use arrow::{array::ArrayRef, pyarrow::ToPyArrow}; use dora_node_api::{merged::MergedEvent, Event, Metadata, MetadataParameters}; use eyre::{Context, Result}; use pyo3::{exceptions::PyLookupError, prelude::*, pybacked::PyBackedStr, types::PyDict}; /// Dora Event #[pyclass] #[derive(Debug)] pub struct PyEvent { event: MergedEvent, data: Option, } // Dora Event #[pymethods] impl PyEvent { /// /// :rtype: dora.PyObject pub fn __getitem__(&self, key: &str, py: Python<'_>) -> PyResult> { if key == "kind" { let kind = match &self.event { MergedEvent::Dora(_) => "dora", MergedEvent::External(_) => "external", }; return Ok(Some(kind.to_object(py))); } match &self.event { MergedEvent::Dora(event) => { let value = match key { "type" => Some(Self::ty(event).to_object(py)), "id" => Self::id(event).map(|v| v.to_object(py)), "value" => self.value(py)?, "metadata" => Self::metadata(event, py), "error" => Self::error(event).map(|v| v.to_object(py)), other => { return Err(PyLookupError::new_err(format!( "event has no property `{other}`" ))) } }; Ok(value) } MergedEvent::External(event) => { let value = match key { "value" => event, _ => todo!(), }; Ok(Some(value.clone())) } } } pub fn inner(&mut self) -> Option<&PyObject> { match &self.event { MergedEvent::Dora(_) => None, MergedEvent::External(event) => Some(event), } } fn __str__(&self) -> PyResult { Ok(format!("{:#?}", &self.event)) } } impl PyEvent { fn ty(event: &Event) -> &str { match event { Event::Stop => "STOP", Event::Input { .. } => "INPUT", Event::InputClosed { .. } => "INPUT_CLOSED", Event::Error(_) => "ERROR", _other => "UNKNOWN", } } fn id(event: &Event) -> Option<&str> { match event { Event::Input { id, .. } => Some(id), Event::InputClosed { id } => Some(id), _ => None, } } /// Returns the payload of an input event as an arrow array (if any). fn value(&self, py: Python<'_>) -> PyResult> { match (&self.event, &self.data) { (MergedEvent::Dora(Event::Input { .. }), Some(data)) => { // TODO: Does this call leak data? let array_data = data.to_data().to_pyarrow(py)?; Ok(Some(array_data)) } _ => Ok(None), } } fn metadata(event: &Event, py: Python<'_>) -> Option { match event { Event::Input { metadata, .. } => Some(metadata_to_pydict(metadata, py).to_object(py)), _ => None, } } fn error(event: &Event) -> Option<&str> { match event { Event::Error(error) => Some(error), _other => None, } } } impl From for PyEvent { fn from(event: Event) -> Self { Self::from(MergedEvent::Dora(event)) } } impl From> for PyEvent { fn from(mut event: MergedEvent) -> Self { let data = if let MergedEvent::Dora(Event::Input { data, .. }) = &mut event { Some(data.clone()) } else { None }; Self { event, data } } } pub fn pydict_to_metadata(dict: Option>) -> Result { let mut default_metadata = MetadataParameters::default(); if let Some(metadata) = dict { for (key, value) in metadata.iter() { match key .extract::() .context("Parsing metadata keys")? .as_ref() { "watermark" => { default_metadata.watermark = value.extract().context("parsing watermark failed")?; } "deadline" => { default_metadata.deadline = value.extract().context("parsing deadline failed")?; } "open_telemetry_context" => { let otel_context: PyBackedStr = value .extract() .context("parsing open telemetry context failed")?; default_metadata.open_telemetry_context = otel_context.to_string(); } _ => (), } } } Ok(default_metadata) } pub fn metadata_to_pydict<'a>(metadata: &'a Metadata, py: Python<'a>) -> pyo3::Bound<'a, PyDict> { let dict = PyDict::new_bound(py); dict.set_item( "open_telemetry_context", &metadata.parameters.open_telemetry_context, ) .wrap_err("could not make metadata a python dictionary item") .unwrap(); dict } #[cfg(test)] mod tests { use std::sync::Arc; use aligned_vec::{AVec, ConstAlign}; use arrow::{ array::{ ArrayData, ArrayRef, BooleanArray, Float64Array, Int32Array, Int64Array, Int8Array, ListArray, StructArray, }, buffer::Buffer, }; use arrow_schema::{DataType, Field}; use dora_node_api::{ arrow_utils::{copy_array_into_sample, required_data_size}, RawData, }; use eyre::{Context, Result}; fn assert_roundtrip(arrow_array: &ArrayData) -> Result<()> { let size = required_data_size(arrow_array); let mut sample: AVec> = AVec::__from_elem(128, 0, size); let info = copy_array_into_sample(&mut sample, arrow_array); let serialized_deserialized_arrow_array = RawData::Vec(sample) .into_arrow_array(&info) .context("Could not create arrow array")?; assert_eq!(arrow_array, &serialized_deserialized_arrow_array); Ok(()) } #[test] fn serialize_deserialize_arrow() -> Result<()> { // Int8 let arrow_array = Int8Array::from(vec![1, -2, 3, 4]).into(); assert_roundtrip(&arrow_array).context("Int8Array roundtrip failed")?; // Int64 let arrow_array = Int64Array::from(vec![1, -2, 3, 4]).into(); assert_roundtrip(&arrow_array).context("Int64Array roundtrip failed")?; // Float64 let arrow_array = Float64Array::from(vec![1., -2., 3., 4.]).into(); assert_roundtrip(&arrow_array).context("Float64Array roundtrip failed")?; // Struct let boolean = Arc::new(BooleanArray::from(vec![false, false, true, true])); let int = Arc::new(Int32Array::from(vec![42, 28, 19, 31])); let struct_array = StructArray::from(vec![ ( Arc::new(Field::new("b", DataType::Boolean, false)), boolean as ArrayRef, ), ( Arc::new(Field::new("c", DataType::Int32, false)), int as ArrayRef, ), ]) .into(); assert_roundtrip(&struct_array).context("StructArray roundtrip failed")?; // List let value_data = ArrayData::builder(DataType::Int32) .len(8) .add_buffer(Buffer::from_slice_ref([0, 1, 2, 3, 4, 5, 6, 7])) .build() .unwrap(); // Construct a buffer for value offsets, for the nested array: // [[0, 1, 2], [3, 4, 5], [6, 7]] let value_offsets = Buffer::from_slice_ref([0, 3, 6, 8]); // Construct a list array from the above two let list_data_type = DataType::List(Arc::new(Field::new("item", DataType::Int32, false))); let list_data = ArrayData::builder(list_data_type) .len(3) .add_buffer(value_offsets) .add_child_data(value_data) .build() .unwrap(); let list_array = ListArray::from(list_data).into(); assert_roundtrip(&list_array).context("ListArray roundtrip failed")?; Ok(()) } }