nushell/benches/benchmarks.rs
Ian Manske 399a7c8836
Add and use new Signals struct (#13314)
# Description
This PR introduces a new `Signals` struct to replace our adhoc passing
around of `ctrlc: Option<Arc<AtomicBool>>`. Doing so has a few benefits:
- We can better enforce when/where resetting or triggering an interrupt
is allowed.
- Consolidates `nu_utils::ctrl_c::was_pressed` and other ad-hoc
re-implementations into a single place: `Signals::check`.
- This allows us to add other types of signals later if we want. E.g.,
exiting or suspension.
- Similarly, we can more easily change the underlying implementation if
we need to in the future.
- Places that used to have a `ctrlc` of `None` now use
`Signals::empty()`, so we can double check these usages for correctness
in the future.
2024-07-07 22:29:01 +00:00

489 lines
13 KiB
Rust

use nu_cli::{eval_source, evaluate_commands};
use nu_plugin_core::{Encoder, EncodingType};
use nu_plugin_protocol::{PluginCallResponse, PluginOutput};
use nu_protocol::{
engine::{EngineState, Stack},
PipelineData, Signals, Span, Spanned, Value,
};
use nu_std::load_standard_library;
use nu_utils::{get_default_config, get_default_env};
use std::{
rc::Rc,
sync::{atomic::AtomicBool, Arc},
};
use std::hint::black_box;
use tango_bench::{benchmark_fn, tango_benchmarks, tango_main, IntoBenchmarks};
fn load_bench_commands() -> EngineState {
nu_command::add_shell_command_context(nu_cmd_lang::create_default_context())
}
fn setup_engine() -> EngineState {
let mut engine_state = load_bench_commands();
let cwd = std::env::current_dir()
.unwrap()
.into_os_string()
.into_string()
.unwrap();
// parsing config.nu breaks without PWD set, so set a valid path
engine_state.add_env_var("PWD".into(), Value::string(cwd, Span::test_data()));
engine_state.generate_nu_constant();
engine_state
}
fn setup_stack_and_engine_from_command(command: &str) -> (Stack, EngineState) {
let mut engine = setup_engine();
let commands = Spanned {
span: Span::unknown(),
item: command.to_string(),
};
let mut stack = Stack::new();
evaluate_commands(
&commands,
&mut engine,
&mut stack,
PipelineData::empty(),
Default::default(),
)
.unwrap();
(stack, engine)
}
// generate a new table data with `row_cnt` rows, `col_cnt` columns.
fn encoding_test_data(row_cnt: usize, col_cnt: usize) -> Value {
let record = Value::test_record(
(0..col_cnt)
.map(|x| (format!("col_{x}"), Value::test_int(x as i64)))
.collect(),
);
Value::list(vec![record; row_cnt], Span::test_data())
}
fn bench_command(
name: &str,
command: &str,
stack: Stack,
engine: EngineState,
) -> impl IntoBenchmarks {
let commands = Spanned {
span: Span::unknown(),
item: command.to_string(),
};
[benchmark_fn(name, move |b| {
let commands = commands.clone();
let stack = stack.clone();
let engine = engine.clone();
b.iter(move || {
let mut stack = stack.clone();
let mut engine = engine.clone();
#[allow(clippy::unit_arg)]
black_box(
evaluate_commands(
&commands,
&mut engine,
&mut stack,
PipelineData::empty(),
Default::default(),
)
.unwrap(),
);
})
})]
}
fn bench_eval_source(
name: &str,
fname: String,
source: Vec<u8>,
stack: Stack,
engine: EngineState,
) -> impl IntoBenchmarks {
[benchmark_fn(name, move |b| {
let stack = stack.clone();
let engine = engine.clone();
let fname = fname.clone();
let source = source.clone();
b.iter(move || {
let mut stack = stack.clone();
let mut engine = engine.clone();
let fname: &str = &fname.clone();
let source: &[u8] = &source.clone();
black_box(eval_source(
&mut engine,
&mut stack,
source,
fname,
PipelineData::empty(),
false,
));
})
})]
}
/// Load the standard library into the engine.
