cppcheck/tools/matchcompiler.py

700 lines
23 KiB
Python
Executable File

#!/usr/bin/python
#
# Cppcheck - A tool for static C/C++ code analysis
# Copyright (C) 2007-2016 Cppcheck team.
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import os
import sys
import re
import glob
import argparse
class MatchCompiler:
def __init__(self, verify_mode=False, show_skipped=False):
self._verifyMode = verify_mode
self._showSkipped = show_skipped
self._reset()
def _reset(self):
self._rawMatchFunctions = []
self._matchFunctionCache = {}
def _generateCacheSignature(
self, pattern, endToken=None, varId=None, isFindMatch=False):
sig = pattern
if endToken:
sig += '|ENDTOKEN'
else:
sig += '|NO-ENDTOKEN'
if varId:
sig += '|VARID'
else:
sig += '|NO-VARID'
if isFindMatch:
sig += '|ISFINDMATCH'
else:
sig += '|NORMALMATCH'
return sig
def _lookupMatchFunctionId(
self, pattern, endToken=None, varId=None, isFindMatch=False):
signature = self._generateCacheSignature(
pattern, endToken, varId, isFindMatch)
if signature in self._matchFunctionCache:
return self._matchFunctionCache[signature]
return None
def _insertMatchFunctionId(
self, id, pattern, endToken=None, varId=None, isFindMatch=False):
signature = self._generateCacheSignature(
pattern, endToken, varId, isFindMatch)
# function signature should not be in the cache
assert(
self._lookupMatchFunctionId(
pattern,
endToken,
varId,
isFindMatch) is None)
self._matchFunctionCache[signature] = id
def _compileCmd(self, tok):
if tok == '%any%':
return 'true'
elif tok == '%assign%':
return 'tok->isAssignmentOp()'
elif tok == '%bool%':
return 'tok->isBoolean()'
elif tok == '%char%':
return '(tok->tokType()==Token::eChar)'
elif tok == '%comp%':
return 'tok->isComparisonOp()'
elif tok == '%num%':
return 'tok->isNumber()'
elif tok == '%cop%':
return 'tok->isConstOp()'
elif tok == '%op%':
return 'tok->isOp()'
elif tok == '%or%':
return '(tok->tokType() == Token::eBitOp && tok->str()==MatchCompiler::makeConstString("|") )'
elif tok == '%oror%':
return '(tok->tokType() == Token::eLogicalOp && tok->str()==MatchCompiler::makeConstString("||"))'
elif tok == '%str%':
return '(tok->tokType()==Token::eString)'
elif tok == '%type%':
return (
'(tok->isName() && tok->varId()==0U && !tok->isKeyword())'
)
elif tok == '%name%':
return 'tok->isName()'
elif tok == '%var%':
return '(tok->varId() != 0)'
elif tok == '%varid%':
return '(tok->isName() && tok->varId()==varid)'
elif (len(tok) > 2) and (tok[0] == "%"):
print("unhandled:" + tok)
return (
'(tok->str()==MatchCompiler::makeConstString("' + tok + '"))'
)
def _compilePattern(self, pattern, nr, varid,
isFindMatch=False, tokenType="const Token"):
ret = ''
returnStatement = ''
if isFindMatch:
ret = '\n ' + tokenType + ' * tok = start_tok;\n'
returnStatement = 'continue;\n'
else:
arg2 = ''
if varid:
arg2 = ', const unsigned int varid'
ret = '// pattern: ' + pattern + '\n'
ret += 'static bool match' + \
str(nr) + '(' + tokenType + '* tok' + arg2 + ') {\n'
returnStatement = 'return false;\n'
tokens = pattern.split(' ')
gotoNextToken = ''
checked_varid = False
for tok in tokens:
if tok == '':
continue
ret += gotoNextToken
gotoNextToken = ' tok = tok->next();\n'
# if varid is provided, check that it's non-zero on first use
if varid and tok.find('%varid%') != -1 and checked_varid is False:
ret += ' if (varid==0U)\n'
ret += ' throw InternalError(tok, "Internal error. Token::Match called with varid 0. Please report this to Cppcheck developers");\n'
checked_varid = True
