import py from rpython.rtyper.lltypesystem import lltype, rffi, llmemory from rpython.rtyper.lltypesystem.lloperation import llop from rpython.jit.backend.llsupport import symbolic, support from rpython.jit.metainterp.history import AbstractDescr, getkind from rpython.jit.metainterp import history from rpython.jit.codewriter import heaptracker, longlong from rpython.jit.codewriter.longlong import is_longlong from rpython.jit.metainterp.optimizeopt import intbounds class GcCache(object): def __init__(self, translate_support_code, rtyper=None): self.translate_support_code = translate_support_code self.rtyper = rtyper self._cache_size = {} self._cache_field = {} self._cache_array = {} self._cache_arraylen = {} self._cache_call = {} self._cache_interiorfield = {} def init_size_descr(self, STRUCT, sizedescr): assert isinstance(STRUCT, lltype.GcStruct) def init_array_descr(self, ARRAY, arraydescr): assert (isinstance(ARRAY, lltype.GcArray) or isinstance(ARRAY, lltype.GcStruct) and ARRAY._arrayfld) # ____________________________________________________________ # SizeDescrs class SizeDescr(AbstractDescr): size = 0 # help translation tid = llop.combine_ushort(lltype.Signed, 0, 0) def __init__(self, size, count_fields_if_immut=-1): self.size = size self.count_fields_if_immut = count_fields_if_immut def count_fields_if_immutable(self): return self.count_fields_if_immut def repr_of_descr(self): return '' % self.size class SizeDescrWithVTable(SizeDescr): def as_vtable_size_descr(self): return self BaseSizeDescr = SizeDescr def get_size_descr(gccache, STRUCT): cache = gccache._cache_size try: return cache[STRUCT] except KeyError: size = symbolic.get_size(STRUCT, gccache.translate_support_code) count_fields_if_immut = heaptracker.count_fields_if_immutable(STRUCT) if heaptracker.has_gcstruct_a_vtable(STRUCT): sizedescr = SizeDescrWithVTable(size, count_fields_if_immut) else: sizedescr = SizeDescr(size, count_fields_if_immut) gccache.init_size_descr(STRUCT, sizedescr) cache[STRUCT] = sizedescr return sizedescr # ____________________________________________________________ # FieldDescrs FLAG_POINTER = 'P' FLAG_FLOAT = 'F' FLAG_UNSIGNED = 'U' FLAG_SIGNED = 'S' FLAG_STRUCT = 'X' FLAG_VOID = 'V' class ArrayOrFieldDescr(AbstractDescr): vinfo = None def get_vinfo(self): return self.vinfo class FieldDescr(ArrayOrFieldDescr): name = '' offset = 0 # help translation field_size = 0 flag = '\x00' def __init__(self, name, offset, field_size, flag): self.name = name self.offset = offset self.field_size = field_size self.flag = flag def is_pointer_field(self): return self.flag == FLAG_POINTER def is_float_field(self): return self.flag == FLAG_FLOAT def is_field_signed(self): return self.flag == FLAG_SIGNED def is_integer_bounded(self): return self.flag in (FLAG_SIGNED, FLAG_UNSIGNED) \ and self.field_size < symbolic.WORD def get_integer_min(self): if self.flag == FLAG_UNSIGNED: return intbounds.get_integer_min(True, self.field_size) elif self.flag == FLAG_SIGNED: return intbounds.get_integer_min(False, self.field_size) assert False def get_integer_max(self): if self.flag == FLAG_UNSIGNED: return intbounds.get_integer_max(True, self.field_size) elif self.flag == FLAG_SIGNED: return intbounds.get_integer_max(False, self.field_size) assert False def sort_key(self): return self.offset def repr_of_descr(self): return '' % (self.flag, self.name, self.offset) def get_field_descr(gccache, STRUCT, fieldname): cache = gccache._cache_field try: return cache[STRUCT][fieldname] except KeyError: offset, size = symbolic.get_field_token(STRUCT, fieldname, gccache.translate_support_code) FIELDTYPE = getattr(STRUCT, fieldname) flag = get_type_flag(FIELDTYPE) name = '%s.