// Copyright 2016 Mozilla // // Licensed under the Apache License, Version 2.0 (the "License"); you may not use // this file except in compliance with the License. You may obtain a copy of the // License at http://www.apache.org/licenses/LICENSE-2.0 // Unless required by applicable law or agreed to in writing, software distributed // under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR // CONDITIONS OF ANY KIND, either express or implied. See the License for the // specific language governing permissions and limitations under the License. extern crate chrono; extern crate time; #[macro_use] extern crate mentat; extern crate mentat_core; extern crate core_traits; extern crate public_traits; extern crate mentat_db; extern crate mentat_transaction; // TODO: when we switch to `failure`, make this more humane. extern crate query_algebrizer_traits; // For errors; extern crate query_projector_traits; // For errors. use std::str::FromStr; use chrono::FixedOffset; use core_traits::{ Entid, KnownEntid, ValueType, ValueTypeSet, }; use mentat_core::{ DateTime, HasSchema, Utc, Uuid, }; use query_projector_traits::aggregates::{ SimpleAggregationOp, }; use mentat::{ IntoResult, Keyword, PlainSymbol, QueryInputs, Queryable, QueryResults, RelResult, Store, Binding, TxReport, TypedValue, Variable, new_connection, }; use mentat::query::q_uncached; use mentat::conn::Conn; use public_traits::errors::{ MentatError, }; #[test] fn test_rel() { let mut c = new_connection("").expect("Couldn't open conn."); let db = mentat_db::db::ensure_current_version(&mut c).expect("Couldn't open DB."); // Rel. let start = time::PreciseTime::now(); let results = q_uncached(&c, &db.schema, "[:find ?x ?ident :where [?x :db/ident ?ident]]", None) .expect("Query failed") .results; let end = time::PreciseTime::now(); // This will need to change each time we add a default ident. assert_eq!(40, results.len()); // Every row is a pair of a Ref and a Keyword. if let QueryResults::Rel(rel) = results { for r in rel.into_iter() { assert_eq!(r.len(), 2); assert!(r[0].matches_type(ValueType::Ref)); assert!(r[1].matches_type(ValueType::Keyword)); } } else { panic!("Expected rel."); } println!("Rel took {}µs", start.to(end).num_microseconds().unwrap()); } #[test] fn test_failing_scalar() { let mut c = new_connection("").expect("Couldn't open conn."); let db = mentat_db::db::ensure_current_version(&mut c).expect("Couldn't open DB."); // Scalar that fails. let start = time::PreciseTime::now(); let results = q_uncached(&c, &db.schema, "[:find ?x . :where [?x :db/fulltext true]]", None) .expect("Query failed") .results; let end = time::PreciseTime::now(); assert_eq!(0, results.len()); if let QueryResults::Scalar(None) = results { } else { panic!("Expected failed scalar."); } println!("Failing scalar took {}µs", start.to(end).num_microseconds().unwrap()); } #[test] fn test_scalar() { let mut c = new_connection("").expect("Couldn't open conn."); let db = mentat_db::db::ensure_current_version(&mut c).expect("Couldn't open DB."); // Scalar that succeeds. let start = time::PreciseTime::now(); let results = q_uncached(&c, &db.schema, "[:find ?ident . :where [24 :db/ident ?ident]]", None) .expect("Query failed") .results; let end = time::PreciseTime::now(); assert_eq!(1, results.len()); if let QueryResults::Scalar(Some(Binding::Scalar(TypedValue::Keyword(ref rc)))) = results { // Should be '24'. assert_eq!(&Keyword::namespaced("db.type", "keyword"), rc.as_ref()); assert_eq!(KnownEntid(24), db.schema.get_entid(rc).unwrap()); } else { panic!("Expected scalar."); } println!("{:?}", results); println!("Scalar took {}µs", start.to(end).num_microseconds().unwrap()); } #[test] fn test_tuple() { let mut c = new_connection("").expect("Couldn't open conn."); let db = mentat_db::db::ensure_current_version(&mut c).expect("Couldn't open DB."); // Tuple. let start = time::PreciseTime::now(); let results = q_uncached(&c, &db.schema, "[:find [?index ?cardinality] :where [:db/txInstant :db/index ?index] [:db/txInstant :db/cardinality ?cardinality]]", None) .expect("Query failed") .results; let end = time::PreciseTime::now(); assert_eq!(1, results.len()); if let QueryResults::Tuple(Some(ref tuple)) = results { let cardinality_one = Keyword::namespaced("db.cardinality", "one"); assert_eq!(tuple.len(), 2); assert_eq!(tuple[0], TypedValue::Boolean(true).into()); assert_eq!(tuple[1], db.schema.get_entid(&cardinality_one).expect("c1").into()); } else { panic!("Expected tuple."); } println!("{:?}", results); println!("Tuple took {}µs", start.to(end).num_microseconds().unwrap()); } #[test] fn test_coll() { let mut c = new_connection("").expect("Couldn't open conn."); let db = mentat_db::db::ensure_current_version(&mut c).expect("Couldn't open DB."); // Coll. let start = time::PreciseTime::now(); let results = q_uncached(&c, &db.schema, "[:find [?e ...] :where [?e :db/ident _]]", None) .expect("Query failed") .results; let end = time::PreciseTime::now(); assert_eq!(40, results.len()); if let QueryResults::Coll(ref coll) = results { assert!(coll.iter().all(|item| item.matches_type(ValueType::Ref))); } else { panic!("Expected coll."); } println!("{:?}", results); println!("Coll took {}µs", start.to(end).num_microseconds().unwrap()); } #[test] fn test_inputs() { let mut c = new_connection("").expect("Couldn't open conn."); let db = mentat_db::db::ensure_current_version(&mut c).expect("Couldn't open DB."); // entids::DB_INSTALL_VALUE_TYPE = 5. let ee = (Variable::from_valid_name("?e"), TypedValue::Ref(5)); let inputs = QueryInputs::with_value_sequence(vec![ee]); let results = q_uncached(&c, &db.schema, "[:find ?i . :in ?e :where [?e :db/ident ?i]]", inputs) .expect("query to succeed") .results; if let QueryResults::Scalar(Some(Binding::Scalar(TypedValue::Keyword(value)))) = results { assert_eq!