From: Dmitry Selyutin Date: Fri, 19 Aug 2022 04:39:11 +0000 (+0300) Subject: power_fields: introduce new-style fields classes X-Git-Tag: sv_maxu_works-initial~32 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=8a1b0509eb9bc3c03221fd10af20fbb5be6f179c;p=openpower-isa.git power_fields: introduce new-style fields classes --- diff --git a/src/openpower/decoder/power_fields.py b/src/openpower/decoder/power_fields.py index 7e21d3a1..a500059f 100644 --- a/src/openpower/decoder/power_fields.py +++ b/src/openpower/decoder/power_fields.py @@ -1,7 +1,354 @@ from collections import namedtuple +import operator as _operator +import functools as _functools + from openpower.decoder.power_enums import find_wiki_file as _find_wiki_file -from openpower.decoder.selectable_int import BitRange as _BitRange +from openpower.decoder.selectable_int import ( + SelectableInt as _SelectableInt, + BitRange as _BitRange, + selectconcat as _selectconcat, +) + + +class RemapError(ValueError): + pass + + +class Descriptor: + def __init__(self, cls): + self.__cls = cls + return super().__init__() + + def __get__(self, instance, owner): + if instance is None: + return self.__cls + return self.__cls(storage=instance.storage) + + def __set__(self, instance, value): + if instance is None: + raise AttributeError("read-only attribute") + self.__cls(storage=instance.storage).assign(value) + + +@_functools.total_ordering +class Reference: + def __init__(self, storage, *args, **kwargs): + if not isinstance(storage, _SelectableInt): + raise ValueError(storage) + + self.storage = storage + + super().__init__() + self.__post_init__() + + def __post_init__(self, *args, **kwargs): + _ = (args, kwargs) + + def __binary_operator(self, op, other): + span = self.__class__.span + lhs = _selectconcat(*(self.storage[bit] for bit in span)) + + if isinstance(other, Field): + bits = len(other.__class__) + value = int(other) + rhs = _SelectableInt(value=value, bits=bits) + elif isinstance(other, int): + bits = len(self.__class__) + if other.bit_length() > bits: + raise OverflowError(other) + rhs = _SelectableInt(value=other, bits=bits) + elif isinstance(other, _SelectableInt): + rhs = other + else: + raise ValueError(other) + + return op(lhs, rhs) + + def __lt__(self, other): + return self.__binary_operator(_operator.lt, other) + + def __eq__(self, other): + return self.__binary_operator(_operator.eq, other) + + def __int__(self): + span = dict.fromkeys(self.__class__.span).keys() + return int(_selectconcat(*(self.storage[bit] for bit in span))) + + def __index__(self): + return int(self).__index__() + + @property + def storage(self): + return self.__storage + + @storage.setter + def storage(self, storage): + if not isinstance(storage, _SelectableInt): + raise ValueError(storage) + + self.__storage = storage + + def assign(self, value): + if isinstance(value, int): + bits = len(self.__class__) + value = _SelectableInt(value=value, bits=bits) + if not isinstance(value, _SelectableInt): + raise ValueError(value) + + span = frozenset(self.__class__.span) + for (src_bit, dst_bit) in enumerate(span): + self.storage[dst_bit] = value[src_bit] + + +class FieldMeta(type): + def __new__(metacls, clsname, bases, ns, items=()): + assert "__members__" not in ns + + members = [] + for item in items: + if not isinstance(item, int): + raise ValueError(item) + if item < 0: + raise ValueError(item) + members.append(item) + + ns["__members__"] = tuple(members) + + return super().__new__(metacls, clsname, bases, ns) + + def __getitem__(cls, size): + clsname = f"{cls.__name__}[{size}]" + items = ((Field,) * size) + return ArrayMeta(clsname, (Array,), {}, items=items) + + def __repr__(cls): + if not cls.__members__: + return cls.__name__ + return f"{cls.__name__}{cls.__members__!r}" + + def __iter__(cls): + yield from cls.__members__ + + def __len__(cls): + return len(cls.__members__) + + @property + def span(cls): + return cls.__members__ + + def remap(cls, scheme): + if isinstance(scheme, type) and issubclass(scheme, Mapping): + scheme = range(len(scheme)) + scheme = cls.__class__(cls.__name__, (cls,), {}, items=scheme) + + if len(cls) == 0: + return scheme + elif len(cls) > len(scheme): + llen = f"len(scheme)" + rlen = f"len({cls.__name__})" + raise RemapError(f"{llen} != {rlen}") + + items = map(lambda item: scheme.__members__[item], cls) + + return cls.__class__(cls.__name__, (cls,), {}, items=items) + + +class Field(Reference, metaclass=FieldMeta): + def __len__(self): + return self.__class__.__len__() + + def __repr__(self): + return f"[{len(self.__class__)}]0x{int(self):x}" + + def __iter__(self): + for bit in self.