{-# OPTIONS_GHC -fno-warn-unused-top-binds #-} {-| Module : Gargantext.API.Ngrams Description : Server API Copyright : (c) CNRS, 2017-Present License : AGPL + CECILL v3 Maintainer : team@gargantext.org Stability : experimental Portability : POSIX Ngrams API -- | TODO get ngrams filtered by NgramsType add get -} {-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE GeneralizedNewtypeDeriving #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE TypeFamilies #-} {-# OPTIONS -fno-warn-orphans #-} module Gargantext.API.Ngrams ( TableNgramsApi , TableNgramsApiGet , TableNgramsApiPut , TableNgramsApiPost , getTableNgrams , putListNgrams , tableNgramsPost , apiNgramsTableCorpus , apiNgramsTableDoc , NgramsStatePatch , NgramsTablePatch , NgramsElement , mkNgramsElement , mergeNgramsElement , RootParent(..) , MSet , mSetFromList , mSetToList , Repo(..) , r_version , r_state , NgramsRepo , NgramsRepoElement(..) , saveRepo , initRepo , RepoEnv(..) , renv_var , renv_lock , TabType(..) , ngramsTypeFromTabType , HasRepoVar(..) , HasRepoSaver(..) , HasRepo(..) , RepoCmdM , QueryParamR , TODO(..) -- Internals , getNgramsTableMap , tableNgramsPull , tableNgramsPut , Versioned(..) , currentVersion , listNgramsChangedSince ) where -- import Debug.Trace (trace) import Prelude (Enum, Bounded, Semigroup(..), minBound, maxBound {-, round-}, error) -- import Gargantext.Database.Schema.User (UserId) import Data.Patch.Class (Replace, replace, Action(act), Applicable(..), Composable(..), Transformable(..), PairPatch(..), Patched, ConflictResolution, ConflictResolutionReplace, ours) import qualified Data.Map.Strict.Patch as PM import Data.Monoid import Data.Ord (Down(..)) import Data.Foldable --import Data.Semigroup import Data.Set (Set) import qualified Data.Set as S import qualified Data.List as List import Data.Maybe (fromMaybe) -- import Data.Tuple.Extra (first) import qualified Data.Map.Strict as Map import Data.Map.Strict (Map) import qualified Data.Set as Set import Control.Category ((>>>)) import Control.Concurrent import Control.Lens (makeLenses, makePrisms, Getter, Iso', iso, from, (.~), (?=), (#), to, folded, {-withIndex, ifolded,-} view, use, (^.), (^..), (^?), (+~), (%~), (%=), sumOf, at, _Just, Each(..), itraverse_, both, forOf_, (%%~), (?~), mapped) import Control.Monad.Error.Class (MonadError) import Control.Monad.Reader import Control.Monad.State import Data.Aeson hiding ((.=)) import Data.Aeson.TH (deriveJSON) import Data.Either(Either(Left)) -- import Data.Map (lookup) import qualified Data.HashMap.Strict.InsOrd as InsOrdHashMap import Data.Swagger hiding (version, patch) import Data.Text (Text, isInfixOf, count) import Data.Validity import Formatting (hprint, int, (%)) import Formatting.Clock (timeSpecs) import GHC.Generics (Generic) import Gargantext.Core.Utils.Prefix (unPrefix, unPrefixSwagger) -- import Gargantext.Database.Schema.Ngrams (NgramsTypeId, ngramsTypeId, NgramsTableData(..)) import Gargantext.Database.Config (userMaster) import Gargantext.Database.Metrics.NgramsByNode (getOccByNgramsOnlyFast) import Gargantext.Database.Schema.Ngrams (NgramsType) import Gargantext.Database.Types.Node (NodeType(..)) import Gargantext.Database.Utils (fromField', HasConnection) import Gargantext.Database.Node.Select import Gargantext.Database.Ngrams --import Gargantext.Database.Lists (listsWith) import Gargantext.Database.Schema.Node (HasNodeError) import Database.PostgreSQL.Simple.FromField (FromField, fromField) import qualified Gargantext.Database.Schema.Ngrams as Ngrams -- import Gargantext.Database.Schema.NodeNgram hiding (Action) import Gargantext.Prelude -- import Gargantext.Core.Types (ListTypeId, listTypeId) import Gargantext.Core.Types (ListType(..), NodeId, ListId, DocId, Limit, Offset, HasInvalidError, assertValid) import Servant hiding (Patch) import System.Clock (getTime, TimeSpec, Clock(..)) import System.FileLock (FileLock) import System.IO (stderr) import Test.QuickCheck (elements) import Test.QuickCheck.Arbitrary (Arbitrary, arbitrary) data TODO = TODO deriving (Generic) instance ToSchema TODO where instance ToParamSchema TODO where ------------------------------------------------------------------------ --data FacetFormat = Table | Chart data TabType = Docs | Trash | MoreFav | MoreTrash | Terms | Sources | Authors | Institutes | Contacts deriving (Generic, Enum, Bounded, Show) instance FromHttpApiData TabType where parseUrlPiece "Docs" = pure Docs parseUrlPiece "Trash" = pure Trash parseUrlPiece "MoreFav" = pure MoreFav parseUrlPiece "MoreTrash" = pure MoreTrash parseUrlPiece "Terms" = pure Terms parseUrlPiece "Sources" = pure Sources parseUrlPiece "Institutes" = pure Institutes parseUrlPiece "Authors" = pure Authors parseUrlPiece "Contacts" = pure Contacts parseUrlPiece _ = Left "Unexpected value of TabType" instance ToParamSchema TabType instance ToJSON TabType instance FromJSON TabType instance ToSchema TabType instance Arbitrary TabType where arbitrary = elements [minBound .. maxBound] newtype MSet a = MSet (Map a ()) deriving (Eq, Ord, Show, Generic, Arbitrary, Semigroup, Monoid) instance ToJSON a => ToJSON (MSet a) where toJSON (MSet m) = toJSON (Map.keys m) toEncoding (MSet m) = toEncoding (Map.keys m) mSetFromSet :: Set a -> MSet a mSetFromSet = MSet . Map.fromSet (const ()) mSetFromList :: Ord a => [a] -> MSet a mSetFromList = MSet . Map.fromList . map (\x -> (x, ())) -- mSetToSet :: Ord a => MSet a -> Set a -- mSetToSet (MSet a) = Set.fromList ( Map.keys a) mSetToSet :: Ord a => MSet a -> Set a mSetToSet = Set.fromList . mSetToList mSetToList :: MSet a -> [a] mSetToList (MSet a) = Map.keys a instance Foldable MSet where foldMap f (MSet m) = Map.foldMapWithKey (\k _ -> f k) m instance (Ord a, FromJSON a) => FromJSON (MSet a) where parseJSON = fmap mSetFromList . parseJSON instance (ToJSONKey a, ToSchema a) => ToSchema (MSet a) where -- TODO declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy TODO) ------------------------------------------------------------------------ type NgramsTerm = Text data RootParent = RootParent { _rp_root :: NgramsTerm , _rp_parent :: NgramsTerm } deriving (Ord, Eq, Show, Generic) deriveJSON (unPrefix "_rp_") ''RootParent makeLenses ''RootParent data NgramsRepoElement = NgramsRepoElement { _nre_size :: Int , _nre_list :: ListType --, _nre_root_parent :: Maybe RootParent , _nre_root :: Maybe NgramsTerm , _nre_parent :: Maybe NgramsTerm , _nre_children :: MSet NgramsTerm } deriving (Ord, Eq, Show, Generic) deriveJSON (unPrefix "_nre_") ''NgramsRepoElement makeLenses ''NgramsRepoElement data NgramsElement = NgramsElement { _ne_ngrams :: NgramsTerm , _ne_size :: Int , _ne_list :: ListType , _ne_occurrences :: Int , _ne_root :: Maybe NgramsTerm , _ne_parent :: Maybe NgramsTerm , _ne_children :: MSet NgramsTerm } deriving (Ord, Eq, Show, Generic) deriveJSON (unPrefix "_ne_") ''NgramsElement makeLenses ''NgramsElement mkNgramsElement :: NgramsTerm -> ListType -> Maybe RootParent -> MSet NgramsTerm -> NgramsElement mkNgramsElement ngrams list rp children = NgramsElement ngrams size list 1 (_rp_root <$> rp) (_rp_parent <$> rp) children where -- TODO review size = 1 + count " " ngrams newNgramsElement :: Maybe ListType -> NgramsTerm -> NgramsElement newNgramsElement mayList ngrams = mkNgramsElement ngrams (fromMaybe GraphTerm mayList) Nothing mempty instance ToSchema NgramsElement where declareNamedSchema = genericDeclareNamedSchema (unPrefixSwagger "_ne_") instance Arbitrary NgramsElement where arbitrary = elements [newNgramsElement Nothing "sport"] ngramsElementToRepo :: NgramsElement -> NgramsRepoElement ngramsElementToRepo (NgramsElement { _ne_size = s , _ne_list = l , _ne_root = r , _ne_parent = p , _ne_children = c }) = NgramsRepoElement { _nre_size = s , _nre_list = l , _nre_parent = p , _nre_root = r , _nre_children = c } ngramsElementFromRepo :: NgramsTerm -> NgramsRepoElement -> NgramsElement ngramsElementFromRepo ngrams (NgramsRepoElement { _nre_size = s , _nre_list = l , _nre_parent = p , _nre_root = r , _nre_children = c }) = NgramsElement { _ne_size = s , _ne_list = l , _ne_root = r , _ne_parent = p , _ne_children = c , _ne_ngrams = ngrams , _ne_occurrences = panic $ "API.Ngrams._ne_occurrences" {- -- Here we could use 0 if we want to avoid any `panic`. -- It will not happen using getTableNgrams if -- getOccByNgramsOnly provides a count of occurrences for -- all the ngrams given. -} } ------------------------------------------------------------------------ newtype NgramsTable = NgramsTable [NgramsElement] deriving (Ord, Eq, Generic, ToJSON, FromJSON, Show) type ListNgrams = NgramsTable makePrisms ''NgramsTable -- | Question: why these repetition of Type in this instance -- may you document it please ? instance Each NgramsTable NgramsTable NgramsElement NgramsElement where each = _NgramsTable . each -- TODO discuss -- | TODO Check N and Weight {- toNgramsElement :: [NgramsTableData] -> [NgramsElement] toNgramsElement ns = map toNgramsElement' ns where toNgramsElement' (NgramsTableData _ p t _ lt w) = NgramsElement t lt' (round