use std::sync::Arc; use base_db::{salsa::SweepStrategy, SourceDatabaseExt}; use crate::{AdtId, ModuleDefId}; use super::*; fn check_def_map_is_not_recomputed(ra_fixture_initial: &str, ra_fixture_change: &str) { let (mut db, pos) = TestDB::with_position(ra_fixture_initial); let krate = db.test_crate(); { let events = db.log_executed(|| { db.crate_def_map(krate); }); assert!(format!("{:?}", events).contains("crate_def_map"), "{:#?}", events) } db.set_file_text(pos.file_id, Arc::new(ra_fixture_change.to_string())); { let events = db.log_executed(|| { db.crate_def_map(krate); }); assert!(!format!("{:?}", events).contains("crate_def_map"), "{:#?}", events) } } #[test] fn typing_inside_a_function_should_not_invalidate_def_map() { check_def_map_is_not_recomputed( r" //- /lib.rs mod foo;$0 use crate::foo::bar::Baz; enum E { A, B } use E::*; fn foo() -> i32 { 1 + 1 } #[cfg(never)] fn no() {} //- /foo/mod.rs pub mod bar; //- /foo/bar.rs pub struct Baz; ", r" mod foo; use crate::foo::bar::Baz; enum E { A, B } use E::*; fn foo() -> i32 { 92 } #[cfg(never)] fn no() {} ", ); } #[test] fn typing_inside_a_macro_should_not_invalidate_def_map() { let (mut db, pos) = TestDB::with_position( r" //- /lib.rs macro_rules! m { ($ident:ident) => { fn f() { $ident + $ident; }; } } mod foo; //- /foo/mod.rs pub mod bar; //- /foo/bar.rs $0 m!(X); ", ); let krate = db.test_crate(); { let events = db.log_executed(|| { let crate_def_map = db.crate_def_map(krate); let (_, module_data) = crate_def_map.modules.iter().last().unwrap(); assert_eq!(module_data.scope.resolutions().count(), 1); }); assert!(format!("{:?}", events).contains("crate_def_map"), "{:#?}", events) } db.set_file_text(pos.file_id, Arc::new("m!(Y);".to_string())); { let events = db.log_executed(|| { let crate_def_map = db.crate_def_map(krate); let (_, module_data) = crate_def_map.modules.iter().last().unwrap(); assert_eq!(module_data.scope.resolutions().count(), 1); }); assert!(!format!("{:?}", events).contains("crate_def_map"), "{:#?}", events) } } #[test] fn typing_inside_a_function_should_not_invalidate_expansions() { let (mut db, pos) = TestDB::with_position( r#" //- /lib.rs macro_rules! m { ($ident:ident) => { fn $ident() { }; } } mod foo; //- /foo/mod.rs pub mod bar; //- /foo/bar.rs m!(X); fn quux() { 1$0 } m!(Y); m!(Z); "#, ); let krate = db.test_crate(); { let events = db.log_executed(|| { let crate_def_map = db.crate_def_map(krate); let (_, module_data) = crate_def_map.modules.iter().last().unwrap(); assert_eq!(module_data.scope.resolutions().count(), 4); }); let n_recalculated_item_trees = events.iter().filter(|it| it.contains("item_tree")).count(); assert_eq!(n_recalculated_item_trees, 6); let n_reparsed_macros = events.iter().filter(|it| it.contains("parse_macro_expansion")).count(); assert_eq!(n_reparsed_macros, 3); } let new_text = r#" m!(X); fn quux() { 92 } m!(Y); m!(Z); "#; db.set_file_text(pos.file_id, Arc::new(new_text.to_string())); { let events = db.log_executed(|| { let crate_def_map = db.crate_def_map(krate); let (_, module_data) = crate_def_map.modules.iter().last().unwrap(); assert_eq!(module_data.scope.resolutions().count(), 4); }); let n_recalculated_item_trees = events.iter().filter(|it| it.contains("item_tree")).count(); assert_eq!(n_recalculated_item_trees, 1); let n_reparsed_macros = events.iter().filter(|it| it.contains("parse_macro_expansion")).count(); assert_eq!(n_reparsed_macros, 0); } } #[test] fn item_tree_prevents_reparsing() { // The `ItemTree` is used by both name resolution and the various queries in `adt.rs` and // `data.rs`. After computing the `ItemTree` and deleting the parse tree, we should be able to // run those other queries without triggering a reparse. let (db, pos) = TestDB::with_position( r#" pub struct S; pub union U {} pub enum E { Variant, } pub fn f(_: S) { $0 } pub trait Tr {} impl Tr for () {} pub const C: u8 = 0; pub static ST: u8 = 0; pub type Ty = (); "#, ); let krate = db.test_crate(); { let events = db.log_executed(|| { db.file_item_tree(pos.file_id.into()); }); let n_calculated_item_trees = events.iter().filter(|it| it.contains("item_tree")).count(); assert_eq!(n_calculated_item_trees, 1); let n_parsed_files = events.iter().filter(|it| it.contains("parse(")).count(); assert_eq!(n_parsed_files, 1); } // Delete the parse tree. let sweep = SweepStrategy::default().discard_values().sweep_all_revisions(); base_db::ParseQuery.in_db(&db).sweep(sweep); { let events = db.log_executed(|| { let crate_def_map = db.crate_def_map(krate); let (_, module_data) = crate_def_map.modules.iter().last().unwrap(); assert_eq!(module_data.scope.resolutions().count(), 8); assert_eq!(module_data.scope.impls().count(), 1); for imp in module_data.scope.impls() { db.impl_data(imp); } for (_, res) in module_data.scope.resolutions() { match res.values.or(res.types).unwrap().0 { ModuleDefId::FunctionId(f) => drop(db.function_data(f)), ModuleDefId::AdtId(adt) => match adt { AdtId::StructId(it) => drop(db.struct_data(it)), AdtId::UnionId(it) => drop(db.union_data(it)), AdtId::EnumId(it) => drop(db.enum_data(it)), }, ModuleDefId::ConstId(it) => drop(db.const_data(it)), ModuleDefId::StaticId(it) => drop(db.static_data(it)), ModuleDefId::TraitId(it) => drop(db.trait_data(it)), ModuleDefId::TypeAliasId(it) => drop(db.type_alias_data(it)), ModuleDefId::EnumVariantId(_) | ModuleDefId::ModuleId(_) | ModuleDefId::BuiltinType(_) => unreachable!(), } } }); let n_reparsed_files = events.iter().filter(|it| it.contains("parse(")).count(); assert_eq!(n_reparsed_files, 0); } }