945 lines
46 KiB
Clojure
945 lines
46 KiB
Clojure
;; This Source Code Form is subject to the terms of the Mozilla Public
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;; License, v. 2.0. If a copy of the MPL was not distributed with this
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;; file, You can obtain one at http://mozilla.org/MPL/2.0/.
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(ns datomish.db-test
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#?(:cljs
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(:require-macros
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[datomish.pair-chan :refer [go-pair <?]]
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[datomish.node-tempfile-macros :refer [with-tempfile]]
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[cljs.core.async.macros :as a :refer [go]]))
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(:require
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[datomish.api :as d]
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[datomish.db.debug :refer [<datoms-after <datoms>= <transactions-after <shallow-entity <fulltext-values]]
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[datomish.util :as util #?(:cljs :refer-macros :clj :refer) [raise cond-let]]
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[datomish.schema :as ds]
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[datomish.simple-schema]
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[datomish.sqlite :as s]
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[datomish.sqlite-schema]
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[datomish.datom]
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#?@(:clj [[datomish.jdbc-sqlite]
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[datomish.pair-chan :refer [go-pair <?]]
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[tempfile.core :refer [tempfile with-tempfile]]
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[datomish.test-macros :refer [deftest-async deftest-db]]
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[clojure.test :as t :refer [is are deftest testing]]
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[clojure.core.async :refer [go <! >!]]])
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#?@(:cljs [[datomish.js-sqlite]
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[datomish.pair-chan]
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[datomish.test-macros :refer-macros [deftest-async deftest-db]]
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[datomish.node-tempfile :refer [tempfile]]
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[cljs.test :as t :refer-macros [is are deftest testing async]]
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[cljs.core.async :as a :refer [<! >!]]]))
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#?(:clj
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(:import [clojure.lang ExceptionInfo]))
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#?(:clj
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(:import [datascript.db DB])))
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#?(:cljs
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(def Throwable js/Error))
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(defn- tempids [tx]
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(into {} (map (juxt (comp :idx first) second) (:tempids tx))))
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(def test-schema
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[{:db/id (d/id-literal :db.part/user)
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:db/ident :x
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:db/unique :db.unique/identity
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:db/valueType :db.type/long
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:db.install/_attribute :db.part/db}
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{:db/id (d/id-literal :db.part/user)
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:db/ident :name
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:db/unique :db.unique/identity
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:db/valueType :db.type/string
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:db.install/_attribute :db.part/db}
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{:db/id (d/id-literal :db.part/user)
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:db/ident :y
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:db/cardinality :db.cardinality/many
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:db/valueType :db.type/long
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:db.install/_attribute :db.part/db}
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{:db/id (d/id-literal :db.part/user)
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:db/ident :aka
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:db/cardinality :db.cardinality/many
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:db/valueType :db.type/string
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:db.install/_attribute :db.part/db}
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{:db/id (d/id-literal :db.part/user)
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:db/ident :age
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:db/valueType :db.type/long
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:db.install/_attribute :db.part/db}
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{:db/id (d/id-literal :db.part/user)
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:db/ident :email
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:db/unique :db.unique/identity
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:db/valueType :db.type/string
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:db.install/_attribute :db.part/db}
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{:db/id (d/id-literal :db.part/user)
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:db/ident :spouse
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:db/unique :db.unique/value
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:db/valueType :db.type/string
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:db.install/_attribute :db.part/db}
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{:db/id (d/id-literal :db.part/user)
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:db/ident :friends
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:db/cardinality :db.cardinality/many
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:db/valueType :db.type/ref
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:db.install/_attribute :db.part/db}
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])
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(deftest-db test-add-one conn
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(let [{tx0 :tx} (<? (d/<transact! conn test-schema))]
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(let [{:keys [tx txInstant]} (<? (d/<transact! conn [[:db/add 0 :name "valuex"]]))]
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(is (= (<? (<datoms-after (d/db conn) tx0))
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#{[0 :name "valuex"]}))
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(is (= (<? (<transactions-after (d/db conn) tx0))
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[[0 :name "valuex" tx 1] ;; TODO: true, not 1.
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[tx :db/txInstant txInstant tx 1]])))))
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(deftest-db test-add-two conn
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(let [{tx0 :tx} (<? (d/<transact! conn test-schema))
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{tx1 :tx txInstant1 :txInstant} (<? (d/<transact! conn [[:db/add 1 :name "Ivan"]]))
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{tx2 :tx txInstant2 :txInstant} (<? (d/<transact! conn [[:db/add 1 :name "Petr"]]))
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{tx3 :tx txInstant3 :txInstant} (<? (d/<transact! conn [[:db/add 1 :aka "Tupen"]]))
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{tx4 :tx txInstant4 :txInstant} (<? (d/<transact! conn [[:db/add 1 :aka "Devil"]]))]
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(is (= (<? (<datoms-after (d/db conn) tx0))
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#{[1 :name "Petr"]
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[1 :aka "Tupen"]
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[1 :aka "Devil"]}))
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(is (= (<? (<transactions-after (d/db conn) tx0))
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[[1 :name "Ivan" tx1 1] ;; TODO: true, not 1.
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[tx1 :db/txInstant txInstant1 tx1 1]
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[1 :name "Ivan" tx2 0]
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[1 :name "Petr" tx2 1]
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[tx2 :db/txInstant txInstant2 tx2 1]
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[1 :aka "Tupen" tx3 1]
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[tx3 :db/txInstant txInstant3 tx3 1]
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[1 :aka "Devil" tx4 1]
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[tx4 :db/txInstant txInstant4 tx4 1]]))))
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(deftest-db test-retract conn
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(let [{tx0 :tx} (<? (d/<transact! conn test-schema))
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{tx1 :tx txInstant1 :txInstant} (<? (d/<transact! conn [[:db/add 0 :x 123]]))
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{tx2 :tx txInstant2 :txInstant} (<? (d/<transact! conn [[:db/retract 0 :x 123]]))]
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(is (= (<? (<datoms-after (d/db conn) tx0))
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#{}))
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(is (= (<? (<transactions-after (d/db conn) tx0))
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[[0 :x 123 tx1 1]
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[tx1 :db/txInstant txInstant1 tx1 1]
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[0 :x 123 tx2 0]
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[tx2 :db/txInstant txInstant2 tx2 1]]))))
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(deftest-db test-id-literal-1 conn
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(let [tx0 (:tx (<? (d/<transact! conn test-schema)))
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report (<? (d/<transact! conn [[:db/add (d/id-literal :db.part/user -1) :x 0]
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[:db/add (d/id-literal :db.part/user -1) :y 1]
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[:db/add (d/id-literal :db.part/user -2) :y 2]
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[:db/add (d/id-literal :db.part/user -2) :y 3]]))]
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(is (= (keys (:tempids report)) ;; TODO: include values.
