use std::io;
use std::io::Write;
use std::sync::Arc;
use std::sync::atomic::AtomicU64;
use std::sync::atomic::Ordering;
use futures::FutureExt;
use futures::StreamExt;
use futures::TryStreamExt;
use futures::future::Fuse;
use futures::future::LocalBoxFuture;
use futures::future::ready;
use futures::pin_mut;
use futures::select;
use itertools::Itertools;
use vortex_array::ArrayContext;
use vortex_array::ArrayRef;
use vortex_array::dtype::DType;
use vortex_array::expr::stats::Stat;
use vortex_array::iter::ArrayIterator;
use vortex_array::iter::ArrayIteratorExt;
use vortex_array::session::ArraySessionExt;
use vortex_array::stats::PRUNING_STATS;
use vortex_array::stream::ArrayStream;
use vortex_array::stream::ArrayStreamAdapter;
use vortex_array::stream::ArrayStreamExt;
use vortex_array::stream::SendableArrayStream;
use vortex_buffer::ByteBuffer;
use vortex_error::VortexError;
use vortex_error::VortexExpect;
use vortex_error::VortexResult;
use vortex_error::vortex_bail;
use vortex_error::vortex_err;
use vortex_io::IoBuf;
use vortex_io::VortexWrite;
use vortex_io::kanal_ext::KanalExt;
use vortex_io::runtime::BlockingRuntime;
use vortex_io::session::RuntimeSessionExt;
use vortex_layout::LayoutStrategy;
use vortex_layout::layouts::file_stats::accumulate_stats;
use vortex_layout::sequence::SequenceId;
use vortex_layout::sequence::SequentialStreamAdapter;
use vortex_layout::sequence::SequentialStreamExt;
use vortex_session::SessionExt;
use vortex_session::VortexSession;
use vortex_session::registry::ReadContext;
use crate::ALLOWED_ENCODINGS;
use crate::Footer;
use crate::MAGIC_BYTES;
use crate::WriteStrategyBuilder;
use crate::counting::CountingVortexWrite;
use crate::footer::FileStatistics;
use crate::segments::writer::BufferedSegmentSink;
pub struct VortexWriteOptions {
session: VortexSession,
strategy: Arc<dyn LayoutStrategy>,
exclude_dtype: bool,
max_variable_length_statistics_size: usize,
file_statistics: Vec<Stat>,
}
pub trait WriteOptionsSessionExt: SessionExt {
fn write_options(&self) -> VortexWriteOptions {
let session = self.session();
VortexWriteOptions {
strategy: WriteStrategyBuilder::default().build(),
session,
exclude_dtype: false,
file_statistics: PRUNING_STATS.to_vec(),
max_variable_length_statistics_size: 64,
}
}
}
impl<S: SessionExt> WriteOptionsSessionExt for S {}
impl VortexWriteOptions {
pub fn new(session: VortexSession) -> Self {
VortexWriteOptions {
strategy: WriteStrategyBuilder::default().build(),
session,
exclude_dtype: false,
file_statistics: PRUNING_STATS.to_vec(),
max_variable_length_statistics_size: 64,
}
}
pub fn with_strategy(mut self, strategy: Arc<dyn LayoutStrategy>) -> Self {
self.strategy = strategy;
self
}
pub fn exclude_dtype(mut self) -> Self {
self.exclude_dtype = true;
self
}
pub fn with_file_statistics(mut self, file_statistics: Vec<Stat>) -> Self {
self.file_statistics = file_statistics;
self
}
}
impl VortexWriteOptions {
pub fn blocking<B: BlockingRuntime>(self, runtime: &B) -> BlockingWrite<'_, B> {
BlockingWrite {
options: self,
runtime,
}
}
pub async fn write<W: VortexWrite + Unpin, S: ArrayStream + Send + 'static>(
self,
write: W,
stream: S,
