extern crate cdc_rs; use std::u64; use std::cmp::{min, max}; use std::io; use std::io::prelude::*; use std::io::BufReader; use std::fs::File; use cdc_rs::*; #[inline] fn my_default_predicate(x: u64) -> bool { (x & 0b1111111111111) == 0b1111111111111 } fn chunk_file>(path: S) -> io::Result<()> { let f = try!(File::open(path.into())); let stream_length = f.metadata().unwrap().len(); let reader: BufReader = BufReader::new(f); let byte_iter = reader.bytes().map(|b| b.unwrap()); //let separator_iter = SeparatorIter::new(byte_iter); //let separator_iter = SeparatorIter::custom_new(byte_iter, 6, |x| (x & 0b1111111111111) == 0b1111111111111); let separator_iter = SeparatorIter::custom_new(byte_iter, 6, my_default_predicate); let chunk_iter = ChunkIter::new(separator_iter, stream_length); let mut nb_chunk = 0; let mut total_size = 0; let mut smallest_size = u64::MAX; let mut largest_size = 0; let expected_size = 1 << 13; let mut size_variance = 0; for chunk in chunk_iter { println!("Index: {}, size: {:6}, separator_hash: {:016x}", chunk.index, chunk.size, chunk.separator_hash); nb_chunk += 1; total_size += chunk.size; smallest_size = min(smallest_size, chunk.size); largest_size = max(largest_size, chunk.size); size_variance += (chunk.size as i64 - expected_size as i64).pow(2); } println!("{} chunks with an average size of {} bytes.", nb_chunk, total_size / nb_chunk); println!("Expected chunk size: {} bytes", expected_size); println!("Smallest chunk: {} bytes.", smallest_size); println!("Largest chunk: {} bytes.", largest_size); println!("Standard size deviation: {} bytes.", (size_variance as f64 / nb_chunk as f64).sqrt() as u64); Ok(()) } fn main() { chunk_file("myLargeFile.bin").unwrap(); }