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531 lines
18 KiB
Python
531 lines
18 KiB
Python
#! /usr/bin/python3
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# Approximation to C preprocessing.
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# Copyright (C) 2019-2024 Free Software Foundation, Inc.
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# This file is part of the GNU C Library.
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#
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# The GNU C Library is free software; you can redistribute it and/or
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# modify it under the terms of the GNU Lesser General Public
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# License as published by the Free Software Foundation; either
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# version 2.1 of the License, or (at your option) any later version.
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#
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# The GNU C Library is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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# Lesser General Public License for more details.
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#
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# You should have received a copy of the GNU Lesser General Public
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# License along with the GNU C Library; if not, see
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# <https://www.gnu.org/licenses/>.
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"""
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Simplified lexical analyzer for C preprocessing tokens.
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Does not implement trigraphs.
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Does not implement backslash-newline in the middle of any lexical
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item other than a string literal.
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Does not implement universal-character-names in identifiers.
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Treats prefixed strings (e.g. L"...") as two tokens (L and "...").
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Accepts non-ASCII characters only within comments and strings.
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"""
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import collections
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import operator
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import re
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import sys
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# Caution: The order of the outermost alternation matters.
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# STRING must be before BAD_STRING, CHARCONST before BAD_CHARCONST,
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# BLOCK_COMMENT before BAD_BLOCK_COM before PUNCTUATOR, and OTHER must
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# be last.
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# Caution: There should be no capturing groups other than the named
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# captures in the outermost alternation.
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# For reference, these are all of the C punctuators as of C11:
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# [ ] ( ) { } , ; ? ~
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# ! != * *= / /= ^ ^= = ==
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# # ##
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# % %= %> %: %:%:
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# & &= &&
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# | |= ||
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# + += ++
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# - -= -- ->
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# . ...
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# : :>
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# < <% <: << <<= <=
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# > >= >> >>=
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# The BAD_* tokens are not part of the official definition of pp-tokens;
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# they match unclosed strings, character constants, and block comments,
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# so that the regex engine doesn't have to backtrack all the way to the
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# beginning of a broken construct and then emit dozens of junk tokens.
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PP_TOKEN_RE_ = re.compile(r"""
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(?P<STRING> \"(?:[^\"\\\r\n]|\\(?:[\r\n -~]|\r\n))*\")
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|(?P<BAD_STRING> \"(?:[^\"\\\r\n]|\\[ -~])*)
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|(?P<CHARCONST> \'(?:[^\'\\\r\n]|\\(?:[\r\n -~]|\r\n))*\')
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|(?P<BAD_CHARCONST> \'(?:[^\'\\\r\n]|\\[ -~])*)
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|(?P<BLOCK_COMMENT> /\*(?:\*(?!/)|[^*])*\*/)
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|(?P<BAD_BLOCK_COM> /\*(?:\*(?!/)|[^*])*\*?)
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|(?P<LINE_COMMENT> //[^\r\n]*)
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|(?P<IDENT> [_a-zA-Z][_a-zA-Z0-9]*)
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|(?P<PP_NUMBER> \.?[0-9](?:[0-9a-df-oq-zA-DF-OQ-Z_.]|[eEpP][+-]?)*)
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|(?P<PUNCTUATOR>
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[,;?~(){}\[\]]
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| [!*/^=]=?
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| \#\#?
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| %(?:[=>]|:(?:%:)?)?
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| &[=&]?
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|\|[=|]?
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|\+[=+]?
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| -[=->]?
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|\.(?:\.\.)?
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| :>?
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| <(?:[%:]|<(?:=|<=?)?)?
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| >(?:=|>=?)?)
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|(?P<ESCNL> \\(?:\r|\n|\r\n))
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|(?P<WHITESPACE> [ \t\n\r\v\f]+)
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|(?P<OTHER> .)
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""", re.DOTALL | re.VERBOSE)
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HEADER_NAME_RE_ = re.compile(r"""
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< [^>\r\n]+ >
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| " [^"\r\n]+ "
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""", re.DOTALL | re.VERBOSE)
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ENDLINE_RE_ = re.compile(r"""\r|\n|\r\n""")
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# based on the sample code in the Python re documentation
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Token_ = collections.namedtuple("Token", (
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"kind", "text", "line", "column", "context"))
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Token_.__doc__ = """
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One C preprocessing token, comment, or chunk of whitespace.
