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Added stress test for large ecs worlds (#16591)
# Objective We currently have no benchmarks for large worlds with many entities, components and systems. Having a benchmark for a world with many components is especially useful for the performance improvements needed for relations. This is also a response to this [comment from cart](https://github.com/bevyengine/bevy/pull/14385#issuecomment-2311292546). > I'd like both a small bevy_ecs-scoped executor benchmark that generates thousands of components used by hundreds of systems. ## Solution I use dynamic components and components to construct a benchmark with 2000 components, 4000 systems, and 10000 entities. ## Some notes - ~I use a lot of random entities, which creates unpredictable performance, I should use a seeded PRNG.~ - Not entirely sure if everything is ran concurrently currently. And there are many conflicts, meaning there's probably a lot of first-come-first-serve going on. Not entirely sure if these benchmarks are very reproducible. - Maybe add some more safety comments - Also component_reads_and_writes() is about to be deprecated #16339, but there's no other way to currently do what I'm trying to do. --------- Co-authored-by: Chris Russell <8494645+chescock@users.noreply.github.com> Co-authored-by: BD103 <59022059+BD103@users.noreply.github.com>
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11
Cargo.toml
11
Cargo.toml
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@ -2750,6 +2750,17 @@ description = "Test rendering of many cameras and lights"
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category = "Stress Tests"
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category = "Stress Tests"
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wasm = true
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wasm = true
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[[example]]
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name = "many_components"
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path = "examples/stress_tests/many_components.rs"
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doc-scrape-examples = true
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[package.metadata.example.many_components]
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name = "Many Components (and Entities and Systems)"
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description = "Test large ECS systems"
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category = "Stress Tests"
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wasm = false
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[[example]]
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[[example]]
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name = "many_cubes"
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name = "many_cubes"
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path = "examples/stress_tests/many_cubes.rs"
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path = "examples/stress_tests/many_cubes.rs"
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@ -463,6 +463,7 @@ Example | Description
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[Many Animated Sprites](../examples/stress_tests/many_animated_sprites.rs) | Displays many animated sprites in a grid arrangement with slight offsets to their animation timers. Used for performance testing.
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[Many Animated Sprites](../examples/stress_tests/many_animated_sprites.rs) | Displays many animated sprites in a grid arrangement with slight offsets to their animation timers. Used for performance testing.
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[Many Buttons](../examples/stress_tests/many_buttons.rs) | Test rendering of many UI elements
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[Many Buttons](../examples/stress_tests/many_buttons.rs) | Test rendering of many UI elements
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[Many Cameras & Lights](../examples/stress_tests/many_cameras_lights.rs) | Test rendering of many cameras and lights
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[Many Cameras & Lights](../examples/stress_tests/many_cameras_lights.rs) | Test rendering of many cameras and lights
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[Many Components (and Entities and Systems)](../examples/stress_tests/many_components.rs) | Test large ECS systems
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[Many Cubes](../examples/stress_tests/many_cubes.rs) | Simple benchmark to test per-entity draw overhead. Run with the `sphere` argument to test frustum culling
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[Many Cubes](../examples/stress_tests/many_cubes.rs) | Simple benchmark to test per-entity draw overhead. Run with the `sphere` argument to test frustum culling
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[Many Foxes](../examples/stress_tests/many_foxes.rs) | Loads an animated fox model and spawns lots of them. Good for testing skinned mesh performance. Takes an unsigned integer argument for the number of foxes to spawn. Defaults to 1000
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[Many Foxes](../examples/stress_tests/many_foxes.rs) | Loads an animated fox model and spawns lots of them. Good for testing skinned mesh performance. Takes an unsigned integer argument for the number of foxes to spawn. Defaults to 1000
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[Many Gizmos](../examples/stress_tests/many_gizmos.rs) | Test rendering of many gizmos
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[Many Gizmos](../examples/stress_tests/many_gizmos.rs) | Test rendering of many gizmos
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196
examples/stress_tests/many_components.rs
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196
examples/stress_tests/many_components.rs
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@ -0,0 +1,196 @@
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//! Stress test for large ECS worlds.
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//!
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//! Running this example:
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//!
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//! ```
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//! cargo run --profile stress-test --example many_components [<num_entities>] [<num_components>] [<num_systems>]
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//! ```
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//!
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//! `num_entities`: The number of entities in the world (must be nonnegative)
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//! `num_components`: the number of components in the world (must be at least 10)
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//! `num_systems`: the number of systems in the world (must be nonnegative)
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//!
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//! If no valid number is provided, for each argument there's a reasonable default.
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use bevy::{
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diagnostic::{
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DiagnosticPath, DiagnosticsPlugin, FrameTimeDiagnosticsPlugin, LogDiagnosticsPlugin,
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},
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ecs::{
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component::{ComponentDescriptor, ComponentId, StorageType},
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system::QueryParamBuilder,
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world::FilteredEntityMut,
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},
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log::LogPlugin,
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prelude::{App, In, IntoSystem, Query, Schedule, SystemParamBuilder, Update},
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ptr::OwningPtr,
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MinimalPlugins,
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};
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use rand::prelude::{Rng, SeedableRng, SliceRandom};
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use rand_chacha::ChaCha8Rng;
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use std::{alloc::Layout, num::Wrapping};
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// A simple system that matches against several components and does some menial calculation to create
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// some non-trivial load.