w) p' c' where p' = case p of Nothing -> Nothing Just x -> lookup x mapParent c' = maybe mempty identity $ lookup t mapChildren lt' = maybe (panic "API.Ngrams: listypeId") identity lt mapParent :: Map Int Text mapParent = Map.fromListWith (<>) $ map (\(NgramsTableData i _ t _ _ _) -> (i,t)) ns mapChildren :: Map Text (Set Text) mapChildren = Map.mapKeys (\i -> (maybe (panic "API.Ngrams.mapChildren: ParentId with no Terms: Impossible") identity $ lookup i mapParent)) $ Map.fromListWith (<>) $ map (first fromJust) $ filter (isJust . fst) $ map (\(NgramsTableData _ p t _ _ _) -> (p, Set.singleton t)) ns -} mockTable :: NgramsTable mockTable = NgramsTable [ mkNgramsElement "animal" GraphTerm Nothing (mSetFromList ["dog", "cat"]) , mkNgramsElement "cat" GraphTerm (rp "animal") mempty , mkNgramsElement "cats" StopTerm Nothing mempty , mkNgramsElement "dog" GraphTerm (rp "animal") (mSetFromList ["dogs"]) , mkNgramsElement "dogs" StopTerm (rp "dog") mempty , mkNgramsElement "fox" GraphTerm Nothing mempty , mkNgramsElement "object" CandidateTerm Nothing mempty , mkNgramsElement "nothing" StopTerm Nothing mempty , mkNgramsElement "organic" GraphTerm Nothing (mSetFromList ["flower"]) , mkNgramsElement "flower" GraphTerm (rp "organic") mempty , mkNgramsElement "moon" CandidateTerm Nothing mempty , mkNgramsElement "sky" StopTerm Nothing mempty ] where rp n = Just $ RootParent n n instance Arbitrary NgramsTable where arbitrary = pure mockTable instance ToSchema NgramsTable ------------------------------------------------------------------------ type NgramsTableMap = Map NgramsTerm NgramsRepoElement ------------------------------------------------------------------------ -- On the Client side: --data Action = InGroup NgramsId NgramsId -- | OutGroup NgramsId NgramsId -- | SetListType NgramsId ListType data PatchSet a = PatchSet { _rem :: Set a , _add :: Set a } deriving (Eq, Ord, Show, Generic) makeLenses ''PatchSet makePrisms ''PatchSet instance ToJSON a => ToJSON (PatchSet a) where toJSON = genericToJSON $ unPrefix "_" toEncoding = genericToEncoding $ unPrefix "_" instance (Ord a, FromJSON a) => FromJSON (PatchSet a) where parseJSON = genericParseJSON $ unPrefix "_" {- instance (Ord a, Arbitrary a) => Arbitrary (PatchSet a) where arbitrary = PatchSet <$> arbitrary <*> arbitrary type instance Patched (PatchSet a) = Set a type ConflictResolutionPatchSet a = SimpleConflictResolution' (Set a) type instance ConflictResolution (PatchSet a) = ConflictResolutionPatchSet a instance Ord a => Semigroup (PatchSet a) where p <> q = PatchSet { _rem = (q ^. rem) `Set.difference` (p ^. add) <> p ^. rem , _add = (q ^. add) `Set.difference` (p ^. rem) <> p ^. add } -- TODO Review instance Ord a => Monoid (PatchSet a) where mempty = PatchSet mempty mempty instance Ord a => Group (PatchSet a) where invert (PatchSet r a) = PatchSet a r instance Ord a => Composable (PatchSet a) where composable _ _ = undefined instance Ord a => Action (PatchSet a) (Set a) where act p source = (source `Set.difference` (p ^. rem)) <> p ^. add instance Applicable (PatchSet a) (Set a) where applicable _ _ = mempty instance Ord a => Validity (PatchSet a) where validate p = check (Set.disjoint (p ^. rem) (p ^. add)) "_rem and _add should be dijoint" instance Ord a => Transformable (PatchSet a) where transformable = undefined conflicts _p _q = undefined transformWith conflict p q = undefined conflict p q instance ToSchema a => ToSchema (PatchSet a) -} type AddRem = Replace (Maybe ()) remPatch, addPatch :: AddRem remPatch = replace (Just ()) Nothing addPatch = replace Nothing (Just ()) isRem :: Replace (Maybe ()) -> Bool isRem = (== remPatch) type PatchMap = PM.PatchMap newtype PatchMSet a = PatchMSet (PatchMap a AddRem) deriving (Eq, Show, Generic, Validity, Semigroup, Monoid, Transformable, Composable) type ConflictResolutionPatchMSet a = a -> ConflictResolutionReplace (Maybe ()) type instance ConflictResolution (PatchMSet a) = ConflictResolutionPatchMSet a -- TODO this breaks module abstraction makePrisms ''PM.PatchMap makePrisms ''PatchMSet _PatchMSetIso :: Ord a => Iso' (PatchMSet a) (PatchSet a) _PatchMSetIso = _PatchMSet . _PatchMap . iso f g . from _PatchSet where f :: Ord a => Map a (Replace (Maybe ())) -> (Set a, Set a) f = Map.partition isRem >>> both %~ Map.keysSet g :: Ord a => (Set a, Set a) -> Map a (Replace (Maybe ())) g (rems, adds) = Map.fromSet (const remPatch) rems <> Map.fromSet (const addPatch) adds instance Ord a => Action (PatchMSet a) (MSet a) where act (PatchMSet p) (MSet m) = MSet $ act p m instance Ord a => Applicable (PatchMSet a) (MSet a) where applicable (PatchMSet p) (MSet m) = applicable p m instance (Ord a, ToJSON a) => ToJSON (PatchMSet a) where toJSON = toJSON . view _PatchMSetIso toEncoding = toEncoding . view _PatchMSetIso instance (Ord a, FromJSON a) => FromJSON (PatchMSet a) where parseJSON = fmap (_PatchMSetIso #) . parseJSON instance (Ord a, Arbitrary a) => Arbitrary (PatchMSet a) where arbitrary = (PatchMSet . PM.fromMap) <$> arbitrary instance ToSchema a => ToSchema (PatchMSet a) where -- TODO declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy TODO) type instance Patched (PatchMSet a) = MSet a instance (Eq a, Arbitrary a) => Arbitrary (Replace a) where arbitrary = uncurry replace <$> arbitrary -- If they happen to be equal then the patch is Keep. instance ToSchema a => ToSchema (Replace a) where declareNamedSchema (_ :: Proxy (Replace a)) = do -- TODO Keep constructor is not supported here. aSchema <- declareSchemaRef (Proxy :: Proxy a) return $ NamedSchema (Just "Replace") $ mempty & type_ ?~ SwaggerObject & properties .~ InsOrdHashMap.fromList [ ("old", aSchema) , ("new", aSchema) ] & required .~ [ "old", "new" ] data NgramsPatch = NgramsPatch { _patch_children :: PatchMSet NgramsTerm , _patch_list :: Replace ListType -- TODO Map UserId ListType } deriving (Eq, Show, Generic) deriveJSON (unPrefix "_") ''NgramsPatch makeLenses ''NgramsPatch instance ToSchema NgramsPatch where declareNamedSchema = genericDeclareNamedSchema (unPrefixSwagger "_") instance Arbitrary NgramsPatch where arbitrary = NgramsPatch <$> arbitrary <*> (replace <$> arbitrary <*> arbitrary) type NgramsPatchIso = PairPatch (PatchMSet NgramsTerm) (Replace ListType) _NgramsPatch :: Iso' NgramsPatch NgramsPatchIso _NgramsPatch = iso (\(NgramsPatch c l) -> c :*: l) (\(c :*: l) -> NgramsPatch c l) instance Semigroup NgramsPatch where p <> q = _NgramsPatch # (p ^. _NgramsPatch <> q ^. _NgramsPatch) instance Monoid NgramsPatch where mempty = _NgramsPatch # mempty instance Validity NgramsPatch where validate p = p ^. _NgramsPatch . to validate instance Transformable NgramsPatch where transformable p q = transformable (p ^. _NgramsPatch) (q ^. _NgramsPatch) conflicts p q = conflicts (p ^. _NgramsPatch) (q ^. _NgramsPatch) transformWith conflict p q = (_NgramsPatch # p', _NgramsPatch # q') where (p', q') = transformWith conflict (p ^. _NgramsPatch) (q ^. _NgramsPatch) type ConflictResolutionNgramsPatch = ( ConflictResolutionPatchMSet NgramsTerm , ConflictResolutionReplace ListType ) type instance ConflictResolution NgramsPatch = ConflictResolutionNgramsPatch type PatchedNgramsPatch = (Set NgramsTerm, ListType) -- ~ Patched NgramsPatchIso type instance Patched NgramsPatch = PatchedNgramsPatch instance Applicable NgramsPatch (Maybe NgramsRepoElement) where applicable p Nothing = check (p == mempty) "NgramsPatch should be empty here" applicable p (Just nre) = applicable (p ^. patch_children) (nre ^. nre_children) <> applicable (p ^. patch_list) (nre ^. nre_list) instance Action NgramsPatch NgramsRepoElement where act p = (nre_children %~ act (p ^. patch_children)) . (nre_list %~ act (p ^. patch_list)) instance Action NgramsPatch (Maybe NgramsRepoElement) where act = fmap . act newtype NgramsTablePatch = NgramsTablePatch (PatchMap NgramsTerm NgramsPatch) deriving (Eq, Show, Generic, ToJSON, FromJSON, Semigroup, Monoid, Validity, Transformable) instance FromField NgramsTablePatch where fromField = fromField' instance FromField (PatchMap NgramsType (PatchMap NodeId NgramsTablePatch)) where fromField = fromField' --instance (Ord k, Action pv (Maybe v)) => Action (PatchMap k pv) (Map k v) where -- type instance ConflictResolution NgramsTablePatch = NgramsTerm -> ConflictResolutionNgramsPatch type PatchedNgramsTablePatch = Map NgramsTerm PatchedNgramsPatch -- ~ Patched (PatchMap NgramsTerm NgramsPatch) type instance Patched NgramsTablePatch = PatchedNgramsTablePatch makePrisms ''NgramsTablePatch instance ToSchema (PatchMap NgramsTerm NgramsPatch) instance ToSchema NgramsTablePatch instance Applicable NgramsTablePatch (Maybe NgramsTableMap) where applicable p = applicable (p ^. _NgramsTablePatch) instance Action NgramsTablePatch (Maybe NgramsTableMap) where act p = fmap (execState (reParentNgramsTablePatch p)) . act (p ^. _NgramsTablePatch) instance Arbitrary NgramsTablePatch where arbitrary = NgramsTablePatch <$> PM.fromMap <$> arbitrary -- Should it be less than an Lens' to preserve PatchMap's abstraction. -- ntp_ngrams_patches :: Lens' NgramsTablePatch (Map NgramsTerm NgramsPatch) -- ntp_ngrams_patches = _NgramsTablePatch . undefined type ReParent a = forall m. MonadState NgramsTableMap m => a -> m () reRootChildren :: NgramsTerm -> ReParent NgramsTerm reRootChildren root ngram = do nre <- use $ at ngram forOf_ (_Just . nre_children . folded) nre $ \child -> do at child . _Just . nre_root ?