use std::collections::HashMap; use std::ops::Range; pub struct ChunkReadInfo { pub range: Range, pub digest: [u8; 32], } impl ChunkReadInfo { #[inline] pub fn size(&self) -> u64 { self.range.end - self.range.start } } /// Trait to get digest list from index files /// /// To allow easy iteration over all used chunks. pub trait IndexFile { fn index_count(&self) -> usize; fn index_digest(&self, pos: usize) -> Option<&[u8; 32]>; fn index_bytes(&self) -> u64; fn chunk_info(&self, pos: usize) -> Option; /// Compute index checksum and size fn compute_csum(&self) -> ([u8; 32], u64); /// Returns most often used chunks fn find_most_used_chunks(&self, max: usize) -> HashMap<[u8; 32], usize> { let mut map = HashMap::new(); for pos in 0..self.index_count() { let digest = self.index_digest(pos).unwrap(); let count = map.entry(*digest).or_insert(0); *count += 1; } let mut most_used = Vec::new(); for (digest, count) in map { if count <= 1 { continue; } match most_used.binary_search_by_key(&count, |&(_digest, count)| count) { Ok(p) => most_used.insert(p, (digest, count)), Err(p) => most_used.insert(p, (digest, count)), } if most_used.len() > max { let _ = most_used.pop(); } } let mut map = HashMap::new(); for data in most_used { map.insert(data.0, data.1); } map } }