added linked list implementation

This commit is contained in:
Ed Guloien
2026-06-02 16:28:16 -04:00
parent 528d5acef5
commit 6047211b33
+220 -62
View File
@@ -1,10 +1,12 @@
#![allow(unused)]
use std::collections::LinkedList;
use std::sync::{Arc, Mutex, RwLock};
const ARRAY_SIZE: usize = 4096;
#[derive(PartialEq, Debug, Clone, Copy)]
struct Range {
// todo: consider just using a map instead
// todo: also consider there might be an off the shelf solution that does ranges
start: usize,
end: usize, // exclusive
@@ -45,51 +47,41 @@ impl Range {
}
}
pub struct Blob {
// todo: consider fallible_vec to detect OOM on append
bytes: Vec<u8>,
valid_ranges: Vec<Range>,
#[derive(Debug)]
struct RangeNode {
ranges: Vec<Range>, // valid ranges
bytes: [u8; ARRAY_SIZE],
start: usize, // global
end: usize, // global
capacity: usize,
}
impl Blob {
fn new() -> Self {
impl RangeNode {
fn default() -> Self {
RangeNode::new(0, 0)
}
fn new(start: usize, end: usize) -> Self {
Self {
bytes: Vec::new(),
valid_ranges: Vec::new(),
ranges: Vec::new(),
bytes: [0; ARRAY_SIZE],
start,
end,
capacity: start + ARRAY_SIZE,
}
}
fn append(&mut self, input: &[u8]) {
let new_range = Range {
start: self.bytes.len(),
end: self.bytes.len() + input.len(),
};
// we are appending so only have to check the last range
match self.valid_ranges.last_mut() {
Some(range) if range.where_in_range(new_range.start) != RangeLocation::No => {
range.end = new_range.end
}
_ => self.valid_ranges.push(new_range),
}
self.bytes.extend_from_slice(input);
}
// todo: better way to do the return type?
fn read(&mut self, start: usize, len: usize, output: &mut [u8]) -> Result<(), BlobError> {
assert!(len == output.len()); // todo: add error handling
fn read(&mut self, start: usize, len: usize) -> Result<Vec<u8>, BlobError> {
let mut v = Vec::new();
let read_range = Range::new(start, start + len);
// check read within bytes len
match self.valid_ranges.last() {
match self.ranges.last() {
Some(last) if read_range.end <= last.end => {}
_ => return Err(BlobError::InvalidRange),
}
// check bytes are not already read
let mut contains = false;
for valid_range in self.valid_ranges.iter() {
for valid_range in self.ranges.iter() {
if valid_range.contains(&read_range) {
contains = true;
break;
@@ -104,7 +96,7 @@ impl Blob {
}
let slice = &mut self.bytes[start..start + len];
slice.swap_with_slice(output);
v.extend_from_slice(slice);
// we copy existing entries into a new list to avoid iterator invalidation
// from inserting while iterating
@@ -115,9 +107,9 @@ impl Blob {
};
let mut new_ranges = Vec::new();
let mut i = 0;
while i < self.valid_ranges.len() {
while i < self.ranges.len() {
let mut extra_range: Option<Range> = None;
let mut range = self.valid_ranges[i];
let mut range = self.ranges[i];
if range.where_in_range(clear_range.start) == RangeLocation::LeftEnd {
range.start = clear_range.end;
} else if range.where_in_range(clear_range.end - 1) == RangeLocation::RightEnd {
@@ -139,8 +131,128 @@ impl Blob {
}
i += 1;
}
self.valid_ranges = new_ranges;
Ok(())
self.ranges = new_ranges;
Ok(v)
}
fn append(&mut self, input: &[u8]) -> usize {
let new_len = input.len().min(self.capacity - self.end);