__class__: + yield self.storage[bit] + + +class ArrayMeta(type): + def __new__(metacls, clsname, bases, ns, items=()): + assert "__members__" not in ns + + members = [] + for item in items: + if not (isinstance(item, type) and issubclass(item, Field)): + item = FieldMeta("Field", (Field,), {}, items=item) + members.append(item) + + ns["__members__"] = tuple(members) + + return super().__new__(metacls, clsname, bases, ns) + + def __repr__(cls): + if not cls.__members__: + return cls.__name__ + return f"{cls.__name__}{cls.__members__!r}" + + def __iter__(cls): + yield from enumerate(cls.__members__) + + def __len__(cls): + length = 0 + for field in cls.__members__: + length += len(field) + return length + + def remap(cls, scheme): + scheme_md = [] + scheme_sd = [] + + for item in scheme: + if not isinstance(item, int): + scheme_md.append(item) + else: + scheme_sd.append(item) + + if scheme_md and scheme_sd: + raise ValueError(scheme) + + def remap_md(scheme): + scheme = cls.__class__(cls.__name__, (cls,), {}, items=scheme) + if len(cls) == 0: + if len(cls.__members__) != len(scheme.__members__): + llen = f"len(scheme.__members__)" + rlen = f"len({cls.__name__}.__members__)" + raise RemapError(f"{llen} != {rlen}") + return scheme + elif len(scheme) != len(cls): + llen = f"len(scheme)" + rlen = f"len({cls.__name__})" + raise RemapError(f"{llen} != {rlen}") + + items = [] + for (idx, field) in enumerate(cls): + try: + item = field.remap(scheme.__members__[idx]) + except RemapError as error: + raise RemapError(f"[{idx}]: {error}") + items.append(item) + + return cls.__class__(cls.__name__, (cls,), {}, items=items) + + def remap_sd(scheme): + items = tuple(item.remap(scheme) for item in cls.__members__) + return cls.__class__(cls.__name__, (cls,), {}, items=items) + + if scheme_md: + return remap_md(scheme_md) + else: + return remap_sd(scheme_sd) + + @property + def span(cls): + for field in cls.__members__: + yield from field.span + + +class Array(Reference, metaclass=ArrayMeta): + def __init__(self, storage): + members = [] + for (idx, cls) in self.__class__: + members.append(cls(storage)) + + self.__members = tuple(members) + + return super().__init__(storage) + + def __repr__(self): + items = tuple(f"[{idx}]={field!r}" for (idx, field) in self) + return f"[{', '.join(items)}]" + + def __iter__(self): + yield from enumerate(self.__members) + + def __getitem__(self, key): + return self.__members[key] + + def __setitem__(self, key, value): + self.__members[key].assign(value) + + +class MappingMeta(type): + def __new__(metacls, clsname, bases, ns): + members = {} + + for cls in bases: + if isinstance(cls, metacls): + members.update(cls.__members__) + + for (name, cls) in ns.get("__annotations__", {}).items(): + if not (isinstance(cls, type) and + issubclass(cls, (Mapping, Array, Field))): + raise ValueError(f"{clsname}.{name}: {cls!r}") + + if name in ns: + try: + members[name] = cls.remap(ns[name]) + except RemapError as error: + raise RemapError(f"{name}: {error}") + else: + if cls in (Array, Field): + raise ValueError(f"{clsname}.{name}: " + \ + "base class without initializer") + members[name] = cls + + ns["__members__"] = members + for (name, cls) in members.items(): + ns[name] = Descriptor(cls) + + return super().__new__(metacls, clsname, bases, ns) + + def __repr__(cls): + return f"{cls.__name__}({cls.__members__!r})" + + def __iter__(cls): + yield from cls.__members__.items() + + def __len__(cls): + length = 0 + for field in cls.__members__.values(): + length = max(length, len(field)) + return length + + def remap(cls, scheme): + ns = {} + annotations = {} + + for (name, field) in cls: + annotations[name] = field.remap(scheme) + ns["__annotations__"] = annotations + + return cls.__class__(cls.__name__, (cls,), ns) + + @property + def span(cls): + for field in cls.__members__.values(): + yield from field.span + + +class Mapping(Reference, metaclass=MappingMeta): + def __init__(self, storage, **kwargs): + members = {} + for (name, cls) in self.__class__: + members[name] = cls(storage) + + self.__members = members + + return super().__init__(storage, **kwargs) + + def __repr__(self): + items = tuple(f"{name}={field!r}" for (name, field) in self) + return f"{{{', '.join(items)}}}" + + def __iter__(self): + yield from self.__members.items() + + def __getitem__(self, key): + if isinstance(key, (int, slice, list, tuple, range)): + return self.storage[key] + + return self.__members[key] def decode_instructions(form): @@ -99,7 +446,7 @@ def decode_form(form): class DecodeFields: - def __init__(self, bitkls=BitRange, bitargs=(), fname=None, + def __init__(self, bitkls=_BitRange, bitargs=(), fname=None, name_on_wiki=None): self.bitkls = bitkls self.bitargs = bitargs