{-# LANGUAGE CPP #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE TypeSynonymInstances #-} -------------------------------------------------------------------------------- -- See end of this file for licence information. -------------------------------------------------------------------------------- -- | -- Module : VarBinding -- Copyright : (c) 2003, Graham Klyne, 2009 Vasili I Galchin, -- 2011, 2012, 2014, 2015, 2016, 2018 Douglas Burke -- License : GPL V2 -- -- Maintainer : Douglas Burke -- Stability : experimental -- Portability : CPP, FlexibleInstances, OverloadedStrings, TypeSynonymInstances -- -- This module defines functions for representing and manipulating query -- binding variable sets. This is the key data that mediates between -- query and back substitution when performing inferences. A framework -- of query variable modifiers is provided that can be used to -- implement richer inferences, such as filtering of query results, -- or replacing values based on known relationships. -- -------------------------------------------------------------------------------- module Swish.VarBinding ( VarBinding(..), nullVarBinding , boundVars, subBinding, makeVarBinding , applyVarBinding, joinVarBindings, addVarBinding , VarBindingModify(..), OpenVarBindingModify , openVbmName , vbmCompatibility, vbmCompose , composeSequence, findCompositions, findComposition , VarBindingFilter(..) , makeVarFilterModify , makeVarTestFilter, makeVarCompareFilter , varBindingId, nullVarBindingModify , varFilterDisjunction, varFilterConjunction , varFilterEQ, varFilterNE ) where import Swish.Namespace (ScopedName, getScopeLocal) import Swish.QName (newLName, getLName) import Swish.RDF.Vocabulary (swishName) import Swish.Utils.ListHelpers (flist) #if (!defined(__GLASGOW_HASKELL__)) || (__GLASGOW_HASKELL__ < 710) import Control.Applicative ((<$>), (<*>)) import Data.Monoid (Monoid(..), mconcat) #endif #if !(MIN_VERSION_base(4, 11, 0)) import Data.Semigroup #endif import Control.Monad (mplus) import Data.Function (on) import Data.List (find, intersect, union, (\\), foldl', permutations) import Data.Maybe (mapMaybe, fromMaybe, isJust, fromJust, listToMaybe) import Data.Ord (comparing) import qualified Data.Map as M import qualified Data.Set as S -- import Prelude ------------------------------------------------------------ -- Query variable bindings ------------------------------------------------------------ -- |VarBinding is the type of an arbitrary variable bindings -- value, where the type of the bound values is not specified. -- data VarBinding a b = VarBinding { vbMap :: a -> Maybe b , vbEnum :: S.Set (a,b) , vbNull :: Bool } -- | The Eq instance is defined as the set equivalence of the -- pairs of variables in the binding. -- instance (Ord a, Ord b) => Eq (VarBinding a b) where (==) = (==) `on` vbEnum -- | The Ord instance is defined only on the pairs of -- variables in the binding. instance (Ord a, Ord b) => Ord (VarBinding a b) where compare = comparing vbEnum -- | When combining instances, if there is an overlapping binding then -- the value from the first instance is used. instance (Ord a, Ord b) => Semigroup (VarBinding a b) where (<>) = joinVarBindings instance (Ord a, Ord b) => Monoid (VarBinding a b) where mempty = nullVarBinding #if !(MIN_VERSION_base(4, 11, 0)) mappend = (<>) #endif -- | The Show instance only displays the pairs of variables -- in the binding. -- instance (Show a, Show b) => Show (VarBinding a b) where show = show . S.toList . vbEnum -- | The null, or empty, binding maps no query variables. -- This is the 'mempty' instance of the Monoid. -- nullVarBinding :: VarBinding a b nullVarBinding = VarBinding { vbMap = const Nothing , vbEnum = S.empty , vbNull = True } -- |Return a list of the variables bound by a supplied variable binding -- -- The Ord instance on b is not needed (it was circa GHC 7.6) but is -- kept in to avoid the need to increase the minor version number. boundVars :: (Ord a, Ord b) => VarBinding a b -> S.Set a boundVars = S.map fst . vbEnum -- |VarBinding subset function, tests to see if one query binding -- is a subset of another; i.e. every query variable mapping defined -- by one is also defined by the other. -- subBinding :: (Ord a, Ord b) => VarBinding a b -> VarBinding a b -> Bool subBinding = S.isSubsetOf `on` vbEnum -- |Function to make a variable binding from a list of -- pairs of variable and corresponding assigned value. -- makeVarBinding :: (Ord a, Ord b) => [(a,b)] -> VarBinding a b makeVarBinding [] = nullVarBinding makeVarBinding vrbs = VarBinding { vbMap = flip M.lookup (M.fromList vrbs) , vbEnum = S.fromList vrbs , vbNull = False } -- |Apply query binding to a supplied value, returning the value -- unchanged if no binding is defined -- applyVarBinding :: VarBinding a a -> a -> a applyVarBinding vbind v = fromMaybe v (vbMap vbind v) -- |Join a pair of query bindings, returning a new binding that -- maps all variables recognized by either of the input bindings. -- If the bindings should overlap, such overlap is not detected and -- the value from the first binding provided is used. -- joinVarBindings :: (Ord a, Ord b) => VarBinding a b -> VarBinding a b -> VarBinding a b joinVarBindings vb1 vb2 | vbNull vb1 = vb2 | vbNull vb2 = vb1 | otherwise = VarBinding { vbMap = mv12 , vbEnum = S.map (\v -> (v,fromJust (mv12 v))) bv12 , vbNull = False } where mv12 n = vbMap vb1 n `mplus` vbMap vb2 n bv12 = boundVars vb1 `S.union` boundVars vb2 -- |Add a single new value to a variable binding and return the resulting -- new variable binding. -- addVarBinding :: (Ord a, Ord b) => a -> b -> VarBinding a b -> VarBinding a b addVarBinding lb val vbind = joinVarBindings vbind $ makeVarBinding [(lb,val)] ------------------------------------------------------------ -- Datatypes for variable binding modifiers ------------------------------------------------------------ -- |Define the type of a function to modify variable bindings in -- forward chaining based on rule antecedent matches. This -- function is used to implement the \"allocated to\" logic described -- in Appendix B of the RDF semantics document, in which a specific -- blank node is associated with all matches of some specific value -- by applications of the rule on a given graph. -- Use 'id' if no modification of the variable bindings is required. -- -- This datatype consists of the modifier function itself, which -- operates on a list of variable bindings rather than a single -- variable binding (because some modifications share context across -- a set of bindings), and some additional descriptive information -- that allows possible usage patterns to be analyzed. -- -- Some usage patterns (see 'vbmUsage' for more details): -- -- [filter] all variables are input variables, and the effect -- of the modifier function is to drop variable bindings that -- don't satisfy some criterion. -- Identifiable by an empty element in @vbmUsage@. -- -- [source] all variables are output variables: a raw query -- could be viewed as a source of variable bindings. -- Identifiable by an element of @vbmUsage@ equal to @vbmVocab@. -- -- [modifier] for each supplied variable binding, one or more -- new variable bindings may be created that contain the -- input variables bound as supplied plus some additional variables. -- Identifiable by an element of @vbmUsage@ some subset of @vbmVocab@. -- -- A variety of variable usage patterns may be supported by a given -- modifier: a modifier may be used to define new variable bindings -- from existing bindings in a number of ways, or simply to check that -- some required relationship between bindings is satisfied. -- (Example, for @a + b = c@, any one variable can be deduced from the -- other two, or all three may be supplied to check that the relationship -- does indeed hold.) -- data VarBindingModify a b = VarBindingModify { vbmName :: ScopedName -- ^Name used to identify this