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import textwrap
import copy
from dataclasses import MISSING, replace, fields
from .sexp import *
SEXP_END = type('SEXP_END', (), {})
class AtomChoice:
def __init__(self, *choices):
self.choices = choices
def __contains__(self, value):
return value in self.choices
def __atoms__(self):
return self.choices
def __map__(self, obj, parent=None):
obj, = obj
if obj not in self:
raise TypeError(f'Invalid atom {obj} for {type(self)}, valid choices are: {", ".join(map(str, self.choices))}')
return obj
def __sexp__(self, value):
yield value
class Flag:
def __init__(self, atom=None, invert=None):
self.atom, self.invert = atom, invert
def __bind_field__(self, field):
if self.atom is None:
self.atom = Atom(field.name)
if self.invert is None:
self.invert = bool(field.default)
def __atoms__(self):
return [self.atom]
def __map__(self, obj, parent=None):
return not self.invert
def __sexp__(self, value):
if bool(value) == (not self.invert):
yield self.atom
def sexp(t, v):
try:
if v is None:
return []
elif t in (int, float, str, Atom):
return [t(v)]
elif hasattr(t, '__sexp__'):
return list(t.__sexp__(v))
elif isinstance(t, list):
t, = t
return [sexp(t, elem) for elem in v]
else:
raise TypeError(f'Python type {t} of value {v!r} has no defined s-expression serialization')
except MappingError as e:
raise e
except Exception as e:
raise MappingError(f'Error trying to serialize {textwrap.shorten(str(v), width=120)} into type {t}', t, v) from e
class MappingError(TypeError):
def __init__(self, msg, t, sexp):
super().__init__(msg)
self.t, self.sexp = t, sexp
def map_sexp(t, v, parent=None):
try:
if t is not Atom and hasattr(t, '__map__'):
return t.__map__(v, parent=parent)
elif t in (int, float, str, Atom):
v, = v
if not isinstance(v, t):
types = set({type(v), t})
if types == {int, float} or types == {str, Atom}:
v = t(v)
else:
raise TypeError(f'Cannot map s-expression value {v} of type {type(v)} to Python type {t}')
return v
elif isinstance(t, list):
t, = t
return [map_sexp(t, elem, parent=parent) for elem in v]
else:
raise TypeError(f'Python type {t} has no defined s-expression deserialization')
except MappingError as e:
raise e
except Exception as e:
raise MappingError(f'Error trying to map {textwrap.shorten(str(v), width=120)} into type {t}', t, v) from e
class WrapperType:
def __init__(self, next_type):
self.next_type = next_type
def __bind_field__(self, field):
self.field = field
getattr(self.next_type, '__bind_field__', lambda x: None)(field)
def __atoms__(self):
if hasattr(self, 'name_atom'):
return [self.name_atom]
elif self.next_type is Atom:
return []
else:
return getattr(self.next_type, '__atoms__', lambda: [])()
class Named(WrapperType):
def __init__(self, next_type, name=None, omit_empty=True):
super().__init__(next_type)
self.name_atom = Atom(name) if name else None
self.omit_empty = omit_empty
def __bind_field__(self, field):
if self.next_type is not Atom:
getattr(self.next_type, '__bind_field__', lambda x: None)(field)
if self.name_atom is None:
self.name_atom = Atom(field.name)
def __map__(self, obj, parent=None):
k, *obj = obj
if self.next_type in (int, float, str, Atom) or isinstance(self.next_type, AtomChoice):
return map_sexp(self.next_type, [*obj], parent=parent)
else:
return map_sexp(self.next_type, obj, parent=parent)
def __sexp__(self, value):
value = sexp(self.next_type, value)
if value is None:
return
if self.omit_empty and not value:
return
yield [self.name_atom, *value]
class Rename(WrapperType):
def __init__(self, next_type, name=None):
super().__init__(next_type)
self.name_atom = Atom(name) if name else None
def __bind_field__(self, field):
if self.name_atom is None:
self.name_atom = Atom(field.name)
if hasattr(self.next_type, '__bind_field__'):
self.next_type.__bind_field__(field)
def __map__(self, obj, parent=None):
return map_sexp(self.next_type, obj, parent=parent)
def __sexp__(self, value):
value, = sexp(self.next_type, value)
if self.next_type in (str, float, int, Atom):
yield [self.name_atom, *value]
else:
key, *rest = value
yield [self.name_atom, *rest]
