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[gargantext.git] / src / Gargantext / Core / Text / Terms.hs

{-|
Module      : Gargantext.Core.Text.Ngrams
Description : Ngrams definition and tools
Copyright   : (c) CNRS, 2017 - present
License     : AGPL + CECILL v3
Maintainer  : team@gargantext.org
Stability   : experimental
Portability : POSIX

An @n-gram@ is a contiguous sequence of n items from a given sample of
text. In Gargantext application the items are words, n is a non negative
integer.

Using Latin numerical prefixes, an n-gram of size 1 is referred to as a
"unigram"; size 2 is a "bigram" (or, less commonly, a "digram"); size
3 is a "trigram". English cardinal numbers are sometimes used, e.g.,
"four-gram", "five-gram", and so on.

Source: https://en.wikipedia.org/wiki/Ngrams

TODO
group Ngrams -> Tree
compute occ by node of Tree
group occs according groups

compute cooccurrences
compute graph

-}

{-# LANGUAGE TemplateHaskell   #-}
{-# LANGUAGE ConstrainedClassMethods #-}

module Gargantext.Core.Text.Terms
  where

import Control.Lens
import Data.HashMap.Strict (HashMap)
import Data.Hashable (Hashable)
import Data.Map (Map)
import Data.Text (Text)
import Data.Traversable
import GHC.Base (String)
import GHC.Generics (Generic)
import qualified Data.List           as List
import qualified Data.Set            as Set
import qualified Data.Text           as Text
import qualified Data.HashMap.Strict as HashMap
import Gargantext.Core
import Gargantext.Core.Text (sentences, HasText(..))
import Gargantext.Core.Text.Terms.Eleve (mainEleveWith, Tries, Token, buildTries, toToken)
import Gargantext.Core.Text.Terms.Mono  (monoTerms)
import Gargantext.Core.Text.Terms.Mono.Stem (stem)
import Gargantext.Core.Text.Terms.Mono.Token.En (tokenize)
import Gargantext.Core.Text.Terms.Multi (multiterms)
import Gargantext.Core.Types
import Gargantext.Database.Prelude (Cmd)
import Gargantext.Database.Query.Table.Ngrams (insertNgrams)
import Gargantext.Database.Query.Table.NgramsPostag (NgramsPostag(..), insertNgramsPostag, np_form, np_lem)
import Gargantext.Database.Schema.Ngrams (Ngrams(..), NgramsType(..), ngramsTerms, text2ngrams, NgramsId)
import Gargantext.Prelude

data TermType lang
  = Mono      { _tt_lang :: !lang }
  | Multi     { _tt_lang :: !lang }
  | MonoMulti { _tt_lang :: !lang }
  | Unsupervised { _tt_lang       :: !lang
                 , _tt_windowSize :: !Int
                 , _tt_ngramsSize :: !Int
                 , _tt_model      :: !(Maybe (Tries Token ()))
                 }
  deriving (Generic)

makeLenses ''TermType
--group :: [Text] -> [Text]
--group = undefined

-- remove Stop Words
-- map (filter (\t -> not . elem t)) $ 
------------------------------------------------------------------------
-- | Sugar to extract terms from text (hiddeng mapM from end user).
--extractTerms :: Traversable t => TermType Lang -> t Text -> IO (t [Terms])
extractTerms :: TermType Lang -> [Text] -> IO [[Terms]]

extractTerms (Unsupervised {..}) xs = mapM (terms (Unsupervised { _tt_model = Just m', .. })) xs
  where
    m' = case _tt_model of
      Just m''-> m''
      Nothing -> newTries _tt_windowSize (Text.intercalate " " xs)

extractTerms termTypeLang xs = mapM (terms termTypeLang) xs


------------------------------------------------------------------------
withLang :: (Foldable t, Functor t, HasText h)
         => TermType Lang
         -> t h
         -> TermType Lang
withLang (Unsupervised {..}) ns = Unsupervised { _tt_model = m', .. }
  where
    m' = case _tt_model of
      Nothing -> -- trace ("buildTries here" :: String)
               Just $ buildTries _tt_ngramsSize
                    $ fmap toToken
                    $ uniText
                    $ Text.intercalate " . "
                    $ List.concat
                    $ map hasText ns
      just_m -> just_m
withLang l _ = l

