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use crate::compression::CompressionOptions;
use crate::error::{Error, Result};
use crate::page::{CompressedDictPage, CompressedPage, DataPageHeader, EncodedDictPage};
use crate::FallibleStreamingIterator;
use crate::{
compression,
page::{CompressedDataPage, DataPage, EncodedPage},
};
fn compress_data(
page: DataPage,
mut compressed_buffer: Vec<u8>,
compression: CompressionOptions,
) -> Result<CompressedDataPage> {
let DataPage {
mut buffer,
header,
dictionary_page,
descriptor,
selected_rows,
} = page;
let uncompressed_page_size = buffer.len();
if compression != CompressionOptions::Uncompressed {
match &header {
DataPageHeader::V1(_) => {
compression::compress(compression, &buffer, &mut compressed_buffer)?;
}
DataPageHeader::V2(header) => {
let levels_byte_length = (header.repetition_levels_byte_length
+ header.definition_levels_byte_length)
as usize;
compressed_buffer.extend_from_slice(&buffer[..levels_byte_length]);
compression::compress(
compression,
&buffer[levels_byte_length..],
&mut compressed_buffer,
)?;
}
};
} else {
std::mem::swap(&mut buffer, &mut compressed_buffer);
};
Ok(CompressedDataPage::new_read(
header,
compressed_buffer,
compression.into(),
uncompressed_page_size,
dictionary_page,
descriptor,
selected_rows,
))
}
fn compress_dict(
page: EncodedDictPage,
mut compressed_buffer: Vec<u8>,
compression: CompressionOptions,
) -> Result<CompressedDictPage> {
let EncodedDictPage {
mut buffer,
num_values,
} = page;
let uncompressed_page_size = buffer.len();
if compression != CompressionOptions::Uncompressed {
compression::compress(compression, &buffer, &mut compressed_buffer)?;
} else {
std::mem::swap(&mut buffer, &mut compressed_buffer);
}
Ok(CompressedDictPage::new(
compressed_buffer,
compression.into(),
uncompressed_page_size,
num_values,
))
}
pub fn compress(
page: EncodedPage,
compressed_buffer: Vec<u8>,
compression: CompressionOptions,
) -> Result<CompressedPage> {
match page {
EncodedPage::Data(page) => {
compress_data(page, compressed_buffer, compression).map(CompressedPage::Data)
}
EncodedPage::Dict(page) => {
compress_dict(page, compressed_buffer, compression).map(CompressedPage::Dict)
}
}
}
pub struct Compressor<I: Iterator<Item = Result<EncodedPage>>> {
iter: I,
compression: CompressionOptions,
buffer: Vec<u8>,
current: Option<CompressedPage>,
}
impl<I: Iterator<Item = Result<EncodedPage>>> Compressor<I> {
pub fn new_from_vec(iter: I, compression: CompressionOptions, buffer: Vec<u8>) -> Self {
Self::new(iter, compression, buffer)
}
pub fn new(iter: I, compression: CompressionOptions, buffer: Vec<u8>) -> Self {
Self {
iter,
compression,
buffer,
current: None,
}
}
}
impl<I: Iterator<Item = Result<EncodedPage>>> FallibleStreamingIterator for Compressor<I> {
type Item = CompressedPage;
type Error = Error;
fn advance(&mut self) -> std::result::Result<(), Self::Error> {
let mut compressed_buffer = if let Some(page) = self.current.as_mut() {
std::mem::take(page.buffer())
} else {
std::mem::take(&mut self.buffer)
};
compressed_buffer.clear();
let next = self
.iter
.next()
.map(|x| x.and_then(|page| compress(page, compressed_buffer, self.compression)))
.transpose()?;
self.current = next;
Ok(())
}
fn get(&self) -> Option<&Self::Item> {
self.current.as_ref()
}
}
