def generate_setter(cl: ClassIR, attr: str, rtype: RType,
emitter: Emitter) -> None:
attr_field = emitter.attr(attr)
emitter.emit_line('static int')
emitter.emit_line('{}({} *self, PyObject *value, void *closure)'.format(
setter_name(cl, attr, emitter.names), cl.struct_name(emitter.names)))
emitter.emit_line('{')
if rtype.is_refcounted:
attr_expr = 'self->{}'.format(attr_field)
emitter.emit_undefined_attr_check(rtype, attr_expr, '!=')
emitter.emit_dec_ref('self->{}'.format(attr_field), rtype)
emitter.emit_line('}')
emitter.emit_line('if (value != NULL) {')
if rtype.is_unboxed:
emitter.emit_unbox('value',
'tmp',
rtype,
custom_failure='return -1;',
declare_dest=True)
elif is_same_type(rtype, object_rprimitive):
emitter.emit_line('PyObject *tmp = value;')
else:
emitter.emit_cast('value', 'tmp', rtype, declare_dest=True)
emitter.emit_lines('if (!tmp)', ' return -1;')
emitter.emit_inc_ref('tmp', rtype)
emitter.emit_line('self->{} = tmp;'.format(attr_field))
emitter.emit_line('} else')
emitter.emit_line(' self->{} = {};'.format(
attr_field, emitter.c_undefined_value(rtype)))
emitter.emit_line('return 0;')
emitter.emit_line('}')
def generate_arg_check(name: str, typ: RType, emitter: Emitter,
error_code: str, optional: bool = False) -> None:
"""Insert a runtime check for argument and unbox if necessary.
The object is named PyObject *obj_{}. This is expected to generate
a value of name arg_{} (unboxed if necessary). For each primitive a runtime
check ensures the correct type.
"""
if typ.is_unboxed:
# Borrow when unboxing to avoid reference count manipulation.
emitter.emit_unbox('obj_{}'.format(name), 'arg_{}'.format(name), typ,
error_code, declare_dest=True, borrow=True, optional=optional)
elif is_object_rprimitive(typ):
# Object is trivial since any object is valid
if optional:
emitter.emit_line('PyObject *arg_{};'.format(name))
emitter.emit_line('if (obj_{} == NULL) {{'.format(name))
emitter.emit_line('arg_{} = {};'.format(name, emitter.c_error_value(typ)))
emitter.emit_lines('} else {', 'arg_{} = obj_{}; '.format(name, name), '}')
else:
emitter.emit_line('PyObject *arg_{} = obj_{};'.format(name, name))
else:
emitter.emit_cast('obj_{}'.format(name), 'arg_{}'.format(name), typ,
declare_dest=True, optional=optional)
if optional:
emitter.emit_line('if (obj_{} != NULL && arg_{} == NULL) {}'.format(
name, name, error_code))
else:
emitter.emit_line('if (arg_{} == NULL) {}'.format(name, error_code))
def generate_setter(cl: ClassIR,
attr: str,
rtype: RType,
emitter: Emitter) -> None:
attr_field = emitter.attr(attr)
emitter.emit_line('static int')
emitter.emit_line('{}({} *self, PyObject *value, void *closure)'.format(
setter_name(cl, attr, emitter.names),
cl.struct_name(emitter.names)))
emitter.emit_line('{')
deletable = cl.is_deletable(attr)
if not deletable:
emitter.emit_line('if (value == NULL) {')
emitter.emit_line('PyErr_SetString(PyExc_AttributeError,')
emitter.emit_line(' "{} object attribute {} cannot be deleted");'.format(repr(cl.name),
repr(attr)))
emitter.emit_line('return -1;')
emitter.emit_line('}')