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[(d/id-literal :db.part/user -1)
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(d/id-literal :db.part/user -2)]))
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(let [eid1 (get-in report [:tempids (d/id-literal :db.part/user -1)])
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eid2 (get-in report [:tempids (d/id-literal :db.part/user -2)])]
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(is (= (<? (<datoms-after (d/db conn) tx0))
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#{[eid1 :x 0]
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[eid1 :y 1]
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[eid2 :y 2]
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[eid2 :y 3]})))))
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(deftest-db test-unique conn
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(let [tx0 (:tx (<? (d/<transact! conn test-schema)))]
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(testing "Multiple :db/unique values in tx-data violate unique constraint, no tempid"
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(is (thrown-with-msg?
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ExceptionInfo #"unique constraint"
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(<? (d/<transact! conn [[:db/add 1 :x 0]
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[:db/add 2 :x 0]])))))
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(testing "Multiple :db/unique values in tx-data violate unique constraint, tempid"
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(is (thrown-with-msg?
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ExceptionInfo #"unique constraint"
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(<? (d/<transact! conn [[:db/add (d/id-literal :db.part/user -1) :spouse "Dana"]
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[:db/add (d/id-literal :db.part/user -2) :spouse "Dana"]])))))))
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(deftest-db test-valueType-keyword conn
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(let [tx0 (:tx (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1)
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:db/ident :test/kw
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:db/unique :db.unique/identity
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:db/valueType :db.type/keyword}
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{:db/id :db.part/db :db.install/attribute (d/id-literal :db.part/user -1)}])))]
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(let [report (<? (d/<transact! conn [[:db/add (d/id-literal :db.part/user -1) :test/kw :test/kw1]]))
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eid (get-in report [:tempids (d/id-literal :db.part/user -1)])]
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(is (= (<? (<datoms-after (d/db conn) tx0))
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#{[eid :test/kw ":test/kw1"]})) ;; Value is raw.
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(testing "Adding the same value compares existing values correctly."
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(<? (d/<transact! conn [[:db/add eid :test/kw :test/kw1]]))
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(is (= (<? (<datoms-after (d/db conn) tx0))
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#{[eid :test/kw ":test/kw1"]}))) ;; Value is raw.
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(testing "Upserting retracts existing value correctly."
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(<? (d/<transact! conn [[:db/add eid :test/kw :test/kw2]]))
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(is (= (<? (<datoms-after (d/db conn) tx0))
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#{[eid :test/kw ":test/kw2"]}))) ;; Value is raw.
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(testing "Retracting compares values correctly."
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(<? (d/<transact! conn [[:db/retract eid :test/kw :test/kw2]]))
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(is (= (<? (<datoms-after (d/db conn) tx0))
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#{}))))))
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(deftest-db test-vector-upsert conn
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;; Not having DB-as-value really hurts us here. This test only works because all upserts
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;; succeed on top of each other, so we never need to reset the underlying store.
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(<? (d/<transact! conn test-schema))
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(let [tx0 (:tx (<? (d/<transact! conn [{:db/id 101 :name "Ivan" :email "@1"}
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{:db/id 102 :name "Petr" :email "@2"}])))]
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(testing "upsert with tempid"
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(let [report (<? (d/<transact! conn [[:db/add (d/id-literal :db.part/user -1) :name "Ivan"]
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[:db/add (d/id-literal :db.part/user -1) :age 12]]))]
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(is (= (<? (<shallow-entity (d/db conn) 101))
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{:name "Ivan" :age 12 :email "@1"}))
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(is (= (tempids report)
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{-1 101}))))
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(testing "upsert with tempid, order does not matter"
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(let [report (<? (d/<transact! conn [[:db/add (d/id-literal :db.part/user -1) :age 13]
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[:db/add (d/id-literal :db.part/user -1) :name "Petr"]]))]
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(is (= (<? (<shallow-entity (d/db conn) 102))
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{:name "Petr" :age 13 :email "@2"}))
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(is (= (tempids report)
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{-1 102}))))
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(testing "Conflicting upserts fail"
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(is (thrown-with-msg? Throwable #"Conflicting upsert"
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(<? (d/<transact! conn [[:db/add (d/id-literal :db.part/user -1) :name "Ivan"]
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[:db/add (d/id-literal :db.part/user -1) :age 35]
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[:db/add (d/id-literal :db.part/user -1) :name "Petr"]
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[:db/add (d/id-literal :db.part/user -1) :age 36]])))))))
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(deftest-db test-multistep-upsert conn
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(<? (d/<transact! conn test-schema))
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;; The upsert algorithm will first try to resolve -1, fail, and then allocate both -1 and -2.
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(let [tx0 (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :name "Ivan" :email "@1"}
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{:db/id (d/id-literal :db.part/user -2) :name "Petr" :friends (d/id-literal :db.part/user -1)}]))]
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;; Sanity checks that these are freshly allocated, not resolved.
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(is (> (get (tempids tx0) -1) 1000))
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(is (> (get (tempids tx0) -1) 1000))
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;; This time, we can resolve both, but we have to try -1, succeed, and then resolve -2.
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(let [tx1 (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :name "Ivan" :email "@1"}
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{:db/id (d/id-literal :db.part/user -2) :name "Petr" :friends (d/id-literal :db.part/user -1)}]))]
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;; Ensure these are resolved, not freshly allocated.
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(is (= (tempids tx0)
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(tempids tx1))))))
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(deftest-db test-map-upsert conn
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;; Not having DB-as-value really hurts us here. This test only works because all upserts
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;; succeed on top of each other, so we never need to reset the underlying store.