if new_len == 0 {
return 0;
}
let new_range = Range {
start: self.end,
end: self.end + new_len,
};
// we are appending so only have to check the last range
match self.ranges.last_mut() {
Some(range) => {
if range.where_in_range(new_range.start) != RangeLocation::No {
range.end = new_range.end
} else {
self.ranges.push(new_range);
}
}
_ => {
self.ranges.push(new_range);
}
}
self.bytes[new_range.start..new_range.end].copy_from_slice(&input[0..new_len]);
self.end += new_len;
new_len
}
fn available_bytes(&self) -> usize {
self.bytes.len() - self.end
}
fn contains(&self, index: usize) -> bool {
index >= self.start && index < self.end
}
fn overlaps(&self, range: &Range) -> bool {
self.contains(range.start) || self.contains(range.end)
}
fn all_read(&self) -> bool {
false
}
}
#[derive(Debug)]
pub struct Blob {
// todo: consider fallible_vec to detect OOM on append
nodes: LinkedList<RangeNode>,
end_index: usize,
}
impl Blob {
fn new() -> Self {
Self {
nodes: LinkedList::new(),
end_index: 0,
}
}
fn append(&mut self, input: &[u8]) -> usize {
let mut remaining = input;
let mut written_total = 0;
while !remaining.is_empty() {
// add nodes if necessary
let mut new_node_start = 0;
let need_new = match self.nodes.back() {
Some(n) => {
new_node_start = n.end;
n.available_bytes() == 0
}
None => true,
};
if need_new {
self.nodes.push_back(RangeNode::default());
}
// write to each node's array
let node = self.nodes.back_mut().unwrap();
let written = node.append(remaining);
remaining = &remaining[written..];
written_total += written;
}
self.end_index += input.len();
written_total
}
fn read(&mut self, start: usize, len: usize) -> Result<Vec<u8>, BlobError> {
// early check for out-of-range
if start + len > self.end_index {
return Err(BlobError::InvalidRange);
}
// read the bytes from each node
let mut remaining_start = start;
let mut remaining_len = len;
let mut read_vec = Vec::with_capacity(len);
let mut node_global_start = 0;
// works, but this is SLOW
for n in self.nodes.iter_mut() {
if read_vec.len() == len {
break;
}
// if !n.overlaps(&Range::new(remaining_start, remaining_start+remaining_len)) {
// continue;
// }
// todo: this works, but is a bit too clunky
let node_global_end = node_global_start + n.end;
let want = start + read_vec.len(); // next global byte we still need
if want < node_global_end {
let local_start = want - node_global_start;
let take = (len - read_vec.len()).min(n.end - local_start);
let chunk = n.read(local_start, take)?;
read_vec.extend_from_slice(&chunk);
}
node_global_start = node_global_end;
}
Ok(read_vec)
}
}
@@ -173,7 +285,6 @@ impl BlobManager {
}
}
// todo: is usize appropriate datatype for ID?
pub fn create_blob(&self, id: usize) -> Result<(), BlobError> {
let mut blobs = self.blobs.write().unwrap();
if let Some(Some(_)) = blobs.get(id) {
@@ -206,8 +317,7 @@ impl BlobManager {
_ => return Err(BlobError::BlobDNE),
}
};
let mut read = vec![0; len];
blob.lock().unwrap().read(start, len, &mut read)?; // propagate error to caller
let read = blob.lock().unwrap().read(start, len)?; // propagate error to caller
// todo: if read clears a blob entirely should the blob be removed?