class OmitDefault(WrapperType):
def __bind_field__(self, field):
getattr(self.next_type, '__bind_field__', lambda x: None)(field)
if field.default_factory != MISSING:
self.default = field.default_factory()
else:
self.default = field.default
def __map__(self, obj, parent=None):
return map_sexp(self.next_type, obj, parent=parent)
def __sexp__(self, value):
if value != self.default:
yield from sexp(self.next_type, value)
class YesNoAtom:
def __init__(self, yes=Atom.yes, no=Atom.no):
self.yes, self.no = yes, no
def __map__(self, value, parent=None):
value, = value
return value == self.yes
def __sexp__(self, value):
yield self.yes if value else self.no
class Wrap(WrapperType):
def __map__(self, value, parent=None):
value, = value
return map_sexp(self.next_type, value, parent=parent)
def __sexp__(self, value):
for inner in sexp(self.next_type, value):
yield [inner]
class Array(WrapperType):
def __map__(self, value, parent=None):
return [map_sexp(self.next_type, [elem], parent=parent) for elem in value]
def __sexp__(self, value):
for e in value:
yield from sexp(self.next_type, e)
class Untagged(WrapperType):
def __map__(self, value, parent=None):
value, = value
return self.next_type.__map__([self.next_type.name_atom, *value], parent=parent)
def __sexp__(self, value):
for inner in sexp(self.next_type, value):
_tag, *rest = inner
yield rest
class List(WrapperType):
def __bind_field__(self, field):
self.attr = field.name
def __map__(self, value, parent):
l = getattr(parent, self.attr, [])
mapped = map_sexp(self.next_type, value, parent=parent)
l.append(mapped)
setattr(parent, self.attr, l)
def __sexp__(self, value):
for elem in value:
yield from sexp(self.next_type, elem)
class _SexpTemplate:
@staticmethod
def __atoms__(kls):
return [kls.name_atom]
@staticmethod
def __map__(kls, value, *args, parent=None, **kwargs):
positional = iter(kls.positional)
inst = kls(*args, **kwargs)
for v in value[1:]: # skip key
if isinstance(v, Atom) and v in kls.keys:
name, etype = kls.keys[v]
mapped = map_sexp(etype, [v], parent=inst)
if mapped is not None:
setattr(inst, name, mapped)
elif isinstance(v, list):
name, etype = kls.keys[v[0]]
mapped = map_sexp(etype, v, parent=inst)
if mapped is not None:
setattr(inst, name, mapped)
else:
try:
pos_key = next(positional)
setattr(inst, pos_key.name, v)
except StopIteration:
raise TypeError(f'Unhandled positional argument {v!r} while parsing {kls}')
getattr(inst, '__after_parse__', lambda x: None)(parent)
return inst
@staticmethod
def __sexp__(kls, value):
getattr(value, '__before_sexp__', lambda: None)()
out = [kls.name_atom]
for f in fields(kls):
if f.type is SEXP_END:
break
out += sexp(f.type, getattr(value, f.name))
yield out
@staticmethod
def parse(kls, data, *args, **kwargs):
return kls.__map__(parse_sexp(data), *args, **kwargs)
@staticmethod
def sexp(self):
return next(self.__sexp__(self))
@staticmethod
def __deepcopy__(self, memo):
return replace(self, **{f.name: copy.deepcopy(getattr(self, f.name), memo) for f in fields(self) if not f.kw_only})
@staticmethod
def __copy__(self):
# Even during a shallow copy, we need to deep copy any fields whose types have a __before_sexp__ method to avoid
# those from being called more than once on the same object.
return replace(self, **{f.name: copy.copy(getattr(self, f.name)) for f in fields(self) if not f.kw_only and hasattr(f.type, '__before_sexp__')})
def sexp_type(name=None):
def register(cls):
cls = dataclass(cls)
cls.name_atom = Atom(name) if name is not None else None
for key in '__sexp__', '__map__', '__atoms__', 'parse':
if not hasattr(cls, key):
setattr(cls, key, classmethod(getattr(_SexpTemplate, key)))
for key in 'sexp', '__deepcopy__', '__copy__':
if not hasattr(cls, key):
setattr(cls, key, getattr(_SexpTemplate, key))
cls.positional = []
cls.keys = {}
for f in fields(cls):
f_type = f.type
if f_type is SEXP_END:
break
if hasattr(f_type, '__bind_field__'):
f_type.__bind_field__(f)
atoms = getattr(f_type, '__atoms__', lambda: [])
atoms = list(atoms())
for atom in atoms:
cls.keys[atom] = (f.name, f_type)
if not atoms:
cls.positional.append(f)
return cls
return register
|
