use clvmr::allocator::{Allocator, NodePtr}; use clvmr::chia_dialect::ChiaDialect; use clvmr::serde::node_from_bytes; use criterion::{criterion_group, criterion_main, Criterion, SamplingMode}; use std::fs::read_to_string; use std::time::Instant; fn long_strings(a: &mut Allocator) -> NodePtr { let mut list = a.nil(); for _i in 0..1000 { let item = a .new_atom(b"abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789") .expect("new_atom"); list = a.new_pair(item, list).expect("new_pair"); } a.new_pair(list, a.nil()).expect("new_pair") } fn large_tree_impl(a: &mut Allocator, depth: i32) -> NodePtr { if depth == 0 { a.new_atom(b"foobar").expect("new_atom") } else { let left = large_tree_impl(a, depth - 1); let right = large_tree_impl(a, depth - 1); a.new_pair(left, right).expect("new_pair") } } fn large_tree(a: &mut Allocator) -> NodePtr { large_tree_impl(a, DEPTH) } fn long_string(a: &mut Allocator) -> NodePtr { let mut atom = Vec::with_capacity(62000); for _i in 0..1000 { atom.extend(b"abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"); } let item = a.new_atom(&atom[..]).expect("new_atom"); a.new_pair(item, a.nil()).expect("new_pair") } fn tuple3(a: &mut Allocator) -> NodePtr { let list = a.nil(); let item = a.new_number(K.into()).expect("new_atom"); let list = a.new_pair(item, list).expect("new_pair"); let item = a.new_number(N.into()).expect("new_atom"); let list = a.new_pair(item, list).expect("new_pair"); let item = a.new_atom(b"BCDEFGH").expect("new_atom"); a.new_pair(item, list).expect("new_pair") } fn pair(a: &mut Allocator) -> NodePtr { let list = a.nil(); let item = a.new_number(N.into()).expect("new_atom"); let list = a.new_pair(item, list).expect("new_pair"); let item = a .new_atom(&[0xb, 0xad, 0xf0, 0x0d, 0xfe, 0xed, 0xfa, 0xce]) .expect("new_atom"); a.new_pair(item, list).expect("new_pair") } fn single_value(a: &mut Allocator) -> NodePtr { let list = a.nil(); let item = a.new_number(N.into()).expect("new_atom"); a.new_pair(item, list).expect("new_pair") } fn generate_list(a: &mut Allocator) -> NodePtr { let mut list = a.nil(); for _i in 0..N { let item = a.new_number(42.into()).expect("new_atom"); list = a.new_pair(item, list).expect("new_pair"); } a.new_pair(list, a.nil()).expect("new_pair") } fn large_block(a: &mut Allocator) -> NodePtr { let mut buffer = Vec::::with_capacity(1000); for i in 0..1032 { buffer.push((i & 0xff) as u8); } let mut list = a.nil(); for i in 0..1000 { let hex_key1 = hex::encode(&buffer[i..i + 32]); let hex_key2 = hex::encode(&buffer[i / 2..i / 2 + 32]); let hex_key3 = hex::encode(&buffer[i / 3..i / 3 + 32]); let hex_key4 = hex::encode(&buffer[i..i + 3]); let fmt = format!( "ffa0\ {hex_key1}\ ffff\ ff02ffff01ff02ffff01ff02ffff03ff0bffff01ff02ffff03ffff09ff05ffff\ 1dff0bffff1effff0bff0bffff02ff06ffff04ff02ffff04ff17ff8080808080\ 808080ffff01ff02ff17ff2f80ffff01ff088080ff0180ffff01ff04ffff04ff\ 04ffff04ff05ffff04ffff02ff06ffff04ff02ffff04ff17ff80808080ff8080\ 8080ffff02ff17ff2f808080ff0180ffff04ffff01ff32ff02ffff03ffff07ff\ 0580ffff01ff0bffff0102ffff02ff06ffff04ff02ffff04ff09ff80808080ff\ ff02ff06ffff04ff02ffff04ff0dff8080808080ffff01ff0bffff0101ff0580\ 80ff0180ff018080ffff04ffff01a0\ {hex_key2}\ ff018080\ ffff80ffff01ffff33ffa0\ {hex_key3}\ ff83\ {hex_key4}\ 8080ff80808080\ " ); let puzzle = hex::decode(fmt).expect("failed to parse puzzle"); let puzzle = node_from_bytes(a, &puzzle[..]).expect("failed to parse puzzle"); list = a.new_pair(puzzle, list).expect("new_pair"); } // quote a.new_pair(a.one(), list).expect("new_pair") } fn matrix(a: &mut Allocator) -> NodePtr { let mut args = a.nil(); for _l in 0..2 { let mut col = a.nil(); for _k in 0..H { let mut row = a.nil(); for _i in 0..W { let val = a.new_atom(b"ccba9401").expect("new_atom"); row = a.new_pair(val, row).expect("new_pair"); } col = a.new_pair(row, col).expect("new_pair"); } args = a.new_pair(col, args).expect("new_pair"); } args } fn prev_generator(a: &mut Allocator) -> NodePtr { node_from_bytes( a, &hex::decode( "ffff02ffff01ff05ffff02ff3effff04ff02ffff04ff05ff8080808080ffff\ 