(value.as_ref(), &Keyword::namespaced("db.install", "valueType")); } else { panic!("Expected scalar."); } } /// Ensure that a query won't be run without all of its `:in` variables being bound. #[test] fn test_unbound_inputs() { let mut c = new_connection("").expect("Couldn't open conn."); let db = mentat_db::db::ensure_current_version(&mut c).expect("Couldn't open DB."); // Bind the wrong var by 'mistake'. let xx = (Variable::from_valid_name("?x"), TypedValue::Ref(5)); let inputs = QueryInputs::with_value_sequence(vec![xx]); let results = q_uncached(&c, &db.schema, "[:find ?i . :in ?e :where [?e :db/ident ?i]]", inputs); match results.expect_err("expected unbound variables") { MentatError::UnboundVariables(vars) => { assert_eq!(vars, vec!["?e".to_string()].into_iter().collect()); }, _ => panic!("Expected UnboundVariables variant."), } } #[test] fn test_instants_and_uuids() { // We assume, perhaps foolishly, that the clocks on test machines won't lose more than an // hour while this test is running. let start = Utc::now() + FixedOffset::west(60 * 60); let mut c = new_connection("").expect("Couldn't open conn."); let conn = Conn::connect(&mut c).expect("Couldn't open DB."); conn.transact(&mut c, r#"[ [:db/add "s" :db/ident :foo/uuid] [:db/add "s" :db/valueType :db.type/uuid] [:db/add "s" :db/cardinality :db.cardinality/one] ]"#).unwrap(); conn.transact(&mut c, r#"[ [:db/add "u" :foo/uuid #uuid "cf62d552-6569-4d1b-b667-04703041dfc4"] ]"#).unwrap(); let r = conn.q_once(&mut c, r#"[:find [?x ?u ?when] :where [?x :foo/uuid ?u ?tx] [?tx :db/txInstant ?when]]"#, None) .expect("results") .into(); match r { QueryResults::Tuple(Some(vals)) => { let mut vals = vals.into_iter(); match (vals.next(), vals.next(), vals.next(), vals.next()) { (Some(Binding::Scalar(TypedValue::Ref(e))), Some(Binding::Scalar(TypedValue::Uuid(u))), Some(Binding::Scalar(TypedValue::Instant(t))), None) => { assert!(e > 40); // There are at least this many entities in the store. assert_eq!(Ok(u), Uuid::from_str("cf62d552-6569-4d1b-b667-04703041dfc4")); assert!(t > start); }, _ => panic!("Unexpected results."), } }, _ => panic!("Expected query to work."), } } #[test] fn test_tx() { let mut c = new_connection("").expect("Couldn't open conn."); let conn = Conn::connect(&mut c).expect("Couldn't open DB."); conn.transact(&mut c, r#"[ [:db/add "s" :db/ident :foo/uuid] [:db/add "s" :db/valueType :db.type/uuid] [:db/add "s" :db/cardinality :db.cardinality/one] ]"#).expect("successful transaction"); let t = conn.transact(&mut c, r#"[ [:db/add "u" :foo/uuid #uuid "cf62d552-6569-4d1b-b667-04703041dfc4"] ]"#).expect("successful transaction"); conn.transact(&mut c, r#"[ [:db/add "u" :foo/uuid #uuid "550e8400-e29b-41d4-a716-446655440000"] ]"#).expect("successful transaction"); let r = conn.q_once(&mut c, r#"[:find ?tx :where [?x :foo/uuid #uuid "cf62d552-6569-4d1b-b667-04703041dfc4" ?tx]]"#, None) .expect("results") .into(); match r { QueryResults::Rel(ref v) => { assert_eq!(*v, vec![ vec![TypedValue::Ref(t.tx_id),] ].into()); }, _ => panic!("Expected query to work."), } } #[test] fn test_tx_as_input() { let mut c = new_connection("").expect("Couldn't open conn."); let conn = Conn::connect(&mut c).expect("Couldn't open DB."); conn.transact(&mut c, r#"[ [:db/add "s" :db/ident :foo/uuid] [:db/add "s" :db/valueType :db.type/uuid] [:db/add "s" :db/cardinality :db.cardinality/one] ]"#).expect("successful transaction"); conn.transact(&mut c, r#"[ [:db/add "u" :foo/uuid #uuid "550e8400-e29b-41d4-a716-446655440000"] ]"#).expect("successful transaction"); let t = conn.transact(&mut c, r#"[ [:db/add "u" :foo/uuid #uuid "cf62d552-6569-4d1b-b667-04703041dfc4"] ]"#).expect("successful transaction"); conn.transact(&mut c, r#"[ [:db/add "u" :foo/uuid #uuid "267bab92-ee39-4ca2-b7f0-1163a85af1fb"] ]"#).expect("successful transaction"); let tx = (Variable::from_valid_name("?tx"), TypedValue::Ref(t.tx_id)); let inputs = QueryInputs::with_value_sequence(vec![tx]); let r = conn.q_once(&mut c, r#"[:find ?uuid :in ?tx :where [?x :foo/uuid ?uuid ?tx]]"#, inputs) .expect("results") .into(); match r { QueryResults::Rel(ref v) => { assert_eq!(*v, vec![ vec![TypedValue::Uuid(Uuid::from_str("cf62d552-6569-4d1b-b667-04703041dfc4").expect("Valid UUID")),] ].into()); }, _ => panic!("Expected query to work."), } } #[test] fn test_fulltext() { let mut c = new_connection("").expect("Couldn't open conn."); let conn = Conn::connect(&mut c).expect("Couldn't open DB."); conn.transact(&mut c, r#"[ [:db/add "a" :db/ident :foo/term] [:db/add "a" :db/valueType :db.type/string] [:db/add "a" :db/fulltext false] [:db/add "a" :db/cardinality :db.cardinality/many] [:db/add "s" :db/ident :foo/fts] [:db/add "s" :db/valueType :db.type/string] [:db/add "s" :db/fulltext true] [:db/add "s" :db/index true] [:db/add "s" :db/cardinality :db.cardinality/many] ]"#).unwrap(); let v = conn.transact(&mut c, r#"[ [:db/add "v" :foo/fts "hello darkness my old friend"] [:db/add "v" :foo/fts "I've come to talk with you again"] ]"#).unwrap().tempids.get("v").cloned().expect("v was mapped"); let r = conn.q_once(&mut c, r#"[:find [?x ?val ?score] :where [(fulltext $ :foo/fts "darkness") [[?x ?val _ ?score]]]]"#, None) .expect("results") .into(); match r { QueryResults::Tuple(Some(vals)) => { let mut vals = vals.into_iter(); match (vals.next(), vals.next(), vals.next(), vals.next()) { (Some(Binding::Scalar(TypedValue::Ref(x))), Some(Binding::Scalar(TypedValue::String(text))), Some(Binding::Scalar(TypedValue::Double(score))), None) => { assert_eq!(x, v); assert_eq!(text.as_str(), "hello darkness my old friend"); assert_eq!(score, 0.0f64.into()); }, _ => panic!("Unexpected results."), } }, r => panic!("Unexpected results {:?