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use std::convert::TryInto;
use git_hash::ObjectId;
use crate::data::{entry::Header, input};
pub struct LookupRefDeltaObjectsIter<I, LFn> {
pub inner: I,
lookup: LFn,
next_delta: Option<input::Entry>,
error: bool,
inserted_entry_length_at_offset: Vec<Change>,
inserted_entries_length_in_bytes: i64,
buf: Vec<u8>,
}
impl<I, LFn> LookupRefDeltaObjectsIter<I, LFn>
where
I: Iterator<Item = Result<input::Entry, input::Error>>,
LFn: for<'a> FnMut(ObjectId, &'a mut Vec<u8>) -> Option<git_object::Data<'a>>,
{
pub fn new(iter: I, lookup: LFn) -> Self {
LookupRefDeltaObjectsIter {
inner: iter,
lookup,
error: false,
inserted_entry_length_at_offset: Vec::new(),
inserted_entries_length_in_bytes: 0,
next_delta: None,
buf: Vec::new(),
}
}
fn shifted_pack_offset(&self, pack_offset: u64) -> u64 {
let new_ofs = pack_offset as i64 + self.inserted_entries_length_in_bytes;
new_ofs.try_into().expect("offset value is never becomes negative")
}
fn track_change(
&mut self,
shifted_pack_offset: u64,
pack_offset: u64,
size_change: i64,
oid: impl Into<Option<ObjectId>>,
) {
if size_change == 0 {
return;
}
self.inserted_entry_length_at_offset.push(Change {
shifted_pack_offset,
pack_offset,
size_change_in_bytes: size_change,
oid: oid.into().unwrap_or_else(||
git_hash::Kind::Sha1.null()),
});
self.inserted_entries_length_in_bytes += size_change;
}
fn shift_entry_and_point_to_base_by_offset(&mut self, entry: &mut input::Entry, base_distance: u64) {
let pack_offset = entry.pack_offset;
entry.pack_offset = self.shifted_pack_offset(pack_offset);
entry.header = Header::OfsDelta { base_distance };
let previous_header_size = entry.header_size;
entry.header_size = entry.header.size(entry.decompressed_size) as u16;
let change = entry.header_size as i64 - previous_header_size as i64;
entry.crc32 = Some(entry.compute_crc32());
self.track_change(entry.pack_offset, pack_offset, change, None);
}
}
impl<I, LFn> Iterator for LookupRefDeltaObjectsIter<I, LFn>
where
I: Iterator<Item = Result<input::Entry, input::Error>>,
LFn: for<'a> FnMut(ObjectId, &'a mut Vec<u8>) -> Option<git_object::Data<'a>>,
{
type Item = Result<input::Entry, input::Error>;
fn next(&mut self) -> Option<Self::Item> {
if self.error {
return None;
}
if let Some(delta) = self.next_delta.take() {
return Some(Ok(delta));
}
match self.inner.next() {
Some(Ok(mut entry)) => match entry.header {
Header::RefDelta { base_id } => {
match self.inserted_entry_length_at_offset.iter().rfind(|e| e.oid == base_id) {
None => {
let base_entry = match (self.lookup)(base_id, &mut self.buf) {
Some(obj) => {
let current_pack_offset = entry.pack_offset;
let mut entry = match input::Entry::from_data_obj(&obj, 0) {
Ok(e) => e,
Err(err) => return Some(Err(err)),
};
entry.pack_offset = self.shifted_pack_offset(current_pack_offset);
self.track_change(
entry.pack_offset,
current_pack_offset,
entry.bytes_in_pack() as i64,
base_id,
);
entry
}
None => {
self.error = true;
return Some(Err(input::Error::NotFound { object_id: base_id }));
}
};
{
self.shift_entry_and_point_to_base_by_offset(&mut entry, base_entry.bytes_in_pack());
self.next_delta = Some(entry);
}
Some(Ok(base_entry))
}
Some(base_entry) => {
let base_distance =
self.shifted_pack_offset(entry.pack_offset) - base_entry.shifted_pack_offset;
self.shift_entry_and_point_to_base_by_offset(&mut entry, base_distance);
Some(Ok(entry))
}
}
}
_ => {
if self.inserted_entries_length_in_bytes != 0 {
if let Header::OfsDelta { base_distance } = entry.header {
let base_pack_offset = entry
.pack_offset
.checked_sub(base_distance)
.expect("distance to be in range of pack");
match self
.inserted_entry_length_at_offset
.binary_search_by_key(&base_pack_offset, |c| c.pack_offset)
{
Ok(index) => {
let index = {
let maybe_index_of_actual_entry = index + 1;
self.inserted_entry_length_at_offset
.get(maybe_index_of_actual_entry)
.and_then(|c| {
(c.pack_offset == base_pack_offset).then(|| maybe_index_of_actual_entry)
})
.unwrap_or(index)
};
let new_distance = self
.shifted_pack_offset(entry.pack_offset)
.checked_sub(self.inserted_entry_length_at_offset[index].shifted_pack_offset)
.expect("a base that is behind us in the pack");
self.shift_entry_and_point_to_base_by_offset(&mut entry, new_distance);
}
Err(index) => {
let change_since_offset = self.inserted_entry_length_at_offset[index..]
.iter()
.map(|c| c.size_change_in_bytes)
.sum::<i64>();
let new_distance: u64 = {
(base_distance as i64 + change_since_offset)
.try_into()
.expect("it still points behind us")
};
self.shift_entry_and_point_to_base_by_offset(&mut entry, new_distance);
}
}
} else {
entry.pack_offset = self.shifted_pack_offset(entry.pack_offset);
}
}
Some(Ok(entry))
}
},
other => other,
}
}
fn size_hint(&self) -> (usize, Option<usize>) {
let (min, max) = self.inner.size_hint();
max.map(|max| (min, Some(max * 2))).unwrap_or_else(|| (min * 2, None))
}
}
#[derive(Debug)]
struct Change {
pack_offset: u64,
shifted_pack_offset: u64,
size_change_in_bytes: i64,
oid: ObjectId,
}