new Lexer.
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error_func:
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An error function. Will be called with an error
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message, line and column as arguments, in case of
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an error during lexing.
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on_lbrace_func, on_rbrace_func:
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Called when an LBRACE or RBRACE is encountered
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(likely to push/pop type_lookup_func's scope)
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type_lookup_func:
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A type lookup function. Given a string, it must
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return True IFF this string is a name of a type
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that was defined with a typedef earlier.
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"""
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self.error_func = error_func
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self.on_lbrace_func = on_lbrace_func
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self.on_rbrace_func = on_rbrace_func
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self.type_lookup_func = type_lookup_func
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self.filename = ''
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# Keeps track of the last token returned from self.token()
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self.last_token = None
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# Allow either "# line" or "# <num>" to support GCC's
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# cpp output
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#
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self.line_pattern = re.compile(r'([ \t]*line\W)|([ \t]*\d+)')
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self.pragma_pattern = re.compile(r'[ \t]*pragma\W')
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def build(self, **kwargs):
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""" Builds the lexer from the specification. Must be
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called after the lexer object is created.
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This method exists separately, because the PLY
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manual warns against calling lex.lex inside
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__init__
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"""
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self.lexer = lex.lex(object=self, **kwargs)
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def reset_lineno(self):
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""" Resets the internal line number counter of the lexer.
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"""
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self.lexer.lineno = 1
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def input(self, text):
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self.lexer.input(text)
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def token(self):
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self.last_token = self.lexer.token()
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return self.last_token
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def find_tok_column(self, token):
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""" Find the column of the token in its line.
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"""
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last_cr = self.lexer.lexdata.rfind('\n', 0, token.lexpos)
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return token.lexpos - last_cr
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######################-- PRIVATE --######################
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##
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## Internal auxiliary methods
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##
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def _error(self, msg, token):
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location = self._make_tok_location(token)
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self.error_func(msg, location[0], location[1])
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self.lexer.skip(1)
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def _make_tok_location(self, token):
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return (token.lineno, self.find_tok_column(token))
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##
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## Reserved keywords
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##
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keywords = (
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'_BOOL', '_COMPLEX', 'AUTO', 'BREAK', 'CASE', 'CHAR', 'CONST',
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'CONTINUE', 'DEFAULT', 'DO', 'DOUBLE', 'ELSE', 'ENUM', 'EXTERN',
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'FLOAT', 'FOR', 'GOTO', 'IF', 'INLINE', 'INT', 'LONG',
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'REGISTER', 'OFFSETOF',
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'RESTRICT', 'RETURN', 'SHORT', 'SIGNED', 'SIZEOF', 'STATIC', 'STRUCT',
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'SWITCH', 'TYPEDEF', 'UNION', 'UNSIGNED', 'VOID',
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'VOLATILE', 'WHILE', '__INT128',
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)
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keyword_map = {}
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for keyword in keywords:
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if keyword == '_BOOL':
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keyword_map['_Bool'] = keyword
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elif keyword == '_COMPLEX':
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keyword_map['_Complex'] = keyword
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else:
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keyword_map[keyword.lower()] = keyword
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##
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## All the tokens recognized by the lexer
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##
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tokens = keywords + (
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# Identifiers
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'ID',
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# Type identifiers (identifiers previously defined as
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# types with typedef)
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'TYPEID',
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# constants
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'INT_CONST_DEC', 'INT_CONST_OCT', 'INT_CONST_HEX', 'INT_CONST_BIN', 'INT_CONST_CHAR',
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'FLOAT_CONST', 'HEX_FLOAT_CONST',
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'CHAR_CONST',
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'WCHAR_CONST',
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# String literals
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'STRING_LITERAL',
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'WSTRING_LITERAL',
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# Operators
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'PLUS', 'MINUS', 'TIMES', 'DIVIDE', 'MOD',
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'OR', 'AND', 'NOT', 'XOR', 'LSHIFT', 'RSHIFT',
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'LOR', 'LAND', 'LNOT',
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'LT', 'LE', 'GT', 'GE', 'EQ', 'NE',
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# Assignment
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'EQUALS', 'TIMESEQUAL', 'DIVEQUAL', 'MODEQUAL',
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'PLUSEQUAL', 'MINUSEQUAL',
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'LSHIFTEQUAL','RSHIFTEQUAL', 'ANDEQUAL', 'XOREQUAL',
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'OREQUAL',
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# Increment/decrement
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'PLUSPLUS', 'MINUSMINUS',
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# Structure dereference (->)
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'ARROW',
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# Conditional operator (?)
