leptos/reactive_graph/tests/memo.rs
2024-08-01 19:43:10 -04:00

403 lines
11 KiB
Rust

use reactive_graph::{
computed::{ArcMemo, Memo},
prelude::*,
signal::RwSignal,
wrappers::read::Signal,
};
use std::{
rc::Rc,
sync::{Arc, RwLock},
};
#[cfg(feature = "effects")]
pub mod imports {
pub use any_spawner::Executor;
pub use reactive_graph::{
computed::{ArcMemo, Memo},
effect::{Effect, RenderEffect},
prelude::*,
signal::RwSignal,
wrappers::read::Signal,
};
pub use std::{
mem,
rc::Rc,
sync::{Arc, RwLock},
};
pub use tokio::task;
}
#[test]
fn memo_calculates_value() {
let a = RwSignal::new(1);
let b = RwSignal::new(2);
let c = RwSignal::new(3);
let d = Memo::new(move |_| a.get() + b.get() + c.get());
assert_eq!(d.read(), 6);
assert_eq!(d.with_untracked(|n| *n), 6);
assert_eq!(d.with(|n| *n), 6);
assert_eq!(d.get_untracked(), 6);
}
#[test]
fn arc_memo_readable() {
let a = RwSignal::new(1);
let b = RwSignal::new(2);
let c = RwSignal::new(3);
let d = ArcMemo::new(move |_| a.get() + b.get() + c.get());
assert_eq!(d.read(), 6);
}
#[test]
fn memo_doesnt_repeat_calculation_per_get() {
let calculations = Arc::new(RwLock::new(0));
let a = RwSignal::new(1);
let b = RwSignal::new(2);
let c = RwSignal::new(3);
let d = Memo::new({
let calculations = Arc::clone(&calculations);
move |_| {
*calculations.write().unwrap() += 1;
a.get() + b.get() + c.get()
}
});
assert_eq!(d.get_untracked(), 6);
assert_eq!(d.get_untracked(), 6);
assert_eq!(d.get_untracked(), 6);
assert_eq!(*calculations.read().unwrap(), 1);
println!("\n\n**setting to 0**");
a.set(0);
assert_eq!(d.get_untracked(), 5);
assert_eq!(*calculations.read().unwrap(), 2);
}
#[test]
fn nested_memos() {
let a = RwSignal::new(0); // 1
let b = RwSignal::new(0); // 2
let c = Memo::new(move |_| {
println!("calculating C");
a.get() + b.get()
}); // 3
let d = Memo::new(move |_| {
println!("calculating D");
c.get() * 2
}); // 4
let e = Memo::new(move |_| {
println!("calculating E");
d.get() + 1
}); // 5
assert_eq!(e.get_untracked(), 1);
assert_eq!(d.get_untracked(), 0);
assert_eq!(c.get_untracked(), 0);
println!("\n\nFirst Set\n\n");
a.set(5);
assert_eq!(c.get_untracked(), 5);
assert_eq!(d.get_untracked(), 10);
assert_eq!(e.get_untracked(), 11);
println!("\n\nSecond Set\n\n");
b.set(1);
assert_eq!(e.get_untracked(), 13);
assert_eq!(d.get_untracked(), 12);
assert_eq!(c.get_untracked(), 6);
}
#[test]
fn memo_runs_only_when_inputs_change() {
let call_count = Arc::new(RwLock::new(0));
let a = RwSignal::new(0);
let b = RwSignal::new(0);
let c = RwSignal::new(0);
// pretend that this is some kind of expensive computation and we need to access its its value often
// we could do this with a derived signal, but that would re-run the computation
// memos should only run when their inputs actually change: this is the only point
let c = Memo::new({
let call_count = call_count.clone();
move |_| {
let mut call_count = call_count.write().unwrap();
*call_count += 1;
a.get() + b.get() + c.get()
}
});
// initially the memo has not been called at all, because it's lazy
assert_eq!(*call_count.read().unwrap(), 0);
// here we access the value a bunch of times
assert_eq!(c.get_untracked(), 0);
assert_eq!(c.get_untracked(), 0);
assert_eq!(c.get_untracked(), 0);
assert_eq!(c.get_untracked(), 0);
assert_eq!(c.get_untracked(), 0);
// we've still only called the memo calculation once
assert_eq!(*call_count.read().unwrap(), 1);
// and we only call it again when an input changes
a.set(1);
assert_eq!(c.get_untracked(), 1);
assert_eq!(*call_count.read().unwrap(), 2);
}
#[test]
fn diamond_problem() {
let name = RwSignal::new("Greg Johnston".to_string());
let first = Memo::new(move |_| {
println!("calculating first");
name.get().split_whitespace().next().unwrap().to_string()
});
let last = Memo::new(move |_| {
println!("calculating last");
name.get().split_whitespace().nth(1).unwrap().to_string()
});
let combined_count = Arc::new(RwLock::new(0));
let combined = Memo::new({
let combined_count = Arc::clone(&combined_count);
move |_| {
println!("calculating combined");
let mut combined_count = combined_count.write().unwrap();
*combined_count += 1;
format!("{} {}", first.get(), last.get())
}
});
assert_eq!(first.get_untracked(), "Greg");
assert_eq!(last.get_untracked(), "Johnston");
name.set("Will Smith".to_string());
assert_eq!(first.get_untracked(), "Will");
assert_eq!(last.get_untracked(), "Smith");
assert_eq!(combined.get_untracked(), "Will Smith");
// should not have run the memo logic twice, even
// though both paths have been updated
assert_eq!(*combined_count.read().unwrap(), 1);
}
#[cfg(feature = "effects")]
#[tokio::test]
async fn dynamic_dependencies() {
