"""Fixer that changes bytes % whatever to a function that actually formats it.""" from lib2to3 import fixer_base from lib2to3.fixer_util import is_tuple, Call, Comma, Name, touch_import # XXX: Implementing a blacklist in 2to3 turned out to be more troublesome than # blacklisting some modules inside the fixers. So, this is what I came with. blacklist = ['mercurial/demandimport.py', 'mercurial/py3kcompat.py', 'mercurial/i18n.py', ] def isnumberremainder(formatstr, data): try: if data.value.isdigit(): return True except AttributeError: return False class FixBytesmod(fixer_base.BaseFix): # XXX: There's one case (I suppose) I can't handle: when a remainder # operation like foo % bar is performed, I can't really know what the # contents of foo and bar are. I believe the best approach is to "correct" # the to-be-converted code and let bytesformatter handle that case in # runtime. PATTERN = ''' term< formatstr=STRING '%' data=STRING > | term< formatstr=STRING '%' data=atom > | term< formatstr=NAME '%' data=any > | term< formatstr=any '%' data=any > ''' def transform(self, node, results): if self.filename in blacklist: return elif self.filename == 'mercurial/util.py': touch_import('.', 'py3kcompat', node=node) formatstr = results['formatstr'].clone() data = results['data'].clone() formatstr.prefix = '' # remove spaces from start if isnumberremainder(formatstr, data): return # We have two possibilities: # 1- An identifier or name is passed, it is going to be a leaf, thus, we # just need to copy its value as an argument to the formatter; # 2- A tuple is explicitly passed. In this case, we're gonna explode it # to pass to the formatter # TODO: Check for normal strings. They don't need to be translated if is_tuple(data): args = [formatstr, Comma().clone()] + \ [c.clone() for c in data.children[:]] else: args = [formatstr, Comma().clone(), data] call = Call(Name('bytesformatter', prefix=' '), args) return call