}.", r), } let a = conn.transact(&mut c, r#"[[:db/add "a" :foo/term "talk"]]"#) .unwrap() .tempids .get("a").cloned() .expect("a was mapped"); // If you use a non-constant search term, it must be bound earlier in the query. let query = r#"[:find ?x ?val :where [(fulltext $ :foo/fts ?term) [[?x ?val]]] [?a :foo/term ?term] ]"#; let r = conn.q_once(&mut c, query, None); match r.expect_err("expected query to fail") { MentatError::AlgebrizerError(query_algebrizer_traits::errors::AlgebrizerError::InvalidArgument(PlainSymbol(s), ty, i)) => { assert_eq!(s, "fulltext"); assert_eq!(ty, "string"); assert_eq!(i, 2); }, _ => panic!("Expected query to fail."), } // Bound to the wrong type? Error. let query = r#"[:find ?x ?val :where [?a :foo/term ?term] [(fulltext $ :foo/fts ?a) [[?x ?val]]]]"#; let r = conn.q_once(&mut c, query, None); match r.expect_err("expected query to fail") { MentatError::AlgebrizerError(query_algebrizer_traits::errors::AlgebrizerError::InvalidArgument(PlainSymbol(s), ty, i)) => { assert_eq!(s, "fulltext"); assert_eq!(ty, "string"); assert_eq!(i, 2); }, _ => panic!("Expected query to fail."), } // If it's bound, and the right type, it'll work! let query = r#"[:find ?x ?val :in ?a :where [?a :foo/term ?term] [(fulltext $ :foo/fts ?term) [[?x ?val]]]]"#; let inputs = QueryInputs::with_value_sequence(vec![(Variable::from_valid_name("?a"), TypedValue::Ref(a))]); let r = conn.q_once(&mut c, query, inputs) .expect("results") .into(); match r { QueryResults::Rel(rels) => { let values: Vec> = rels.into_iter().collect(); assert_eq!(values, vec![ vec![Binding::Scalar(TypedValue::Ref(v)), "I've come to talk with you again".into(), ] ]); }, _ => panic!("Expected query to work."), } } #[test] fn test_instant_range_query() { let mut c = new_connection("").expect("Couldn't open conn."); let conn = Conn::connect(&mut c).expect("Couldn't open DB."); conn.transact(&mut c, r#"[ [:db/add "a" :db/ident :foo/date] [:db/add "a" :db/valueType :db.type/instant] [:db/add "a" :db/cardinality :db.cardinality/one] ]"#).unwrap(); let ids = conn.transact(&mut c, r#"[ [:db/add "b" :foo/date #inst "2016-01-01T11:00:00.000Z"] [:db/add "c" :foo/date #inst "2016-06-01T11:00:01.000Z"] [:db/add "d" :foo/date #inst "2017-01-01T11:00:02.000Z"] [:db/add "e" :foo/date #inst "2017-06-01T11:00:03.000Z"] ]"#).unwrap().tempids; let r = conn.q_once(&mut c, r#"[:find [?x ...] :order (asc ?date) :where [?x :foo/date ?date] [(< ?date #inst "2017-01-01T11:00:02.000Z")]]"#, None) .expect("results") .into(); match r { QueryResults::Coll(vals) => { assert_eq!(vals, vec![Binding::Scalar(TypedValue::Ref(*ids.get("b").unwrap())), Binding::Scalar(TypedValue::Ref(*ids.get("c").unwrap()))]); }, _ => panic!("Expected query to work."), } } #[test] fn test_lookup() { let mut c = new_connection("").expect("Couldn't open conn."); let conn = Conn::connect(&mut c).expect("Couldn't open DB."); conn.transact(&mut c, r#"[ [:db/add "a" :db/ident :foo/date] [:db/add "a" :db/valueType :db.type/instant] [:db/add "a" :db/cardinality :db.cardinality/one] [:db/add "b" :db/ident :foo/many] [:db/add "b" :db/valueType :db.type/long] [:db/add "b" :db/cardinality :db.cardinality/many] ]"#).unwrap(); let ids = conn.transact(&mut c, r#"[ [:db/add "b" :foo/many 123] [:db/add "b" :foo/many 456] [:db/add "b" :foo/date #inst "2016-01-01T11:00:00.000Z"] [:db/add "c" :foo/date #inst "2016-06-01T11:00:01.000Z"] [:db/add "d" :foo/date #inst "2017-01-01T11:00:02.000Z"] [:db/add "e" :foo/date #inst "2017-06-01T11:00:03.000Z"] ]"#).unwrap().tempids; let entid = ids.get("b").unwrap(); let foo_date = kw!(:foo/date); let foo_many = kw!(:foo/many); let db_ident = kw!(:db/ident); let expected = TypedValue::Instant(DateTime::::from_str("2016-01-01T11:00:00.000Z").unwrap()); // Fetch a value. assert_eq!(expected, conn.lookup_value_for_attribute(&c, *entid, &foo_date).unwrap().unwrap()); // Try to fetch a missing attribute. assert!(conn.lookup_value_for_attribute(&c, *entid, &db_ident).unwrap().is_none()); // Try to fetch from a non-existent entity. assert!(conn.lookup_value_for_attribute(&c, 12344567, &foo_date).unwrap().is_none()); // Fetch a multi-valued property. let two_longs = vec![TypedValue::Long(123), TypedValue::Long(456)]; let fetched_many = conn.lookup_value_for_attribute(&c, *entid, &foo_many).unwrap().unwrap(); assert!(two_longs.contains(&fetched_many)); } #[test] fn test_aggregates_type_handling() { let mut store = Store::open("").expect("opened"); store.transact(r#"[ {:db/ident :test/boolean :db/valueType :db.type/boolean :db/cardinality :db.cardinality/one} {:db/ident :test/long :db/valueType :db.type/long :db/cardinality :db.cardinality/one} {:db/ident :test/double :db/valueType :db.type/double :db/cardinality :db.cardinality/one} {:db/ident :test/string :db/valueType :db.type/string :db/cardinality :db.cardinality/one} {:db/ident :test/keyword :db/valueType :db.type/keyword :db/cardinality :db.cardinality/one} {:db/ident :test/uuid :db/valueType :db.type/uuid :db/cardinality :db.cardinality/one} {:db/ident :test/instant :db/valueType :db.type/instant :db/cardinality :db.cardinality/one} {:db/ident :test/ref :db/valueType :db.type/ref :db/cardinality :db.cardinality/one} ]"#).unwrap(); store.transact(r#"[ {:test/boolean false :test/long 10 :test/double 2.4 :test/string "one" :test/keyword :foo/bar :test/uuid #uuid "55555234-1234-1234-1234-123412341234" :test/instant #inst "2017-01-01T11:00:00.000Z" :test/ref 1} {:test/boolean true :test/long 20 :test/double 4.4 :test/string "two" :test/keyword :foo/baz :test/uuid #uuid "66666234-1234-1234-1234-123412341234" :test/instant #inst "2018-01-01T11:00:00.000Z" :test/ref 2} {:test/boolean true :test/long 30 :test/double 6.4 :test/string "three" :test/keyword :foo/noo :test/uuid #uuid "77777234-1234-1234-1234-123412341234" :test/instant #inst "2019-01-01T11:00:00.000Z" :test/ref 3} ]"#).unwrap(); // No type limits => can't do it. let r = store.q_once(r#"[:find (sum ?v) . :where [_ _ ?v]]"#, None); let all_types = ValueTypeSet::any(); match r.expect_err("expected query to fail") { MentatError::ProjectorError(::query_projector_traits::errors::ProjectorError::CannotApplyAggregateOperationToTypes( SimpleAggregationOp::Sum, types)) => { assert_eq!