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'CONDOP',
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# Delimeters
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'LPAREN', 'RPAREN', # ( )
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'LBRACKET', 'RBRACKET', # [ ]
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'LBRACE', 'RBRACE', # { }
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'COMMA', 'PERIOD', # . ,
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'SEMI', 'COLON', # ; :
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# Ellipsis (...)
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'ELLIPSIS',
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# pre-processor
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'PPHASH', # '#'
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'PPPRAGMA', # 'pragma'
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'PPPRAGMASTR',
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)
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##
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## Regexes for use in tokens
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##
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##
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# valid C identifiers (K&R2: A.2.3), plus '$' (supported by some compilers)
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identifier = r'[a-zA-Z_$][0-9a-zA-Z_$]*'
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hex_prefix = '0[xX]'
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hex_digits = '[0-9a-fA-F]+'
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bin_prefix = '0[bB]'
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bin_digits = '[01]+'
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# integer constants (K&R2: A.2.5.1)
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integer_suffix_opt = r'(([uU]ll)|([uU]LL)|(ll[uU]?)|(LL[uU]?)|([uU][lL])|([lL][uU]?)|[uU])?'
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decimal_constant = '(0'+integer_suffix_opt+')|([1-9][0-9]*'+integer_suffix_opt+')'
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octal_constant = '0[0-7]*'+integer_suffix_opt
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hex_constant = hex_prefix+hex_digits+integer_suffix_opt
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bin_constant = bin_prefix+bin_digits+integer_suffix_opt
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bad_octal_constant = '0[0-7]*[89]'
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# character constants (K&R2: A.2.5.2)
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# Note: a-zA-Z and '.-~^_!=&;,' are allowed as escape chars to support #line
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# directives with Windows paths as filenames (..\..\dir\file)
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# For the same reason, decimal_escape allows all digit sequences. We want to
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# parse all correct code, even if it means to sometimes parse incorrect
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# code.
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#
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# The original regexes were taken verbatim from the C syntax definition,
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# and were later modified to avoid worst-case exponential running time.
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#
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# simple_escape = r"""([a-zA-Z._~!=&\^\-\\?'"])"""
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# decimal_escape = r"""(\d+)"""
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# hex_escape = r"""(x[0-9a-fA-F]+)"""
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# bad_escape = r"""([\\][^a-zA-Z._~^!=&\^\-\\?'"x0-7])"""
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#
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# The following modifications were made to avoid the ambiguity that allowed backtracking:
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# (https://github.com/eliben/pycparser/issues/61)
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#
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# - \x was removed from simple_escape, unless it was not followed by a hex digit, to avoid ambiguity with hex_escape.
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# - hex_escape allows one or more hex characters, but requires that the next character(if any) is not hex
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# - decimal_escape allows one or more decimal characters, but requires that the next character(if any) is not a decimal
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# - bad_escape does not allow any decimals (8-9), to avoid conflicting with the permissive decimal_escape.
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#
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# Without this change, python's `re` module would recursively try parsing each ambiguous escape sequence in multiple ways.
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# e.g. `\123` could be parsed as `\1`+`23`, `\12`+`3`, and `\123`.
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simple_escape = r"""([a-wyzA-Z._~!=&\^\-\\?'"]|x(?![0-9a-fA-F]))"""
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decimal_escape = r"""(\d+)(?!\d)"""
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hex_escape = r"""(x[0-9a-fA-F]+)(?![0-9a-fA-F])"""
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bad_escape = r"""([\\][^a-zA-Z._~^!=&\^\-\\?'"x0-9])"""
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escape_sequence = r"""(\\("""+simple_escape+'|'+decimal_escape+'|'+hex_escape+'))'
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# This complicated regex with lookahead might be slow for strings, so because all of the valid escapes (including \x) allowed
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# 0 or more non-escaped characters after the first character, simple_escape+decimal_escape+hex_escape got simplified to
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escape_sequence_start_in_string = r"""(\\[0-9a-zA-Z._~!=&\^\-\\?'"])"""