= root reRootChildren root child reParent :: Maybe RootParent -> ReParent NgramsTerm reParent rp child = do at child . _Just %= ( (nre_parent .~ (_rp_parent <$> rp)) . (nre_root .~ (_rp_root <$> rp)) ) reRootChildren (fromMaybe child (rp ^? _Just . rp_root)) child reParentAddRem :: RootParent -> NgramsTerm -> ReParent AddRem reParentAddRem rp child p = reParent (if isRem p then Nothing else Just rp) child reParentNgramsPatch :: NgramsTerm -> ReParent NgramsPatch reParentNgramsPatch parent ngramsPatch = do root_of_parent <- use (at parent . _Just . nre_root) let root = fromMaybe parent root_of_parent rp = RootParent { _rp_root = root, _rp_parent = parent } itraverse_ (reParentAddRem rp) (ngramsPatch ^. patch_children . _PatchMSet . _PatchMap) -- TODO FoldableWithIndex/TraversableWithIndex for PatchMap reParentNgramsTablePatch :: ReParent NgramsTablePatch reParentNgramsTablePatch p = itraverse_ reParentNgramsPatch (p ^. _NgramsTablePatch. _PatchMap) -- TODO FoldableWithIndex/TraversableWithIndex for PatchMap ------------------------------------------------------------------------ ------------------------------------------------------------------------ type Version = Int data Versioned a = Versioned { _v_version :: Version , _v_data :: a } deriving (Generic, Show) deriveJSON (unPrefix "_v_") ''Versioned makeLenses ''Versioned instance ToSchema a => ToSchema (Versioned a) where declareNamedSchema = genericDeclareNamedSchema (unPrefixSwagger "_v_") instance Arbitrary a => Arbitrary (Versioned a) where arbitrary = Versioned 1 <$> arbitrary -- TODO 1 is constant so far {- -- TODO sequencs of modifications (Patchs) type NgramsIdPatch = Patch NgramsId NgramsPatch ngramsPatch :: Int -> NgramsPatch ngramsPatch n = NgramsPatch (DM.fromList [(1, StopTerm)]) (Set.fromList [n]) Set.empty toEdit :: NgramsId -> NgramsPatch -> Edit NgramsId NgramsPatch toEdit n p = Edit n p ngramsIdPatch :: Patch NgramsId NgramsPatch ngramsIdPatch = fromList $ catMaybes $ reverse [ replace (1::NgramsId) (Just $ ngramsPatch 1) Nothing , replace (1::NgramsId) Nothing (Just $ ngramsPatch 2) , replace (2::NgramsId) Nothing (Just $ ngramsPatch 2) ] -- applyPatchBack :: Patch -> IO Patch -- isEmptyPatch = Map.all (\x -> Set.isEmpty (add_children x) && Set.isEmpty ... ) -} ------------------------------------------------------------------------ ------------------------------------------------------------------------ ------------------------------------------------------------------------ {- -- TODO: Replace.old is ignored which means that if the current list -- `GraphTerm` and that the patch is `Replace CandidateTerm StopTerm` then -- the list is going to be `StopTerm` while it should keep `GraphTerm`. -- However this should not happen in non conflicting situations. mkListsUpdate :: NgramsType -> NgramsTablePatch -> [(NgramsTypeId, NgramsTerm, ListTypeId)] mkListsUpdate nt patches = [ (ngramsTypeId nt, ng, listTypeId lt) | (ng, patch) <- patches ^.. ntp_ngrams_patches . ifolded . withIndex , lt <- patch ^.. patch_list . new ] mkChildrenGroups :: (PatchSet NgramsTerm -> Set NgramsTerm) -> NgramsType -> NgramsTablePatch -> [(NgramsTypeId, NgramsParent, NgramsChild)] mkChildrenGroups addOrRem nt patches = [ (ngramsTypeId nt, parent, child) | (parent, patch) <- patches ^.. ntp_ngrams_patches . ifolded . withIndex , child <- patch ^.. patch_children . to addOrRem . folded ] -} ngramsTypeFromTabType :: TabType -> NgramsType ngramsTypeFromTabType tabType = let lieu = "Garg.API.Ngrams: " :: Text in case tabType of Sources -> Ngrams.Sources Authors -> Ngrams.Authors Institutes -> Ngrams.Institutes Terms -> Ngrams.NgramsTerms _ -> panic $ lieu <> "No Ngrams for this tab" -- TODO: This `panic` would disapear with custom NgramsType. ------------------------------------------------------------------------ data Repo s p = Repo { _r_version :: Version , _r_state :: s , _r_history :: [p] -- first patch in the list is the most recent } deriving (Generic) instance (FromJSON s, FromJSON p) => FromJSON (Repo s p) where parseJSON = genericParseJSON $ unPrefix "_r_" instance (ToJSON s, ToJSON p) => ToJSON (Repo s p) where toJSON = genericToJSON $ unPrefix "_r_" toEncoding = genericToEncoding $ unPrefix "_r_" makeLenses ''Repo initRepo :: Monoid s => Repo s p initRepo = Repo 1 mempty [] type NgramsRepo = Repo NgramsState NgramsStatePatch type NgramsState = Map NgramsType (Map NodeId NgramsTableMap) type NgramsStatePatch = PatchMap NgramsType (PatchMap NodeId NgramsTablePatch) initMockRepo :: NgramsRepo initMockRepo = Repo 1 s [] where s = Map.singleton Ngrams.NgramsTerms $ Map.singleton 47254 $ Map.fromList [ (n ^. ne_ngrams, ngramsElementToRepo n) | n <- mockTable ^. _NgramsTable ] data RepoEnv = RepoEnv { _renv_var :: !