//! Test that "on-demand" input pattern works. //! //! On-demand inputs are inputs computed lazily on the fly. They are simulated //! via a b query with zero inputs, which uses `add_synthetic_read` to //! tweak durability and `invalidate` to clear the input. #![allow(clippy::disallowed_types, clippy::type_complexity)] use std::{cell::RefCell, collections::HashMap, rc::Rc}; use salsa::{Database as _, Durability, EventKind}; #[salsa::query_group(QueryGroupStorage)] trait QueryGroup: salsa::Database + AsRef> { fn a(&self, x: u32) -> u32; fn b(&self, x: u32) -> u32; fn c(&self, x: u32) -> u32; } fn a(db: &dyn QueryGroup, x: u32) -> u32 { let durability = if x % 2 == 0 { Durability::LOW } else { Durability::HIGH }; db.salsa_runtime().report_synthetic_read(durability); let external_state: &HashMap = db.as_ref(); external_state[&x] } fn b(db: &dyn QueryGroup, x: u32) -> u32 { db.a(x) } fn c(db: &dyn QueryGroup, x: u32) -> u32 { db.b(x) } #[salsa::database(QueryGroupStorage)] #[derive(Default)] struct Database { storage: salsa::Storage, external_state: HashMap, on_event: Option>, } impl salsa::Database for Database { fn salsa_event(&self, event: salsa::Event) { if let Some(cb) = &self.on_event { cb(self, event) } } } impl AsRef> for Database { fn as_ref(&self) -> &HashMap { &self.external_state } } #[test] fn on_demand_input_works() { let mut db = Database::default(); db.external_state.insert(1, 10); assert_eq!(db.b(1), 10); assert_eq!(db.a(1), 10); // We changed external state, but haven't signaled about this yet, // so we expect to see the old answer db.external_state.insert(1, 92); assert_eq!(db.b(1), 10); assert_eq!(db.a(1), 10); AQuery.in_db_mut(&mut db).invalidate(&1); assert_eq!(db.b(1), 92); assert_eq!(db.a(1), 92); // Downstream queries should also be rerun if we call `a` first. db.external_state.insert(1, 50); AQuery.in_db_mut(&mut db).invalidate(&1); assert_eq!(db.a(1), 50); assert_eq!(db.b(1), 50); } #[test] fn on_demand_input_durability() { let mut db = Database::default(); let events = Rc::new(RefCell::new(vec![])); db.on_event = Some(Box::new({ let events = events.clone(); move |db, event| { if let EventKind::WillCheckCancellation = event.kind { // these events are not interesting } else { events.borrow_mut().push(format!("{:?}", event.debug(db))) } } })); events.replace(vec![]); db.external_state.insert(1, 10); db.external_state.insert(2, 20); assert_eq!(db.b(1), 10); assert_eq!(db.b(2), 20); expect_test::expect![[r#" RefCell { value: [ "Event { runtime_id: RuntimeId { counter: 0 }, kind: WillExecute { database_key: b(1) } }", "Event { runtime_id: RuntimeId { counter: 0 }, kind: WillExecute { database_key: a(1) } }", "Event { runtime_id: RuntimeId { counter: 0 }, kind: WillExecute { database_key: b(2) } }", "Event { runtime_id: RuntimeId { counter: 0 }, kind: WillExecute { database_key: a(2) } }", ], } "#]].assert_debug_eq(&events); db.salsa_runtime_mut().synthetic_write(Durability::LOW); events.replace(vec![]); assert_eq!(db.c(1), 10); assert_eq!(db.c(2), 20); // Re-execute `a(2)` because that has low durability, but not `a(1)` expect_test::expect![[r#" RefCell { value: [ "Event { runtime_id: RuntimeId { counter: 0 }, kind: WillExecute { database_key: c(1) } }", "Event { runtime_id: RuntimeId { counter: 0 }, kind: DidValidateMemoizedValue { database_key: b(1) } }", "Event { runtime_id: RuntimeId { counter: 0 }, kind: WillExecute { database_key: c(2) } }", "Event { runtime_id: RuntimeId { counter: 0 }, kind: WillExecute { database_key: a(2) } }", "Event { runtime_id: RuntimeId { counter: 0 }, kind: DidValidateMemoizedValue { database_key: b(2) } }", ], } "#]].assert_debug_eq(&events); db.salsa_runtime_mut().synthetic_write(Durability::HIGH); events.replace(vec![]); assert_eq!(db.c(1), 10); assert_eq!(db.c(2), 20); // Re-execute both `a(1)` and `a(2)`, but we don't re-execute any `b` queries as the // result didn't actually change. expect_test::expect![[r#" RefCell { value: [ "Event { runtime_id: RuntimeId { counter: 0 }, kind: WillExecute { database_key: a(1) } }", "Event { runtime_id: RuntimeId { counter: 0 }, kind: DidValidateMemoizedValue { database_key: c(1) } }", "Event { runtime_id: RuntimeId { counter: 0 }, kind: WillExecute { database_key: a(2) } }", "Event { runtime_id: RuntimeId { counter: 0 }, kind: DidValidateMemoizedValue { database_key: c(2) } }", ], } "#]].assert_debug_eq(&events); }