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'kind' identifies the token type, which will be one of:
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STRING, CHARCONST, BLOCK_COMMENT, LINE_COMMENT, IDENT,
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PP_NUMBER, PUNCTUATOR, ESCNL, WHITESPACE, HEADER_NAME,
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or OTHER. The BAD_* alternatives in PP_TOKEN_RE_ are
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handled within tokenize_c, below.
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'text' is the sequence of source characters making up the token;
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no decoding whatsoever is performed.
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'line' and 'column' give the position of the first character of the
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token within the source file. They are both 1-based.
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'context' indicates whether or not this token occurred within a
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preprocessing directive; it will be None for running text,
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'<null>' for the leading '#' of a directive line (because '#'
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all by itself on a line is a "null directive"), or the name of
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the directive for tokens within a directive line, starting with
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the IDENT for the name itself.
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"""
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def tokenize_c(file_contents, reporter):
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"""Yield a series of Token objects, one for each preprocessing
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token, comment, or chunk of whitespace within FILE_CONTENTS.
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The REPORTER object is expected to have one method,
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reporter.error(token, message), which will be called to
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indicate a lexical error at the position of TOKEN.
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If MESSAGE contains the four-character sequence '{!r}', that
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is expected to be replaced by repr(token.text).
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"""
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Token = Token_
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PP_TOKEN_RE = PP_TOKEN_RE_
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ENDLINE_RE = ENDLINE_RE_
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HEADER_NAME_RE = HEADER_NAME_RE_
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line_num = 1
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line_start = 0
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pos = 0
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limit = len(file_contents)
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directive = None
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at_bol = True
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while pos < limit:
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if directive == "include":
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mo = HEADER_NAME_RE.match(file_contents, pos)
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if mo:
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kind = "HEADER_NAME"
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directive = "after_include"
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else:
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mo = PP_TOKEN_RE.match(file_contents, pos)
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kind = mo.lastgroup
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if kind != "WHITESPACE":
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directive = "after_include"
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else:
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mo = PP_TOKEN_RE.match(file_contents, pos)
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kind = mo.lastgroup
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text = mo.group()
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line = line_num
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column = mo.start() - line_start
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adj_line_start = 0
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# only these kinds can contain a newline
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if kind in ("WHITESPACE", "BLOCK_COMMENT", "LINE_COMMENT",
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"STRING", "CHARCONST", "BAD_BLOCK_COM", "ESCNL"):
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for tmo in ENDLINE_RE.finditer(text):
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line_num += 1
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adj_line_start = tmo.end()
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if adj_line_start:
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line_start = mo.start() + adj_line_start
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# Track whether or not we are scanning a preprocessing directive.
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if kind == "LINE_COMMENT" or (kind == "WHITESPACE" and adj_line_start):
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at_bol = True
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directive = None
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else:
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if kind == "PUNCTUATOR" and text == "#" and at_bol:
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directive = "<null>"
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elif kind == "IDENT" and directive == "<null>":
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directive = text
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at_bol = False
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# Report ill-formed tokens and rewrite them as their well-formed
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# equivalents, so downstream processing doesn't have to know about them.
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# (Rewriting instead of discarding provides better error recovery.)
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if kind == "BAD_BLOCK_COM":
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reporter.error(Token("BAD_BLOCK_COM", "", line, column+1, ""),
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"unclosed block comment")
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text += "*/"
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kind = "BLOCK_COMMENT"
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elif kind == "BAD_STRING":
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reporter.error(Token("BAD_STRING", "", line, column+1, ""),
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"unclosed string")
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text += "\""
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kind = "STRING"
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elif kind == "BAD_CHARCONST":
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reporter.error(Token("BAD_CHARCONST", "", line, column+1, ""),
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"unclosed char constant")
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text += "'"
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kind = "CHARCONST"
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tok = Token(kind, text, line, column+1,
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"include" if directive == "after_include" else directive)
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# Do not complain about OTHER tokens inside macro definitions.
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# $ and @ appear in macros defined by headers intended to be
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# included from assembly language, e.g. sysdeps/mips/sys/asm.h.
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if kind == "OTHER" and directive != "define":
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self.error(tok, "stray {!r} in program")
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yield tok
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pos = mo.end()
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class MacroDefinition(collections.namedtuple('MacroDefinition',
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'name_token args body error')):
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"""A preprocessor macro definition.