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fn base_system(access_components: In<Vec<ComponentId>>, mut query: Query<FilteredEntityMut>) {
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for mut filtered_entity in &mut query {
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// We calculate Faulhaber's formula mod 256 with n = value and p = exponent.
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// See https://en.wikipedia.org/wiki/Faulhaber%27s_formula
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// The time is takes to compute this depends on the number of entities and the values in
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// each entity. This is to ensure that each system takes a different amount of time.
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let mut total: Wrapping<u8> = Wrapping(0);
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let mut exponent: u32 = 1;
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for component_id in &access_components.0 {
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// find the value of the component
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let ptr = filtered_entity.get_by_id(*component_id).unwrap();
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#[expect(unsafe_code)]
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// SAFETY: All components have a u8 layout
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let value: u8 = unsafe { *ptr.deref::<u8>() };
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for i in 0..=value {
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let mut product = Wrapping(1);
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for _ in 1..=exponent {
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product *= Wrapping(i);
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}
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total += product;
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}
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exponent += 1;
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}
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// we assign this value to all the components we can write to
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for component_id in &access_components.0 {
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if let Some(ptr) = filtered_entity.get_mut_by_id(*component_id) {
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#[expect(unsafe_code)]
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// SAFETY: All components have a u8 layout
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unsafe {
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let mut value = ptr.with_type::<u8>();
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*value = total.0;
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}
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}
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}
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}
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}
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fn stress_test(num_entities: u32, num_components: u32, num_systems: u32) {
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let mut rng = ChaCha8Rng::seed_from_u64(42);
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let mut app = App::default();
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let world = app.world_mut();
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// register a bunch of components
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let component_ids: Vec<ComponentId> = (1..=num_components)
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.map(|i| {
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world.register_component_with_descriptor(
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#[allow(unsafe_code)]
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// SAFETY:
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// we don't implement a drop function
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// u8 is Sync and Send
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unsafe {
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ComponentDescriptor::new_with_layout(
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format!("Component{}", i).to_string(),
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StorageType::Table,
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Layout::new::<u8>(),
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None,
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true, // is mutable
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)
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},
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)
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})
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.collect();
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// fill the schedule with systems
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let mut schedule = Schedule::new(Update);
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for _ in 1..=num_systems {
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let num_access_components = rng.gen_range(1..10);
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let access_components: Vec<ComponentId> = component_ids
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.choose_multiple(&mut rng, num_access_components)
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.copied()
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.collect();
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let system = (QueryParamBuilder::new(|builder| {
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for &access_component in &access_components {
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if rand::random::<bool>() {
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builder.mut_id(access_component);
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} else {
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builder.ref_id(access_component);
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}
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}
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}),)
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.build_state(world)
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.build_any_system(base_system);
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schedule.add_systems((move || access_components.clone()).pipe(system));
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}
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// spawn a bunch of entities
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for _ in 1..=num_entities {
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let num_components = rng.gen_range(1..10);
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let components = component_ids.choose_multiple(&mut rng, num_components);
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let mut entity = world.spawn_empty();
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for &component_id in components {
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let value: u8 = rng.gen_range(0..255);
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OwningPtr::make(value, |ptr| {
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#[allow(unsafe_code)]
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// SAFETY:
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// component_id is from the same world
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// value is u8, so ptr is a valid reference for component_id
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unsafe {
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entity.insert_by_id(component_id, ptr);
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}
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});
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}
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}
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// overwrite Update schedule in the app
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app.add_schedule(schedule);
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app.add_plugins(MinimalPlugins)
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.add_plugins(DiagnosticsPlugin)
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.add_plugins(LogPlugin::default())
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.add_plugins(FrameTimeDiagnosticsPlugin)
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.add_plugins(LogDiagnosticsPlugin::filtered(vec![DiagnosticPath::new(
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"fps",
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)]));
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app.run();
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}
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#[expect(missing_docs)]
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pub fn main() {
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const DEFAULT_NUM_ENTITIES: u32 = 50000;
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const DEFAULT_NUM_COMPONENTS: u32 = 1000;
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const DEFAULT_NUM_SYSTEMS: u32 = 800;
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// take input
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let num_entities = std::env::args()
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.nth(1)
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.and_then(|string| string.parse::<u32>().ok())
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.unwrap_or_else(|| {
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println!(
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"No valid number of entities provided, using default {}",
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DEFAULT_NUM_ENTITIES
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);
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DEFAULT_NUM_ENTITIES
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});
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let num_components = std::env::args()
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.nth(2)
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.and_then(|string| string.parse::<u32>().ok())
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.and_then(|n| if n >= 10 { Some(n) } else { None })
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.unwrap_or_else(|| {
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println!(
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"No valid number of components provided (>= 10), using default {}",
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DEFAULT_NUM_COMPONENTS
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);
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DEFAULT_NUM_COMPONENTS
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});
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let num_systems = std::env::args()
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.nth(3)
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.and_then(|string| string.parse::<u32>().ok())
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.unwrap_or_else(|| {
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println!(
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"No valid number of systems provided, using default {}",
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DEFAULT_NUM_SYSTEMS
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);
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DEFAULT_NUM_SYSTEMS
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});
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stress_test(num_entities, num_components, num_systems);
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}
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