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(<? (d/<transact! conn test-schema))
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(let [tx0 (:tx (<? (d/<transact! conn [{:db/id 101 :name "Ivan" :email "@1"}
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{:db/id 102 :name "Petr" :email "@2"}])))]
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(testing "upsert with tempid"
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(let [tx (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :name "Ivan" :age 35}]))]
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(is (= (<? (<shallow-entity (d/db conn) 101))
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{:name "Ivan" :email "@1" :age 35}))
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(is (= (tempids tx)
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{-1 101}))))
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(testing "upsert by 2 attrs with tempid"
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(let [tx (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :name "Ivan" :email "@1" :age 35}]))]
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(is (= (<? (<shallow-entity (d/db conn) 101))
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{:name "Ivan" :email "@1" :age 35}))
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(is (= (tempids tx)
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{-1 101}))))
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(testing "upsert with existing id"
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(let [tx (<? (d/<transact! conn [{:db/id 101 :name "Ivan" :age 36}]))]
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(is (= (<? (<shallow-entity (d/db conn) 101))
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{:name "Ivan" :email "@1" :age 36}))
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(is (= (tempids tx)
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{}))))
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(testing "upsert by 2 attrs with existing id"
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(let [tx (<? (d/<transact! conn [{:db/id 101 :name "Ivan" :email "@1" :age 37}]))]
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(is (= (<? (<shallow-entity (d/db conn) 101))
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{:name "Ivan" :email "@1" :age 37}))
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(is (= (tempids tx)
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{}))))
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(testing "upsert to two entities, resolve to same tempid, fails due to overlapping writes"
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(is (thrown-with-msg? Throwable #"cardinality constraint"
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(<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :name "Ivan" :age 35}
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{:db/id (d/id-literal :db.part/user -1) :name "Ivan" :age 36}])))))
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(testing "upsert to two entities, two tempids, fails due to overlapping writes"
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(is (thrown-with-msg? Throwable #"cardinality constraint"
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(<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :name "Ivan" :age 35}
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{:db/id (d/id-literal :db.part/user -2) :name "Ivan" :age 36}])))))))
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(deftest-db test-map-upsert-conflicts conn
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;; Not having DB-as-value really hurts us here. This test only works because all upserts
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;; fail until the final one, so we never need to reset the underlying store.
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(<? (d/<transact! conn test-schema))
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(let [tx0 (:tx (<? (d/<transact! conn [{:db/id 101 :name "Ivan" :email "@1"}
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{:db/id 102 :name "Petr" :email "@2"}])))]
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;; TODO: improve error message to refer to upsert inputs.
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(testing "upsert conficts with existing id"
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(is (thrown-with-msg? Throwable #"unique constraint"
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(<? (d/<transact! conn [{:db/id 102 :name "Ivan" :age 36}])))))
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;; TODO: improve error message to refer to upsert inputs.
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(testing "upsert conficts with non-existing id"
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(is (thrown-with-msg? Throwable #"unique constraint"
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(<? (d/<transact! conn [{:db/id 103 :name "Ivan" :age 36}])))))
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;; TODO: improve error message to refer to upsert inputs.
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(testing "upsert by 2 conflicting fields"
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(is (thrown-with-msg? Throwable #"Conflicting upsert"
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(<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :name "Ivan" :email "@2" :age 35}])))))
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(testing "upsert by non-existing value resolves as update"
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(let [report (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :name "Ivan" :email "@3" :age 35}]))]
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(is (= (<? (<shallow-entity (d/db conn) 101))
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{:name "Ivan" :email "@3" :age 35}))
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(is (= (tempids report)
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{-1 101}))))))
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(deftest-db test-add-schema conn
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(let [es [[:db/add :db.part/db :db.install/attribute (d/id-literal :db.part/db -1)]
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{:db/id (d/id-literal :db.part/db -1)
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:db/ident :test/attr
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:db/valueType :db.type/string
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:db/cardinality :db.cardinality/one}]
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report (<? (d/<transact! conn es))
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db-after (:db-after report)
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tx (:tx db-after)]
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(testing "New ident is allocated"
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(is (some? (d/entid db-after :test/attr))))
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(testing "Schema is modified"
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(is (= (get-in db-after [:symbolic-schema :test/attr])
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{:db/valueType :db.type/string,
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:db/cardinality :db.cardinality/one})))
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(testing "Schema is used in subsequent transaction"
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(<? (d/<transact! conn [{:db/id 100 :test/attr "value 1"}]))
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(<? (d/<transact! conn [{:db/id 100 :test/attr "value 2"}]))
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(is (= (<? (<shallow-entity (d/db conn) 100))
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{:test/attr "value 2"})))))
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(deftest-db test-fulltext conn
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(let [schema [{:db/id (d/id-literal :db.part/db -1)
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:db/ident :test/fulltext
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:db/valueType :db.type/string
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:db/fulltext true
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:db/unique :db.unique/identity}
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{:db/id :db.part/db :db.install/attribute (d/id-literal :db.part/db -1)}
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{:db/id (d/id-literal :db.part/db -2)
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:db/ident :test/other
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:db/valueType :db.type/string
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:db/fulltext true
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:db/cardinality :db.cardinality/one}
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{:db/id :db.part/db :db.install/attribute (d/id-literal :db.part/db -2)}
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]
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tx0 (:tx (<? (d/<transact! conn schema)))]
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(testing "Schema checks"
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(is (ds/fulltext? (d/schema (d/db conn))
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(d/entid (d/db conn) :test/fulltext))))
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(testing "Can add fulltext indexed datoms"
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(let [{tx1 :tx txInstant1 :txInstant}
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(<? (d/<transact! conn [[:db/add 101 :test/fulltext "test this"]]))]
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(is (= (<? (<fulltext-values (d/db conn)))
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[[1 "test this"]]))
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|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[101 :test/fulltext 1]})) ;; Values are raw; 1 is the rowid into fulltext_values.
|
|
(is (= (<? (<transactions-after (d/db conn) tx0))
|
|
[[101 :test/fulltext 1 tx1 1] ;; Values are raw; 1 is the rowid into fulltext_values.
|
|
[tx1 :db/txInstant txInstant1 tx1 1]]))
|
|
|
|
(testing "Can replace fulltext indexed datoms"
|
|
(let [{tx2 :tx txInstant2 :txInstant} (<? (d/<transact! conn [[:db/add 101 :test/fulltext "alternate thing"]]))]
|
|
(is (= (<? (<fulltext-values (d/db conn)))
|
|
[[1 "test this"]
|
|
[2 "alternate thing"]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[101 :test/fulltext 2]})) ;; Values are raw; 2 is the rowid into fulltext_values.