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name_token is the Token_ for the name.
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args is None for a macro that is not function-like. Otherwise, it
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is a tuple that contains the macro argument name tokens.
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body is a tuple that contains the tokens that constitute the body
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of the macro definition (excluding whitespace).
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error is None if no error was detected, or otherwise a problem
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description associated with this macro definition.
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"""
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@property
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def function(self):
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"""Return true if the macro is function-like."""
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return self.args is not None
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@property
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def name(self):
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"""Return the name of the macro being defined."""
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return self.name_token.text
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@property
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def line(self):
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"""Return the line number of the macro definition."""
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return self.name_token.line
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@property
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def args_lowered(self):
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"""Return the macro argument list as a list of strings"""
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if self.function:
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return [token.text for token in self.args]
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else:
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return None
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@property
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def body_lowered(self):
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"""Return the macro body as a list of strings."""
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return [token.text for token in self.body]
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def macro_definitions(tokens):
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"""A generator for C macro definitions among tokens.
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The generator yields MacroDefinition objects.
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tokens must be iterable, yielding Token_ objects.
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"""
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macro_name = None
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macro_start = False # Set to false after macro name and one otken.
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macro_args = None # Set to a list during the macro argument sequence.
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in_macro_args = False # True while processing macro identifier-list.
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error = None
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body = []
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for token in tokens:
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if token.context == 'define' and macro_name is None \
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and token.kind == 'IDENT':
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# Starting up macro processing.
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if macro_start:
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# First identifier is the macro name.
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macro_name = token
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else:
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# Next token is the name.
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macro_start = True
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continue
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if macro_name is None:
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# Drop tokens not in macro definitions.
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continue
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if token.context != 'define':
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# End of the macro definition.
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if in_macro_args and error is None:
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error = 'macro definition ends in macro argument list'
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yield MacroDefinition(macro_name, macro_args, tuple(body), error)
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# No longer in a macro definition.
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macro_name = None
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macro_start = False
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macro_args = None
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in_macro_args = False
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error = None
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body.clear()
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continue
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if macro_start:
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# First token after the macro name.
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macro_start = False
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if token.kind == 'PUNCTUATOR' and token.text == '(':
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macro_args = []
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in_macro_args = True
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continue
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if in_macro_args:
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if token.kind == 'IDENT' \
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or (token.kind == 'PUNCTUATOR' and token.text == '...'):
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# Macro argument or ... placeholder.
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macro_args.append(token)
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if token.kind == 'PUNCTUATOR':
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if token.text == ')':
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macro_args = tuple(macro_args)
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in_macro_args = False
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elif token.text == ',':
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pass # Skip. Not a full syntax check.
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elif error is None:
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error = 'invalid punctuator in macro argument list: ' \
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+ repr(token.text)
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elif error is None:
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error = 'invalid {} token in macro argument list'.format(
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token.kind)
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continue
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if token.kind not in ('WHITESPACE', 'BLOCK_COMMENT'):
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body.append(token)
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# Emit the macro in case the last line does not end with a newline.
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if macro_name is not None:
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if in_macro_args and error is None:
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error = 'macro definition ends in macro argument list'
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yield MacroDefinition(macro_name, macro_args, tuple(body), error)
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# Used to split UL etc. suffixes from numbers such as 123UL.
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RE_SPLIT_INTEGER_SUFFIX = re.compile(r'([^ullULL]+)([ullULL]*)')
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BINARY_OPERATORS = {
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'+': operator.add,
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'<<': operator.lshift,
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'|': operator.or_,
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}
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# Use the general-purpose dict type if it is order-preserving.
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if (sys.version_info[0], sys.version_info[1]) <= (3, 6):
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OrderedDict = collections.OrderedDict
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else:
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OrderedDict = dict
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def macro_eval(macro_defs, reporter):
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"""Compute macro values
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macro_defs is the output from macro_definitions. reporter is an
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object that accepts reporter.error(line_number, message) and
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reporter.note(line_number, message) calls to report errors
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and error context invocations.
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The returned dict contains the values of macros which are not
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function-like, pairing their names with their computed values.