# HACK: Don't consider refcounted values as always defined, since it's possible to
# access uninitialized values via 'gc.get_objects()'. Accessing non-refcounted
# values is benign.
always_defined = cl.is_always_defined(attr) and not rtype.is_refcounted
if rtype.is_refcounted:
attr_expr = f'self->{attr_field}'
if not always_defined:
emitter.emit_undefined_attr_check(rtype, attr_expr, '!=')
emitter.emit_dec_ref('self->{}'.format(attr_field), rtype)
if not always_defined:
emitter.emit_line('}')
if deletable:
emitter.emit_line('if (value != NULL) {')
if rtype.is_unboxed:
emitter.emit_unbox('value', 'tmp', rtype, error=ReturnHandler('-1'), declare_dest=True)
elif is_same_type(rtype, object_rprimitive):
emitter.emit_line('PyObject *tmp = value;')
else:
emitter.emit_cast('value', 'tmp', rtype, declare_dest=True)
emitter.emit_lines('if (!tmp)',
' return -1;')
emitter.emit_inc_ref('tmp', rtype)
emitter.emit_line(f'self->{attr_field} = tmp;')
if deletable:
emitter.emit_line('} else')
emitter.emit_line(' self->{} = {};'.format(attr_field,
emitter.c_undefined_value(rtype)))
emitter.emit_line('return 0;')
emitter.emit_line('}')
def generate_setter(cl: ClassIR, attr: str, rtype: RType,
emitter: Emitter) -> None:
attr_field = emitter.attr(attr)
emitter.emit_line('static int')
emitter.emit_line('{}({} *self, PyObject *value, void *closure)'.format(
setter_name(cl, attr, emitter.names), cl.struct_name(emitter.names)))
emitter.emit_line('{')
deletable = cl.is_deletable(attr)
if not deletable:
emitter.emit_line('if (value == NULL) {')
emitter.emit_line('PyErr_SetString(PyExc_AttributeError,')
emitter.emit_line(
' "{} object attribute {} cannot be deleted");'.format(
repr(cl.name), repr(attr)))
emitter.emit_line('return -1;')
emitter.emit_line('}')
if rtype.is_refcounted:
attr_expr = 'self->{}'.format(attr_field)
emitter.emit_undefined_attr_check(rtype, attr_expr, '!=')
emitter.emit_dec_ref('self->{}'.format(attr_field), rtype)
emitter.emit_line('}')
if deletable:
emitter.emit_line('if (value != NULL) {')
if rtype.is_unboxed:
emitter.emit_unbox('value',
'tmp',
rtype,
error=ReturnHandler('-1'),
declare_dest=True)
elif is_same_type(rtype, object_rprimitive):
emitter.emit_line('PyObject *tmp = value;')
else:
emitter.emit_cast('value', 'tmp', rtype, declare_dest=True)
emitter.emit_lines('if (!tmp)', ' return -1;')
emitter.emit_inc_ref('tmp', rtype)
emitter.emit_line('self->{} = tmp;'.format(attr_field))
if deletable:
emitter.emit_line('} else')
emitter.emit_line(' self->{} = {};'.format(
attr_field, emitter.c_undefined_value(rtype)))
emitter.emit_line('return 0;')
emitter.emit_line('}')
def generate_property_setter(cl: ClassIR, attr: str, arg_type: RType,
func_ir: FuncIR, emitter: Emitter) -> None:
emitter.emit_line('static int')
emitter.emit_line('{}({} *self, PyObject *value, void *closure)'.format(
setter_name(cl, attr, emitter.names), cl.struct_name(emitter.names)))
emitter.emit_line('{')
if arg_type.is_unboxed:
emitter.emit_unbox('value',
'tmp',
arg_type,
error=ReturnHandler('-1'),
declare_dest=True)
emitter.emit_line('{}{}((PyObject *) self, tmp);'.format(
NATIVE_PREFIX, func_ir.cname(emitter.names)))
else:
emitter.emit_line('{}{}((PyObject *) self, value);'.format(
NATIVE_PREFIX, func_ir.cname(emitter.names)))
emitter.emit_line('return 0;')
emitter.emit_line('}')
def generate_arg_check(name: str,
typ: RType,
emitter: Emitter,
error: Optional[ErrorHandler] = None,
*,
optional: bool = False,
raise_exception: bool = True) -> None:
"""Insert a runtime check for argument and unbox if necessary.
The object is named PyObject *obj_{}. This is expected to generate
a value of name arg_{} (unboxed if necessary). For each primitive a runtime
check ensures the correct type.
"""
error = error or AssignHandler()
if typ.is_unboxed:
# Borrow when unboxing to avoid reference count manipulation.
emitter.emit_unbox(f'obj_{name}',
f'arg_{name}',
typ,
declare_dest=True,
raise_exception=raise_exception,
error=error,
borrow=True,
optional=optional)
elif is_object_rprimitive(typ):
# Object is trivial since any object is valid
if optional:
emitter.emit_line(f'PyObject *arg_{name};')
emitter.emit_line(f'if (obj_{name} == NULL) {{')
emitter.emit_line(f'arg_{name} = {emitter.c_error_value(typ)};')
emitter.emit_lines('} else {', f'arg_{name} = obj_{name}; ', '}')
else:
emitter.emit_line(f'PyObject *arg_{name} = obj_{name};')
else:
emitter.emit_cast(f'obj_{name}',
f'arg_{name}',
typ,
declare_dest=True,
raise_exception=raise_exception,
error=error,
optional=optional)