|
|
(is (= (<? (<transactions-after (d/db conn) tx0))
|
|
[[101 :test/fulltext 1 tx1 1] ;; Values are raw; 1 is the rowid into fulltext_values.
|
|
[tx1 :db/txInstant txInstant1 tx1 1]
|
|
[101 :test/fulltext 1 tx2 0] ;; Values are raw; 1 is the rowid into fulltext_values.
|
|
[101 :test/fulltext 2 tx2 1] ;; Values are raw; 2 is the rowid into fulltext_values.
|
|
[tx2 :db/txInstant txInstant2 tx2 1]]))
|
|
|
|
(testing "Can upsert keyed by fulltext indexed datoms"
|
|
(let [{tx3 :tx txInstant3 :txInstant} (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user) :test/fulltext "alternate thing" :test/other "other"}]))]
|
|
(is (= (<? (<fulltext-values (d/db conn)))
|
|
[[1 "test this"]
|
|
[2 "alternate thing"]
|
|
[3 "other"]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[101 :test/fulltext 2] ;; Values are raw; 2, 3 are the rowids into fulltext_values.
|
|
[101 :test/other 3]}))
|
|
(is (= (<? (<transactions-after (d/db conn) tx0))
|
|
[[101 :test/fulltext 1 tx1 1] ;; Values are raw; 1 is the rowid into fulltext_values.
|
|
[tx1 :db/txInstant txInstant1 tx1 1]
|
|
[101 :test/fulltext 1 tx2 0] ;; Values are raw; 1 is the rowid into fulltext_values.
|
|
[101 :test/fulltext 2 tx2 1] ;; Values are raw; 2 is the rowid into fulltext_values.
|
|
[tx2 :db/txInstant txInstant2 tx2 1]
|
|
[101 :test/other 3 tx3 1] ;; Values are raw; 3 is the rowid into fulltext_values.
|
|
[tx3 :db/txInstant txInstant3 tx3 1]]))
|
|
|
|
))))))
|
|
|
|
(testing "Can re-use fulltext indexed datoms"
|
|
(let [r (<? (d/<transact! conn [[:db/add 102 :test/other "test this"]]))]
|
|
(is (= (<? (<fulltext-values (d/db conn)))
|
|
[[1 "test this"]
|
|
[2 "alternate thing"]
|
|
[3 "other"]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[101 :test/fulltext 2]
|
|
[101 :test/other 3]
|
|
[102 :test/other 1]})) ;; Values are raw; 1, 2, 3 are the rowids into fulltext_values.
|
|
))
|
|
|
|
(testing "Can retract fulltext indexed datoms"
|
|
(let [r (<? (d/<transact! conn [[:db/retract 101 :test/fulltext "alternate thing"]]))]
|
|
(is (= (<? (<fulltext-values (d/db conn)))
|
|
[[1 "test this"]
|
|
[2 "alternate thing"]
|
|
[3 "other"]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[101 :test/other 3]
|
|
[102 :test/other 1]})) ;; Values are raw; 1, 3 are the rowids into fulltext_values.
|
|
))))
|
|
|
|
(deftest-db test-txInstant conn
|
|
(let [{tx0 :tx} (<? (d/<transact! conn test-schema))
|
|
{txa :tx txInstantA :txInstant} (<? (d/<transact! conn []))]
|
|
(testing ":db/txInstant is set by default"
|
|
(is (= (<? (<transactions-after (d/db conn) tx0))
|
|
[[txa :db/txInstant txInstantA txa 1]])))
|
|
|
|
;; TODO: range check txInstant values against DB clock.
|
|
(testing ":db/txInstant can be set explicitly"
|
|
(let [{txb :tx txInstantB :txInstant} (<? (d/<transact! conn [[:db/add :db/tx :db/txInstant (+ txInstantA 1)]]))]
|
|
(is (= txInstantB (+ txInstantA 1)))
|
|
(is (= (<? (<transactions-after (d/db conn) txa))
|
|
[[txb :db/txInstant txInstantB txb 1]]))
|
|
|
|
(testing ":db/txInstant can be set explicitly, with additional datoms"
|
|
(let [{txc :tx txInstantC :txInstant} (<? (d/<transact! conn [[:db/add :db/tx :db/txInstant (+ txInstantB 2)]
|
|
[:db/add :db/tx :x 123]]))]
|
|
(is (= txInstantC (+ txInstantB 2)))
|
|
(is (= (<? (<transactions-after (d/db conn) txb))
|
|
[[txc :db/txInstant txInstantC txc 1]
|
|
[txc :x 123 txc 1]]))
|
|
|
|
(testing "additional datoms can be added, without :db/txInstant explicitly"
|
|
(let [{txd :tx txInstantD :txInstant} (<? (d/<transact! conn [[:db/add :db/tx :x 456]]))]
|
|
(is (= (<? (<transactions-after (d/db conn) txc))
|
|
[[txd :db/txInstant txInstantD txd 1]
|
|
[txd :x 456 txd 1]]))))))))))
|
|
|
|
(deftest-db test-no-tx conn
|
|
(let [{tx0 :tx} (<? (d/<transact! conn test-schema))]
|
|
(testing "Cannot specificy an explicit tx"
|
|
(is (thrown-with-msg?
|
|
ExceptionInfo #"Bad entity: too long"
|
|
(<? (d/<transact! conn [[:db/add (d/id-literal :db.part/user) :x 0 10101]])))))))
|
|
|
|
(deftest-db test-explode-sequences conn
|
|
(let [{tx0 :tx} (<? (d/<transact! conn test-schema))]
|
|
(testing ":db.cardinality/many sequences are accepted"
|
|
(<? (d/<transact! conn [{:db/id 101 :aka ["first" "second"]}]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[101 :aka "first"]
|
|
[101 :aka "second"]})))
|
|
|
|
(testing ":db.cardinality/many sequences are recursively applied, allowing unexpected sequence nesting"
|
|
(<? (d/<transact! conn [{:db/id 102 :aka [[["first"]] ["second"]]}]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[101 :aka "first"]
|
|
[101 :aka "second"]
|
|
[102 :aka "first"]
|
|
[102 :aka "second"]})))
|
|
|
|
(testing ":db.cardinality/one sequences fail"
|
|
(is (thrown-with-msg?