Ok(read)
}
@@ -251,28 +361,74 @@ mod tests {
}
#[test]
fn test_blob() {
fn test_blob_core() {
let mut b = Blob::new();
b.append(&[b'a', b'b', b'c']);
assert_eq!(b.valid_ranges, &[Range { start: 0, end: 3 }]);
let written = b.append(&[b'a', b'b', b'c']);
assert_eq!(written, 3);
let mut read = vec![0; 1];
b.read(0, 1, &mut read); // left read
assert_eq!(b.valid_ranges, &[Range { start: 1, end: 3 }]);
let read = b.read(0, 1); // left read
assert!(read.is_ok());
assert_eq!(read.unwrap(), vec![b'a']);
assert_eq!(
b.nodes.back().unwrap().ranges,
&[Range { start: 1, end: 3 }]
);
let mut read = vec![0; 1];
b.read(0, 1, &mut read); // dupe read // todo: should error or fail
assert_eq!(b.valid_ranges, &[Range { start: 1, end: 3 }]);
let read = b.read(0, 1); // dupe read
assert!(read.is_err());
assert_eq!(
b.nodes.back().unwrap().ranges,
&[Range { start: 1, end: 3 }]
);
let mut read = vec![0; 2];
b.read(1, 2, &mut read); // right read
assert_eq!(b.valid_ranges, &[]);
let read = b.read(1, 2); // right read
assert!(read.is_ok());
assert_eq!(b.nodes.back().unwrap().ranges, &[]);
b.append(&[b'a', b'b', b'c']);
assert_eq!(b.valid_ranges, &[Range { start: 3, end: 6 }]);
let mut read = vec![0; 1];
b.read(4, 1, &mut read); // middle read
assert_eq!(b.valid_ranges, &[Range::new(3, 4), Range::new(5, 6)]);
let written = b.append(&[b'a', b'b', b'c']);
assert_eq!(written, 3);
assert_eq!(
b.nodes.back().unwrap().ranges,
&[Range { start: 3, end: 6 }]
);
let read = b.read(4, 1); // middle read
assert!(read.is_ok());
assert_eq!(
b.nodes.back().unwrap().ranges,
&[Range::new(3, 4), Range::new(5, 6)]
);
}
#[test]
fn test_range_node() {
let mut b = RangeNode::default();
let written = b.append(&[b'a', b'b', b'c']);
assert_eq!(written, 3);
assert_eq!(b.ranges, &[Range { start: 0, end: 3 }]);
let read = b.read(0, 1); // left read
assert!(read.is_ok());
assert_eq!(read.unwrap(), &[b'a']);
assert_eq!(b.ranges, &[Range { start: 1, end: 3 }]);
let read = b.read(0, 1); // dupe read
assert!(read.is_err());
assert_eq!(b.ranges, &[Range { start: 1, end: 3 }]);
let read = b.read(1, 2); // right read
assert!(read.is_ok());
assert_eq!(read.unwrap(), &[b'b', b'c']);
assert_eq!(b.ranges, &[]);
let written = b.append(&[b'a', b'b', b'c']);
assert_eq!(written, 3);
assert_eq!(b.ranges, &[Range { start: 3, end: 6 }]);
let read = b.read(4, 1); // middle read
assert!(read.is_ok());
assert_eq!(read.unwrap(), &[b'b']);
assert_eq!(b.ranges, &[Range::new(3, 4), Range::new(5, 6)]);
}
#[test]
@@ -285,7 +441,7 @@ mod tests {
.map(|i| {
let bm = Arc::clone(&bm);
thread::spawn(move || {
let len = 10_000_000; // 100 MB test takes a while
let len = 1_000_000; // 100 MB test takes a while
let data = vec![i as u8; len];
bm.create_blob(i).unwrap();
bm.append(i, &data).unwrap();
@@ -308,10 +464,12 @@ mod tests {
let bm = Arc::new(BlobManager::new());
let num_creates = 20_000;
let even = {
let bm = Arc::clone(&bm);
thread::spawn(move || {
for i in (0..20000usize).step_by(2) {
for i in (0..num_creates).step_by(2) {
bm.create_blob(i).unwrap();
}
})
@@ -320,7 +478,7 @@ mod tests {
let odd = {
let bm = Arc::clone(&bm);
thread::spawn(move || {
for i in (1..20000usize).step_by(2) {
for i in (1..num_creates).step_by(2) {
bm.create_blob(i).unwrap();
}
})
@@ -330,7 +488,7 @@ mod tests {
odd.join().unwrap();
let blobs = bm.blobs.read().unwrap();
assert_eq!(blobs.len(), 20000);
assert_eq!(blobs.len(), num_creates);
assert!(blobs.iter().all(|b| b.is_some()));
}