%s' % (STRUCT._name, fieldname) fielddescr = FieldDescr(name, offset, size, flag) cachedict = cache.setdefault(STRUCT, {}) cachedict[fieldname] = fielddescr return fielddescr def get_type_flag(TYPE): if isinstance(TYPE, lltype.Ptr): if TYPE.TO._gckind == 'gc': return FLAG_POINTER else: return FLAG_UNSIGNED if isinstance(TYPE, lltype.Struct): return FLAG_STRUCT if TYPE is lltype.Float or is_longlong(TYPE): return FLAG_FLOAT if (TYPE is not lltype.Bool and isinstance(TYPE, lltype.Number) and rffi.cast(TYPE, -1) == -1): return FLAG_SIGNED return FLAG_UNSIGNED def get_field_arraylen_descr(gccache, ARRAY_OR_STRUCT): cache = gccache._cache_arraylen try: return cache[ARRAY_OR_STRUCT] except KeyError: tsc = gccache.translate_support_code (_, _, ofs) = symbolic.get_array_token(ARRAY_OR_STRUCT, tsc) size = symbolic.get_size(lltype.Signed, tsc) result = FieldDescr("len", ofs, size, get_type_flag(lltype.Signed)) cache[ARRAY_OR_STRUCT] = result return result # ____________________________________________________________ # ArrayDescrs class ArrayDescr(ArrayOrFieldDescr): tid = 0 basesize = 0 # workaround for the annotator itemsize = 0 lendescr = None flag = '\x00' vinfo = None def __init__(self, basesize, itemsize, lendescr, flag): self.basesize = basesize self.itemsize = itemsize self.lendescr = lendescr # or None, if no length self.flag = flag def is_array_of_pointers(self): return self.flag == FLAG_POINTER def is_array_of_floats(self): return self.flag == FLAG_FLOAT def is_item_signed(self): return self.flag == FLAG_SIGNED def is_array_of_structs(self): return self.flag == FLAG_STRUCT def is_item_integer_bounded(self): return self.flag in (FLAG_SIGNED, FLAG_UNSIGNED) \ and self.itemsize < symbolic.WORD def get_item_integer_min(self): if self.flag == FLAG_UNSIGNED: return intbounds.get_integer_min(True, self.itemsize) elif self.flag == FLAG_SIGNED: return intbounds.get_integer_min(False, self.itemsize) assert False def get_item_integer_max(self): if self.flag == FLAG_UNSIGNED: return intbounds.get_integer_max(True, self.itemsize) elif self.flag == FLAG_SIGNED: return intbounds.get_integer_max(False, self.itemsize) assert False def repr_of_descr(self): return '' % (self.flag, self.itemsize) def get_array_descr(gccache, ARRAY_OR_STRUCT): cache = gccache._cache_array try: return cache[ARRAY_OR_STRUCT] except KeyError: tsc = gccache.translate_support_code basesize, itemsize, _ = symbolic.get_array_token(ARRAY_OR_STRUCT, tsc) if isinstance(ARRAY_OR_STRUCT, lltype.Array): ARRAY_INSIDE = ARRAY_OR_STRUCT else: ARRAY_INSIDE = ARRAY_OR_STRUCT._flds[ARRAY_OR_STRUCT._arrayfld] if ARRAY_INSIDE._hints.get('nolength', False): lendescr = None else: lendescr = get_field_arraylen_descr(gccache, ARRAY_OR_STRUCT) flag = get_type_flag(ARRAY_INSIDE.OF) arraydescr = ArrayDescr(basesize, itemsize, lendescr, flag) if ARRAY_OR_STRUCT._gckind == 'gc': gccache.init_array_descr(ARRAY_OR_STRUCT, arraydescr) cache[ARRAY_OR_STRUCT] = arraydescr return arraydescr # ____________________________________________________________ # InteriorFieldDescr class InteriorFieldDescr(AbstractDescr): arraydescr = ArrayDescr(0, 0, None, '\x00') # workaround for the annotator fielddescr = FieldDescr('', 0, 0, '\x00') def __init__(self, arraydescr, fielddescr): assert arraydescr.flag == FLAG_STRUCT self.arraydescr = arraydescr self.fielddescr = fielddescr def sort_key(self): return self.fielddescr.sort_key() def is_pointer_field(self): return self.fielddescr.is_pointer_field() def is_float_field(self): return self.fielddescr.is_float_field() def is_integer_bounded(self): return self.fielddescr.is_integer_bounded() def get_integer_min(self): return self.fielddescr.get_integer_min() def get_integer_max(self): return self.fielddescr.get_integer_max() def repr_of_descr(self): return '' % self.fielddescr.repr_of_descr() def get_interiorfield_descr(gc_ll_descr, ARRAY, name, arrayfieldname=None): # can be used either with a GcArray of Structs, or with a GcStruct # containing an inlined GcArray of