# [abc]
if (len(tok) > 2) and (tok[0] == '[') and (tok[-1] == ']'):
ret += ' if (!tok || tok->str().size()!=1U || !strchr("' + tok[1:-1] + '", tok->str()[0]))\n'
ret += ' ' + returnStatement
# a|b|c
elif tok.find('|') >= 0 and tok != '||' and tok != '|' and tok != '|=':
tokens2 = tok.split('|')
logicalOp = None
neg = None
if "" in tokens2:
ret += ' if (tok && ('
logicalOp = ' || '
neg = ''
else:
ret += ' if (!tok || !('
logicalOp = ' || '
neg = ''
first = True
for tok2 in tokens2:
if tok2 == '':
continue
if not first:
ret += logicalOp
first = False
ret += neg + self._compileCmd(tok2)
if "" in tokens2:
ret += '))\n'
ret += ' tok = tok->next();\n'
gotoNextToken = ''
else:
ret += '))\n'
ret += ' ' + returnStatement
# !!a
elif tok[0:2] == "!!":
ret += ' if (tok && tok->str() == MatchCompiler::makeConstString("' + tok[2:] + '"))\n'
ret += ' ' + returnStatement
gotoNextToken = ' tok = tok ? tok->next() : NULL;\n'
else:
ret += ' if (!tok || !' + self._compileCmd(tok) + ')\n'
ret += ' ' + returnStatement
if isFindMatch:
ret += ' return start_tok;\n'
else:
ret += ' return true;\n'
ret += '}\n'
return ret
def _compileFindPattern(self, pattern, findmatchnr, endToken, varId):
more_args = ''
endCondition = ''
if endToken:
more_args += ', const Token * end'
endCondition = ' && start_tok != end'
if varId:
more_args += ', unsigned int varid'
ret = '// pattern: ' + pattern + '\n'
ret += 'template<class T> static T * findmatch' + \
str(findmatchnr) + '(T * start_tok' + more_args + ') {\n'
ret += ' for (; start_tok' + endCondition + \
'; start_tok = start_tok->next()) {\n'
ret += self._compilePattern(pattern, -1, varId, True, 'T')
ret += ' }\n'
ret += ' return NULL;\n}\n'
return ret
def parseMatch(self, line, pos1):
parlevel = 0
args = []
argstart = 0
pos = pos1
inString = False
while pos < len(line):
if inString:
if line[pos] == '\\':
pos += 1
elif line[pos] == '"':
inString = False
elif line[pos] == '"':
inString = True
elif line[pos] == '(':
parlevel += 1
if parlevel == 1:
argstart = pos + 1
elif line[pos] == ')':
parlevel -= 1
if parlevel == 0:
ret = []
ret.append(line[pos1:pos + 1])
for arg in args:
ret.append(arg)
ret.append(line[argstart:pos])
return ret
elif line[pos] == ',' and parlevel == 1:
args.append(line[argstart:pos])
argstart = pos + 1
pos += 1
return None
def _isInString(self, line, pos1):
pos = 0
inString = False
while pos != pos1:
if inString:
if line[pos] == '\\':
pos += 1
elif line[pos] == '"':
inString = False
else:
if line[pos] == '\\':
pos += 1
elif line[pos] == '"':
inString = True
pos += 1
return inString
def _parseStringComparison(self, line, pos1):
startPos = 0
endPos = 0
pos = pos1
inString = False
while pos < len(line):
if inString:
if line[pos] == '\\':
pos += 1
elif line[pos] == '"':
inString = False
endPos = pos + 1
return (startPos, endPos)
elif line[pos] == '"':
startPos = pos
inString = True
pos += 1
return None
def _compileVerifyTokenMatch(
self, is_simplematch, verifyNumber, pattern, patternNumber, varId):
more_args = ''
if varId:
more_args = ', const unsigned int varid'
ret = 'static bool match_verify' + \
str(verifyNumber) + '(const Token *tok' + more_args + ') {\n'
origMatchName = 'Match'
if is_simplematch:
origMatchName = 'simpleMatch'
assert(varId is None)
ret += ' bool res_compiled_match = match' + \
str(patternNumber) + '(tok'
if varId:
ret += ', varid'
ret += ');\n'
ret += ' bool res_parsed_match = Token::' + \
origMatchName + '(tok, "' + pattern + '"'
if varId:
ret += ', varid'
ret += ');\n'
ret += '\n'