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The current implementation is incomplete. It is deliberately not
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entirely faithful to C, even in the implemented parts. It checks
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that macro replacements follow certain syntactic rules even if
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they are never evaluated.
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"""
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# Unevaluated macro definitions by name.
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definitions = OrderedDict()
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for md in macro_defs:
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if md.name in definitions:
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reporter.error(md.line, 'macro {} redefined'.format(md.name))
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reporter.note(definitions[md.name].line,
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'location of previous definition')
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else:
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definitions[md.name] = md
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# String to value mappings for fully evaluated macros.
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evaluated = OrderedDict()
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# String to macro definitions during evaluation. Nice error
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# reporting relies on deterministic iteration order.
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stack = OrderedDict()
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def eval_token(current, token):
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"""Evaluate one macro token.
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Integers and strings are returned as such (the latter still
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quoted). Identifiers are expanded.
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None indicates an empty expansion or an error.
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"""
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if token.kind == 'PP_NUMBER':
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value = None
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m = RE_SPLIT_INTEGER_SUFFIX.match(token.text)
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if m:
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try:
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value = int(m.group(1), 0)
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except ValueError:
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pass
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if value is None:
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reporter.error(token.line,
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'invalid number {!r} in definition of {}'.format(
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token.text, current.name))
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return value
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if token.kind == 'STRING':
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return token.text
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if token.kind == 'CHARCONST' and len(token.text) == 3:
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return ord(token.text[1])
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if token.kind == 'IDENT':
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name = token.text
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result = eval1(current, name)
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if name not in evaluated:
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evaluated[name] = result
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return result
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reporter.error(token.line,
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'unrecognized {!r} in definition of {}'.format(
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token.text, current.name))
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return None
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|
|
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def eval1(current, name):
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"""Evaluate one name.
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The name is looked up and the macro definition evaluated
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recursively if necessary. The current argument is the macro
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definition being evaluated.
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None as a return value indicates an error.
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"""
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# Fast path if the value has already been evaluated.
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if name in evaluated:
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return evaluated[name]
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try:
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md = definitions[name]
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except KeyError:
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reporter.error(current.line,
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'reference to undefined identifier {} in definition of {}'
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.format(name, current.name))
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return None
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if md.name in stack:
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# Recursive macro definition.
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md = stack[name]
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reporter.error(md.line,
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'macro definition {} refers to itself'.format(md.name))
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for md1 in reversed(list(stack.values())):
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if md1 is md:
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break
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reporter.note(md1.line,
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'evaluated from {}'.format(md1.name))
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return None
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stack[md.name] = md
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if md.function:
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reporter.error(current.line,
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'attempt to evaluate function-like macro {}'.format(name))
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reporter.note(md.line, 'definition of {}'.format(md.name))
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return None
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try:
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body = md.body
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if len(body) == 0:
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# Empty expansion.
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return None
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# Remove surrounding ().
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if body[0].text == '(' and body[-1].text == ')':
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body = body[1:-1]
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had_parens = True
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else:
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had_parens = False
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if len(body) == 1:
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return eval_token(md, body[0])
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# Minimal expression evaluator for binary operators.
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op = body[1].text
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if len(body) == 3 and op in BINARY_OPERATORS:
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if not had_parens:
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reporter.error(body[1].line,
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'missing parentheses around {} expression'.format(op))
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reporter.note(md.line,
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'in definition of macro {}'.format(md.name))
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left = eval_token(md, body[0])
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right = eval_token(md, body[2])
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if type(left) != type(1):
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reporter.error(left.line,
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'left operand of {} is not an integer'.format(op))
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reporter.note(md.line,
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'in definition of macro {}'.format(md.name))
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if type(right) != type(1):
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reporter.error(left.line,
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'right operand of {} is not an integer'.format(op))
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reporter.note(md.line,
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'in definition of macro {}'.format(md.name))
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|
return BINARY_OPERATORS[op](left, right)
|
|
|
|
reporter.error(md.line,
|
|
'uninterpretable macro token sequence: {}'.format(
|
|
' '.join(md.body_lowered)))
|
|
return None
|
|
finally:
|
|
del stack[md.name]
|
|
|
|
# Start of main body of macro_eval.
|
|
for md in definitions.values():
|
|
name = md.name
|
|
if name not in evaluated and not md.function:
|
|
evaluated[name] = eval1(md, name)
|
|
return evaluated
|