variable binding -- modifier when building inference rules. , vbmApply :: [VarBinding a b] -> [VarBinding a b] -- ^Apply variable binding modifier to a -- list of variable bindings, returning a -- new list. The result list is not -- necessarily the same length as the -- supplied list. , vbmVocab :: [a] -- ^List of variables used by this modifier. -- All results of applying this modifier contain -- bindings for these variables. , vbmUsage :: [[a]] -- ^List of binding modifier usage patterns -- supported. Each pattern is characterized as -- a list of variables for which new bindings -- may be created by some application of this -- modifier, assuming that bindings for all other -- variables in @vbmVocab@ are supplied. } -- |Type for variable binding modifier that has yet to be instantiated -- with respect to the variables that it operates upon. -- type OpenVarBindingModify lb vn = [lb] -> VarBindingModify lb vn -- |Extract variable binding name from @OpenVarBindingModify@ value -- -- (Because only the name is required, the application to an undefined -- list of variable labels should never be evaluated, as long as the -- name is not dependent on the variable names in any way.) -- -- NOT QUITE... some of the functions that create @OpenVarBindingModify@ -- instances also pattern-match the number of labels provided, forcing -- evaluation of the labels parameter, even though it's not used. -- openVbmName :: OpenVarBindingModify lb vn -> ScopedName openVbmName ovbm = vbmName (ovbm (error "Undefined labels in variable binding")) -- | Displays the name of the modifier. instance Show (OpenVarBindingModify a b) where show = show . openVbmName -- |Variable binding modifier compatibility test. -- -- Given a list of bound variables and a variable binding modifier, return -- a list of new variables that may be bound, or @Nothing@. -- -- Note: if the usage pattern component is well-formed (i.e. all -- elements different) then at most one element can be compatible with -- a given input variable set. -- vbmCompatibility :: (Eq a) => VarBindingModify a b -> [a] -> Maybe [a] vbmCompatibility vbm vars = find compat (vbmUsage vbm) where compat = vbmCompatibleVars vars (vbmVocab vbm) -- |Variable binding usage compatibility test. -- -- Returns @True@ if the supplied variable bindings can be compatibly -- processed by a variable binding usage with supplied vocabulary and -- usage pattern. -- vbmCompatibleVars :: (Eq a) => [a] -- ^ variables supplied with bindings -> [a] -- ^ variables returned with bindings by a modifier -> [a] -- ^ variables assigned new bindings by a modifier -> Bool vbmCompatibleVars bvars vocab ovars = null (ivars `intersect` ovars) && -- ivars and ovars don't overlap null ((vocab \\ ovars) \\ ivars) -- ovars and ivars cover vocab where ivars = bvars `intersect` vocab -- |Compose variable binding modifiers. -- -- Returns @Just a@ new variable binding modifier that corresponds to -- applying the first supplied modifier and then applying the second -- one, or @Nothing@ if the two modifiers cannot be compatibly composed. -- -- NOTE: this function does not, in general, commute. -- -- NOTE: if there are different ways to achieve the same usage, that -- usage is currently repeated in the result returned. -- vbmCompose :: (Eq a) => VarBindingModify a b -> VarBindingModify a b -> Maybe (VarBindingModify a b) vbmCompose (VarBindingModify nam1 app1 voc1 use1) (VarBindingModify nam2 app2 voc2 use2) | not (null use12) = Just VarBindingModify { vbmName = name , vbmApply = app2 . app1 , vbmVocab = voc1 `union` voc2 , vbmUsage = use12 } | otherwise = Nothing where use12 = compatibleUsage voc1 use1 use2 getName = getLName . getScopeLocal -- since _ is a valid LName component then we know the mconcat output -- is a valid LName and so can use fromJust name = swishName $ fromJust $ newLName $ mconcat ["_", getName nam1, "_", getName nam2, "_"] -- |Determine compatible ways in which variable binding modifiers may -- be