(MVar NgramsRepo) , _renv_saver :: !(IO ()) , _renv_lock :: !FileLock } deriving (Generic) makeLenses ''RepoEnv class HasRepoVar env where repoVar :: Getter env (MVar NgramsRepo) instance HasRepoVar (MVar NgramsRepo) where repoVar = identity class HasRepoSaver env where repoSaver :: Getter env (IO ()) class (HasRepoVar env, HasRepoSaver env) => HasRepo env where repoEnv :: Getter env RepoEnv instance HasRepo RepoEnv where repoEnv = identity instance HasRepoVar RepoEnv where repoVar = renv_var instance HasRepoSaver RepoEnv where repoSaver = renv_saver type RepoCmdM env err m = ( MonadReader env m , MonadError err m , MonadIO m , HasRepo env ) ------------------------------------------------------------------------ saveRepo :: ( MonadReader env m, MonadIO m, HasRepoSaver env ) => m () saveRepo = liftIO =<< view repoSaver listTypeConflictResolution :: ListType -> ListType -> ListType listTypeConflictResolution _ _ = undefined -- TODO Use Map User ListType ngramsStatePatchConflictResolution :: NgramsType -> NodeId -> NgramsTerm -> ConflictResolutionNgramsPatch ngramsStatePatchConflictResolution _ngramsType _nodeId _ngramsTerm = (const ours, ours) -- undefined {- TODO think this through -}, listTypeConflictResolution) -- Current state: -- Insertions are not considered as patches, -- they do not extend history, -- they do not bump version. insertNewOnly :: a -> Maybe b -> a insertNewOnly m = maybe m (const $ error "insertNewOnly: impossible") -- TODO error handling something :: Monoid a => Maybe a -> a something Nothing = mempty something (Just a) = a {- unused -- TODO refactor with putListNgrams copyListNgrams :: RepoCmdM env err m => NodeId -> NodeId -> NgramsType -> m () copyListNgrams srcListId dstListId ngramsType = do var <- view repoVar liftIO $ modifyMVar_ var $ pure . (r_state . at ngramsType %~ (Just . f . something)) saveRepo where f :: Map NodeId NgramsTableMap -> Map NodeId NgramsTableMap f m = m & at dstListId %~ insertNewOnly (m ^. at srcListId) -- TODO refactor with putListNgrams -- The list must be non-empty! -- The added ngrams must be non-existent! addListNgrams :: RepoCmdM env err m => NodeId -> NgramsType -> [NgramsElement] -> m () addListNgrams listId ngramsType nes = do var <- view repoVar liftIO $ modifyMVar_ var $ pure . (r_state . at ngramsType . _Just . at listId . _Just <>~ m) saveRepo where m = Map.fromList $ (\n -> (n ^. ne_ngrams, n)) <$> nes -} -- If the given list of ngrams elements contains ngrams already in -- the repo, they will be ignored. putListNgrams :: RepoCmdM env err m => NodeId -> NgramsType -> [NgramsElement] -> m () putListNgrams _ _ [] = pure () putListNgrams listId ngramsType nes = do -- printDebug "putListNgrams" (length nes) var <- view repoVar liftIO $ modifyMVar_ var $ pure . (r_state . at ngramsType %~ (Just . (at listId %~ (Just . (<> m) . something)) . something)) saveRepo where m = Map.fromList $ (\n -> (n ^. ne_ngrams, ngramsElementToRepo n)) <$> nes -- TODO-ACCESS check tableNgramsPost :: RepoCmdM env err m => TabType -> NodeId -> Maybe ListType -> [NgramsTerm] -> m () tableNgramsPost tabType listId mayList = putListNgrams listId (ngramsTypeFromTabType tabType) . fmap (newNgramsElement mayList) currentVersion :: RepoCmdM env err m => m Version currentVersion = do var <- view repoVar r <- liftIO $ readMVar var pure $ r ^. r_version tableNgramsPull :: RepoCmdM env err m => ListId -> NgramsType -> Version -> m (Versioned NgramsTablePatch) tableNgramsPull listId ngramsType p_version = do var <- view repoVar r <- liftIO $ readMVar var let q = mconcat $ take (r ^. r_version - p_version) (r ^. r_history) q_table = q ^. _PatchMap . at ngramsType . _Just . _PatchMap . at listId . _Just pure (Versioned (r ^. r_version) q_table) -- Apply the given patch to the DB and returns the patch to be applied on the -- client. -- TODO-ACCESS check tableNgramsPut :: (HasInvalidError err, RepoCmdM env err m) => TabType -> ListId -> Versioned NgramsTablePatch -> m (Versioned NgramsTablePatch) tableNgramsPut tabType listId (Versioned p_version p_table) | p_table == mempty = do let ngramsType = ngramsTypeFromTabType tabType tableNgramsPull listId ngramsType p_version | otherwise = do let ngramsType = ngramsTypeFromTabType tabType (p0, p0_validity) = PM.singleton listId p_table (p, p_validity) = PM.singleton ngramsType p0 assertValid p0_validity assertValid p_validity var <- view repoVar vq' <- liftIO $ modifyMVar var $ \r -> do let q = mconcat $ take (r ^. r_version - p_version) (r ^. r_history) (p', q') = transformWith ngramsStatePatchConflictResolution p q r' = r & r_version +~ 1 & r_state %~ act p' & r_history %~ (p' :) q'_table = q' ^. _PatchMap . at ngramsType . _Just . _PatchMap . at listId . _Just {- -- Ideally we would like to check these properties. However: -- * They should be checked only to debug the code. The client data -- should be able to trigger these. -- * What kind of error should they throw (we are in IO here)? -- * Should we keep modifyMVar? -- * Should we throw the validation in an Exception, catch it around -- modifyMVar and throw it back as an Error? assertValid $ transformable p q assertValid $ applicable p' (r ^. r_state) -} pure (r', Versioned (r' ^. r_version) q'_table) saveRepo pure vq' mergeNgramsElement :: NgramsRepoElement -> NgramsRepoElement -> NgramsRepoElement mergeNgramsElement _neOld neNew = neNew {- { _ne_list :: ListType If we merge the parents/children we can potentially create cycles! , _ne_parent :: Maybe NgramsTerm , _ne_children :: MSet NgramsTerm } -} getNgramsTableMap :: RepoCmdM env err m => NodeId -> NgramsType -> m (Versioned NgramsTableMap) getNgramsTableMap nodeId ngramsType = do v <- view repoVar repo <- liftIO $ readMVar v pure $ Versioned (repo ^. r_version) (repo ^. r_state . at ngramsType . _Just . at nodeId . _Just) type MinSize = Int type MaxSize = Int -- | TODO Errors management -- TODO: polymorphic for Annuaire or Corpus or ... -- | Table of Ngrams is a ListNgrams formatted (sorted and/or cut). -- TODO: should take only one ListId getTime' :: MonadIO m => m TimeSpec getTime' = liftIO $ getTime ProcessCPUTime getTableNgrams :: forall env err m. (RepoCmdM env err m, HasNodeError err, HasConnection env) => NodeType -> NodeId -> TabType -> ListId -> Limit -> Maybe Offset -> Maybe ListType -> Maybe MinSize -> Maybe MaxSize -> Maybe OrderBy -> (NgramsTerm -> Bool) -> m (Versioned NgramsTable) getTableNgrams _nType nId tabType listId limit_ offset listType minSize maxSize orderBy searchQuery = do t0 <- getTime' -- lIds <- selectNodesWithUsername NodeList userMaster let ngramsType = ngramsTypeFromTabType tabType offset' = maybe 0 identity offset listType' = maybe (const True) (==) listType minSize' = maybe (const True) (<=) minSize maxSize' = maybe (const True) (>=) maxSize selected_node n = minSize' s && maxSize' s && searchQuery (n ^. ne_ngrams) && listType' (n ^. ne_list) where s = n ^. ne_size selected_inner roots n = maybe False (`Set.member` roots) (n ^. ne_root) --------------------------------------- sortOnOrder Nothing = identity sortOnOrder (Just TermAsc) = List.sortOn $ view ne_ngrams sortOnOrder (Just TermDesc) = List.sortOn $ Down . view ne_ngrams sortOnOrder (Just ScoreAsc) = List.sortOn $ view ne_occurrences sortOnOrder (Just ScoreDesc) = List.sortOn $ Down . view ne_occurrences --------------------------------------- selectAndPaginate :: Map NgramsTerm NgramsElement -> [NgramsElement] selectAndPaginate tableMap = roots <> inners where list = tableMap ^.. each rootOf ne = maybe ne (\r -> fromMaybe (panic "getTableNgrams: invalid root") (tableMap ^. at r)) (ne ^. ne_root) selected_nodes = list & take limit_ . drop offset' . filter selected_node . sortOnOrder orderBy roots = rootOf <$> selected_nodes rootsSet = Set.fromList (_ne_ngrams <$> roots) inners = list & filter (selected_inner rootsSet) --------------------------------------- setScores :: forall t. Each t t NgramsElement NgramsElement => Bool -> t -> m t setScores False table = pure table setScores True table = do let ngrams_terms = (table ^.. each . ne_ngrams) t1 <- getTime' occurrences <- getOccByNgramsOnlyFast nId ngramsType ngrams_terms t2 <- getTime' liftIO $ hprint stderr ("getTableNgrams/setScores #ngrams=" % int % " time=" % timeSpecs % "\n") (length ngrams_terms) t1 t2 {- occurrences <- getOccByNgramsOnlySlow nType nId (lIds <> [listId]) ngramsType ngrams_terms -} let setOcc ne = ne & ne_occurrences .