) -> VortexResult<WriteSummary> {
self.write_internal(write, ArrayStreamExt::boxed(stream))
.await
}
async fn write_internal<W: VortexWrite + Unpin>(
self,
mut write: W,
stream: SendableArrayStream,
) -> VortexResult<WriteSummary> {
let ctx = ArrayContext::new(ALLOWED_ENCODINGS.iter().cloned().sorted().collect())
.with_registry(self.session.arrays().registry().clone());
let dtype = stream.dtype().clone();
let (mut ptr, eof) = SequenceId::root().split();
let stream = SequentialStreamAdapter::new(
dtype.clone(),
stream
.try_filter(|chunk| ready(!chunk.is_empty()))
.map(move |result| result.map(|chunk| (ptr.advance(), chunk))),
)
.sendable();
let (file_stats, stream) = accumulate_stats(
stream,
self.file_statistics.clone().into(),
self.max_variable_length_statistics_size,
&self.session,
);
write.write_all(ByteBuffer::copy_from(MAGIC_BYTES)).await?;
let mut position = MAGIC_BYTES.len() as u64;
let (send, recv) = kanal::bounded_async(1);
let segments = Arc::new(BufferedSegmentSink::new(send, position));
let ctx2 = ctx.clone();
let session = self.session.clone();
let layout_fut = self.session.handle().spawn_nested(move |h| async move {
let session = session.with_handle(h);
let layout = self
.strategy
.write_stream(
ctx2,
Arc::<BufferedSegmentSink>::clone(&segments),
stream,
eof,
&session,
)
.await?;
Ok::<_, VortexError>((layout, segments.segment_specs()))
});
let recv_stream = recv.into_stream();
pin_mut!(recv_stream);
while let Some(buffer) = recv_stream.next().await {
if buffer.is_empty() {
continue;
}
position += buffer.len() as u64;
write.write_all(buffer).await?;
}
let (layout, segment_specs) = layout_fut.await?;
let mut footer = Footer::new(
Arc::clone(&layout),
segment_specs,
if self.file_statistics.is_empty() {
None
} else {
Some(FileStatistics::new_with_dtype(
file_stats.stats_sets().into(),
&dtype,
))
},
ReadContext::new(ctx.to_ids()),
);
let footer_buffers = footer
.clone()
.into_serializer()
.with_offset(position)
.with_exclude_dtype(self.exclude_dtype)
.serialize()?;
footer = footer.with_approx_byte_size(footer_buffers.iter().map(|b| b.len()).sum());
for buffer in footer_buffers {
position += buffer.len() as u64;
write.write_all(buffer).await?;
}
write.flush().await?;
Ok(WriteSummary {
footer,
size: position,
})
}
pub fn writer<'w, W: VortexWrite + Unpin + 'w>(self, write: W, dtype: DType) -> Writer<'w> {
let (arrays_send, arrays_recv) = kanal::bounded_async(1);
let arrays =
ArrayStreamExt::boxed(ArrayStreamAdapter::new(dtype, arrays_recv.into_stream()));
let write = CountingVortexWrite::new(write);
let bytes_written = write.counter();
let strategy = Arc::clone(&self.strategy);
let future = self.write(write, arrays).boxed_local().fuse();
Writer {
arrays: Some(arrays_send),
future,
bytes_written,
strategy,
}
}
}
pub struct Writer<'w> {
arrays: Option<kanal::AsyncSender<VortexResult<ArrayRef>>>,
future: Fuse<LocalBoxFuture<'w, VortexResult<WriteSummary>>>,
bytes_written: Arc<AtomicU64>,
strategy: Arc<dyn LayoutStrategy>,
}
impl Writer<'_> {
pub async fn push(&mut self, chunk: ArrayRef) -> VortexResult<()> {
let arrays = self.arrays.clone().vortex_expect("missing arrays sender");