# Don't use assert() here, it's disabled for optimized builds.
# We also need to verify builds in 'release' mode
ret += ' if (res_parsed_match != res_compiled_match) {\n'
# ret += ' std::cout << "res_parsed_match' + str(verifyNumber) + ': " << res_parsed_match << ", res_compiled_match: " << res_compiled_match << "\\n";\n'
# ret += ' if (tok)\n'
# ret += ' std::cout << "tok: " << tok->str();\n'
# ret += ' if (tok->next())\n'
# ret += ' std::cout << "tok next: " << tok->next()->str();\n'
ret += ' throw InternalError(tok, "Internal error. compiled match returned different result than parsed match: ' + pattern + '");\n'
ret += ' }\n'
ret += ' return res_compiled_match;\n'
ret += '}\n'
return ret
def _replaceSpecificTokenMatch(
self, is_simplematch, line, start_pos, end_pos, pattern, tok, varId):
more_args = ''
if varId:
more_args = ',' + varId
# Compile function or use previously compiled one
patternNumber = self._lookupMatchFunctionId(
pattern, None, varId, False)
if patternNumber is None:
patternNumber = len(self._rawMatchFunctions) + 1
self._insertMatchFunctionId(
patternNumber,
pattern,
None,
varId,
False)
self._rawMatchFunctions.append(
self._compilePattern(pattern, patternNumber, varId))
functionName = "match"
if self._verifyMode:
verifyNumber = len(self._rawMatchFunctions) + 1
self._rawMatchFunctions.append(
self._compileVerifyTokenMatch(
is_simplematch,
verifyNumber,
pattern,
patternNumber,
varId))
# inject verify function
functionName = "match_verify"
patternNumber = verifyNumber
return (
line[:start_pos] + functionName + str(
patternNumber) + '(' + tok + more_args + ')' + line[start_pos + end_pos:]
)
def _replaceTokenMatch(self, line):
while True:
is_simplematch = False
pos1 = line.find('Token::Match(')
if pos1 == -1:
is_simplematch = True
pos1 = line.find('Token::simpleMatch(')
if pos1 == -1:
break
res = self.parseMatch(line, pos1)
if res is None:
break
# assert that Token::Match has either 2 or 3 arguments
assert(len(res) == 3 or len(res) == 4)
end_pos = len(res[0])
tok = res[1]
raw_pattern = res[2]
varId = None
if len(res) == 4:
varId = res[3]
res = re.match(r'\s*"((?:.|\\")*?)"\s*$', raw_pattern)
if res is None:
if self._showSkipped:
print("[SKIPPING] match pattern: " + raw_pattern)
break # Non-const pattern - bailout
pattern = res.group(1)
line = self._replaceSpecificTokenMatch(
is_simplematch,
line,
pos1,
end_pos,
pattern,
tok,
varId)
return line
def _compileVerifyTokenFindMatch(
self, is_findsimplematch, verifyNumber, pattern, patternNumber, endToken, varId):
more_args = ''
if endToken:
more_args += ', const Token * endToken'
if varId:
more_args += ', const unsigned int varid'
ret = 'template < class T > static T * findmatch_verify' + \
str(verifyNumber) + '(T * tok' + more_args + ') {\n'
origFindMatchName = 'findmatch'
if is_findsimplematch:
origFindMatchName = 'findsimplematch'
assert(varId is None)
ret += ' T * res_compiled_findmatch = findmatch' + \
str(patternNumber) + '(tok'
if endToken:
ret += ', endToken'
if varId:
ret += ', varid'
ret += ');\n'
ret += ' T * res_parsed_findmatch = Token::' + \
origFindMatchName + '(tok, "' + pattern + '"'
if endToken:
ret += ', endToken'
if varId:
ret += ', varid'
ret += ');\n'
ret += '\n'
# Don't use assert() here, it's disabled for optimized builds.
# We also need to verify builds in 'release' mode
ret += ' if (res_parsed_findmatch != res_compiled_findmatch) {\n'
ret += ' throw InternalError(tok, "Internal error. compiled findmatch returned different result than parsed findmatch: ' + pattern + '");\n'
ret += ' }\n'
ret += ' return res_compiled_findmatch;\n'
ret += '}\n'
return ret
def _replaceSpecificFindTokenMatch(
self, is_findsimplematch, line, start_pos, end_pos, pattern, tok, endToken, varId):
more_args = ''
if endToken:
more_args += ',' + endToken
if varId:
more_args += ',' + varId
# Compile function or use previously compiled one
findMatchNumber = self._lookupMatchFunctionId(
pattern, endToken, varId, True)
if findMatchNumber is None:
findMatchNumber = len(self._rawMatchFunctions) + 1
self._insertMatchFunctionId(
findMatchNumber,
pattern,
endToken,
varId,
True)
self._rawMatchFunctions.append(
self._compileFindPattern(
pattern,
findMatchNumber,
endToken,
varId))
functionName = "findmatch"
if self._verifyMode:
verifyNumber = len(self._rawMatchFunctions) + 1
self._rawMatchFunctions.append(
self._compileVerifyTokenFindMatch(
is_findsimplematch,
verifyNumber,
pattern,
findMatchNumber,
endToken,
varId))
# inject verify function
functionName = "findmatch_verify"
findMatchNumber = verifyNumber
return (
line[:start_pos] + functionName + str(
findMatchNumber) + '(' + tok + more_args + ') ' + line[start_pos + end_pos:]
)
def _replaceTokenFindMatch(self, line):
pos1 = 0
while True:
is_findsimplematch = True
pos1 = line.find('Token::findsimplematch(')
if pos1 == -1:
is_findsimplematch = False
pos1 = line.find('Token::findmatch(')
if pos1 == -1:
break
res = self.parseMatch(line, pos1)
if res is None:
break
assert(len(res) >= 3 or len(res) < 6)
# assert that Token::find(simple)match has either 2, 3 or
# four arguments
g0 = res[0]
tok = res[1]
pattern = res[2]
# Check for varId
varId = None
if not is_findsimplematch and g0.find("%varid%") != -1:
if len(res) == 5:
varId = res[4]
else:
varId = res[3]