fn bench_load_standard_lib() -> impl IntoBenchmarks {
[benchmark_fn("load_standard_lib", move |b| {
let engine = setup_engine();
b.iter(move || {
let mut engine = engine.clone();
load_standard_library(&mut engine)
})
})]
}
fn create_flat_record_string(n: i32) -> String {
let mut s = String::from("let record = {");
for i in 0..n {
s.push_str(&format!("col_{}: {}", i, i));
if i < n - 1 {
s.push_str(", ");
}
}
s.push('}');
s
}
fn create_nested_record_string(depth: i32) -> String {
let mut s = String::from("let record = {");
for _ in 0..depth {
s.push_str("col: {");
}
s.push_str("col_final: 0");
for _ in 0..depth {
s.push('}');
}
s.push('}');
s
}
fn create_example_table_nrows(n: i32) -> String {
let mut s = String::from("let table = [[foo bar baz]; ");
for i in 0..n {
s.push_str(&format!("[0, 1, {i}]"));
if i < n - 1 {
s.push_str(", ");
}
}
s.push(']');
s
}
fn bench_record_create(n: i32) -> impl IntoBenchmarks {
bench_command(
&format!("record_create_{n}"),
&create_flat_record_string(n),
Stack::new(),
setup_engine(),
)
}
fn bench_record_flat_access(n: i32) -> impl IntoBenchmarks {
let setup_command = create_flat_record_string(n);
let (stack, engine) = setup_stack_and_engine_from_command(&setup_command);
bench_command(
&format!("record_flat_access_{n}"),
"$record.col_0 | ignore",
stack,
engine,
)
}
fn bench_record_nested_access(n: i32) -> impl IntoBenchmarks {
let setup_command = create_nested_record_string(n);
let (stack, engine) = setup_stack_and_engine_from_command(&setup_command);
let nested_access = ".col".repeat(n as usize);
bench_command(
&format!("record_nested_access_{n}"),
&format!("$record{} | ignore", nested_access),
stack,
engine,
)
}
fn bench_table_create(n: i32) -> impl IntoBenchmarks {
bench_command(
&format!("table_create_{n}"),
&create_example_table_nrows(n),
Stack::new(),
setup_engine(),
)
}
fn bench_table_get(n: i32) -> impl IntoBenchmarks {
let setup_command = create_example_table_nrows(n);
let (stack, engine) = setup_stack_and_engine_from_command(&setup_command);
bench_command(
&format!("table_get_{n}"),
"$table | get bar | math sum | ignore",
stack,
engine,
)
}
fn bench_table_select(n: i32) -> impl IntoBenchmarks {
let setup_command = create_example_table_nrows(n);
let (stack, engine) = setup_stack_and_engine_from_command(&setup_command);
bench_command(
&format!("table_select_{n}"),
"$table | select foo baz | ignore",
stack,
engine,
)
}
fn bench_eval_interleave(n: i32) -> impl IntoBenchmarks {
let engine = setup_engine();
let stack = Stack::new();
bench_command(
&format!("eval_interleave_{n}"),
&format!("seq 1 {n} | wrap a | interleave {{ seq 1 {n} | wrap b }} | ignore"),
stack,
engine,
)
}
fn bench_eval_interleave_with_interrupt(n: i32) -> impl IntoBenchmarks {
let mut engine = setup_engine();
engine.set_signals(Signals::new(Arc::new(AtomicBool::new(false))));
let stack = Stack::new();
bench_command(
&format!("eval_interleave_with_interrupt_{n}"),
&format!("seq 1 {n} | wrap a | interleave {{ seq 1 {n} | wrap b }} | ignore"),
stack,
engine,
)
}
fn bench_eval_for(n: i32) -> impl IntoBenchmarks {
let engine = setup_engine();
let stack = Stack::new();
bench_command(
&format!("eval_for_{n}"),
&format!("(for $x in (1..{n}) {{ 1 }}) | ignore"),
stack,
engine,
)
}
fn bench_eval_each(n: i32) -> impl IntoBenchmarks {
let engine = setup_engine();
let stack = Stack::new();
bench_command(
&format!("eval_each_{n}"),
&format!("(1..{n}) | each {{|_| 1 }} | ignore"),
stack,
engine,
)
}
fn bench_eval_par_each(n: i32) -> impl IntoBenchmarks {
let engine = setup_engine();
let stack = Stack::new();
bench_command(
&format!("eval_par_each_{n}"),
&format!("(1..{}) | par-each -t 2 {{|_| 1 }} | ignore", n),
stack,
engine,
)
}
fn bench_eval_default_config() -> impl IntoBenchmarks {
let default_env = get_default_config().as_bytes().to_vec();
let fname = "default_config.nu".to_string();
bench_eval_source(
"eval_default_config",
fname,
default_env,
Stack::new(),
setup_engine(),
)
}
fn bench_eval_default_env() -> impl IntoBenchmarks {
let default_env = get_default_env().as_bytes().to_vec();
let fname = "default_env.nu".to_string();
bench_eval_source(
"eval_default_env",