|
|
ExceptionInfo #"Sequential values"
|
|
(<? (d/<transact! conn [{:db/id 101 :email ["@1" "@2"]}])))))))
|
|
|
|
(deftest-db test-explode-maps conn
|
|
(let [{tx0 :tx} (<? (d/<transact! conn test-schema))]
|
|
(testing "nested maps are accepted"
|
|
(<? (d/<transact! conn [{:db/id 101 :friends {:name "Petr"}}]))
|
|
;; TODO: this works only because we have a single friend.
|
|
(let [{petr :friends} (<? (<shallow-entity (d/db conn) 101))]
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[101 :friends petr]
|
|
[petr :name "Petr"]}))))
|
|
|
|
(testing "recursively nested maps are accepted"
|
|
(<? (d/<transact! conn [{:db/id 102 :friends {:name "Ivan" :friends {:name "Petr"}}}]))
|
|
;; This would be much easier with `entity` and lookup refs.
|
|
(let [{ivan :friends} (<? (<shallow-entity (d/db conn) 102))
|
|
{petr :friends} (<? (<shallow-entity (d/db conn) ivan))]
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[101 :friends petr]
|
|
[petr :name "Petr"]
|
|
[102 :friends ivan]
|
|
[ivan :name "Ivan"]
|
|
[ivan :friends petr]}))))
|
|
|
|
(testing "nested maps without :db.type/ref fail"
|
|
(is (thrown-with-msg?
|
|
ExceptionInfo #"\{:db/valueType :db.type/ref\}"
|
|
(<? (d/<transact! conn [{:db/id 101 :aka {:name "Petr"}}])))))))
|
|
|
|
(deftest-db test-explode-reverse-refs conn
|
|
(let [{tx0 :tx} (<? (d/<transact! conn test-schema))]
|
|
(testing "reverse refs are accepted"
|
|
(<? (d/<transact! conn [{:db/id 101 :name "Igor"}]))
|
|
(<? (d/<transact! conn [{:db/id 102 :name "Oleg" :_friends 101}]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[101 :name "Igor"]
|
|
[102 :name "Oleg"]
|
|
[101 :friends 102]})))
|
|
|
|
(testing "reverse refs without :db.type/ref fail"
|
|
(is (thrown-with-msg?
|
|
ExceptionInfo #"\{:db/valueType :db.type/ref\}"
|
|
(<? (d/<transact! conn [{:db/id 101 :_aka 102}])))))))
|
|
|
|
;; We don't use deftest-db in order to be able to re-open an on disk file.
|
|
(deftest-async test-next-eid
|
|
(with-tempfile [t (tempfile)]
|
|
(let [conn (<? (d/<connect t))
|
|
{tx0 :tx} (<? (d/<transact! conn test-schema))]
|
|
(testing "entids are increasing, tx ids are larger than user ids"
|
|
(let [r1 (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :name "Igor"}]))
|
|
r2 (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -2) :name "Oleg"}]))
|
|
e1 (get (tempids r1) -1)
|
|
e2 (get (tempids r2) -2)]
|
|
(is (< e1 (:tx r1)))
|
|
(is (< e2 (:tx r2)))
|
|
(is (< e1 e2))
|
|
(is (< (:tx r1) (:tx r2)))
|
|
|
|
;; Close and re-open same DB.
|
|
(<? (d/<close conn))
|
|
(let [conn (<? (d/<connect t))]
|
|
(try
|
|
(testing "entid counters are persisted across re-opens"
|
|
(let [r3 (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -3) :name "Petr"}]))
|
|
e3 (get (tempids r3) -3)]
|
|
(is (< e3 (:tx r3)))
|
|
(is (< e2 e3))
|
|
(is (< (:tx r2) (:tx r3)))))
|
|
|
|
(finally
|
|
(<? (d/<close conn))))))))))
|
|
|
|
(deftest-db test-unique-value conn
|
|
(let [tx0 (:tx (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1)
|
|
:db/ident :test/x
|
|
:db/unique :db.unique/value
|
|
:db/valueType :db.type/long
|
|
:db.install/_attribute :db.part/db}
|
|
{:db/id (d/id-literal :db.part/user -2)
|
|
:db/ident :test/y
|
|
:db/unique :db.unique/value
|
|
:db/valueType :db.type/long
|
|
:db.install/_attribute :db.part/db}])))]
|
|
|
|
(testing "can insert different :db.unique/value attributes with the same value"
|
|
(let [report1 (<? (d/<transact! conn [[:db/add (d/id-literal :db.part/user -1) :test/x 12345]]))
|
|
eid1 (get-in report1 [:tempids (d/id-literal :db.part/user -1)])
|
|
report2 (<? (d/<transact! conn [[:db/add (d/id-literal :db.part/user -2) :test/y 12345]]))
|
|
eid2 (get-in report2 [:tempids (d/id-literal :db.part/user -2)])]
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid1 :test/x 12345]
|
|
[eid2 :test/y 12345]}))))
|
|
|
|
(testing "can't upsert a :db.unique/value field"
|
|
(is (thrown-with-msg?