(types, all_types); }, e => panic!("Unexpected error type {:?}", e), } // You can't sum instants. let r = store.q_once(r#"[:find (sum ?v) . :where [_ _ ?v] [(type ?v :db.type/instant)]]"#, None); match r.expect_err("expected query to fail") { MentatError::ProjectorError(::query_projector_traits::errors::ProjectorError::CannotApplyAggregateOperationToTypes( SimpleAggregationOp::Sum, types)) => { assert_eq!(types, ValueTypeSet::of_one(ValueType::Instant)); }, e => panic!("Unexpected error type {:?}", e), } // But you can count them. let r = store.q_once(r#"[:find (count ?v) . :where [_ _ ?v] [(type ?v :db.type/instant)]]"#, None) .into_scalar_result() .expect("results") .unwrap(); // Our two transactions, the bootstrap transaction, plus the three values. assert_eq!(Binding::Scalar(TypedValue::Long(6)), r); // And you can min them, which returns an instant. let r = store.q_once(r#"[:find (min ?v) . :where [_ _ ?v] [(type ?v :db.type/instant)]]"#, None) .into_scalar_result() .expect("results") .unwrap(); let earliest = DateTime::parse_from_rfc3339("2017-01-01T11:00:00.000Z").unwrap().with_timezone(&Utc); assert_eq!(Binding::Scalar(TypedValue::Instant(earliest)), r); let r = store.q_once(r#"[:find (sum ?v) . :where [_ _ ?v] [(type ?v :db.type/long)]]"#, None) .into_scalar_result() .expect("results") .unwrap(); // Yes, the current version is in the store as a Long! let total = 30i64 + 20i64 + 10i64 + ::mentat_db::db::CURRENT_VERSION as i64; assert_eq!(Binding::Scalar(TypedValue::Long(total)), r); let r = store.q_once(r#"[:find (avg ?v) . :where [_ _ ?v] [(type ?v :db.type/double)]]"#, None) .into_scalar_result() .expect("results") .unwrap(); let avg = (6.4f64 / 3f64) + (4.4f64 / 3f64) + (2.4f64 / 3f64); assert_eq!(Binding::Scalar(TypedValue::Double(avg.into())), r); } #[test] fn test_type_reqs() { let mut c = new_connection("").expect("Couldn't open conn."); let conn = Conn::connect(&mut c).expect("Couldn't open DB."); conn.transact(&mut c, r#"[ {:db/ident :test/boolean :db/valueType :db.type/boolean :db/cardinality :db.cardinality/one} {:db/ident :test/long :db/valueType :db.type/long :db/cardinality :db.cardinality/one} {:db/ident :test/double :db/valueType :db.type/double :db/cardinality :db.cardinality/one} {:db/ident :test/string :db/valueType :db.type/string :db/cardinality :db.cardinality/one} {:db/ident :test/keyword :db/valueType :db.type/keyword :db/cardinality :db.cardinality/one} {:db/ident :test/uuid :db/valueType :db.type/uuid :db/cardinality :db.cardinality/one} {:db/ident :test/instant :db/valueType :db.type/instant :db/cardinality :db.cardinality/one} {:db/ident :test/ref :db/valueType :db.type/ref :db/cardinality :db.cardinality/one} ]"#).unwrap(); conn.transact(&mut c, r#"[ {:test/boolean true :test/long 33 :test/double 1.4 :test/string "foo" :test/keyword :foo/bar :test/uuid #uuid "12341234-1234-1234-1234-123412341234" :test/instant #inst "2018-01-01T11:00:00.000Z" :test/ref 1} ]"#).unwrap(); let eid_query = r#"[:find ?eid :where [?eid :test/string "foo"]]"#; let res = conn.q_once(&mut c, eid_query, None) .into_rel_result() .expect("results"); assert_eq!(res.row_count(), 1); assert_eq!(res.width, 1); let entid = match res.into_iter().next().unwrap().into_iter().next().unwrap() { Binding::Scalar(TypedValue::Ref(eid)) => { eid }, unexpected => { panic!("Query to get the entity id returned unexpected result {:?}", unexpected); } }; for value_type in ValueType::all_enums().iter() { let q = format!("[:find [?v ...] :in ?e :where [?e _ ?v] [(type ?v {})]]", value_type.into_keyword()); let results = conn.q_once(&mut c, &q, QueryInputs::with_value_sequence(vec![ (Variable::from_valid_name("?e"), TypedValue::Ref(entid)), ])) .expect("results") .into(); match results { QueryResults::Coll(vals) => { assert_eq!(vals.len(), 1, "Query should find exactly 1 item"); }, v => { panic!("Query returned unexpected type: {:?}", v); } } } conn.transact(&mut c, r#"[ {:db/ident :test/long2 :db/valueType :db.type/long :db/cardinality :db.cardinality/one} ]"#).unwrap(); conn.transact(&mut c, format!("[[:db/add {} :test/long2 5]]", entid)).unwrap(); let longs_query = r#"[:find [?v ...] :order (asc ?v) :in ?e :where [?e _ ?v] [(type ?v :db.type/long)]]"#; let res = conn.q_once(&mut c, longs_query, QueryInputs::with_value_sequence(vec![ (Variable::from_valid_name("?e"), TypedValue::Ref(entid)), ])) .expect("results") .into(); match res { QueryResults::Coll(vals) => { assert_eq!(vals, vec![Binding::Scalar(TypedValue::Long(5)), Binding::Scalar(TypedValue::Long(33))]) }, v => { panic!("Query returned unexpected type: {:?}", v); } }; } #[test] fn test_monster_head_aggregates() { let mut store = Store::open("").expect("opened"); let mut in_progress = store.begin_transaction().expect("began"); in_progress.transact(r#"[ {:db/ident :monster/heads :db/valueType :db.type/long :db/cardinality :db.cardinality/one} {:db/ident :monster/name :db/valueType :db.type/string :db/cardinality :db.cardinality/one :db/index true :db/unique :db.unique/identity} {:db/ident :monster/weapon :db/valueType :db.type/string :db/cardinality :db.cardinality/many} ]"#).expect("transacted"); in_progress.transact(r#"[ {:monster/heads 1 :monster/name "Medusa" :monster/weapon "Stony gaze"} {:monster/heads 1 :monster/name "Cyclops" :monster/weapon ["Large club" "Mighty arms" "Stompy feet"]} {:monster/heads 1 :monster/name "Chimera" :monster/weapon "Goat-like agility"} {:monster/heads 3 :monster/name "Cerberus" :monster/weapon ["8-foot Kong®" "Deadly drool"]} ]"#).expect("transacted"); // Without :with, uniqueness applies prior to aggregation, so we get 1 + 3 = 4. let res = in_progress.q_once("[:find (sum ?heads) . :where [?monster :monster/heads ?heads]]", None) .expect("results") .into(); match res { QueryResults::Scalar(Some(Binding::Scalar(TypedValue::Long(count)))) => { assert_eq!