use imports::*;
_ = Executor::init_tokio();
let first = RwSignal::new("Greg");
let last = RwSignal::new("Johnston");
let use_last = RwSignal::new(true);
let name = Memo::new(move |_| {
if use_last.get() {
format!("{} {}", first.get(), last.get())
} else {
first.get().to_string()
}
});
let combined_count = Arc::new(RwLock::new(0));
// we forget it so it continues running
// if it's dropped, it will stop listening
println!("[Initial]");
Effect::new_sync({
let combined_count = Arc::clone(&combined_count);
move |_| {
println!("Effect running.");
_ = name.get();
*combined_count.write().unwrap() += 1;
}
});
Executor::tick().await;
println!("[After 1 tick]");
assert_eq!(*combined_count.read().unwrap(), 1);
println!("[Set 'Bob']");
first.set("Bob");
Executor::tick().await;
assert_eq!(name.get_untracked(), "Bob Johnston");
assert_eq!(*combined_count.read().unwrap(), 2);
println!("[Set 'Thompson']");
last.set("Thompson");
Executor::tick().await;
assert_eq!(*combined_count.read().unwrap(), 3);
use_last.set(false);
Executor::tick().await;
assert_eq!(name.get_untracked(), "Bob");
assert_eq!(*combined_count.read().unwrap(), 4);
assert_eq!(*combined_count.read().unwrap(), 4);
last.set("Jones");
Executor::tick().await;
assert_eq!(*combined_count.read().unwrap(), 4);
last.set("Smith");
Executor::tick().await;
assert_eq!(*combined_count.read().unwrap(), 4);
last.set("Stevens");
Executor::tick().await;
assert_eq!(*combined_count.read().unwrap(), 4);
use_last.set(true);
Executor::tick().await;
assert_eq!(name.get_untracked(), "Bob Stevens");
assert_eq!(*combined_count.read().unwrap(), 5);
}
#[cfg(feature = "effects")]
#[tokio::test]
async fn render_effect_doesnt_rerun_if_memo_didnt_change() {
use imports::*;
_ = Executor::init_tokio();
task::LocalSet::new()
.run_until(async {
let count = RwSignal::new(1);
let even = Memo::new(move |_| *count.read() % 2 == 0);
let combined_count = Arc::new(RwLock::new(0));
println!("[Initial]");
mem::forget(RenderEffect::new({
let combined_count = Arc::clone(&combined_count);
move |_| {
println!("INSIDE RENDEREFFECT");
*combined_count.write().unwrap() += 1;
println!("even = {}", even.get());
}
}));
Executor::tick().await;
assert_eq!(*combined_count.read().unwrap(), 1);
println!("[done]\n");
println!("\n[Set Signal to 2]");
count.set(2);
Executor::tick().await;
assert_eq!(*combined_count.read().unwrap(), 2);
println!("[done]\n");
println!("\n[Set Signal to 4]");
count.set(4);
Executor::tick().await;
assert_eq!(*combined_count.read().unwrap(), 2);
println!("[done]\n");
})
.await
}
#[cfg(feature = "effects")]
#[tokio::test]
async fn effect_doesnt_rerun_if_memo_didnt_change() {
use imports::*;
_ = Executor::init_tokio();
task::LocalSet::new()
.run_until(async {
let count = RwSignal::new(1);
let even = Memo::new(move |_| *count.read() % 2 == 0);
let combined_count = Arc::new(RwLock::new(0));
Effect::new({
let combined_count = Arc::clone(&combined_count);
move |_| {
*combined_count.write().unwrap() += 1;
println!("even = {}", even.get());
}
});
Executor::tick().await;
assert_eq!(*combined_count.read().unwrap(), 1);
count.set(2);
Executor::tick().await;
assert_eq!(*combined_count.read().unwrap(), 2);
count.set(4);
Executor::tick().await;
assert_eq!(*combined_count.read().unwrap(), 2);
})
.await
}
#[cfg(feature = "effects")]
#[tokio::test]
async fn effect_depending_on_signal_and_memo_doesnt_rerun_unnecessarily() {
use imports::*;
_ = Executor::init_tokio();
task::LocalSet::new()
.run_until(async {
let other_signal = RwSignal::new(false);
let count = RwSignal::new(1);
let even = Memo::new(move |_| *count.read() % 2 == 0);
let combined_count = Arc::new(RwLock::new(0));
Effect::new({
let combined_count = Arc::clone(&combined_count);
move |_| {
*combined_count.write().unwrap() += 1;
println!(
"even = {}\nother_signal = {}",
even.get(),
other_signal.get()
);
}
});
Executor::tick().await;
assert_eq!(*combined_count.read().unwrap(), 1);
count.set(2);
Executor::tick().await;
assert_eq!(*combined_count.read().unwrap(), 2);
count.set(4);
Executor::tick().await;
assert_eq!(*combined_count.read().unwrap(), 2);
})
.await
}
#[test]
fn unsync_derived_signal_and_memo() {
let a = RwSignal::new_local(Rc::new(1));
let b = RwSignal::new(2);
let c = RwSignal::new(3);
let d = Memo::new(move |_| *a.get() + b.get() + c.get());
let e = Rc::new(0);
let f = Signal::derive_local(move || d.get() + *e);
assert_eq!(d.read(), 6);
assert_eq!(d.with_untracked(|n| *n), 6);
assert_eq!(d.with(|n| *n), 6);
assert_eq!(d.get_untracked(), 6);
// derived signal also works
assert_eq!(f.with_untracked(|n| *n), 6);
assert_eq!(f.with(|n| *n), 6);
assert_eq!(f.get_untracked(), 6);
}