|
|
ExceptionInfo #"unique constraint"
|
|
(<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :test/x 12345 :test/y 99999}])))))))
|
|
|
|
(def retract-schema
|
|
[{:db/id (d/id-literal :db.part/user -1)
|
|
:db/ident :test/long
|
|
:db/cardinality :db.cardinality/many
|
|
:db/valueType :db.type/long
|
|
:db.install/_attribute :db.part/db}
|
|
{:db/id (d/id-literal :db.part/user -2)
|
|
:db/ident :test/fulltext
|
|
:db/cardinality :db.cardinality/many
|
|
:db/valueType :db.type/string
|
|
:db/fulltext true
|
|
:db.install/_attribute :db.part/db}
|
|
{:db/id (d/id-literal :db.part/user -3)
|
|
:db/ident :test/ref
|
|
:db/valueType :db.type/ref
|
|
:db.install/_attribute :db.part/db}])
|
|
|
|
(deftest-db test-retract-attribute conn
|
|
(let [tx0 (:tx (<? (d/<transact! conn retract-schema)))]
|
|
|
|
(testing "retractAttribute"
|
|
(let [report (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :test/long [12345 123456]}
|
|
{:db/id (d/id-literal :db.part/user -2) :test/ref (d/id-literal :db.part/user -1)}]))
|
|
eid1 (get-in report [:tempids (d/id-literal :db.part/user -1)])
|
|
eid2 (get-in report [:tempids (d/id-literal :db.part/user -2)])]
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid1 :test/long 12345]
|
|
[eid1 :test/long 123456]
|
|
[eid2 :test/ref eid1]}))
|
|
|
|
(testing "retractAttribute with no matching datoms succeeds"
|
|
(<? (d/<transact! conn [[:db.fn/retractAttribute eid1 :test/ref]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid1 :test/long 12345]
|
|
[eid1 :test/long 123456]
|
|
[eid2 :test/ref eid1]})))
|
|
|
|
(testing "retractAttribute retracts datoms"
|
|
(let [{tx1 :tx} (<? (d/<transact! conn [[:db.fn/retractAttribute eid2 :test/ref]]))]
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid1 :test/long 12345]
|
|
[eid1 :test/long 123456]})))
|
|
|
|
(let [{tx2 :tx} (<? (d/<transact! conn [[:db.fn/retractAttribute eid1 :test/long]]))]
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{}))))))))
|
|
|
|
(deftest-db test-retract-attribute-multiple conn
|
|
(let [tx0 (:tx (<? (d/<transact! conn retract-schema)))]
|
|
|
|
(let [report (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :test/long [12345 123456]}
|
|
{:db/id (d/id-literal :db.part/user -1) :test/fulltext ["1 fulltext value" "2 fulltext value"]}]))
|
|
eid1 (get-in report [:tempids (d/id-literal :db.part/user -1)])]
|
|
(is (= (<? (<fulltext-values (d/db conn)))
|
|
[[1 "1 fulltext value"]
|
|
[2 "2 fulltext value"]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid1 :test/fulltext 1]
|
|
[eid1 :test/fulltext 2]
|
|
[eid1 :test/long 12345]
|
|
[eid1 :test/long 123456]}))
|
|
|
|
(testing "multiple retractAttribute in one transaction"
|
|
(let [{tx1 :tx} (<? (d/<transact! conn [[:db.fn/retractAttribute eid1 :test/long]
|
|
[:db.fn/retractAttribute eid1 :test/fulltext]]))]
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{})))))))
|
|
|
|
(deftest-db test-retract-attribute-fulltext conn
|
|
(let [tx0 (:tx (<? (d/<transact! conn retract-schema)))]
|
|
|
|
(testing "retractAttribute, fulltext"
|
|
(let [report (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :test/fulltext ["1 fulltext value" "2 fulltext value"]}
|
|
{:db/id (d/id-literal :db.part/user -2) :test/ref (d/id-literal :db.part/user -1)}]))
|
|
eid1 (get-in report [:tempids (d/id-literal :db.part/user -1)])
|
|
eid2 (get-in report [:tempids (d/id-literal :db.part/user -2)])]
|
|
(is (= (<? (<fulltext-values (d/db conn)))
|
|
[[1 "1 fulltext value"]
|
|
[2 "2 fulltext value"]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid1 :test/fulltext 1]
|
|
[eid1 :test/fulltext 2]
|
|
[eid2 :test/ref eid1]}))
|
|
|
|
(testing "retractAttribute retracts datoms, fulltext"
|
|
(let [{tx1 :tx} (<? (d/<transact! conn [[:db.fn/retractAttribute eid2 :test/ref]]))]
|
|
;; fulltext values are not purged.
|
|
(is (= (<? (<fulltext-values (d/db conn)))
|
|
[[1 "1 fulltext value"]
|
|
[2 "2 fulltext value"]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid1 :test/fulltext 1]
|
|
[eid1 :test/fulltext 2]})))
|
|
|
|
(let [{tx2 :tx} (<? (d/<transact! conn [[:db.fn/retractAttribute eid1 :test/fulltext]]))]
|
|
;; fulltext values are not purged.
|
|
(is (= (<? (<fulltext-values (d/db conn)))
|
|
[[1 "1 fulltext value"]
|
|
[2 "2 fulltext value"]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{}))))))))
|
|
|
|
(deftest-db test-retract-entity conn
|
|
(let [tx0 (:tx (<? (d/<transact! conn retract-schema)))]
|
|
|
|
(testing "retractEntity"
|
|
(let [report (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :test/long [12345 123456]}
|
|
{:db/id (d/id-literal :db.part/user -2) :test/ref (d/id-literal :db.part/user -1)}
|
|
{:db/id (d/id-literal :db.part/user -3) :test/long 0xdeadbeef}]))
|
|
eid1 (get-in report [:tempids (d/id-literal :db.part/user -1)])
|
|
eid2 (get-in report [:tempids (d/id-literal :db.part/user -2)])
|
|
eid3 (get-in report [:tempids (d/id-literal :db.part/user -3)])]
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid1 :test/long 12345]
|
|
[eid1 :test/long 123456]
|
|
[eid2 :test/ref eid1]
|
|
[eid3 :test/long 0xdeadbeef]}))
|
|
|
|
(testing "retractEntity with no matching datoms succeeds"
|
|
(<? (d/<transact! conn [[:db.fn/retractEntity 0xdeadbeef]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid1 :test/long 12345]
|
|
[eid1 :test/long 123456]
|
|
[eid2 :test/ref eid1]
|
|
[eid3 :test/long 0xdeadbeef]})))
|
|
|
|
(testing "retractEntity retracts datoms"
|
|
(let [{tx1 :tx} (<? (d/<transact! conn [[:db.fn/retractEntity eid3]]))]
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid1 :test/long 12345]
|
|
[eid1 :test/long 123456]
|
|
[eid2 :test/ref eid1]}))))
|
|
|
|
(testing "retractEntity retracts datoms and references"
|
|
(let [{tx2 :tx} (<? (d/<transact! conn [[:db.fn/retractEntity eid1]]))]
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
;; [eid2 :test/ref eid1] is gone, since the ref eid1 is gone.