(count, 4); }, r => panic!("Unexpected result {:?}", r), }; // With :with, uniqueness includes the monster, so we get 1 + 1 + 1 + 3 = 6. let res = in_progress.q_once("[:find (sum ?heads) . :with ?monster :where [?monster :monster/heads ?heads]]", None) .expect("results") .into(); match res { QueryResults::Scalar(Some(Binding::Scalar(TypedValue::Long(count)))) => { assert_eq!(count, 6); }, r => panic!("Unexpected result {:?}", r), }; // Aggregates group. let res = in_progress.q_once(r#"[:find ?name (count ?weapon) :with ?monster :order (asc ?name) :where [?monster :monster/name ?name] [?monster :monster/weapon ?weapon]]"#, None) .expect("results") .into(); match res { QueryResults::Rel(vals) => { let expected = vec![ vec!["Cerberus".into(), TypedValue::Long(2)], vec!["Chimera".into(), TypedValue::Long(1)], vec!["Cyclops".into(), TypedValue::Long(3)], vec!["Medusa".into(), TypedValue::Long(1)], ]; assert_eq!(vals, expected.into()); }, r => panic!("Unexpected result {:?}", r), }; in_progress.rollback().expect("rolled back"); } #[test] fn test_basic_aggregates() { let mut store = Store::open("").expect("opened"); store.transact(r#"[ {:db/ident :foo/is-vegetarian :db/valueType :db.type/boolean :db/cardinality :db.cardinality/one} {:db/ident :foo/age :db/valueType :db.type/long :db/cardinality :db.cardinality/one} {:db/ident :foo/name :db/valueType :db.type/string :db/cardinality :db.cardinality/one} ]"#).unwrap(); let _ids = store.transact(r#"[ [:db/add "a" :foo/name "Alice"] [:db/add "b" :foo/name "Beli"] [:db/add "c" :foo/name "Carlos"] [:db/add "d" :foo/name "Diana"] [:db/add "a" :foo/is-vegetarian true] [:db/add "b" :foo/is-vegetarian true] [:db/add "c" :foo/is-vegetarian false] [:db/add "d" :foo/is-vegetarian false] [:db/add "a" :foo/age 14] [:db/add "b" :foo/age 22] [:db/add "c" :foo/age 42] [:db/add "d" :foo/age 28] ]"#).unwrap().tempids; // Count the number of distinct bindings of `?veg` that are `true` -- namely, one. // This is not the same as `count-distinct`: note the distinction between // including `:with` and not. // In this case, the `DISTINCT` must occur inside the aggregation, not outside it. /* Rather than: SELECT DISTINCT count(1) AS `(count ?veg)` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 65536 AND `datoms00`.v = 1; our query should be SELECT DISTINCT count(`?veg`) AS `(count ?veg)` FROM ( SELECT DISTINCT 1 AS `?veg` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 65536 AND `datoms00`.v = 1 ); */ let r = store.q_once(r#"[:find (count ?veg) :where [_ :foo/is-vegetarian ?veg] [(ground true) ?veg]]"#, None) .expect("results") .into(); match r { QueryResults::Rel(vals) => { assert_eq!(vals, vec![vec![TypedValue::Long(1)]].into()); }, _ => panic!("Expected rel."), } // And this should be /* SELECT DISTINCT count(`?veg`) AS `(count ?veg)` FROM ( SELECT DISTINCT 1 AS `?veg`, `datoms00`.e AS `?person` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 65536 AND `datoms00`.v = 1 ); */ let r = store.q_once(r#"[:find (count ?veg) . :with ?person :where [?person :foo/is-vegetarian ?veg] [(ground true) ?veg]]"#, None) .expect("results") .into(); match r { QueryResults::Scalar(Some(val)) => { assert_eq!(val, Binding::Scalar(TypedValue::Long(2))); }, _ => panic!("Expected scalar."), } // What are the oldest and youngest ages? let r = store.q_once(r#"[:find [(min ?age) (max ?age)] :where [_ :foo/age ?age]]"#, None) .expect("results") .into(); match r { QueryResults::Tuple(Some(vals)) => { assert_eq!(vals, vec![Binding::Scalar(TypedValue::Long(14)), Binding::Scalar(TypedValue::Long(42))]); }, _ => panic!("Expected tuple."), } // Who's youngest, via order? let r = store.q_once(r#"[:find [?name ?age] :order (asc ?age) :where [?x :foo/age ?age] [?x :foo/name ?name]]"#, None) .expect("results") .into(); match r { QueryResults::Tuple(Some(vals)) => { assert_eq!(vals, vec!["Alice".into(), Binding::Scalar(TypedValue::Long(14))]); }, r => panic!("Unexpected results {:?}", r), } // Who's oldest, via order? let r = store.q_once(r#"[:find [?name ?age] :order (desc ?age) :where [?x :foo/age ?age] [?x :foo/name ?name]]"#, None) .expect("results") .into(); match r { QueryResults::Tuple(Some(vals)) => { assert_eq!(vals, vec!["Carlos".into(), Binding::Scalar(TypedValue::Long(42))]); }, _ => panic!("Expected tuple."), } // How many of each age do we have? // Add an extra person to make this interesting. store.transact(r#"[{:foo/name "Medusa", :foo/age 28}]"#).expect("transacted"); // If we omit the 'with', we'll get the wrong answer: let r = store.q_once(r#"[:find ?age (count ?age) :order (asc ?age) :where [_ :foo/age ?age]]"#, None) .expect("results") .into(); match r { QueryResults::Rel(vals) => { assert_eq!(vals, vec![ vec![TypedValue::Long(14), TypedValue::Long(1)], vec![TypedValue::Long(22), TypedValue::Long(1)], vec![TypedValue::Long(28), TypedValue::Long(1)], vec![TypedValue::Long(42), TypedValue::Long(1)], ].into()); }, _ => panic!("Expected rel."), } // If we include it, we'll get the right one: let r = store.q_once(r#"[:find ?age (count ?age) :with ?person :order (asc ?age) :where [?person :foo/age ?age]]"#, None) .expect("results") .into(); match r { QueryResults::Rel(vals) => { assert_eq!