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cconst_char = r"""([^'\\\n]|"""+escape_sequence+')'
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char_const = "'"+cconst_char+"'"
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wchar_const = 'L'+char_const
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multicharacter_constant = "'"+cconst_char+"{2,4}'"
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unmatched_quote = "('"+cconst_char+"*\\n)|('"+cconst_char+"*$)"
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bad_char_const = r"""('"""+cconst_char+"""[^'\n]+')|('')|('"""+bad_escape+r"""[^'\n]*')"""
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# string literals (K&R2: A.2.6)
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string_char = r"""([^"\\\n]|"""+escape_sequence_start_in_string+')'
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string_literal = '"'+string_char+'*"'
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wstring_literal = 'L'+string_literal
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bad_string_literal = '"'+string_char+'*'+bad_escape+string_char+'*"'
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# floating constants (K&R2: A.2.5.3)
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exponent_part = r"""([eE][-+]?[0-9]+)"""
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fractional_constant = r"""([0-9]*\.[0-9]+)|([0-9]+\.)"""
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floating_constant = '(((('+fractional_constant+')'+exponent_part+'?)|([0-9]+'+exponent_part+'))[FfLl]?)'
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binary_exponent_part = r'''([pP][+-]?[0-9]+)'''
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hex_fractional_constant = '((('+hex_digits+r""")?\."""+hex_digits+')|('+hex_digits+r"""\.))"""
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hex_floating_constant = '('+hex_prefix+'('+hex_digits+'|'+hex_fractional_constant+')'+binary_exponent_part+'[FfLl]?)'
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##
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## Lexer states: used for preprocessor \n-terminated directives
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##
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states = (
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# ppline: preprocessor line directives
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#
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('ppline', 'exclusive'),
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# pppragma: pragma
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#
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('pppragma', 'exclusive'),
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)
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def t_PPHASH(self, t):
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r'[ \t]*\#'
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if self.line_pattern.match(t.lexer.lexdata, pos=t.lexer.lexpos):
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t.lexer.begin('ppline')
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self.pp_line = self.pp_filename = None
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elif self.pragma_pattern.match(t.lexer.lexdata, pos=t.lexer.lexpos):
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t.lexer.begin('pppragma')
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else:
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t.type = 'PPHASH'
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return t
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##
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## Rules for the ppline state
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##
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@TOKEN(string_literal)
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def t_ppline_FILENAME(self, t):
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if self.pp_line is None:
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self._error('filename before line number in #line', t)
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else:
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self.pp_filename = t.value.lstrip('"').rstrip('"')
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@TOKEN(decimal_constant)
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def t_ppline_LINE_NUMBER(self, t):
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if self.pp_line is None:
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self.pp_line = t.value
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else:
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# Ignore: GCC's cpp sometimes inserts a numeric flag
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# after the file name
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pass
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def t_ppline_NEWLINE(self, t):
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r'\n'
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if self.pp_line is None:
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self._error('line number missing in #line', t)
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else:
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self.lexer.lineno = int(self.pp_line)
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if self.pp_filename is not None:
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self.filename = self.pp_filename
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t.lexer.begin('INITIAL')
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def t_ppline_PPLINE(self, t):
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r'line'
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pass
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t_ppline_ignore = ' \t'
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def t_ppline_error(self, t):
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self._error('invalid #line directive', t)
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##
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## Rules for the pppragma state
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##
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def t_pppragma_NEWLINE(self, t):
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r'\n'
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t.lexer.lineno += 1
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t.lexer.begin('INITIAL')
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def t_pppragma_PPPRAGMA(self, t):
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r'pragma'
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return t
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t_pppragma_ignore = ' \t'
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def t_pppragma_STR(self, t):
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'.+'
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t.type = 'PPPRAGMASTR'
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return t
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def t_pppragma_error(self, t):
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self._error('invalid #pragma directive', t)
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##
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## Rules for the normal state
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##
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t_ignore = ' \t'
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# Newlines
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def t_NEWLINE(self, t):
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r'\n+'
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t.lexer.lineno += t.value.count("\n")
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# Operators
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t_PLUS = r'\+'
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t_MINUS = r'-'
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t_TIMES = r'\*'
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t_DIVIDE = r'/'
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t_MOD = r'%'
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t_OR = r'\|'
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t_AND = r'&'
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t_NOT = r'~'
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t_XOR = r'\^'
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t_LSHIFT = r'<<'
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t_RSHIFT = r'>>'
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t_LOR = r'\|\|'
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t_LAND = r'&&'
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t_LNOT = r'!'