|
|
#{}))))))))
|
|
|
|
(deftest-db test-retract-entity-multiple conn
|
|
(let [tx0 (:tx (<? (d/<transact! conn retract-schema)))]
|
|
|
|
(let [report (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :test/long [12345 123456]}
|
|
{:db/id (d/id-literal :db.part/user -2) :test/fulltext ["1 fulltext value" "2 fulltext value"]}]))
|
|
eid1 (get-in report [:tempids (d/id-literal :db.part/user -1)])
|
|
eid2 (get-in report [:tempids (d/id-literal :db.part/user -2)])]
|
|
(is (= (<? (<fulltext-values (d/db conn)))
|
|
[[1 "1 fulltext value"]
|
|
[2 "2 fulltext value"]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid2 :test/fulltext 1]
|
|
[eid2 :test/fulltext 2]
|
|
[eid1 :test/long 12345]
|
|
[eid1 :test/long 123456]}))
|
|
|
|
(testing "multiple retractEntity in one transaction"
|
|
(let [{tx1 :tx} (<? (d/<transact! conn [[:db.fn/retractEntity eid1]
|
|
[:db.fn/retractEntity eid2]]))]
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{})))))))
|
|
|
|
(deftest-db test-retract-entity-fulltext conn
|
|
(let [tx0 (:tx (<? (d/<transact! conn retract-schema)))]
|
|
|
|
(testing "retractEntity, fulltext"
|
|
(let [report (<? (d/<transact! conn [{:db/id (d/id-literal :db.part/user -1) :test/fulltext ["1 fulltext value" "2 fulltext value"]}
|
|
{:db/id (d/id-literal :db.part/user -2) :test/ref (d/id-literal :db.part/user -1)}
|
|
{:db/id (d/id-literal :db.part/user -3) :test/fulltext "3 fulltext value"}]))
|
|
eid1 (get-in report [:tempids (d/id-literal :db.part/user -1)])
|
|
eid2 (get-in report [:tempids (d/id-literal :db.part/user -2)])
|
|
eid3 (get-in report [:tempids (d/id-literal :db.part/user -3)])]
|
|
(is (= (<? (<fulltext-values (d/db conn)))
|
|
[[1 "1 fulltext value"]
|
|
[2 "2 fulltext value"]
|
|
[3 "3 fulltext value"]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid1 :test/fulltext 1]
|
|
[eid1 :test/fulltext 2]
|
|
[eid2 :test/ref eid1]
|
|
[eid3 :test/fulltext 3]}))
|
|
|
|
(testing "retractEntity with no matching datoms succeeds, fulltext"
|
|
(<? (d/<transact! conn [[:db.fn/retractEntity 0xdeadbeef]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid1 :test/fulltext 1]
|
|
[eid1 :test/fulltext 2]
|
|
[eid2 :test/ref eid1]
|
|
[eid3 :test/fulltext 3]})))
|
|
|
|
(testing "retractEntity retracts datoms, fulltext"
|
|
(let [{tx1 :tx} (<? (d/<transact! conn [[:db.fn/retractEntity eid3]]))]
|
|
;; fulltext values are not purged.
|
|
(is (= (<? (<fulltext-values (d/db conn)))
|
|
[[1 "1 fulltext value"]
|
|
[2 "2 fulltext value"]
|
|
[3 "3 fulltext value"]]))
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
#{[eid1 :test/fulltext 1]
|
|
[eid1 :test/fulltext 2]
|
|
[eid2 :test/ref eid1]}))))
|
|
|
|
(testing "retractEntity retracts datoms and references, fulltext"
|
|
(let [{tx2 :tx} (<? (d/<transact! conn [[:db.fn/retractEntity eid1]]))]
|
|
(is (= (<? (<datoms-after (d/db conn) tx0))
|
|
;; [eid2 :test/ref eid1] is gone, since the ref eid1 is gone.
|
|
#{}))))))))
|
|
|
|
;; We don't use deftest-db in order to be able to re-open an on disk file.
|
|
(deftest-async test-reopen-schema
|
|
(with-tempfile [t (tempfile)]
|
|
(let [conn (<? (d/<connect t))
|
|
test-schema [{:db/id (d/id-literal :db.part/user -1)
|
|
:db/ident :test/fulltext
|
|
:db/cardinality :db.cardinality/many
|
|
:db/valueType :db.type/string
|
|
:db/fulltext true
|
|
:db/doc "Documentation string"
|
|
:db.install/_attribute :db.part/db}]
|
|
{tx0 :tx} (<? (d/<transact! conn test-schema))]
|
|
(testing "Values in schema are correct initially"
|
|
(let [db (d/db conn)
|
|
schema (d/schema db)]
|
|
(is (= true (ds/indexing? schema (d/entid db :db/txInstant))))
|
|
(is (= true (ds/fulltext? schema (d/entid db :test/fulltext))))
|
|
(is (= "Documentation string" (ds/doc schema (d/entid db :test/fulltext))))
|
|
(is (= :db.type/string (ds/valueType schema (d/entid db :test/fulltext))))))
|
|
|
|
;; Close and re-open same DB.
|
|
(<? (d/<close conn))
|
|
(let [conn (<? (d/<connect t))]
|
|
(try
|
|
(testing "Boolean values in schema are correct after re-opening"
|
|
(let [db (d/db conn)
|
|
schema (d/schema db)]
|
|
(is (= true (ds/indexing? schema (d/entid db :db/txInstant))))
|
|
(is (= true (ds/fulltext? schema (d/entid db :test/fulltext))))
|
|
(is (= "Documentation string" (ds/doc schema (d/entid db :test/fulltext))))
|
|
(is (= :db.type/string (ds/valueType schema (d/entid db :test/fulltext))))))
|
|
|
|
(finally
|
|
(<? (d/<close conn))))))))
|
|
|
|
(deftest-db test-simple-schema conn
|
|
(let [in {:name "mystuff"
|
|
:attributes [{:name "foo/age"
|
|
:type "long"
|
|
:cardinality "one"}
|
|
{:name "foo/name"
|
|
:type "string"
|
|
:cardinality "many"
|
|
:doc "People can have many names."}
|
|
{:name "foo/id"
|
|
:type "string"
|
|
:cardinality "one"
|
|
:unique "value"}]}
|
|
expected [{:db/ident :foo/age
|
|
:db/valueType :db.type/long
|
|
:db/cardinality :db.cardinality/one
|
|
:db.install/_attribute :db.part/db}
|
|
{:db/ident :foo/name
|
|
:db/valueType :db.type/string
|
|
:db/cardinality :db.cardinality/many
|
|
:db/doc "People can have many names."
|
|
:db.install/_attribute :db.part/db}
|
|
{:db/ident :foo/id
|
|
:db/valueType :db.type/string
|
|
:db/cardinality :db.cardinality/one
|
|
:db/unique :db.unique/value
|
|
:db.install/_attribute :db.part/db}]]
|
|
|
|
(testing "Simple schemas are expanded."
