use rand::Rng; use everscale_raptorq::{ObjectTransmissionInformation, SourceBlockDecoder, SourceBlockEncoder}; use std::time::Instant; const TARGET_TOTAL_BYTES: usize = 128 * 1024 * 1024; const SYMBOL_COUNTS: [usize; 10] = [10, 100, 250, 500, 1000, 2000, 5000, 10000, 20000, 50000]; fn black_box(value: u64) { if value == rand::thread_rng().gen() { println!("{value}"); } } fn benchmark(symbol_size: u16, overhead: f64) -> u64 { let mut black_box_value = 0; for &symbol_count in SYMBOL_COUNTS.iter() { let elements = symbol_count * symbol_size as usize; let mut data: Vec = vec![0; elements]; for i in 0..elements { data[i] = rand::thread_rng().gen(); } let iterations = TARGET_TOTAL_BYTES / elements; let config = ObjectTransmissionInformation::new(0, symbol_size, 0, 1, 1); let encoder = SourceBlockEncoder::new2(1, &config, &data); let elements_and_overhead = (symbol_count as f64 * (1.0 + overhead)) as u32; let mut packets = encoder.repair_packets(0, (iterations as u32 * elements_and_overhead)); let now = Instant::now(); for _ in 0..iterations { let mut decoder = SourceBlockDecoder::new2(1, &config, elements as u64); let start = packets.len() - elements_and_overhead as usize; if let Some(result) = decoder.decode(packets.drain(start..)) { black_box_value += result[0] as u64; } } let elapsed = now.elapsed(); let elapsed = elapsed.as_secs() as f64 + elapsed.subsec_millis() as f64 * 0.001; let throughput = (elements * iterations * 8) as f64 / 1024.0 / 1024.0 / elapsed; println!("symbol count = {}, decoded {} MB in {:.3}secs using {:.1}% overhead, throughput: {:.1}Mbit/s", symbol_count, elements * iterations / 1024 / 1024, elapsed, 100.0 * overhead, throughput); } black_box_value } fn main() { let symbol_size = 1280; println!("Symbol size: {symbol_size} bytes"); black_box(benchmark(symbol_size, 0.0)); println!(); black_box(benchmark(symbol_size, 0.05)); }