# endToken support. We resolve the overloaded type by checking if varId is used or not.
# Function protoypes:
# Token *findsimplematch(const Token *tok, const char pattern[]);
# Token *findsimplematch(const Token *tok, const char pattern[], const Token *end);
# Token *findmatch(const Token *tok, const char pattern[], unsigned int varId = 0);
# Token *findmatch(const Token *tok, const char pattern[], const
# Token *end, unsigned int varId = 0);
endToken = None
if is_findsimplematch is True and len(res) == 4:
endToken = res[3]
elif is_findsimplematch is False:
if varId and len(res) == 5:
endToken = res[3]
elif varId is None and len(res) == 4:
endToken = res[3]
res = re.match(r'\s*"((?:.|\\")*?)"\s*$', pattern)
if res is None:
if self._showSkipped:
print("[SKIPPING] findmatch pattern: " + pattern)
break # Non-const pattern - bailout
pattern = res.group(1)
line = self._replaceSpecificFindTokenMatch(
is_findsimplematch,
line,
pos1,
len(g0),
pattern,
tok,
endToken,
varId)
return line
def _replaceCStrings(self, line):
while True:
match = re.search('(==|!=) *"', line)
if not match:
break
if self._isInString(line, match.start()):
break
res = self._parseStringComparison(line, match.start())
if res is None:
break
startPos = res[0]
endPos = res[1]
text = line[startPos + 1:endPos - 1]
line = line[:startPos] + 'MatchCompiler::makeConstStringBegin' + text + 'MatchCompiler::makeConstStringEnd' + line[endPos:]
line = line.replace('MatchCompiler::makeConstStringBegin', 'MatchCompiler::makeConstString("')
line = line.replace('MatchCompiler::makeConstStringEnd', '")')
return line
def convertFile(self, srcname, destname, line_directive):
self._reset()
fin = open(srcname, "rt")
srclines = fin.readlines()
fin.close()
header = '#include "token.h"\n'
header += '#include "errorlogger.h"\n'
header += '#include "matchcompiler.h"\n'
header += '#include <string>\n'
header += '#include <cstring>\n'
# header += '#include <iostream>\n'
code = ''
for line in srclines:
# Compile Token::Match and Token::simpleMatch
line = self._replaceTokenMatch(line)
# Compile Token::findsimplematch
line = self._replaceTokenFindMatch(line)
# Cache plain C-strings in C++ strings
line = self._replaceCStrings(line)
code += line
# Compute matchFunctions
strFunctions = ''
for function in self._rawMatchFunctions:
strFunctions += function
lineno = ''
if line_directive:
lineno = '#line 1 "' + srcname + '"\n'
fout = open(destname, 'wt')
fout.write(header + strFunctions + lineno + code)
fout.close()
def main():
# Main program
# Argument handling
parser = argparse.ArgumentParser(
description='Compile Token::Match() calls into native C++ code')
parser.add_argument('--verify', action='store_true', default=False,
help='verify compiled matches against on-the-fly parser. Slow!')
parser.add_argument('--show-skipped', action='store_true', default=False,
help='show skipped (non-static) patterns')
parser.add_argument('--read-dir', default="lib",
help='directory from which files are read')
parser.add_argument('--write-dir', default="build",
help='directory into which files are written')
parser.add_argument('--prefix', default="",
help='prefix for build files')
parser.add_argument('--line', action='store_true', default=False,
help='add line directive to input files into build files')
parser.add_argument('file', nargs='*',
help='file to complile')
args = parser.parse_args()
lib_dir = args.read_dir
build_dir = args.write_dir
line_directive = args.line
files = args.file
# Check if we are invoked from the right place
if not os.path.exists(lib_dir):
print('Directory "' + lib_dir + '"not found.')
sys.exit(-1)
# Create build directory if needed
if not os.path.exists(build_dir):
os.makedirs(build_dir)
if not os.path.isdir(build_dir):
raise Exception(build_dir + ' is not a directory')
mc = MatchCompiler(verify_mode=args.verify,
show_skipped=args.show_skipped)
if not files:
# select all *.cpp files in lib_dir
for f in glob.glob(lib_dir + '/*.cpp'):
files.append(f[len(lib_dir) + 1:])
# convert files
for fi in files:
pi = lib_dir + '/' + fi
fo = args.prefix + fi
po = build_dir + '/' + fo
print(pi + ' => ' + po)
mc.convertFile(pi, po, line_directive)
if __name__ == '__main__':
main()