(vals, vec![ vec![TypedValue::Long(14), TypedValue::Long(1)], vec![TypedValue::Long(22), TypedValue::Long(1)], vec![TypedValue::Long(28), TypedValue::Long(2)], vec![TypedValue::Long(42), TypedValue::Long(1)], ].into()); }, _ => panic!("Expected rel."), } } #[test] fn test_combinatorial() { let mut store = Store::open("").expect("opened"); store.transact(r#"[ [:db/add "a" :db/ident :foo/name] [:db/add "a" :db/valueType :db.type/string] [:db/add "a" :db/cardinality :db.cardinality/one] [:db/add "b" :db/ident :foo/dance] [:db/add "b" :db/valueType :db.type/ref] [:db/add "b" :db/cardinality :db.cardinality/many] [:db/add "b" :db/index true] ]"#).unwrap(); store.transact(r#"[ [:db/add "a" :foo/name "Alice"] [:db/add "b" :foo/name "Beli"] [:db/add "c" :foo/name "Carlos"] [:db/add "d" :foo/name "Diana"] ;; Alice danced with Beli twice. [:db/add "a" :foo/dance "ab"] [:db/add "b" :foo/dance "ab"] [:db/add "a" :foo/dance "ba"] [:db/add "b" :foo/dance "ba"] ;; Carlos danced with Diana. [:db/add "c" :foo/dance "cd"] [:db/add "d" :foo/dance "cd"] ;; Alice danced with Diana. [:db/add "a" :foo/dance "ad"] [:db/add "d" :foo/dance "ad"] ]"#).unwrap(); // How many different pairings of dancers were there? // If we just use `!=` (or `differ`), the number is doubled because of symmetry! assert_eq!(Binding::Scalar(TypedValue::Long(6)), store.q_once(r#"[:find (count ?right) . :with ?left :where [?left :foo/dance ?dance] [?right :foo/dance ?dance] [(differ ?left ?right)]]"#, None) .into_scalar_result() .expect("scalar results").unwrap()); // SQL addresses this by using `<` instead of `!=` -- by imposing // an order on values, we can ensure that each pair only appears once, not // once per permutation. // It's far from ideal to expose an ordering on entids, because developers // will come to rely on it. Instead we expose a specific operator: `unpermute`. // When used in a query that generates permuted pairs of references, this // ensures that only one permutation is returned for a given pair. assert_eq!(Binding::Scalar(TypedValue::Long(3)), store.q_once(r#"[:find (count ?right) . :with ?left :where [?left :foo/dance ?dance] [?right :foo/dance ?dance] [(unpermute ?left ?right)]]"#, None) .into_scalar_result() .expect("scalar results").unwrap()); } #[test] fn test_aggregate_the() { let mut store = Store::open("").expect("opened"); store.transact(r#"[ {:db/ident :visit/visitedOnDevice :db/valueType :db.type/ref :db/cardinality :db.cardinality/one} {:db/ident :visit/visitAt :db/valueType :db.type/instant :db/cardinality :db.cardinality/one} {:db/ident :site/visit :db/valueType :db.type/ref :db/isComponent true :db/cardinality :db.cardinality/many} {:db/ident :site/url :db/valueType :db.type/string :db/unique :db.unique/identity :db/cardinality :db.cardinality/one :db/index true} {:db/ident :visit/page :db/valueType :db.type/ref :db/isComponent true ; Debatable. :db/cardinality :db.cardinality/one} {:db/ident :page/title :db/valueType :db.type/string :db/fulltext true :db/index true :db/cardinality :db.cardinality/one} {:db/ident :visit/container :db/valueType :db.type/ref :db/cardinality :db.cardinality/one} ]"#).expect("transacted schema"); store.transact(r#"[ {:db/ident :container/facebook} {:db/ident :container/personal} {:db/ident :device/my-desktop} ]"#).expect("transacted idents"); store.transact(r#"[ {:visit/visitedOnDevice :device/my-desktop :visit/visitAt #inst "2018-04-06T20:46:00Z" :visit/container :container/facebook :db/id "another" :visit/page "fbpage2"} {:db/id "fbpage2" :page/title "(1) Facebook"} {:visit/visitedOnDevice :device/my-desktop :visit/visitAt #inst "2018-04-06T18:46:00Z" :visit/container :container/facebook :db/id "fbvisit" :visit/page "fbpage"} {:db/id "fbpage" :page/title "(2) Facebook"} {:site/url "https://www.facebook.com" :db/id "aa" :site/visit ["personalvisit" "another" "fbvisit"]} {:visit/visitedOnDevice :device/my-desktop :visit/visitAt #inst "2018-04-06T18:46:00Z" :visit/container :container/personal :db/id "personalvisit" :visit/page "personalpage"} {:db/id "personalpage" :page/title "Facebook - Log In or Sign Up"} ]"#).expect("transacted data"); let per_title = store.q_once(r#" [:find (max ?visitDate) ?title :where [?site :site/url "https://www.facebook.com"] [?site :site/visit ?visit] [?visit :visit/container :container/facebook] [?visit :visit/visitAt ?visitDate] [?visit :visit/page ?page] [?page :page/title ?title]]"#, None) .into_rel_result() .expect("two results"); let corresponding_title = store.q_once(r#" [:find (max ?visitDate) (the ?title) :where [?site :site/url "https://www.facebook.com"] [?site :site/visit ?visit] [?visit :visit/container :container/facebook] [?visit :visit/visitAt ?visitDate] [?visit :visit/page ?page] [?page :page/title ?title]]"#, None) .into_rel_result() .expect("one result"); // This test shows the distinction between `?title` and `(the ?title`) — the former returns two // results, while the latter returns one. Without `the` we group by `?title`, getting the // maximum visit date for each title; with it we don't group by value, instead getting the title // that corresponds to the maximum visit date. // // 'Group' in this context translates to GROUP BY in the generated SQL. assert_eq!(2, per_title.row_count()); assert_eq!(1, corresponding_title.row_count()); assert_eq!(corresponding_title, vec![vec![TypedValue::Instant(DateTime::::from_str("2018-04-06T20:46:00.000Z").unwrap()), TypedValue::typed_string("(1) Facebook")]].into()); } #[test] fn test_null_aggregates() { let store = Store::open("").expect("opened"); let rel = store.q_once(r#" [:find (count ?tx) (max ?txInstant) :where [_ _ _ ?tx] [?tx :db/txInstant ?txInstant] [(< ?txInstant #inst "2016-01-01T11:00:00.000Z")] ]"#, None) .into_rel_result() .expect("no results"); // (count ?tx) is 0, but (max ?txInstant) is over 0 SQL rows, yielding a NULL in the SQL rows. // We reject the entire row containing NULL aggregates. assert_eq!