04ffff01ffffff81ff7fff81df81bfffffff02ffff03ffff09ff0bffff018180\ 80ffff01ff04ff80ffff04ff05ff808080ffff01ff02ffff03ffff0aff0bff18\ 80ffff01ff02ff1affff04ff02ffff04ffff02ffff03ffff0aff0bff1c80ffff\ 01ff02ffff03ffff0aff0bff1480ffff01ff08ffff018c62616420656e636f64\ 696e6780ffff01ff04ffff0effff18ffff011fff0b80ffff0cff05ff80ffff01\ 018080ffff04ffff0cff05ffff010180ff80808080ff0180ffff01ff04ffff18\ ffff013fff0b80ffff04ff05ff80808080ff0180ff80808080ffff01ff04ff0b\ ffff04ff05ff80808080ff018080ff0180ff04ffff0cff15ff80ff0980ffff04\ ffff0cff15ff0980ff808080ffff04ffff04ff05ff1380ffff04ff2bff808080\ ffff02ff16ffff04ff02ffff04ff09ffff04ffff02ff3effff04ff02ffff04ff\ 15ff80808080ff8080808080ff02ffff03ffff09ffff0cff05ff80ffff010180\ ff1080ffff01ff02ff2effff04ff02ffff04ffff02ff3effff04ff02ffff04ff\ ff0cff05ffff010180ff80808080ff80808080ffff01ff02ff12ffff04ff02ff\ ff04ffff0cff05ffff010180ffff04ffff0cff05ff80ffff010180ff80808080\ 8080ff0180ff018080ffc189ff01ffffffa00000000000000000000000000000\ 000000000000000000000000000000000000ff830186a080ffffff02ffff01ff\ 02ffff01ff02ffff03ff0bffff01ff02ffff03ffff09ff05ffff1dff0bffff1e\ ffff0bff0bffff02ff06ffff04ff02ffff04ff17ff8080808080808080ffff01\ ff02ff17ff2f80ffff01ff088080ff0180ffff01ff04ffff04ff04ffff04ff05\ ffff04ffff02ff06ffff04ff02ffff04ff17ff80808080ff80808080ffff02ff\ 17ff2f808080ff0180ffff04ffff01ff32ff02ffff03ffff07ff0580ffff01ff\ 0bffff0102ffff02ff06ffff04ff02ffff04ff09ff80808080ffff02ff06ffff\ 04ff02ffff04ff0dff8080808080ffff01ff0bffff0101ff058080ff0180ff01\ 8080ffff04ffff01b081963921826355dcb6c355ccf9c2637c18adf7d38ee44d\ 803ea9ca41587e48c913d8d46896eb830aeadfc13144a8eac3ff018080ffff80\ ffff01ffff33ffa06b7a83babea1eec790c947db4464ab657dbe9b887fe9acc2\ 47062847b8c2a8a9ff830186a08080ff808080808080", ) .expect("invalid generator hex")[..], ) .expect("failed to parse generator") } fn none(a: &mut Allocator) -> NodePtr { a.nil() } fn point_pow(a: &mut Allocator) -> NodePtr { let list = a.nil(); let item = a.new_number(1337.into()).expect("new_atom"); let list = a.new_pair(item, list).expect("new_pair"); let item = a.new_atom(&hex::decode("b3b8ac537f4fd6bde9b26221d49b54b17a506be147347dae5d081c0a6572b611d8484e338f3432971a9823976c6a232b").expect("invalid point hex")).expect("new_atom"); a.new_pair(item, list).expect("new_pair") } type EnvFn = fn(&mut Allocator) -> NodePtr; fn run_program_benchmark(c: &mut Criterion) { let mut a = Allocator::new(); let dialect = ChiaDialect::new(0); let test_case_checkpoint = a.checkpoint(); let mut group = c.benchmark_group("run_program"); group.sample_size(10); group.sampling_mode(SamplingMode::Flat); for (test, make_env) in &[ ("block-2000", none as EnvFn), ("compressed-2000", prev_generator), ("concat", tuple3::<16, 397>), ("count-even", generate_list::<15000>), ("factorial", single_value::<10000>), ("hash-string", long_strings), ("hash-tree", large_tree::<16>), ("large-block", large_block), ("loop_add", single_value::<3675000>), ("loop_ior", single_value::<3675000>), ("loop_not", single_value::<3675000>), ("loop_sub", single_value::<3675000>), ("loop_xor", single_value::<3675000>), ("matrix-multiply", matrix::<50, 50>), ("point-pow", point_pow), ("pubkey-tree", large_tree::<10>), ("shift-left", pair::<410>), ("substr", long_string), ("substr-tree", long_string), ("sum-tree", large_tree::<19>), ] { a.restore_checkpoint(&test_case_checkpoint); let prg = read_to_string(format!("benchmark/{test}.hex")) .expect("failed to load benchmark program"); let prg = hex::decode(prg.trim()).expect("invalid hex in benchmark program"); let prg = node_from_bytes(&mut a, &prg[..]).expect("failed to parse benchmark program"); let env = make_env(&mut a); let iter_checkpoint = a.checkpoint(); group.bench_function(*test, |b| { b.iter(|| { a.restore_checkpoint(&iter_checkpoint); let start = Instant::now(); clvmr::run_program(&mut a, &dialect, prg, env, 11000000000) .expect("benchmark program failed"); start.elapsed() }) }); } group.finish(); } criterion_group!(run_program, run_program_benchmark); criterion_main!(run_program);