Structs (then arrayfieldname != None). cache = gc_ll_descr._cache_interiorfield try: return cache[(ARRAY, name, arrayfieldname)] except KeyError: arraydescr = get_array_descr(gc_ll_descr, ARRAY) if arrayfieldname is None: REALARRAY = ARRAY else: REALARRAY = getattr(ARRAY, arrayfieldname) fielddescr = get_field_descr(gc_ll_descr, REALARRAY.OF, name) descr = InteriorFieldDescr(arraydescr, fielddescr) cache[(ARRAY, name, arrayfieldname)] = descr return descr # ____________________________________________________________ # CallDescrs class CallDescr(AbstractDescr): arg_classes = '' # <-- annotation hack result_type = '\x00' result_flag = '\x00' ffi_flags = 1 call_stub_i = staticmethod(lambda func, args_i, args_r, args_f: 0) call_stub_r = staticmethod(lambda func, args_i, args_r, args_f: lltype.nullptr(llmemory.GCREF.TO)) call_stub_f = staticmethod(lambda func,args_i,args_r,args_f: longlong.ZEROF) def __init__(self, arg_classes, result_type, result_signed, result_size, extrainfo=None, ffi_flags=1): """ 'arg_classes' is a string of characters, one per argument: 'i', 'r', 'f', 'L', 'S' 'result_type' is one character from the same list or 'v' 'result_signed' is a boolean True/False """ self.arg_classes = arg_classes self.result_type = result_type self.result_size = result_size self.extrainfo = extrainfo self.ffi_flags = ffi_flags # NB. the default ffi_flags is 1, meaning FUNCFLAG_CDECL, which # makes sense on Windows as it's the one for all the C functions # we are compiling together with the JIT. On non-Windows platforms # it is just ignored anyway. if result_type == 'v': result_flag = FLAG_VOID elif result_type == 'i': if result_signed: result_flag = FLAG_SIGNED else: result_flag = FLAG_UNSIGNED elif result_type == history.REF: result_flag = FLAG_POINTER elif result_type == history.FLOAT or result_type == 'L': result_flag = FLAG_FLOAT elif result_type == 'S': result_flag = FLAG_UNSIGNED else: raise NotImplementedError("result_type = '%s'" % (result_type,)) self.result_flag = result_flag def __repr__(self): res = 'CallDescr(%s)' % (self.arg_classes,) extraeffect = getattr(self.extrainfo, 'extraeffect', None) if extraeffect is not None: res += ' EF=%r' % extraeffect oopspecindex = getattr(self.extrainfo, 'oopspecindex', 0) if oopspecindex: from rpython.jit.codewriter.effectinfo import EffectInfo for key, value in EffectInfo.__dict__.items(): if key.startswith('OS_') and value == oopspecindex: break else: key = 'oopspecindex=%r' % oopspecindex res += ' ' + key return '<%s>' % res def get_extra_info(self): return self.extrainfo def get_ffi_flags(self): return self.ffi_flags def get_call_conv(self): from rpython.rlib.clibffi import get_call_conv return get_call_conv(self.ffi_flags, True) def get_arg_types(self): return self.arg_classes def get_result_type(self): return self.result_type def get_result_size(self): return self.result_size def is_result_signed(self): return self.result_flag == FLAG_SIGNED def create_call_stub(self, rtyper, RESULT): from rpython.rlib.clibffi import FFI_DEFAULT_ABI assert self.get_call_conv() == FFI_DEFAULT_ABI, ( "%r: create_call_stub() with a non-default call ABI" % (self,)) def process(c): if c == 'L': assert longlong.supports_longlong c = 'f' elif c == 'f' and longlong.supports_longlong: return 'longlong.getrealfloat(%s)' % (process('L'),) elif c == 'S': return 'longlong.int2singlefloat(%s)' % (process('i'),) arg = 'args_%s[%d]' % (c, seen[c]) seen[c] += 1 return arg def TYPE(arg): if arg == 'i': return lltype.Signed elif arg == 'f': return lltype.Float elif arg == 'r': return llmemory.GCREF elif arg == 'v': return lltype.Void elif arg == 'L': return lltype.SignedLongLong elif arg == 'S': return lltype.SingleFloat else: raise AssertionError(arg) seen = {'i': 0, 'r': 0, 'f': 0} args = ", ".join([process(c) for c in self.arg_classes]) result_type = self.get_result_type() if result_type == history.INT: result = 'rffi.cast(lltype.Signed, res)' category = 'i' elif result_type == history.REF: assert RESULT == llmemory.GCREF # should be ensured by the caller result = 'lltype.cast_opaque_ptr(llmemory.GCREF, res)' category = 'r' elif result_type == history.FLOAT: result = 'longlong.getfloatstorage(res)' category = 'f' elif result_type == 'L': result = 'rffi.cast(lltype.SignedLongLong, res)' category = 'f' elif result_type == history.VOID: result = '0' category = 'i' elif result_type == 'S': result = 'longlong.singlefloat2int(res)' category = 'i' else: assert 0 source = py.code.Source(""" def call_stub(func, args_i, args_r, args_f): fnptr = rffi.cast(lltype.Ptr(FUNC), func) res = support.maybe_on_top_of_llinterp(rtyper, fnptr)(%(args)s) return %(result)s """ % locals()) ARGS = [TYPE(arg) for arg in self.arg_classes] FUNC = lltype.FuncType(ARGS, RESULT) d = globals().copy() d.update(locals()) exec source.compile() in d call_stub = d['call_stub'] # store the function into one of three attributes, to preserve # type-correctness of the return value setattr(self, 'call_stub_%s' % category, call_stub) def verify_types(self, args_i, args_r, args_f, return_type): assert self.result_type in return_type assert (self.arg_classes.count('i') + self.arg_classes.count('S')) == len(args_i or ()) assert self.arg_classes.count('r') == len(args_r or ()) assert (self.arg_classes.count('f') + self.arg_classes.count('L')) == len(args_f or ()) def repr_of_descr(self): res = 'Call%s %d' % (self.result_type, self.result_size) if self.arg_classes: res += ' ' + self.arg_classes if self.extrainfo: res += ' EF=%d' % self.extrainfo.extraeffect oopspecindex = self.extrainfo.oopspecindex if oopspecindex: res += ' OS=%d' % oopspecindex return '<%s>' % res def map_type_to_argclass(ARG, accept_void=False): kind = getkind(ARG) if kind == 'int': if ARG is lltype.SingleFloat: return 'S' else: return 'i' elif kind == 'ref': return 'r' elif kind == 'float': if is_longlong(ARG): return 'L' else: return 'f' elif kind == 'void': if accept_void: return 'v' raise NotImplementedError('ARG = %r' % (ARG,)) def get_call_descr(gccache, ARGS, RESULT, extrainfo=None): arg_classes = map(map_type_to_argclass, ARGS) arg_classes = ''.join(arg_classes) result_type = map_type_to_argclass(RESULT, accept_void=True) RESULT_ERASED = RESULT if RESULT is lltype.Void: result_size = 0 result_signed = False else: if isinstance(RESULT, lltype.Ptr): # avoid too many CallDescrs if result_type == 'r': RESULT_ERASED = llmemory.GCREF else: RESULT_ERASED = llmemory.Address result_size = symbolic.get_size(RESULT_ERASED, gccache.translate_support_code) result_signed = get_type_flag(RESULT) == FLAG_SIGNED key = (arg_classes, result_type, result_signed, RESULT_ERASED, extrainfo) cache = gccache._cache_call try: calldescr = cache[key] except KeyError: calldescr = CallDescr(arg_classes, result_type, result_signed, result_size, extrainfo) calldescr.create_call_stub(gccache.rtyper, RESULT_ERASED) cache[key] = calldescr assert repr(calldescr.result_size) == repr(result_size) return calldescr def unpack_arraydescr(arraydescr): assert isinstance(arraydescr, ArrayDescr) ofs = arraydescr.basesize size = arraydescr.itemsize sign = arraydescr.is_item_signed() return size, ofs, sign def unpack_fielddescr(fielddescr): assert isinstance(fielddescr, FieldDescr) ofs = fielddescr.offset size = fielddescr.field_size sign = fielddescr.is_field_signed() return ofs, size, sign unpack_fielddescr._always_inline_ = True def unpack_interiorfielddescr(descr): assert isinstance(descr, InteriorFieldDescr) arraydescr = descr.arraydescr ofs = arraydescr.basesize itemsize = arraydescr.itemsize fieldsize = descr.fielddescr.field_size sign = descr.fielddescr.is_field_signed() ofs += descr.fielddescr.offset return ofs, itemsize, fieldsize, sign