(0, rel.row_count()); let rel_pull = store.q_once(r#" [:find (count ?tx) (max ?txInstant) (pull ?tx [*]) :where [_ _ _ ?tx] [?tx :db/txInstant ?txInstant] [(< ?txInstant #inst "2016-01-01T11:00:00.000Z")] ]"#, None) .into_rel_result() .expect("no results"); // Same logic as above -- just verifying that `RelTwoStagePullProjector` handles NULL. assert_eq!(0, rel_pull.row_count()); let coll = store.q_once(r#" [:find [(max ?txInstant) ...] :where [_ _ _ ?tx] [?tx :db/txInstant ?txInstant] [(< ?txInstant #inst "2016-01-01T11:00:00.000Z")] ]"#, None) .into_coll_result() .expect("no results"); // (max ?txInstant) is over 0 SQL rows, yielding a NULL in the SQL rows. We reject the entire // row containing NULL aggregates, yielding an empty vector of results. assert_eq!(coll, vec![]); let tuple = store.q_once(r#" [:find [(count ?tx) (max ?txInstant)] :where [_ _ _ ?tx] [?tx :db/txInstant ?txInstant] [(< ?txInstant #inst "2016-01-01T11:00:00.000Z")] ]"#, None) .into_tuple_result() .expect("no results"); // (count ?tx) is 0, but (max ?txInstant) is over 0 SQL rows, yielding a NULL in the SQL rows. // We reject the entire row containing NULL aggregates, yielding no tuple result at all. assert_eq!(tuple, None); let tuple_pull = store.q_once(r#" [:find [(count ?tx) (max ?txInstant) (pull ?tx [*])] :where [_ _ _ ?tx] [?tx :db/txInstant ?txInstant] [(< ?txInstant #inst "2016-01-01T11:00:00.000Z")] ]"#, None) .into_tuple_result() .expect("no results"); // Same logic as above -- just verifying that `CollTwoStagePullProjector` handles NULL. assert_eq!(tuple_pull, None); let scalar = store.q_once(r#" [:find (max ?txInstant) . :where [_ _ _ ?tx] [?tx :db/txInstant ?txInstant] [(< ?txInstant #inst "2016-01-01T11:00:00.000Z")] ]"#, None) .into_scalar_result() .expect("no results"); // (max ?txInstant) is over 0 SQL rows, yielding a NULL in the SQL rows. We reject the entire // row containing NULL aggregates, yielding no scalar result at all. assert_eq!(scalar, None); } #[test] fn test_aggregation_implicit_grouping() { let mut store = Store::open("").expect("opened"); store.transact(r#"[ [:db/add "a" :db/ident :foo/score] [:db/add "a" :db/valueType :db.type/long] [:db/add "a" :db/cardinality :db.cardinality/one] [:db/add "b" :db/ident :foo/name] [:db/add "b" :db/valueType :db.type/string] [:db/add "b" :db/cardinality :db.cardinality/one] [:db/add "c" :db/ident :foo/is-vegetarian] [:db/add "c" :db/valueType :db.type/boolean] [:db/add "c" :db/cardinality :db.cardinality/one] [:db/add "d" :db/ident :foo/play] [:db/add "d" :db/valueType :db.type/ref] [:db/add "d" :db/cardinality :db.cardinality/many] [:db/add "d" :db/index true] [:db/add "d" :db/unique :db.unique/value] ]"#).unwrap(); let ids = store.transact(r#"[ [:db/add "a" :foo/name "Alice"] [:db/add "b" :foo/name "Beli"] [:db/add "c" :foo/name "Carlos"] [:db/add "d" :foo/name "Diana"] [:db/add "a" :foo/is-vegetarian true] [:db/add "b" :foo/is-vegetarian true] [:db/add "c" :foo/is-vegetarian false] [:db/add "d" :foo/is-vegetarian false] [:db/add "aa" :foo/score 14] [:db/add "ab" :foo/score 99] [:db/add "ac" :foo/score 14] [:db/add "ba" :foo/score 22] [:db/add "bb" :foo/score 11] [:db/add "ca" :foo/score 42] [:db/add "da" :foo/score 5] [:db/add "db" :foo/score 28] [:db/add "d" :foo/play "da"] [:db/add "d" :foo/play "db"] [:db/add "a" :foo/play "aa"] [:db/add "a" :foo/play "ab"] [:db/add "a" :foo/play "ac"] [:db/add "b" :foo/play "ba"] [:db/add "b" :foo/play "bb"] [:db/add "c" :foo/play "ca"] ]"#).unwrap().tempids; // How many different scores were there? assert_eq!(Binding::Scalar(TypedValue::Long(7)), store.q_once(r#"[:find (count ?score) . :where [?game :foo/score ?score]]"#, None) .into_scalar_result() .expect("scalar results").unwrap()); // How many different games resulted in scores? // '14' appears twice. assert_eq!(Binding::Scalar(TypedValue::Long(8)), store.q_once(r#"[:find (count ?score) . :with ?game :where [?game :foo/score ?score]]"#, None) .into_scalar_result() .expect("scalar results").unwrap()); // Who's the highest-scoring vegetarian? assert_eq!(vec!["Alice".into(), Binding::Scalar(TypedValue::Long(99))], store.q_once(r#"[:find [(the ?name) (max ?score)] :where [?game :foo/score ?score] [?person :foo/play ?game] [?person :foo/is-vegetarian true] [?person :foo/name ?name]]"#, None) .into_tuple_result() .expect("tuple results").unwrap()); // We can't run an ambiguous correspondence. let res = store.q_once(r#"[:find [(the ?name) (min ?score) (max ?score)] :where [?game :foo/score ?score] [?person :foo/play ?game] [?person :foo/is-vegetarian true] [?person :foo/name ?name]]"#, None); match res.expect_err("expected query to fail") { MentatError::ProjectorError(::query_projector_traits::errors::ProjectorError::AmbiguousAggregates(mmc, cc)) => { assert_eq!(mmc, 2); assert_eq!(cc, 1); }, e => { panic!("Unexpected error type {:?}.", e); }, } // Max scores for vegetarians. let expected: RelResult = vec![vec!["Alice".into(), TypedValue::Long(99)], vec!["Beli".into(), TypedValue::Long(22)]].into(); assert_eq!(expected, store.q_once(r#"[:find ?name (max ?score) :where [?game :foo/score ?score] [?person :foo/play ?game] [?person :foo/is-vegetarian true] [?person :foo/name ?name]]"#, None) .into_rel_result() .expect("rel results")); // We can combine these aggregates. let r = store.q_once(r#"[:find ?x ?name (max ?score) (count ?score) (avg ?score) :with ?game ; So we don't discard duplicate scores! :where [?x :foo/name ?name] [?x :foo/play ?game] [?game :foo/score ?score]]"#, None) .expect("results") .into(); match r { QueryResults::Rel(vals) => { assert_eq!