combined. -- -- The total vocabulary of a modifier is the complete set of variables -- that are used or bound by the modifier. After the modifier has been -- applied, bindings must exist for all of these variables. -- -- A usage pattern of a modifier is a set of variables for which new -- bindings may be generated by the modifier. -- -- The only way in which two variable binding modifiers can be incompatible -- with each other is when they both attempt to create a new binding for -- the same variable. (Note that this does not mean the composition will -- be compatible with all inputs: see @vbmCompatibleVars@.) -- -- NOTE: if there are different ways to achieve the same usage, that -- usage is currently repeated in the result returned. -- compatibleUsage :: (Eq a) => [a] -- ^ the total vocabulary of the first modifier to be applied -> [[a]] -- ^ usage patterns for the first modifier -> [[a]] -- ^ usage patterns for the second modifier -> [[a]] -- ^ a list of possible usage patterns for the composition of -- the first modifier with the second modifier, or an empty list if -- the modifiers are incompatible. compatibleUsage voc1 use1 use2 = [ u1++u2 | u2 <- use2, null (voc1 `intersect` u2), u1 <- use1 ] -- |Find all compatible compositions of a list of variable binding -- modifiers for a given set of supplied bound variables. findCompositions :: (Eq a) => [VarBindingModify a b] -> [a] -> [VarBindingModify a b] findCompositions vbms vars = mapMaybe (composeCheckSequence vars) (permutations vbms) -- |Compose sequence of variable binding modifiers, and check -- that the result can be used compatibly with a supplied list -- of bound variables, returning @Just (composed modifier)@, -- or @Nothing@. -- composeCheckSequence :: (Eq a) => [a] -> [VarBindingModify a b] -> Maybe (VarBindingModify a b) composeCheckSequence vars vbms = useWith vars $ composeSequence vbms where -- Check that a Maybe modifier is compatible for use with an -- indicated set of bound variables, and return (Just modifier) -- or Nothing. useWith _ Nothing = Nothing useWith vs v@(Just vbm) | isJust $ vbmCompatibility vbm vs = v | otherwise = Nothing -- |Compose sequence of variable binding modifiers. -- composeSequence :: (Eq a) => [VarBindingModify a b] -> Maybe (VarBindingModify a b) composeSequence [] = Just varBindingId composeSequence (vbm:vbms) = foldl' composePair (Just vbm) vbms -- |Compose a pair of variable binding modifiers, returning -- @Just (composed modifier)@, or @Nothing@. -- composePair :: (Eq a) => Maybe (VarBindingModify a b) -> VarBindingModify a b -> Maybe (VarBindingModify a b) composePair Nothing _ = Nothing composePair (Just vbm1) vbm2 = vbmCompose vbm1 vbm2 -- |Return @Just a@ compatible composition of variable binding modifiers -- for a given set of supplied bound variables, or @Nothing@ if there -- is no compatible composition -- findComposition :: (Eq a) => [VarBindingModify a b] -> [a] -> Maybe (VarBindingModify a b) findComposition = listToMaybe `c2` findCompositions where c2 = (.) . (.) -- compose with function of two arguments -- |Variable binding modifier that returns exactly those -- variable bindings presented. -- varBindingId :: VarBindingModify a b varBindingId = VarBindingModify { vbmName = swishName "varBindingId" , vbmApply = id , vbmVocab = [] , vbmUsage = [[]] } -- |Null variable binding modifier -- -- This is like 'varBindingId' except parameterized by some labels. -- I think this is redundant, and should be eliminated. -- nullVarBindingModify :: OpenVarBindingModify a b nullVarBindingModify lbs = VarBindingModify { vbmName = swishName "nullVarBindingModify" , vbmApply = id , vbmVocab = lbs , vbmUsage = [[]] } ------------------------------------------------------------ -- Query binding filters ------------------------------------------------------------ -- |VarBindingFilter is a function type that tests to see if -- a query binding satisfies some criterion. -- -- Queries often want to