{-| Module : Main.hs Description : Gargantext starter binary with Adaptative Phylo Copyright : (c) CNRS, 2017-Present License : AGPL + CECILL v3 Maintainer : team@gargantext.org Stability : experimental Portability : POSIX Adaptative Phylo binaries -} {-# LANGUAGE DataKinds #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE StandaloneDeriving #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE Strict #-} module Main where import Data.Aeson import Data.ByteString.Lazy (ByteString) import Data.Maybe (isJust, fromJust) import Data.List (concat, nub, isSuffixOf, take) import Data.String (String) import Data.Text (Text, unwords, unpack) import Gargantext.Prelude import Gargantext.Database.Types.Node (HyperdataDocument(..)) import Gargantext.Text.Context (TermList) import Gargantext.Text.Corpus.Parsers.CSV (csv_title, csv_abstract, csv_publication_year) import Gargantext.Text.Corpus.Parsers (FileFormat(..),parseFile) import Gargantext.Text.List.CSV (csvGraphTermList) import Gargantext.Text.Terms.WithList (Patterns, buildPatterns, extractTermsWithList) import Gargantext.Viz.AdaptativePhylo import Gargantext.Viz.Phylo.PhyloMaker (toPhylo) import Gargantext.Viz.Phylo.PhyloTools (printIOMsg, printIOComment) import Gargantext.Viz.Phylo.PhyloExport (toPhyloExport, dotToFile) -- import Gargantext.Viz.Phylo.SynchronicClustering (synchronicDistance') import GHC.IO (FilePath) import Prelude (Either(..)) import System.Environment import System.Directory (listDirectory) import Control.Concurrent.Async (mapConcurrently) import qualified Data.ByteString.Lazy as Lazy import qualified Data.Vector as Vector import qualified Gargantext.Text.Corpus.Parsers.CSV as Csv --------------- -- | Tools | -- --------------- -- | To get all the files in a directory or just a file getFilesFromPath :: FilePath -> IO([FilePath]) getFilesFromPath path = do if (isSuffixOf "/" path) then (listDirectory path) else return [path] -------------- -- | Json | -- -------------- -- | To read and decode a Json file readJson :: FilePath -> IO ByteString readJson path = Lazy.readFile path ---------------- -- | Parser | -- ---------------- -- | To filter the Ngrams of a document based on the termList filterTerms :: Patterns -> (a, Text) -> (a, [Text]) filterTerms patterns (y,d) = (y,termsInText patterns d) where -------------------------------------- termsInText :: Patterns -> Text -> [Text] termsInText pats txt = nub $ concat $ map (map unwords) $ extractTermsWithList pats txt -------------------------------------- -- | To transform a Wos file (or [file]) into a readable corpus wosToCorpus :: Int -> FilePath -> IO ([(Int,Text)]) wosToCorpus limit path = do files <- getFilesFromPath path take limit <$> map (\d -> let date' = fromJust $ _hyperdataDocument_publication_year d title = fromJust $ _hyperdataDocument_title d abstr = if (isJust $ _hyperdataDocument_abstract d) then fromJust $ _hyperdataDocument_abstract d else "" in (date', title <> " " <> abstr)) <$> concat <$> mapConcurrently (\file -> filter (\d -> (isJust $ _hyperdataDocument_publication_year d) && (isJust $ _hyperdataDocument_title d)) <$> parseFile WOS (path <> file) ) files -- | To transform a Csv file into a readable corpus csvToCorpus :: Int -> FilePath -> IO ([(Int,Text)]) csvToCorpus limit path = Vector.toList <$> Vector.take limit <$> Vector.map (\row -> (csv_publication_year row, (csv_title row) <> " " <> (csv_abstract row))) <$> snd <$> Csv.readFile path -- | To use the correct parser given a CorpusType fileToCorpus :: CorpusParser -> FilePath -> IO ([(Int,Text)]) fileToCorpus parser path = case parser of Wos limit -> wosToCorpus limit path Csv limit -> csvToCorpus limit path -- | To parse a file into a list of Document fileToDocs :: CorpusParser -> FilePath -> TermList -> IO [Document] fileToDocs parser path lst = do corpus <- fileToCorpus parser path let patterns = buildPatterns lst pure $ map ( (\(y,t) -> Document y t) . filterTerms patterns) corpus -------------- -- | Main | -- -------------- main :: IO () main = do printIOMsg "Starting the reconstruction" printIOMsg "Read the configuration file" [args] <- getArgs jsonArgs <- (eitherDecode <$> readJson args) :: IO (Either String Config) case jsonArgs of Left err -> putStrLn err Right config -> do printIOMsg "Parse the corpus" mapList <- csvGraphTermList (listPath config) corpus <- fileToDocs (corpusParser config) (corpusPath config) mapList printIOComment (show (length corpus) <> " parsed docs from the corpus") printIOMsg "Reconstruct the Phylo" let phylo = toPhylo corpus mapList config -- | probes -- writeFile ((outputPath config) <> (unpack $ phyloName config) <> "_synchronic_distance_cumu_jaccard.txt") -- $ synchronicDistance' phylo 1 -- writeFile ((outputPath config) <> (unpack $ phyloName config) <> "_inflexion_points.txt") -- $ inflexionPoints phylo 1 printIOMsg "End of reconstruction, start the export" let dot = toPhyloExport phylo printIOMsg "##########################" let output = (outputPath config) <> (unpack $ phyloName config) <> "_V2.dot" dotToFile output dot