~ sumOf (at (ne ^. ne_ngrams) . _Just) occurrences pure $ table & each %~ setOcc --------------------------------------- -- lists <- catMaybes <$> listsWith userMaster -- trace (show lists) $ -- getNgramsTableMap ({-lists <>-} listIds) ngramsType let nSco = needsScores orderBy tableMap1 <- getNgramsTableMap listId ngramsType t1 <- getTime' tableMap2 <- tableMap1 & v_data %%~ setScores nSco . Map.mapWithKey ngramsElementFromRepo t2 <- getTime' tableMap3 <- tableMap2 & v_data %%~ fmap NgramsTable . setScores (not nSco) . selectAndPaginate t3 <- getTime' liftIO $ hprint stderr ("getTableNgrams total=" % timeSpecs % " map1=" % timeSpecs % " map2=" % timeSpecs % " map3=" % timeSpecs % " sql=" % if nSco then "map2" else "map3" % "\n" ) t0 t3 t0 t1 t1 t2 t2 t3 pure tableMap3 -- APIs -- TODO: find a better place for the code above, All APIs stay here type QueryParamR = QueryParam' '[Required, Strict] data OrderBy = TermAsc | TermDesc | ScoreAsc | ScoreDesc deriving (Generic, Enum, Bounded, Read, Show) instance FromHttpApiData OrderBy where parseUrlPiece "TermAsc" = pure TermAsc parseUrlPiece "TermDesc" = pure TermDesc parseUrlPiece "ScoreAsc" = pure ScoreAsc parseUrlPiece "ScoreDesc" = pure ScoreDesc parseUrlPiece _ = Left "Unexpected value of OrderBy" instance ToParamSchema OrderBy instance FromJSON OrderBy instance ToJSON OrderBy instance ToSchema OrderBy instance Arbitrary OrderBy where arbitrary = elements [minBound..maxBound] needsScores :: Maybe OrderBy -> Bool needsScores (Just ScoreAsc) = True needsScores (Just ScoreDesc) = True needsScores _ = False type TableNgramsApiGet = Summary " Table Ngrams API Get" :> QueryParamR "ngramsType" TabType :> QueryParamR "list" ListId :> QueryParamR "limit" Limit :> QueryParam "offset" Offset :> QueryParam "listType" ListType :> QueryParam "minTermSize" MinSize :> QueryParam "maxTermSize" MaxSize :> QueryParam "orderBy" OrderBy :> QueryParam "search" Text :> Get '[JSON] (Versioned NgramsTable) type TableNgramsApiPut = Summary " Table Ngrams API Change" :> QueryParamR "ngramsType" TabType :> QueryParamR "list" ListId :> ReqBody '[JSON] (Versioned NgramsTablePatch) :> Put '[JSON] (Versioned NgramsTablePatch) type TableNgramsApiPost = Summary " Table Ngrams API Adds new ngrams" :> QueryParamR "ngramsType" TabType :> QueryParamR "list" ListId :> QueryParam "listType" ListType :> ReqBody '[JSON] [NgramsTerm] :> Post '[JSON] () type TableNgramsApi = TableNgramsApiGet :<|> TableNgramsApiPut :<|> TableNgramsApiPost getTableNgramsCorpus :: (RepoCmdM env err m, HasNodeError err, HasConnection env) => NodeId -> TabType -> ListId -> Limit -> Maybe Offset -> Maybe ListType -> Maybe MinSize -> Maybe MaxSize -> Maybe OrderBy -> Maybe Text -- full text search -> m (Versioned NgramsTable) getTableNgramsCorpus nId tabType listId limit_ offset listType minSize maxSize orderBy mt = getTableNgrams NodeCorpus nId tabType listId limit_ offset listType minSize maxSize orderBy searchQuery where searchQuery = maybe (const True) isInfixOf mt -- | Text search is deactivated for now for ngrams by doc only getTableNgramsDoc :: (RepoCmdM env err m, HasNodeError err, HasConnection env) => DocId -> TabType -> ListId -> Limit -> Maybe Offset -> Maybe ListType -> Maybe MinSize -> Maybe MaxSize -> Maybe OrderBy -> Maybe Text -- full text search -> m (Versioned NgramsTable) getTableNgramsDoc dId tabType listId limit_ offset listType minSize maxSize orderBy _mt = do ns <- selectNodesWithUsername NodeList userMaster let ngramsType = ngramsTypeFromTabType tabType ngs <- selectNgramsByDoc (ns <> [listId]) dId ngramsType let searchQuery = flip S.member (S.fromList ngs) getTableNgrams NodeDocument dId tabType listId limit_ offset listType minSize maxSize orderBy searchQuery apiNgramsTableCorpus :: ( RepoCmdM env err m , HasNodeError err , HasInvalidError err , HasConnection env ) => NodeId -> ServerT TableNgramsApi m apiNgramsTableCorpus cId = getTableNgramsCorpus cId :<|> tableNgramsPut :<|> tableNgramsPost apiNgramsTableDoc :: ( RepoCmdM env err m , HasNodeError err , HasInvalidError err , HasConnection env ) => DocId -> ServerT TableNgramsApi m apiNgramsTableDoc dId = getTableNgramsDoc dId :<|> tableNgramsPut :<|> tableNgramsPost -- > add new ngrams in database (TODO AD) -- > index all the corpus accordingly (TODO AD) listNgramsChangedSince :: RepoCmdM env err m => ListId -> NgramsType -> Version -> m (Versioned Bool) listNgramsChangedSince listId ngramsType version | version < 0 = Versioned <$> currentVersion <*> pure True | otherwise = tableNgramsPull listId ngramsType version & mapped . v_data %~ (== mempty)