| #!/usr/bin/env python |
| |
| from __future__ import absolute_import, division, print_function |
| import os |
| import re |
| import subprocess |
| import sys |
| import tempfile |
| |
| ### |
| |
| class DeltaAlgorithm(object): |
| def __init__(self): |
| self.cache = set() |
| |
| def test(self, changes): |
| abstract |
| |
| ### |
| |
| def getTestResult(self, changes): |
| # There is no reason to cache successful tests because we will |
| # always reduce the changeset when we see one. |
| |
| changeset = frozenset(changes) |
| if changeset in self.cache: |
| return False |
| elif not self.test(changes): |
| self.cache.add(changeset) |
| return False |
| else: |
| return True |
| |
| def run(self, changes, force=False): |
| # Make sure the initial test passes, if not then (a) either |
| # the user doesn't expect monotonicity, and we may end up |
| # doing O(N^2) tests, or (b) the test is wrong. Avoid the |
| # O(N^2) case unless user requests it. |
| if not force: |
| if not self.getTestResult(changes): |
| raise ValueError('Initial test passed to delta fails.') |
| |
| # Check empty set first to quickly find poor test functions. |
| if self.getTestResult(set()): |
| return set() |
| else: |
| return self.delta(changes, self.split(changes)) |
| |
| def split(self, S): |
| """split(set) -> [sets] |
| |
| Partition a set into one or two pieces. |
| """ |
| |
| # There are many ways to split, we could do a better job with more |
| # context information (but then the API becomes grosser). |
| L = list(S) |
| mid = len(L)//2 |
| if mid==0: |
| return L, |
| else: |
| return L[:mid],L[mid:] |
| |
| def delta(self, c, sets): |
| # assert(reduce(set.union, sets, set()) == c) |
| |
| # If there is nothing left we can remove, we are done. |
| if len(sets) <= 1: |
| return c |
| |
| # Look for a passing subset. |
| res = self.search(c, sets) |
| if res is not None: |
| return res |
| |
| # Otherwise, partition sets if possible; if not we are done. |
| refined = sum(map(list, map(self.split, sets)), []) |
| if len(refined) == len(sets): |
| return c |
| |
| return self.delta(c, refined) |
| |
| def search(self, c, sets): |
| for i,S in enumerate(sets): |
| # If test passes on this subset alone, recurse. |
| if self.getTestResult(S): |
| return self.delta(S, self.split(S)) |
| |
| # Otherwise if we have more than two sets, see if test |
| # pases without this subset. |
| if len(sets) > 2: |
| complement = sum(sets[:i] + sets[i+1:],[]) |
| if self.getTestResult(complement): |
| return self.delta(complement, sets[:i] + sets[i+1:]) |
| |
| ### |
| |
| class Token(object): |
| def __init__(self, type, data, flags, file, line, column): |
| self.type = type |
| self.data = data |
| self.flags = flags |
| self.file = file |
| self.line = line |
| self.column = column |
| |
| kTokenRE = re.compile(r"""([a-z_]+) '(.*)'\t(.*)\tLoc=<(.*):(.*):(.*)>""", |
| re.DOTALL | re.MULTILINE) |
| |
| def getTokens(path): |
| p = subprocess.Popen(['clang','-dump-raw-tokens',path], |
| stdin=subprocess.PIPE, |
| stdout=subprocess.PIPE, |
| stderr=subprocess.PIPE) |
| out,err = p.communicate() |
| |
| tokens = [] |
| collect = None |
| for ln in err.split('\n'): |
| # Silly programmers refuse to print in simple machine readable |
| # formats. Whatever. |
| if collect is None: |
| collect = ln |
| else: |
| collect = collect + '\n' + ln |
| if 'Loc=<' in ln and ln.endswith('>'): |
| ln,collect = collect,None |
| tokens.append(Token(*kTokenRE.match(ln).groups())) |