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t_LT = r'<'
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t_GT = r'>'
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t_LE = r'<='
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t_GE = r'>='
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t_EQ = r'=='
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t_NE = r'!='
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# Assignment operators
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t_EQUALS = r'='
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t_TIMESEQUAL = r'\*='
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t_DIVEQUAL = r'/='
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t_MODEQUAL = r'%='
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t_PLUSEQUAL = r'\+='
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t_MINUSEQUAL = r'-='
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t_LSHIFTEQUAL = r'<<='
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t_RSHIFTEQUAL = r'>>='
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t_ANDEQUAL = r'&='
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t_OREQUAL = r'\|='
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t_XOREQUAL = r'\^='
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# Increment/decrement
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t_PLUSPLUS = r'\+\+'
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t_MINUSMINUS = r'--'
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# ->
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t_ARROW = r'->'
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# ?
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t_CONDOP = r'\?'
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# Delimeters
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t_LPAREN = r'\('
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t_RPAREN = r'\)'
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t_LBRACKET = r'\['
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t_RBRACKET = r'\]'
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t_COMMA = r','
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t_PERIOD = r'\.'
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t_SEMI = r';'
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t_COLON = r':'
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t_ELLIPSIS = r'\.\.\.'
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# Scope delimiters
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# To see why on_lbrace_func is needed, consider:
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# typedef char TT;
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# void foo(int TT) { TT = 10; }
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# TT x = 5;
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# Outside the function, TT is a typedef, but inside (starting and ending
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# with the braces) it's a parameter. The trouble begins with yacc's
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# lookahead token. If we open a new scope in brace_open, then TT has
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# already been read and incorrectly interpreted as TYPEID. So, we need
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# to open and close scopes from within the lexer.
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# Similar for the TT immediately outside the end of the function.
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#
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@TOKEN(r'\{')
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def t_LBRACE(self, t):
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self.on_lbrace_func()
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return t
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@TOKEN(r'\}')
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def t_RBRACE(self, t):
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self.on_rbrace_func()
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return t
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t_STRING_LITERAL = string_literal
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# The following floating and integer constants are defined as
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# functions to impose a strict order (otherwise, decimal
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# is placed before the others because its regex is longer,
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# and this is bad)
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#
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@TOKEN(floating_constant)
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def t_FLOAT_CONST(self, t):
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return t
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@TOKEN(hex_floating_constant)
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def t_HEX_FLOAT_CONST(self, t):
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return t
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@TOKEN(hex_constant)
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def t_INT_CONST_HEX(self, t):
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return t
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@TOKEN(bin_constant)
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def t_INT_CONST_BIN(self, t):
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return t
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@TOKEN(bad_octal_constant)
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def t_BAD_CONST_OCT(self, t):
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msg = "Invalid octal constant"
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self._error(msg, t)
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@TOKEN(octal_constant)
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def t_INT_CONST_OCT(self, t):
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return t
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@TOKEN(decimal_constant)
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def t_INT_CONST_DEC(self, t):
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return t
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# Must come before bad_char_const, to prevent it from
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# catching valid char constants as invalid
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#
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@TOKEN(multicharacter_constant)
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def t_INT_CONST_CHAR(self, t):
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return t
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@TOKEN(char_const)
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def t_CHAR_CONST(self, t):
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return t
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@TOKEN(wchar_const)
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def t_WCHAR_CONST(self, t):
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return t
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@TOKEN(unmatched_quote)
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def t_UNMATCHED_QUOTE(self, t):
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msg = "Unmatched '"
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self._error(msg, t)
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@TOKEN(bad_char_const)
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def t_BAD_CHAR_CONST(self, t):
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msg = "Invalid char constant %s" % t.value
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|
self._error(msg, t)
|
|
|
|
@TOKEN(wstring_literal)
|
|
def t_WSTRING_LITERAL(self, t):
|
|
return t
|
|
|
|
# unmatched string literals are caught by the preprocessor
|
|
|
|
@TOKEN(bad_string_literal)
|
|
def t_BAD_STRING_LITERAL(self, t):
|
|
msg = "String contains invalid escape code"
|
|
self._error(msg, t)
|
|
|
|
@TOKEN(identifier)
|
|
def t_ID(self, t):
|
|
t.type = self.keyword_map.get(t.value, "ID")
|
|
if t.type == 'ID' and self.type_lookup_func(t.value):
|
|
t.type = "TYPEID"
|
|
return t
|
|
|
|
def t_error(self, t):
|
|
msg = 'Illegal character %s' % repr(t.value[0])
|
|
self._error(msg, t)
|