static PyObject *py_mod_bt2_exc_memory_error = NULL;
static PyObject *py_mod_bt2_exc_try_again_type = NULL;
static PyObject *py_mod_bt2_exc_stop_type = NULL;
-static PyObject *py_mod_bt2_exc_msg_iter_canceled_type = NULL;
-static PyObject *py_mod_bt2_exc_invalid_object_type = NULL;
-static PyObject *py_mod_bt2_exc_invalid_params_type = NULL;
-static PyObject *py_mod_bt2_exc_unsupported_type = NULL;
+static PyObject *py_mod_bt2_exc_unknown_object_type = NULL;
static
void bt_bt2_cc_init_from_bt2(void)
py_mod_bt2 = PyImport_ImportModule("bt2");
BT_ASSERT(py_mod_bt2);
py_mod_bt2_exc_error_type =
- PyObject_GetAttrString(py_mod_bt2, "Error");
+ PyObject_GetAttrString(py_mod_bt2, "_Error");
BT_ASSERT(py_mod_bt2_exc_error_type);
py_mod_bt2_exc_memory_error =
- PyObject_GetAttrString(py_mod_bt2, "MemoryError");
+ PyObject_GetAttrString(py_mod_bt2, "_MemoryError");
BT_ASSERT(py_mod_bt2_exc_memory_error);
py_mod_bt2_exc_try_again_type =
PyObject_GetAttrString(py_mod_bt2, "TryAgain");
py_mod_bt2_exc_stop_type =
PyObject_GetAttrString(py_mod_bt2, "Stop");
BT_ASSERT(py_mod_bt2_exc_stop_type);
- py_mod_bt2_exc_invalid_object_type =
- PyObject_GetAttrString(py_mod_bt2, "InvalidObject");
- BT_ASSERT(py_mod_bt2_exc_invalid_object_type);
- py_mod_bt2_exc_invalid_params_type =
- PyObject_GetAttrString(py_mod_bt2, "InvalidParams");
- BT_ASSERT(py_mod_bt2_exc_invalid_params_type);
- py_mod_bt2_exc_unsupported_type =
- PyObject_GetAttrString(py_mod_bt2, "Unsupported");
- BT_ASSERT(py_mod_bt2_exc_unsupported_type);
+ py_mod_bt2_exc_unknown_object_type =
+ PyObject_GetAttrString(py_mod_bt2, "UnknownObject");
+ BT_ASSERT(py_mod_bt2_exc_unknown_object_type);
}
static
Py_XDECREF(py_mod_bt2_exc_error_type);
Py_XDECREF(py_mod_bt2_exc_try_again_type);
Py_XDECREF(py_mod_bt2_exc_stop_type);
- Py_XDECREF(py_mod_bt2_exc_msg_iter_canceled_type);
- Py_XDECREF(py_mod_bt2_exc_invalid_object_type);
- Py_XDECREF(py_mod_bt2_exc_invalid_params_type);
+ Py_XDECREF(py_mod_bt2_exc_unknown_object_type);
}
}
/*
- * If the raised exception is a bt2.Error, restore the wrapped error.
+ * If the raised exception is a bt2._Error, restore the wrapped error.
*/
if (PyErr_GivenExceptionMatches(py_exc_value, py_mod_bt2_exc_error_type)) {
PyObject *py_error_swig_ptr;
int ret;
/*
- * We never raise a bt2.Error with a cause: it should be the
+ * We never raise a bt2._Error with a cause: it should be the
* end of the chain.
*/
BT_ASSERT(!py_exc_cause_value);
* try:
* try:
* something_that_raises_bt2_error()
- * except bt2.Error as e1:
+ * except bt2._Error as e1:
* raise ValueError from e1
* except ValueError as e2:
* raise TypeError from e2
*
* We will have the following exception chain:
*
- * TypeError -> ValueError -> bt2.Error
+ * TypeError -> ValueError -> bt2._Error
*
* Where the TypeError is the current exception (obtained from PyErr_Fetch).
*
- * The bt2.Error contains a `struct bt_error *` that used to be the current
+ * The bt2._Error contains a `struct bt_error *` that used to be the current
* thread's error, at the moment the exception was raised.