| |
| return tokens |
| |
| ### |
| |
| class TMBDDelta(DeltaAlgorithm): |
| def __init__(self, testProgram, tokenLists, log): |
| def patchName(name, suffix): |
| base,ext = os.path.splitext(name) |
| return base + '.' + suffix + ext |
| super(TMBDDelta, self).__init__() |
| self.testProgram = testProgram |
| self.tokenLists = tokenLists |
| self.tempFiles = [patchName(f,'tmp') |
| for f,_ in self.tokenLists] |
| self.targetFiles = [patchName(f,'ok') |
| for f,_ in self.tokenLists] |
| self.log = log |
| self.numTests = 0 |
| |
| def writeFiles(self, changes, fileNames): |
| assert len(fileNames) == len(self.tokenLists) |
| byFile = [[] for i in self.tokenLists] |
| for i,j in changes: |
| byFile[i].append(j) |
| |
| for i,(file,tokens) in enumerate(self.tokenLists): |
| f = open(fileNames[i],'w') |
| for j in byFile[i]: |
| f.write(tokens[j]) |
| f.close() |
| |
| return byFile |
| |
| def test(self, changes): |
| self.numTests += 1 |
| |
| byFile = self.writeFiles(changes, self.tempFiles) |
| |
| if self.log: |
| print('TEST - ', end=' ', file=sys.stderr) |
| if self.log > 1: |
| for i,(file,_) in enumerate(self.tokenLists): |
| indices = byFile[i] |
| if i: |
| sys.stderr.write('\n ') |
| sys.stderr.write('%s:%d tokens: [' % (file,len(byFile[i]))) |
| prev = None |
| for j in byFile[i]: |
| if prev is None or j != prev + 1: |
| if prev: |
| sys.stderr.write('%d][' % prev) |
| sys.stderr.write(str(j)) |
| sys.stderr.write(':') |
| prev = j |
| if byFile[i]: |
| sys.stderr.write(str(byFile[i][-1])) |
| sys.stderr.write('] ') |
| else: |
| print(', '.join(['%s:%d tokens' % (file, len(byFile[i])) |
| for i,(file,_) in enumerate(self.tokenLists)]), end=' ', file=sys.stderr) |
| |
| p = subprocess.Popen([self.testProgram] + self.tempFiles) |
| res = p.wait() == 0 |
| |
| if res: |
| self.writeFiles(changes, self.targetFiles) |
| |
| if self.log: |
| print('=> %s' % res, file=sys.stderr) |
| else: |
| if res: |
| print('\nSUCCESS (%d tokens)' % len(changes)) |
| else: |
| sys.stderr.write('.') |
| |
| return res |
| |
| def run(self): |
| res = super(TMBDDelta, self).run([(i,j) |
| for i,(file,tokens) in enumerate(self.tokenLists) |
| for j in range(len(tokens))]) |
| self.writeFiles(res, self.targetFiles) |
| if not self.log: |
| print(file=sys.stderr) |
| return res |
| |
| def tokenBasedMultiDelta(program, files, log): |
| # Read in the lists of tokens. |
| tokenLists = [(file, [t.data for t in getTokens(file)]) |
| for file in files] |
| |
| numTokens = sum([len(tokens) for _,tokens in tokenLists]) |
| print("Delta on %s with %d tokens." % (', '.join(files), numTokens)) |
| |
| tbmd = TMBDDelta(program, tokenLists, log) |
| |
| res = tbmd.run() |
| |
| print("Finished %s with %d tokens (in %d tests)." % (', '.join(tbmd.targetFiles), |
| len(res), |
| tbmd.numTests)) |
| |
| def main(): |
| from optparse import OptionParser, OptionGroup |
| parser = OptionParser("%prog <test program> {files+}") |
| parser.add_option("", "--debug", dest="debugLevel", |
| help="set debug level [default %default]", |
| action="store", type=int, default=0) |
| (opts, args) = parser.parse_args() |
| |
| if len(args) <= 1: |
| parser.error('Invalid number of arguments.') |
| |
| program,files = args[0],args[1:] |
| |
| md = tokenBasedMultiDelta(program, files, log=opts.debugLevel) |
| |
| if __name__ == '__main__': |
| try: |
| main() |
| except KeyboardInterrupt: |
| print('Interrupted.', file=sys.stderr) |
| os._exit(1) # Avoid freeing our giant cache. |