def emit_box(self, src: str, dest: str, typ: RType, declare_dest: bool = False, can_borrow: bool = False) -> None: """Emit code for boxing a value of given type. Generate a simple assignment if no boxing is needed. The source reference count is stolen for the result (no need to decref afterwards). """ # TODO: Always generate a new reference (if a reference type) if declare_dest: declaration = 'PyObject *' else: declaration = '' if is_int_rprimitive(typ) or is_short_int_rprimitive(typ): # Steal the existing reference if it exists. self.emit_line('{}{} = CPyTagged_StealAsObject({});'.format( declaration, dest, src)) elif is_bool_rprimitive(typ): # N.B: bool is special cased to produce a borrowed value # after boxing, so we don't need to increment the refcount # when this comes directly from a Box op. self.emit_lines('{}{} = {} ? Py_True : Py_False;'.format( declaration, dest, src)) if not can_borrow: self.emit_inc_ref(dest, object_rprimitive) elif is_none_rprimitive(typ): # N.B: None is special cased to produce a borrowed value # after boxing, so we don't need to increment the refcount # when this comes directly from a Box op. self.emit_lines('{}{} = Py_None;'.format(declaration, dest)) if not can_borrow: self.emit_inc_ref(dest, object_rprimitive) elif isinstance(typ, RTuple): self.declare_tuple_struct(typ) self.emit_line('{}{} = PyTuple_New({});'.format( declaration, dest, len(typ.types))) self.emit_line('if (unlikely({} == NULL))'.format(dest)) self.emit_line(' CPyError_OutOfMemory();') # TODO: Fail if dest is None for i in range(0, len(typ.types)): if not typ.is_unboxed: self.emit_line('PyTuple_SET_ITEM({}, {}, {}.f{}'.format( dest, i, src, i)) else: inner_name = self.temp_name() self.emit_box('{}.f{}'.format(src, i), inner_name, typ.types[i], declare_dest=True) self.emit_line('PyTuple_SET_ITEM({}, {}, {});'.format( dest, i, inner_name)) else: assert not typ.is_unboxed # Type is boxed -- trivially just assign. self.emit_line('{}{} = {};'.format(declaration, dest, src))
def gen_step(self) -> None: builder = self.builder line = self.line # Increment index register. If the range is known to fit in short ints, use # short ints. if (is_short_int_rprimitive(self.start_reg.type) and is_short_int_rprimitive(self.end_reg.type)): new_val = builder.primitive_op( unsafe_short_add, [builder.read(self.index_reg, line), builder.add(LoadInt(self.step))], line) else: new_val = builder.binary_op( builder.read(self.index_reg, line), builder.add(LoadInt(self.step)), '+', line) builder.assign(self.index_reg, new_val, line) builder.assign(self.index_target, new_val, line)
def visit_rprimitive(self, left: RPrimitive) -> bool: if is_short_int_rprimitive(left) and is_int_rprimitive(self.right): return True return left is self.right
def emit_unbox(self, src: str, dest: str, typ: RType, custom_failure: Optional[str] = None, declare_dest: bool = False, borrow: bool = False, optional: bool = False) -> None: """Emit code for unboxing a value of given type (from PyObject *). Evaluate C code in 'failure' if the value has an incompatible type. Always generate a new reference. Args: src: Name of source C variable dest: Name of target C variable typ: Type of value failure: What happens on error declare_dest: If True, also declare the variable 'dest' borrow: If True, create a borrowed reference """ # TODO: Verify refcount handling. raise_exc = 'CPy_TypeError("{}", {});'.format(self.pretty_name(typ), src) if custom_failure is not None: failure = [raise_exc, custom_failure] else: failure = [raise_exc, '%s = %s;' % (dest, self.c_error_value(typ))] if is_int_rprimitive(typ) or is_short_int_rprimitive(typ): if declare_dest: self.emit_line('CPyTagged {};'.format(dest)) self.emit_arg_check(src, dest, typ, '(likely(PyLong_Check({})))'.format(src), optional) if borrow: self.emit_line( ' {} = CPyTagged_BorrowFromObject({});'.format( dest, src)) else: self.emit_line(' {} = CPyTagged_FromObject({});'.format( dest, src)) self.emit_line('else {') self.emit_lines(*failure) self.emit_line('}') elif is_bool_rprimitive(typ): # Whether we are borrowing or not makes no difference. if declare_dest: self.emit_line('char {};'.format(dest)) self.emit_arg_check(src, dest, typ, '(unlikely(!PyBool_Check({}))) {{'.format(src), optional) self.emit_lines(*failure) self.emit_line('} else') conversion = '{} == Py_True'.format(src) self.emit_line(' {} = {};'.format(dest, conversion)) elif is_none_rprimitive(typ): # Whether we are borrowing or not makes no difference. if declare_dest: self.emit_line('char {};'.format(dest)) self.emit_arg_check(src, dest, typ, '(unlikely({} != Py_None)) {{'.format(src), optional) self.emit_lines(*failure) self.emit_line('} else') self.emit_line(' {} = 1;'.format(dest)) elif isinstance(typ, RTuple): self.declare_tuple_struct(typ) if declare_dest: self.emit_line('{} {};'.format(self.ctype(typ), dest)) # HACK: The error handling for unboxing tuples is busted # and instead of fixing it I am just wrapping it in the # cast code which I think is right. This is not good. if optional: self.emit_line('if ({} == NULL) {{'.format(src)) self.emit_line('{} = {};'.format(dest, self.c_error_value(typ))) self.emit_line('} else {') cast_temp = self.temp_name() self.emit_tuple_cast(src, cast_temp, typ, declare_dest=True, err='', src_type=None) self.emit_line('if (unlikely({} == NULL)) {{'.format(cast_temp)) # self.emit_arg_check(src, dest, typ, # '(!PyTuple_Check({}) || PyTuple_Size({}) != {}) {{'.format( # src, src, len(typ.types)), optional) self.emit_lines(*failure) # TODO: Decrease refcount? self.emit_line('} else {') if not typ.types: self.emit_line('{}.empty_struct_error_flag = 0;'.format(dest)) for i, item_type in enumerate(typ.types): temp = self.temp_name() # emit_tuple_cast above checks the size, so this should not fail self.emit_line( 'PyObject *{} = PyTuple_GET_ITEM({}, {});'.format( temp, src, i)) temp2 = self.temp_name() # Unbox or check the item. if item_type.is_unboxed: self.emit_unbox(temp, temp2, item_type, custom_failure, declare_dest=True, borrow=borrow) else: if not borrow: self.emit_inc_ref(temp, object_rprimitive) self.emit_cast(temp, temp2, item_type, declare_dest=True) self.emit_line('{}.f{} = {};'.format(dest, i, temp2)) self.emit_line('}') if optional: self.emit_line('}') else: assert False, 'Unboxing not implemented: %s' % typ