------------------------------------------------------------------------
data ExtractedNgrams = SimpleNgrams   { unSimpleNgrams   :: Ngrams       }
                     | EnrichedNgrams { unEnrichedNgrams :: NgramsPostag }
  deriving (Eq, Ord, Generic, Show)

instance Hashable ExtractedNgrams

class ExtractNgramsT h
  where
    extractNgramsT :: HasText h
                   => TermType Lang
                   -> h
                   -> Cmd err (HashMap ExtractedNgrams (Map NgramsType Int))
------------------------------------------------------------------------
enrichedTerms :: Lang -> PosTagAlgo -> POS -> Terms -> NgramsPostag
enrichedTerms l pa po (Terms ng1 ng2) =
  NgramsPostag l pa po form lem
    where
      form = text2ngrams $ Text.intercalate " " ng1
      lem  = text2ngrams $ Text.intercalate " " $ Set.toList ng2

------------------------------------------------------------------------
cleanNgrams :: Int -> Ngrams -> Ngrams
cleanNgrams s ng 
      | Text.length (ng ^. ngramsTerms) < s = ng
      | otherwise                           = text2ngrams (Text.take s (ng ^. ngramsTerms))

cleanExtractedNgrams :: Int -> ExtractedNgrams -> ExtractedNgrams
cleanExtractedNgrams s (SimpleNgrams   ng) = SimpleNgrams $ (cleanNgrams s) ng
cleanExtractedNgrams s (EnrichedNgrams ng) = EnrichedNgrams $ over np_form (cleanNgrams s)
                                                            $ over np_lem  (cleanNgrams s) ng

extracted2ngrams :: ExtractedNgrams -> Ngrams
extracted2ngrams (SimpleNgrams   ng) = ng
extracted2ngrams (EnrichedNgrams ng) = view np_form ng

---------------------------
insertExtractedNgrams :: [ ExtractedNgrams ] -> Cmd err (HashMap Text NgramsId)
insertExtractedNgrams ngs = do
  let (s, e) = List.partition isSimpleNgrams ngs
  m1 <- insertNgrams       (map unSimpleNgrams   s)
  --printDebug "others" m1
  
  m2 <- insertNgramsPostag (map unEnrichedNgrams e)
  --printDebug "terms" m2
 
  let result = HashMap.union m1 m2
  pure result

isSimpleNgrams :: ExtractedNgrams -> Bool
isSimpleNgrams (SimpleNgrams _) = True
isSimpleNgrams _                = False

------------------------------------------------------------------------
-- | Terms from Text
-- Mono : mono terms
-- Multi : multi terms
-- MonoMulti : mono and multi
-- TODO : multi terms should exclude mono (intersection is not empty yet)
terms :: TermType Lang -> Text -> IO [Terms]
terms (Mono      lang) txt = pure $ monoTerms lang txt
terms (Multi     lang) txt = multiterms lang txt
terms (MonoMulti lang) txt = terms (Multi lang) txt
terms (Unsupervised { .. }) txt = termsUnsupervised (Unsupervised { _tt_model = Just m', .. }) txt
  where
    m' = maybe (newTries _tt_ngramsSize txt) identity _tt_model
-- terms (WithList  list) txt = pure . concat $ extractTermsWithList list txt


------------------------------------------------------------------------
-- | Unsupervised ngrams extraction
-- language agnostic extraction
-- TODO: remove IO
-- TODO: newtype BlockText

type WindowSize = Int
type MinNgramSize = Int

termsUnsupervised :: TermType Lang -> Text -> IO [Terms]
termsUnsupervised (Unsupervised l n s m) =
               pure
             . map (text2term l)
             . List.nub
             . (List.filter (\l' -> List.length l' >= s))
             . List.concat
             . mainEleveWith (maybe (panic "no model") identity m) n
             . uniText
termsUnsupervised _ = undefined



newTries :: Int -> Text -> Tries Token ()
newTries n t = buildTries n (fmap toToken $ uniText t)

-- | TODO removing long terms > 24
uniText :: Text -> [[Text]]
uniText = map (List.filter (not . isPunctuation))
        . map tokenize
        . sentences       -- TODO get sentences according to lang
        . Text.toLower

text2term :: Lang -> [Text] -> Terms
text2term _ [] = Terms [] Set.empty
text2term lang txt = Terms txt (Set.fromList $ map (stem lang) txt)

isPunctuation :: Text -> Bool
isPunctuation x = List.elem x $  (Text.pack . pure)
                             <$> ("!?(),;.:" :: String)