(vals, vec![ vec![TypedValue::Ref(ids.get("a").cloned().unwrap()), "Alice".into(), TypedValue::Long(99), TypedValue::Long(3), TypedValue::Double((127f64 / 3f64).into())], vec![TypedValue::Ref(ids.get("b").cloned().unwrap()), "Beli".into(), TypedValue::Long(22), TypedValue::Long(2), TypedValue::Double((33f64 / 2f64).into())], vec![TypedValue::Ref(ids.get("c").cloned().unwrap()), "Carlos".into(), TypedValue::Long(42), TypedValue::Long(1), TypedValue::Double(42f64.into())], vec![TypedValue::Ref(ids.get("d").cloned().unwrap()), "Diana".into(), TypedValue::Long(28), TypedValue::Long(2), TypedValue::Double((33f64 / 2f64).into())]].into()); }, x => panic!("Got unexpected results {:?}", x), } } #[test] fn test_tx_ids() { let mut store = Store::open("").expect("opened"); store.transact(r#"[ [:db/add "a" :db/ident :foo/term] [:db/add "a" :db/valueType :db.type/string] [:db/add "a" :db/fulltext false] [:db/add "a" :db/cardinality :db.cardinality/many] ]"#).unwrap(); let tx1 = store.transact(r#"[ [:db/add "v" :foo/term "1"] ]"#).expect("tx1 to apply").tx_id; let tx2 = store.transact(r#"[ [:db/add "v" :foo/term "2"] ]"#).expect("tx2 to apply").tx_id; let tx3 = store.transact(r#"[ [:db/add "v" :foo/term "3"] ]"#).expect("tx3 to apply").tx_id; fn assert_tx_id_range(store: &Store, after: Entid, before: Entid, expected: Vec) { // TODO: after https://github.com/mozilla/mentat/issues/641, use q_prepare with inputs bound // at execution time. let r = store.q_once(r#"[:find [?tx ...] :in ?after ?before :where [(tx-ids $ ?after ?before) [?tx ...]] ]"#, QueryInputs::with_value_sequence(vec![ (Variable::from_valid_name("?after"), TypedValue::Ref(after)), (Variable::from_valid_name("?before"), TypedValue::Ref(before)), ])) .expect("results") .into(); match r { QueryResults::Coll(txs) => { let expected: Vec = expected.into_iter().map(|tv| tv.into()).collect(); assert_eq!(txs, expected); }, x => panic!("Got unexpected results {:?}", x), } } assert_tx_id_range(&store, tx1, tx2, vec![TypedValue::Ref(tx1)]); assert_tx_id_range(&store, tx1, tx3, vec![TypedValue::Ref(tx1), TypedValue::Ref(tx2)]); assert_tx_id_range(&store, tx2, tx3, vec![TypedValue::Ref(tx2)]); assert_tx_id_range(&store, tx2, tx3 + 1, vec![TypedValue::Ref(tx2), TypedValue::Ref(tx3)]); } fn run_tx_data_test(mut store: Store) { store.transact(r#"[ [:db/add "a" :db/ident :foo/term] [:db/add "a" :db/valueType :db.type/string] [:db/add "a" :db/fulltext false] [:db/add "a" :db/cardinality :db.cardinality/many] ]"#).unwrap(); let tx1 = store.transact(r#"[ [:db/add "e" :foo/term "1"] ]"#).expect("tx1 to apply"); let tx2 = store.transact(r#"[ [:db/add "e" :foo/term "2"] ]"#).expect("tx2 to apply"); fn assert_tx_data(store: &Store, tx: &TxReport, value: TypedValue) { // TODO: after https://github.com/mozilla/mentat/issues/641, use q_prepare with inputs bound // at execution time. let r = store.q_once(r#"[:find ?e ?a-name ?v ?tx ?added :in ?tx-in :where [(tx-data $ ?tx-in) [[?e ?a ?v ?tx ?added]]] [?a :db/ident ?a-name] :order ?e ]"#, QueryInputs::with_value_sequence(vec![ (Variable::from_valid_name("?tx-in"), TypedValue::Ref(tx.tx_id)), ])) .expect("results") .into(); let e = tx.tempids.get("e").cloned().expect("tempid"); match r { QueryResults::Rel(vals) => { assert_eq!(vals, vec![ vec![TypedValue::Ref(e), TypedValue::typed_ns_keyword("foo", "term"), value, TypedValue::Ref(tx.tx_id), TypedValue::Boolean(true)], vec![TypedValue::Ref(tx.tx_id), TypedValue::typed_ns_keyword("db", "txInstant"), TypedValue::Instant(tx.tx_instant), TypedValue::Ref(tx.tx_id), TypedValue::Boolean(true)], ].into()); }, x => panic!("Got unexpected results {:?}", x), } }; assert_tx_data(&store, &tx1, "1".into()); assert_tx_data(&store, &tx2, "2".into()); } #[test] fn test_tx_data() { run_tx_data_test(Store::open("").expect("opened")); } #[cfg(feature = "sqlite")] #[test] fn test_encrypted() { // We expect this to blow up completely if something is wrong with the encryption, // so the specific test we use doesn't matter that much. run_tx_data_test(Store::open_with_key("", "secret").expect("opened")); } #[test] fn test_conn_cross_thread() { let file = "file:memdb?mode=memory&cache=shared"; let mut sqlite = mentat_db::db::new_connection(file).expect("Couldn't open in-memory db"); let conn = Conn::connect(&mut sqlite).expect("to connect"); conn.transact(&mut sqlite, r#"[ [:db/add "a" :db/ident :foo/term] [:db/add "a" :db/valueType :db.type/string] [:db/add "a" :db/fulltext false] [:db/add "a" :db/cardinality :db.cardinality/many] ]"#).unwrap(); let _tx1 = conn.transact(&mut sqlite, r#"[ [:db/add "e" :foo/term "1"] ]"#).expect("tx1 to apply"); let _tx2 = conn.transact(&mut sqlite, r#"[ [:db/add "e" :foo/term "2"] ]"#).expect("tx2 to apply"); use std::sync::Arc; use std::sync::mpsc::channel; let conn = Arc::new(conn); let (tx1, rx1) = channel(); let (txs, rxs) = channel(); let (tx2, rx2) = channel(); std::thread::spawn(move || { let shared_conn: Arc = rx1.recv().expect("rx1"); let mut sqlite1 = mentat_db::db::new_connection(file).expect("Couldn't open in-memory db"); shared_conn.transact(&mut sqlite1, r#"[ [:db/add "a" :db/ident :foo/bar] [:db/add "a" :db/valueType :db.type/long] [:db/add "a" :db/cardinality :db.cardinality/many] ]"#).unwrap(); txs.send(()).expect("to sync"); }); tx1.send(conn.clone()).expect("tx1"); rxs.recv().expect("to sync"); std::thread::spawn(move || { let shared_conn: Arc = rx2.recv().expect("rx1"); let mut sqlite2 = mentat_db::db::new_connection(file).expect("Couldn't open in-memory db"); assert_eq!(None, shared_conn.current_schema().get_entid(&Keyword::namespaced("foo", "bar"))); shared_conn.q_once(&mut sqlite2, "[:find ?e :where [?e _ _]]", None).expect("to prepare"); }); tx2.send(conn.clone()).expect("tx2"); }