def indxByEq(self, valu): if isinstance(valu, str) and valu.endswith('*'): valu = valu.rstrip('*') norm = s_chop.hexstr(valu) return (('pref', self.indx(norm)), ) return Type.indxByEq(self, valu)
def _normPyStr(self, valu): valu = s_chop.hexstr(valu) if self._size and len(valu) != self._size: raise s_exc.BadTypeValu(valu=valu, reqwidth=self._size, name=self.name, mesg='invalid width') return valu, {}
def test_chop_hexstr(self): testvectors = [('0C', '0c'), ('10', '10'), ('0xffff', 'ffff'), ('0x0001', '0001'), ('C', s_exc.BadTypeValu), ('0xfff', s_exc.BadTypeValu), ('10001', s_exc.BadTypeValu), ('', s_exc.BadTypeValu), ('0x', s_exc.BadTypeValu), ('newp', s_exc.BadTypeValu)] for v, e in testvectors: if isinstance(e, str): self.eq(s_chop.hexstr(v), e) else: self.raises(e, s_chop.hexstr, v)
def test_chop_hexstr(self): testvectors = [ ('0C', '0c'), ('10', '10'), ('0xffff', 'ffff'), ('0x0001', '0001'), ('C', s_exc.BadTypeValu), ('0xfff', s_exc.BadTypeValu), ('10001', s_exc.BadTypeValu), ('', s_exc.BadTypeValu), ('0x', s_exc.BadTypeValu), ('newp', s_exc.BadTypeValu) ] for v, e in testvectors: if isinstance(e, str): self.eq(s_chop.hexstr(v), e) else: self.raises(e, s_chop.hexstr, v)