*
- * This function gets to the bt2.Error and restores the wrapped
+ * This function gets to the bt2._Error and restores the wrapped
* `struct bt_error *` as the current thread's error.
*
* Then, for each exception in the chain, starting with the oldest one, it adds
py_mod_bt2_exc_stop_type)) {
status = __BT_FUNC_STATUS_END;
} else if (PyErr_GivenExceptionMatches(exc,
- py_mod_bt2_exc_invalid_object_type)) {
- status = __BT_FUNC_STATUS_INVALID_OBJECT;
- } else if (PyErr_GivenExceptionMatches(exc,
- py_mod_bt2_exc_invalid_params_type)) {
- status = __BT_FUNC_STATUS_INVALID_PARAMS;
- } else if (PyErr_GivenExceptionMatches(exc,
- py_mod_bt2_exc_unsupported_type)) {
- status = __BT_FUNC_STATUS_UNSUPPORTED;
+ py_mod_bt2_exc_unknown_object_type)) {
+ status = __BT_FUNC_STATUS_UNKNOWN_OBJECT;
} else {
/* Unknown exception: convert to general error */
log_exception_and_maybe_append_error(BT_LOG_WARNING, true,
PyObject *py_comp = bt_self_component_get_data(self_component);
BT_ASSERT(py_comp);
- /* Call user's _finalize() method */
+ /* Call user's _user_finalize() method */
PyObject *py_method_result = PyObject_CallMethod(py_comp,
- "_finalize", NULL);
+ "_user_finalize", NULL);
if (PyErr_Occurred()) {
- BT_LOGW("User component's _finalize() method raised an exception: ignoring:");
+ BT_LOGW("User component's _user_finalize() method raised an exception: ignoring:");
logw_exception();
}
/*
- * Ignore any exception raised by the _finalize() method because
- * it won't change anything at this point: the component is
- * being destroyed anyway.
+ * Ignore any exception raised by the _user_finalize() method
+ * because it won't change anything at this point: the component
+ * is being destroyed anyway.
*/
PyErr_Clear();
Py_XDECREF(py_method_result);
*
* py_iter.__init__(self_output_port)
*
- * through the _init_for_native helper static method.
+ * through the _init_for_native helper static method.
*
* At this point, py_iter._ptr is set, so this initialization
* function has access to self._component (which gives it the
* user Python component object from which the iterator was
* created).
*/
- py_component_port_output_ptr = SWIG_NewPointerObj(
- SWIG_as_voidptr(self_component_port_output),
+ py_component_port_output_ptr = SWIG_NewPointerObj(
+ SWIG_as_voidptr(self_component_port_output),
SWIGTYPE_p_bt_self_component_port_output, 0);
if (!py_component_port_output_ptr) {
const char *err = "Failed to create a SWIG pointer object.";
BT_ASSERT(py_message_iter);
- /* Call user's _finalize() method */
+ /* Call user's _user_finalize() method */
py_method_result = PyObject_CallMethod(py_message_iter,
- "_finalize", NULL);
+ "_user_finalize", NULL);
if (PyErr_Occurred()) {
- BT_LOGW("User's _finalize() method raised an exception: ignoring:");
+ BT_LOGW("User's _user_finalize() method raised an exception: ignoring:");
logw_exception();
}
/*
- * Ignore any exception raised by the _finalize() method because
- * it won't change anything at this point: the component is
- * being destroyed anyway.
+ * Ignore any exception raised by the _user_finalize() method
+ * because it won't change anything at this point: the component
+ * is being destroyed anyway.
*/
PyErr_Clear();
Py_XDECREF(py_method_result);
BT_ASSERT(py_comp);
py_method_result = PyObject_CallMethod(py_comp,
- "_consume", NULL);
+ "_user_consume", NULL);
status = py_exc_to_status_component(self_component);
if (!py_method_result && status == __BT_FUNC_STATUS_OK) {
/* Pretty sure this should never happen, but just in case */
- BT_LOGE("User's _consume() method failed without raising an exception: "
+ BT_LOGE("User's _user_consume() method failed without raising an exception: "
"status=%d", status);
status = __BT_FUNC_STATUS_ERROR;
}