fname,
default_env,
Stack::new(),
setup_engine(),
)
}
fn encode_json(row_cnt: usize, col_cnt: usize) -> impl IntoBenchmarks {
let test_data = Rc::new(PluginOutput::CallResponse(
0,
PluginCallResponse::value(encoding_test_data(row_cnt, col_cnt)),
));
let encoder = Rc::new(EncodingType::try_from_bytes(b"json").unwrap());
[benchmark_fn(
format!("encode_json_{}_{}", row_cnt, col_cnt),
move |b| {
let encoder = encoder.clone();
let test_data = test_data.clone();
b.iter(move || {
let mut res = Vec::new();
encoder.encode(&*test_data, &mut res).unwrap();
})
},
)]
}
fn encode_msgpack(row_cnt: usize, col_cnt: usize) -> impl IntoBenchmarks {
let test_data = Rc::new(PluginOutput::CallResponse(
0,
PluginCallResponse::value(encoding_test_data(row_cnt, col_cnt)),
));
let encoder = Rc::new(EncodingType::try_from_bytes(b"msgpack").unwrap());
[benchmark_fn(
format!("encode_msgpack_{}_{}", row_cnt, col_cnt),
move |b| {
let encoder = encoder.clone();
let test_data = test_data.clone();
b.iter(move || {
let mut res = Vec::new();
encoder.encode(&*test_data, &mut res).unwrap();
})
},
)]
}
fn decode_json(row_cnt: usize, col_cnt: usize) -> impl IntoBenchmarks {
let test_data = PluginOutput::CallResponse(
0,
PluginCallResponse::value(encoding_test_data(row_cnt, col_cnt)),
);
let encoder = EncodingType::try_from_bytes(b"json").unwrap();
let mut res = vec![];
encoder.encode(&test_data, &mut res).unwrap();
[benchmark_fn(
format!("decode_json_{}_{}", row_cnt, col_cnt),
move |b| {
let res = res.clone();
b.iter(move || {
let mut binary_data = std::io::Cursor::new(res.clone());
binary_data.set_position(0);
let _: Result<Option<PluginOutput>, _> =
black_box(encoder.decode(&mut binary_data));
})
},
)]
}
fn decode_msgpack(row_cnt: usize, col_cnt: usize) -> impl IntoBenchmarks {
let test_data = PluginOutput::CallResponse(
0,
PluginCallResponse::value(encoding_test_data(row_cnt, col_cnt)),
);
let encoder = EncodingType::try_from_bytes(b"msgpack").unwrap();
let mut res = vec![];
encoder.encode(&test_data, &mut res).unwrap();
[benchmark_fn(
format!("decode_msgpack_{}_{}", row_cnt, col_cnt),
move |b| {
let res = res.clone();
b.iter(move || {
let mut binary_data = std::io::Cursor::new(res.clone());
binary_data.set_position(0);
let _: Result<Option<PluginOutput>, _> =
black_box(encoder.decode(&mut binary_data));
})
},
)]
}
tango_benchmarks!(
bench_load_standard_lib(),
// Data types
// Record
bench_record_create(1),
bench_record_create(10),
bench_record_create(100),
bench_record_create(1_000),
bench_record_flat_access(1),
bench_record_flat_access(10),
bench_record_flat_access(100),
bench_record_flat_access(1_000),
bench_record_nested_access(1),
bench_record_nested_access(2),
bench_record_nested_access(4),
bench_record_nested_access(8),
bench_record_nested_access(16),
bench_record_nested_access(32),
bench_record_nested_access(64),
bench_record_nested_access(128),
// Table
bench_table_create(1),
bench_table_create(10),
bench_table_create(100),
bench_table_create(1_000),
bench_table_get(1),
bench_table_get(10),
bench_table_get(100),
bench_table_get(1_000),
bench_table_select(1),
bench_table_select(10),
bench_table_select(100),
bench_table_select(1_000),
// Eval
// Interleave
bench_eval_interleave(100),
bench_eval_interleave(1_000),
bench_eval_interleave(10_000),
bench_eval_interleave_with_interrupt(100),
bench_eval_interleave_with_interrupt(1_000),
bench_eval_interleave_with_interrupt(10_000),
// For
bench_eval_for(1),
bench_eval_for(10),
bench_eval_for(100),
bench_eval_for(1_000),
bench_eval_for(10_000),
// Each
bench_eval_each(1),
bench_eval_each(10),
bench_eval_each(100),
bench_eval_each(1_000),
bench_eval_each(10_000),
// Par-Each
bench_eval_par_each(1),
bench_eval_par_each(10),
bench_eval_par_each(100),
bench_eval_par_each(1_000),
bench_eval_par_each(10_000),
// Config
bench_eval_default_config(),
// Env
bench_eval_default_env(),
// Encode
// Json
encode_json(100, 5),
encode_json(10000, 15),
// MsgPack
encode_msgpack(100, 5),
encode_msgpack(10000, 15),
// Decode
// Json
decode_json(100, 5),
decode_json(10000, 15),
// MsgPack
decode_msgpack(100, 5),
decode_msgpack(10000, 15)
);
tango_main!();