let send_fut = async move { arrays.send(Ok(chunk)).await }.fuse();
pin_mut!(send_fut);
select! {
result = send_fut => {
if result.is_err() {
return Err(self.handle_failed_task().await);
}
},
result = &mut self.future => {
match result {
Ok(_) => vortex_bail!("Internal error: writer future completed early"),
Err(e) => return Err(e),
}
}
}
Ok(())
}
pub async fn push_stream(&mut self, mut stream: SendableArrayStream) -> VortexResult<()> {
let arrays = self.arrays.clone().vortex_expect("missing arrays sender");
let stream_fut = async move {
while let Some(chunk) = stream.next().await {
arrays.send(chunk).await?;
}
Ok::<_, kanal::SendError>(())
}
.fuse();
pin_mut!(stream_fut);
select! {
result = stream_fut => {
if let Err(_send_err) = result {
return Err(self.handle_failed_task().await);
}
}
result = &mut self.future => {
match result {
Ok(_) => vortex_bail!("Internal error: writer future completed early"),
Err(e) => return Err(e),
}
}
}
Ok(())
}
pub fn bytes_written(&self) -> u64 {
self.bytes_written.load(Ordering::Relaxed)
}
pub fn buffered_bytes(&self) -> u64 {
self.strategy.buffered_bytes()
}
pub async fn finish(mut self) -> VortexResult<WriteSummary> {
drop(self.arrays.take());
self.future.await
}
async fn handle_failed_task(&mut self) -> VortexError {
match (&mut self.future).await {
Ok(_) => vortex_err!(
"Internal error: writer task completed successfully but write future finished early"
),
Err(e) => e,
}
}
}
pub struct BlockingWrite<'rt, B: BlockingRuntime> {
options: VortexWriteOptions,
runtime: &'rt B,
}
impl<'rt, B: BlockingRuntime> BlockingWrite<'rt, B> {
pub fn write<W: Write + Unpin>(
self,
write: W,
iter: impl ArrayIterator + Send + 'static,
) -> VortexResult<WriteSummary> {
self.runtime.block_on(async move {
self.options
.write(BlockingWriteAdapter(write), iter.into_array_stream())
.await
})
}
pub fn writer<'w, W: Write + Unpin + 'w>(
self,
write: W,
dtype: DType,
) -> BlockingWriter<'rt, 'w, B> {
BlockingWriter {
writer: self.options.writer(BlockingWriteAdapter(write), dtype),
runtime: self.runtime,
}
}
}
pub struct BlockingWriter<'rt, 'w, B: BlockingRuntime> {
runtime: &'rt B,
writer: Writer<'w>,
}
impl<B: BlockingRuntime> BlockingWriter<'_, '_, B> {
pub fn push(&mut self, chunk: ArrayRef) -> VortexResult<()> {
self.runtime.block_on(self.writer.push(chunk))
}
pub fn bytes_written(&self) -> u64 {
self.writer.bytes_written()
}
pub fn buffered_bytes(&self) -> u64 {
self.writer.buffered_bytes()
}
pub fn finish(self) -> VortexResult<WriteSummary> {
self.runtime.block_on(self.writer.finish())
}
}
struct BlockingWriteAdapter<W>(W);
impl<W: Write + Unpin> VortexWrite for BlockingWriteAdapter<W> {
async fn write_all<B: IoBuf>(&mut self, buffer: B) -> io::Result<B> {
self.0.write_all(buffer.as_slice())?;
Ok(buffer)
}
fn flush(&mut self) -> impl Future<Output = io::Result<()>> {
ready(self.0.flush())
}
fn shutdown(&mut self) -> impl Future<Output = io::Result<()>> {
ready(Ok(()))
}
}
pub struct WriteSummary {
footer: Footer,
size: u64,
}
impl WriteSummary {
pub fn footer(&self) -> &Footer {
&self.footer
}
pub fn size(&self) -> u64 {
self.size
}
pub fn row_count(&self) -> u64 {
self.footer.row_count()
}
}