200 lines
6.3 KiB
Haskell
200 lines
6.3 KiB
Haskell
{-# LANGUAGE BlockArguments #-}
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{-# LANGUAGE DuplicateRecordFields #-}
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{-# LANGUAGE ImportQualifiedPost #-}
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{-# LANGUAGE OverloadedRecordDot #-}
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{-# HLINT ignore "Use const" #-}
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{-# HLINT ignore "Unused LANGUAGE pragma" #-}
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{-# HLINT ignore "Avoid lambda" #-}
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{-# LANGUAGE ScopedTypeVariables #-}
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{-# LANGUAGE TypeApplications #-}
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{-# LANGUAGE NoFieldSelectors #-}
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{-# LANGUAGE NoMonomorphismRestriction #-}
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{-# OPTIONS_GHC -Wno-unrecognised-pragmas #-}
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module Test.Datalog.InMemoryDBSpec where
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import Data.Map qualified as Map
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import Data.Set qualified as Set
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import Datalog.DatalogParser
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import Datalog.InMemoryDB
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import Datalog.InMemoryDB qualified as InMemoryDB
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import Test.Hspec
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import Datalog.DatalogDB
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import Data.Text
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spec :: Spec
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spec = do
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describe "InMemoryDB operations" do
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it "can ingest facts into relations & a universe" $ do
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let db =
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InMemoryDB.withFacts
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[ "parent(\"alice\", \"bob\")."
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, "parent(\"bob\", \"carol\")."
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]
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constants db
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`shouldBe` Set.fromList (Sym <$> ["alice", "bob", "carol"])
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relations db
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`shouldBe` Map.fromList
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[
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( "parent"
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, Relation "parent" 2 (Set.fromList $ Sym <<$>> [["alice", "bob"], ["bob", "carol"]]) []
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)
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]
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it "can ingest facts and rules" do
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let db =
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InMemoryDB.withFactsAndRules
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[ "parent(\"alice\", \"bob\")."
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, "parent(\"bob\", \"carol\")."
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]
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[ "ancestor(X,Y) :- parent(X,Z), ancestor(Z,Y)."
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, "ancestor(X,Y) :- parent(X,Y)."
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]
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parentRelation =
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Relation
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{ _name = "parent"
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, _arity = 2
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, _tuples =
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Set.fromList $
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Sym <<$>> [["alice", "bob"], ["bob", "carol"]]
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, _rules = []
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}
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ancestorRule = RelationRule
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{ headVariables = ["X", "Y", "Z"]
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, bodyElements =
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[ ruleBody "parent" [0, 2]
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, ruleBody "ancestor" [2, 1]
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]
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}
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ancestorRule2 = RelationRule
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{ headVariables = ["X", "Y"]
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, bodyElements =
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[ ruleBody "parent" [0, 1] ]
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}
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ancestorRelation =
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Relation
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{ _arity = 2
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, _name = "ancestor"
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, _tuples = Set.empty
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, _rules = [ancestorRule, ancestorRule2]
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}
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constants db
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`shouldBe` Set.fromList (Sym <$> ["alice", "bob", "carol"])
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relations db
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`shouldBe` Map.fromList
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[ ("ancestor", ancestorRelation)
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, ("parent", parentRelation)
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]
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it "can ingest facts and rules with constants" do
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let db =
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InMemoryDB.withFactsAndRules
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[]
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["ancestor(X,\"patriarch\") :- ."]
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ancestorRule =
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RelationRule
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{ headVariables = ["X"]
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, bodyElements = []
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}
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ancestorRelation =
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Relation
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{ _arity = 2
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, _name = "ancestor"
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, _tuples = Set.empty
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, _rules = [ancestorRule]
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}
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relations db
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`shouldBe` Map.singleton "ancestor" ancestorRelation
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constants db
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`shouldBe` Set.fromList (Sym <$> ["patriarch"])
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it "can ingest facts and rules with duplicate head entries" do
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let db =
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InMemoryDB.withFactsAndRules
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[]
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["equivalent(Q,Q) :- ."]
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equivalentRule =
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RelationRule
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{ headVariables = ["Q"]
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, bodyElements = []
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}
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equivalentRelation =
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Relation
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{ _arity = 2
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, _name = "equivalent"
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, _tuples = Set.empty
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, _rules = [equivalentRule]
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}
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relations db
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`shouldBe` Map.singleton "equivalent" equivalentRelation
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constants db
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`shouldBe` Set.empty
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it "can ingest a theory of equivalence relations" do
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let db =
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InMemoryDB.withFactsAndRules
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[]
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[ "equivalent(Q,Q) :- ."
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, "equivalent(R,Q) :- equivalent(Q,R)."
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, "equivalent(Q,S) :- equivalent(Q,R), equivalent(R,S)."
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]
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rule1 =
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RelationRule
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{ headVariables = ["Q"]
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, bodyElements = []
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}
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rule2 =
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RelationRule
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{ headVariables = ["R", "Q"]
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, bodyElements =
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[ ruleBody "equivalent" [1, 0] ]
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}
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rule3 =
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RelationRule
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{ headVariables = ["Q", "S", "R"]
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, bodyElements =
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[ ruleBody "equivalent" [0, 2]
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, ruleBody "equivalent" [2, 1]
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]
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}
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equivalentRelation =
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Relation
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{ _arity = 2
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, _name = "equivalent"
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, _tuples = Set.empty
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, _rules = [rule1, rule2, rule3]
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}
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relations db
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`shouldBe` Map.singleton "equivalent" equivalentRelation
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constants db
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`shouldBe` Set.empty
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it "can do basic queries" do
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let db :: InMemoryDB =
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InMemoryDB.withFacts
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[ "parent(\"alice\", \"bob\")."
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, "parent(\"bob\", \"carol\")."
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]
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query db "?- parent(alice,X)." `shouldBe` "#NYI" -- ideally, 'bob'
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(<<$>>) :: (Functor f1, Functor f2) => (a -> b) -> f1 (f2 a) -> f1 (f2 b)
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(<<$>>) = fmap fmap fmap
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-- (<<<$>>>) :: (Functor f1, Functor f2, Functor f3) => f1 (f2 (a -> b)) -> f1 (f2 (f3 a -> f3 b))
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-- (<<<$>>>) :: Functor f => (a1 -> b) -> (a2 -> a1) -> f a2 -> f b
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-- (<<<$>>>) :: (Functor f1, Functor f2) => (a1 -> a2 -> b) -> f1 a1 -> f1 (f2 a2 -> f2 b)
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-- (<<<$>>>) :: (Functor f1, Functor f2, Functor f3) => f1 (a -> b) -> f1 (f2 (f3 a) -> f2 (f3 b))
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(<<<$>>>) :: (Functor f1, Functor f2, Functor f3) => (a -> b) -> f1 (f2 (f3 a)) -> f1 (f2 (f3 b))
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(<<<$>>>) = fmap fmap fmap fmap fmap fmap fmap fmap
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ruleBody :: Text -> [Int] -> RuleBodyElement
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ruleBody subRelationId indices =
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RuleBodyElement
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{ _subRelationId = subRelationId
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, _ruleElements =
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RuleElementVariable <$> indices
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} |