|
|
(is (= (map #(dissoc %1 :db/id) (datomish.simple-schema/simple-schema->schema in))
|
|
expected)))))
|
|
|
|
(deftest-db test-lookup-refs conn
|
|
(let [{tx0 :tx} (<? (d/<transact! conn test-schema))
|
|
{tx1 :tx} (<? (d/<transact! conn [[:db/add 1 :name "Ivan"]
|
|
[:db/add 2 :name "Phil"]
|
|
[:db/add 3 :name "Petr"]]))]
|
|
(testing "Looks up entity refs"
|
|
(let [{tx :tx} (<? (d/<transact! conn [[:db/add (d/lookup-ref :name "Ivan") :aka "Devil"]
|
|
[:db/add (d/lookup-ref :name "Phil") :email "@1"]]))]
|
|
(is (= #{[1 :name "Ivan"]
|
|
[2 :name "Phil"]
|
|
[3 :name "Petr"]
|
|
[1 :aka "Devil"]
|
|
[2 :email "@1"]}
|
|
(<? (<datoms>= (d/db conn) tx1))))))
|
|
|
|
(testing "Looks up value refs"
|
|
(let [{tx :tx} (<? (d/<transact! conn [[:db/add 1 :friends (d/lookup-ref :name "Petr")]
|
|
[:db/add 3 :friends (d/lookup-ref :name "Ivan")]]))]
|
|
(is (= #{[1 :friends 3]
|
|
[3 :friends 1]}
|
|
(<? (<datoms>= (d/db conn) tx))))))
|
|
|
|
(testing "Looks up entity refs in maps"
|
|
(let [{tx :tx} (<? (d/<transact! conn [{:db/id (d/lookup-ref :name "Phil") :friends 1}]))]
|
|
(is (= #{[2 :friends 1]}
|
|
(<? (<datoms>= (d/db conn) tx))))))
|
|
|
|
(testing "Looks up value refs in maps"
|
|
(let [{tx :tx} (<? (d/<transact! conn [{:db/id 2 :friends (d/lookup-ref :name "Petr")}]))]
|
|
(is (= #{[2 :friends 3]}
|
|
(<? (<datoms>= (d/db conn) tx))))))
|
|
|
|
(testing "Looks up value refs in sequences in maps"
|
|
(let [{tx :tx} (<? (d/<transact! conn [{:db/id 1 :friends [(d/lookup-ref :name "Ivan") (d/lookup-ref :name "Phil")]}]))]
|
|
(is (= #{[1 :friends 1]
|
|
[1 :friends 2]}
|
|
(<? (<datoms>= (d/db conn) tx))))))
|
|
|
|
(testing "Looks up refs when there are more than 999 refs (all present)"
|
|
(let
|
|
[bound (* 999 2)
|
|
make-add #(vector :db/add (+ 1000 %) :name (str "Ivan-" %))
|
|
make-ref #(-> {:db/id (d/lookup-ref :name (str "Ivan-" %)) :email (str "Ivan-" % "@" %)})
|
|
{tx-data1 :tx-data} (<? (d/<transact! conn (map make-add (range bound))))
|
|
{tx-data2 :tx-data} (<? (d/<transact! conn (map make-ref (range bound))))]
|
|
(is (= bound (dec (count tx-data1)))) ;; Each :name is new; dec to account for :db/tx.
|
|
(is (= bound (dec (count tx-data2)))) ;; Each lookup-ref exists, each :email is new; dec for :db/tx.
|
|
))
|
|
|
|
(testing "Fails for missing entities"
|
|
(is (thrown-with-msg?
|
|
ExceptionInfo #"No entity found for lookup-ref"
|
|
(<? (d/<transact! conn [[:db/add (d/lookup-ref :name "Mysterioso") :aka "The Magician"]]))))
|
|
(is (thrown-with-msg?
|
|
ExceptionInfo #"No entity found for lookup-ref"
|
|
(<? (d/<transact! conn [[:db/add 1 :friends (d/lookup-ref :name "Mysterioso")]])))))
|
|
|
|
(testing "Fails for non-identity attributes"
|
|
(is (thrown-with-msg?
|
|
ExceptionInfo #"Lookup-ref found with non-unique-identity attribute"
|
|
(<? (d/<transact! conn [[:db/add (d/lookup-ref :aka "The Magician") :email "@2"]]))))
|
|
(is (thrown-with-msg?
|
|
ExceptionInfo #"Lookup-ref found with non-unique-identity attribute"
|
|
(<? (d/<transact! conn [[:db/add 1 :friends (d/lookup-ref :aka "The Magician")]])))))))
|
|
|
|
(deftest-db test-fulltext-lookup-refs conn
|
|
(let [schema [{:db/id (d/id-literal :db.part/db -1)
|
|
:db/ident :test/fulltext
|
|
:db/valueType :db.type/string
|
|
:db/fulltext true
|
|
:db/unique :db.unique/identity}
|
|
{:db/id :db.part/db :db.install/attribute (d/id-literal :db.part/db -1)}
|
|
{:db/id (d/id-literal :db.part/db -2)
|
|
:db/ident :test/other
|
|
:db/valueType :db.type/string
|
|
:db/fulltext true
|
|
:db/cardinality :db.cardinality/one}
|
|
{:db/id :db.part/db :db.install/attribute (d/id-literal :db.part/db -2)}
|
|
]
|
|
tx0 (:tx (<? (d/<transact! conn schema)))]
|
|
|
|
(testing "Can look up fulltext refs"
|
|
(<? (d/<transact! conn [[:db/add 101 :test/fulltext "test this"]]))
|
|
|
|
(let [{tx :tx} (<? (d/<transact! conn [{:db/id (d/lookup-ref :test/fulltext "test this") :test/other "test other"}]))]
|
|
(is (= (<? (<fulltext-values (d/db conn)))
|
|
[[1 "test this"]
|
|
[2 "test other"]]))
|
|
(is (= #{[101 :test/other 2]} ;; Values are raw; 2 is the rowid into fulltext_values.
|
|
(<? (<datoms>= (d/db conn) tx))))))
|
|
|
|
(testing "Fails for missing fulltext entities"
|
|
(is (thrown-with-msg?
|
|
ExceptionInfo #"No entity found for lookup-ref"
|
|
(<? (d/<transact! conn [[:db/add (d/lookup-ref :test/fulltext "not found") :test/other "test random"]])))))))
|
|
|
|
#_ (time (t/run-tests))
|
|
|
|
#_ (time (clojure.test/test-vars [#'test-lookup-refs]))
|