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1 {-|
2 Module : Gargantext.Text
3 Description : Ngrams tools
4 Copyright : (c) CNRS, 2018
5 License : AGPL + CECILL v3
6 Maintainer : team@gargantext.org
7 Stability : experimental
8 Portability : POSIX
9
10 Text gathers terms in unit of contexts.
11
12 -}
13
14 {-# LANGUAGE NoImplicitPrelude #-}
15 {-# LANGUAGE OverloadedStrings #-}
16
17 module Gargantext.Text
18 where
19
20 import Data.Maybe
21 import qualified Data.Text as DT
22
23 import qualified Data.Set as S
24 import Data.Text (Text, split)
25
26 import NLP.FullStop (segment)
27 -----------------------------------------------------------------
28 import Gargantext.Core
29 import Gargantext.Core.Types
30 import Gargantext.Text.Metrics.Count (Occ, occurrences, cooc)
31 import Gargantext.Prelude hiding (filter)
32 -----------------------------------------------------------------
33
34 type Config = Lang -> Context
35
36 type Context = Text -> [Text]
37
38 data Viz = Graph | Phylo | Chart
39
40
41 -----------------------------------------------------------------
42 -------------------------------------------------------------------
43 -- Contexts of text
44 sentences :: Text -> [Text]
45 sentences txt = map DT.pack $ segment $ DT.unpack txt
46
47 sentences' :: Text -> [Text]
48 sentences' txt = split isStop txt
49
50 isStop :: Char -> Bool
51 isStop c = c `elem` ['.','?','!']
52
53 unsentences :: [Text] -> Text
54 unsentences txts = DT.intercalate " " txts
55
56 -- | https://en.wikipedia.org/wiki/Text_mining
57 testText_en :: Text
58 testText_en = DT.pack "Text mining, also referred to as text data mining, roughly equivalent to text analytics, is the process of deriving high-quality information from text. High-quality information is typically derived through the devising of patterns and trends through means such as statistical pattern learning. Text mining usually involves the process of structuring the input text (usually parsing, along with the addition of some derived linguistic features and the removal of others, and subsequent insertion into a database), deriving patterns within the structured data, and finally evaluation and interpretation of the output. 'High quality' in text mining usually refers to some combination of relevance, novelty, and interestingness. Typical text mining tasks include text categorization, text clustering, concept/entity extraction, production of granular taxonomies, sentiment analysis, document summarization, and entity relation modeling (i.e., learning relations between named entities). Text analysis involves information retrieval, lexical analysis to study word frequency distributions, pattern recognition, tagging/annotation, information extraction, data mining techniques including link and association analysis, visualization, and predictive analytics. The overarching goal is, essentially, to turn text into data for analysis, via application of natural language processing (NLP) and analytical methods. A typical application is to scan a set of documents written in a natural language and either model the document set for predictive classification purposes or populate a database or search index with the information extracted."
59
60 -- | https://fr.wikipedia.org/wiki/Fouille_de_textes
61 testText_fr :: Text
62 testText_fr = DT.pack "La fouille de textes ou « l'extraction de connaissances » dans les textes est une spécialisation de la fouille de données et fait partie du domaine de l'intelligence artificielle. Cette technique est souvent désignée sous l'anglicisme text mining. Elle désigne un ensemble de traitements informatiques consistant à extraire des connaissances selon un critère de nouveauté ou de similarité dans des textes produits par des humains pour des humains. Dans la pratique, cela revient à mettre en algorithme un modèle simplifié des théories linguistiques dans des systèmes informatiques d'apprentissage et de statistiques. Les disciplines impliquées sont donc la linguistique calculatoire, l'ingénierie des langues, l'apprentissage artificiel, les statistiques et l'informatique."
63
64 termTests :: Text
65 termTests = "It is hard to detect important articles in a specific context. Information retrieval techniques based on full text search can be inaccurate to identify main topics and they are not able to provide an indication about the importance of the article. Generating a citation network is a good way to find most popular articles but this approach is not context aware. The text around a citation mark is generally a good summary of the referred article. So citation context analysis presents an opportunity to use the wisdom of crowd for detecting important articles in a context sensitive way. In this work, we analyze citation contexts to rank articles properly for a given topic. The model proposed uses citation contexts in order to create a directed and edge-labeled citation network based on the target topic. Then we apply common ranking algorithms in order to find important articles in this newly created network. We showed that this method successfully detects a good subset of most prominent articles in a given topic. The biggest contribution of this approach is that we are able to identify important articles for a given search term even though these articles do not contain this search term. This technique can be used in other linked documents including web pages, legal documents, and patents as well as scientific papers."
66
67
68 -- | Ngrams Test
69 -- >>> ngramsTest testText
70 -- 248
71 --ngramsTest :: Text -> Int
72 --ngramsTest x = length ws
73 -- where
74 -- --txt = concat <$> lines <$> clean <$> readFile filePath
75 -- txt = clean x
76 -- -- | Number of sentences
77 -- --ls = sentences $ txt
78 -- -- | Number of monograms used in the full text
79 -- ws = ngrams $ txt
80 -- -- | stem ngrams
81 -- TODO
82 -- group ngrams
83 --ocs = occ $ ws
84