apply some kind of filter or condition -- to the variable bindings that are processed. In inference rules, -- it sometimes seems desirable to stipulate additional conditions on -- the things that are matched. -- -- This function type is used to perform such tests. -- A number of simple implementations are included below. data VarBindingFilter a b = VarBindingFilter { vbfName :: ScopedName , vbfVocab :: [a] , vbfTest :: VarBinding a b -> Bool } -- |Make a variable binding modifier from a variable binding filter value. makeVarFilterModify :: VarBindingFilter a b -> VarBindingModify a b makeVarFilterModify vbf = VarBindingModify { vbmName = vbfName vbf , vbmApply = filter (vbfTest vbf) , vbmVocab = vbfVocab vbf , vbmUsage = [[]] } -- |Make a variable test filter for a named variable using a -- supplied value testing function. makeVarTestFilter :: ScopedName -> (b -> Bool) -> a -> VarBindingFilter a b makeVarTestFilter nam vtest var = VarBindingFilter { vbfName = nam , vbfVocab = [var] , vbfTest = \vb -> maybe False vtest (vbMap vb var) } -- |Make a variable comparison filter for named variables using -- a supplied value comparison function. makeVarCompareFilter :: ScopedName -> (b -> b -> Bool) -> a -> a -> VarBindingFilter a b makeVarCompareFilter nam vcomp v1 v2 = VarBindingFilter { vbfName = nam , vbfVocab = [v1,v2] , vbfTest = \vb -> fromMaybe False (vcomp <$> vbMap vb v1 <*> vbMap vb v2) } ------------------------------------------------------------ -- Declare some generally useful query binding filters ------------------------------------------------------------ -- |This function generates a query binding filter that ensures that -- two indicated query variables are mapped to the same value. varFilterEQ :: (Eq b) => a -> a -> VarBindingFilter a b varFilterEQ = makeVarCompareFilter (swishName "varFilterEQ") (==) -- |This function generates a query binding filter that ensures that -- two indicated query variables are mapped to different values. varFilterNE :: (Eq b) => a -> a -> VarBindingFilter a b varFilterNE = makeVarCompareFilter (swishName "varFilterNE") (/=) -- |This function composes a number of query binding filters -- into a composite filter that accepts any query binding that -- satisfies at least one of the component values. varFilterDisjunction :: (Eq a) => [VarBindingFilter a b] -> VarBindingFilter a b varFilterDisjunction vbfs = VarBindingFilter { vbfName = swishName "varFilterDisjunction" , vbfVocab = foldl1 union (map vbfVocab vbfs) , vbfTest = or . flist (map vbfTest vbfs) } -- |This function composes a number of query binding filters -- into a composite filter that accepts any query binding that -- satisfies all of the component values. -- -- The same function could be achieved by composing the component -- filter-based modifiers, but this function is more convenient -- as it avoids the need to check for modifier compatibility. -- varFilterConjunction :: (Eq a) => [VarBindingFilter a b] -> VarBindingFilter a b varFilterConjunction vbfs = VarBindingFilter { vbfName = swishName "varFilterConjunction" , vbfVocab = foldl1 union (map vbfVocab vbfs) , vbfTest = and . flist (map vbfTest vbfs) } -------------------------------------------------------------------------------- -- -- (c) 2003, Graham Klyne, 2009 Vasili I Galchin, -- 2011, 2012 Douglas Burke -- All rights reserved. -- -- This file is part of Swish. -- -- Swish is free software; you can redistribute it and/or modify -- it under the terms of the GNU General Public License as published by -- the Free Software Foundation; either version 2 of the License, or -- (at your option) any later version. -- -- Swish is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU General Public License for more details. -- -- You should have received a copy of the GNU General Public License -- along with Swish; if not, write to: -- The Free Software Foundation, Inc., -- 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------------------